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⭐FIGURA POSTA A SELEZIONE
FIGURA POSTA A SELEZIONE
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Fabia Fiore
1 BANDO DI SELEZIONE PUBBLICA, PER COLLOQUIO, PER L AFFIDAMENTO DI N. 1 INCARICO DI COLLABORAZIONE COORDINATA E CONTINUATIVA, AI SENSI DELL ART. 39 DUODECIES DELLA L. P. N. 23 DEL 19 LUGLIO 1990, RELATIVO AL PROGETTO EUROPEO NASSTEC, DA ASSEGNARE ALLA SEZIONE BOTANICA DEL MUSE CON MANSIONI DI ASSISTENTE DI PROGETTO PER TUTTA LA DURATA DELLO STESSO. FIGURA POSTA A SELEZIONE È indetta una selezione pubblica, per colloquio, per l affidamento di n. 1 incarico di collaborazione coordinata e continuativa, ai sensi dell art. 39 duodecies della L. P. n. 23 del 19 luglio 1990, relativo al progetto europeo NASSTEC (Marie Curie Initial Training Network - FP7), da assegnare alla sezione botanica del Muse con mansioni di assistente di progetto per tutta la durata dello stesso, salvo il raggiungimento dei limiti imposti dalla delibera della Giunta provinciale n del avente come oggetto: Nuovi criteri per il calcolo del periodo massimo di durata degli incarichi di cui agli articoli 39 sexies e 39 duodecies della legge provinciale 19 settembre 1990, n. 23. Il progetto NASSTEC - The NAtive Seed Science, TEchnology and Conservation Initial Training Network (Contract N. PITN-GA ) è stato approvato dall Unione Europea l 8 luglio 2013 e ha durata dall al Il progetto si colloca all interno del FP7 (Seventh Framework Programme for research and technological development of the European Union) tra le azioni Marie Curie e in particolare tra i Multi partners ITN (Initial Training Networks) riferimento al sito web dell Unione Europea: Segue l abstract del progetto: NASSTEC will train 11 Early Stage Researchers and 1 Experienced Researcher in native seed science, conservation and use, so that environmental mitigation and adaptation projects can have increased impact. Without immediate enhancement of capacity and capability in this specific area of biodiversity science, the native seed industry in Europe will fail to develop towards the multi-million dollar markets of the US and Australia. NASSTEC plans to interconnect the public and private sector through the establishment of a multidisciplinary European doctoral school with the aim of integrating knowledge in plant ecology, genetics, molecular biology, taxonomy, ecology, conservation, seed biology, environmental science, agricultural botany, crop science, breeding and horticulture. This knowledge will be transferred to industry, thereby contributing to the EU bio-economy. NASSTEC includes 7 full (FP) and 8 associated partners (AP) from 4 EU Member States. It interconnects 4 different sectors: private companies (3 FP and 2 AP), NGOs (2 AP), public land governance bodies and academic institutions (4 FP and 4 AP). The scientific and training programmes embrace 12 research topics, clustered under three sub programmes: A) In situ seed sampling; B) Seed biology characterisation; and C) Production and deployment of seed. Critically, the findings from the three subprogrammes will be interconnected, integrated and 12 communicated rapidly and effectively to the ESRs/ER and all external stakeholders through a global e-learning Environment (ELE). This ELE will be pivotal in delivering a balanced scheme of exchange visits and secondments, a rich programme of network events, news of network achievements and research information; including the findings of the final NASSTEC conference. NASSTEC will increase the competitiveness of ESRs/ER substantially and ensure that human capital is directed towards the development of a sustainable and dynamic European native seed industry. L Annex I del progetto che contiene la descrizione dettagliata delle attività progettuali è disponibile nell allegato I del presente bando. MANSIONARIO Le mansioni sono definite dal progetto NASSTEC riportato in allegato I. Questo bando si riferisce alla figura di assistente di progetto che dovrà curare i rapporti e facilitare le comunicazioni tra tutti i partner di NASSTEC, occuparsi degli aspetti organizzativi e gestionali di tutte le riunioni e attività di formazione congiunte quali annual meetings, summer schools, workshops, conferenza finale, ivi compresa la logistica, la redazione dei documenti preparatori e i relativi verbali conclusivi; curare lo sviluppo e aggiornare regolarmente il sito internet del progetto; gestire e animare i social media collegati al progetto; tenersi costantemente aggiornato sul progresso dei 12 progetti di ricerca previsti; richiedere e sollecitare le attività, i rapporti e le relazioni di tutoraggio condotte da ciascun partner di progetto e archiviarle; stimolare e documentare il programma di outreach previsto dal progetto; richiedere e sollecitare le milestones e deliverables previste dal progetto e archiviarne i report; contribuire alla preparazione delle relazioni intermedie e finali di progetto; curare i rapporti con i servizi amministrativi dei partner di progetto per richiedere e ottenere i trasferimenti delle rendicontazioni finanziare nei tempi previsti dal progetto; curare i rapporti e le relazioni con gli stakeholders nel contesto globale ma anche locale adoperandosi per facilitare la nascita di spin-off industriali come previsto dal progetto. Sarà possibile partecipare e contribuire alle ricerche sviluppate dai due dottorandi che avranno sede presso il muse e interagire con gli altri 10 dottorandi della rete. Per svolgere al meglio le mansioni sopra esposte è necessaria un ottima conoscenza scritta e parlata della lingua inglese, e viene richiesta la disponibilità ad effettuare viaggi conoscitivi e di supporto alle attività di progetto della durata di qualche giorno presso tutti i partner coinvolti, le cui spese saranno debitamente coperte dal progetto. AMBIENTE DI LAVORO L assegnatario dell incarico opererà presso la sede principale del MUSE, il nuovissimo Museo delle Scienze di Trento, progettato da Renzo Piano e realizzato presso il nuovo quartiere delle Albere. Il Museo comprende aree espositive, biblioteca, mediateca, uffici e laboratori per una superficie complessiva di oltre metri quadrati. La sezione botanica è posta al terzo piano, occupa oltre 200 metri quadri e comprende uno spazio ufficio e la Banca del Germoplasma del Trentino, costituita dal laboratorio di germinazione, dal laboratorio di trattamento semi, dalla camera di essiccazione e dalla camera di conservazione. Funzionali alle attività del progetto sono anche il laboratorio di preparazione dei campioni d erbario posto al primo piano, il deposito collezioni d erbario al piano interratto, la serra tropicale con i locali tecnici annessi. Tra le altre strutture esterne al museo sono utili al progetto anche la serra di propagazione e quarantena di 23 oltre 200 metri quadri presso il piazzale dello stadio Briamasco e i tre giardini botanici curati dal museo a Trento, sul monte Bondone e ad Arco sul lago di Garda (per ulteriori informazioni consultate il sito internet del MUSE Il museo si articola in 7 sezioni scientifiche (botanica, idrobiologia, zoologia, limnologia, biodiversità tropicale, geologia e preistoria) che conducono ricerche in ambito naturalistico con un piccolo team di ricercatori e tecnici di ricerca a tempo pieno. Per ulteriori informazioni consultate l ultimo MUSE Research Report scaricabile all indirizzo www2.muse.it/sezioni/documenti/2013/research_report_ _web.pdf. Un altra sezione è l area programmi del museo cura le attività educative e gli eventi per il pubblico. All assegnatario dell incarico sarà riservata una scrivania con postazione PC, potrà fare uso di tutti i laboratori e delle strutture sopra elencate interagendo positivamente con il team dei ricercatori. L assegnatario dovrà coordinare la propria attività con il dott. Costantino Bonomi, responsabile della sezione botanica e coordinatore del progetto NASSTEC, con l executive commette del progetto e con tutti i partners di progetto spostandosi presso le loro sedi quanto e come richiesto dalle attività di progetto, in un contesto stimolante di grande mobilità e proficuo scambio e condivisione di esperienze e attività multidisciplinari. PROSPETTIVE OCCUPAZIONALI Il progetto NASSTEC mette in collegamento lo staff che opera presso le 14 istituzioni che costituiscono la rete di formazione iniziale, e inserisce l assegnatario dell incarico in un ambiente internazionale, dinamico e multidisciplinare, esponendolo a ricerche e attività produttive svolte in diversi settori, accademico, pubblico e privato, in ambiti applicativi e produttivi. L assegnatario dell incarico avrà la possibilità di venire in contatto con la realtà, le tecnologie e le potenzialità per la produzione di sementi autoctone in Europa. Il confronto con i redditizi mercati australiani e americani offrirà spunti e idee per trasferire tecnologie e sperimentare modelli e tecniche produttive in Europa, stimolando lo sviluppo di un mercato locale Europeo dalle enormi potenzialità ancora poco o nulla sfruttate. Lo staff di NASSTEC, alla fine del percorso formativo offerto dalla rete si troverà in una posizione ideale per colmare una lacuna del tessuto produttivo Europeo, offrendo le professionalità acquisite durante il progetto a industrie sementiere esistenti che vogliano aprire una linea produttiva per le piante autoctone, ad enti e società di gestione e ripristino degli ambienti disturbati, ad enti e università interessate allo studio e alla sperimentazione delle attività di rinaturalizzazione. Lavorare a stretto contatto con 3 industrie sementiere darà contezza delle complessità e problematiche dei processi produttivi e dell esposizione ai mercati, stimolando le capacità imprenditoriali, facilitando l accesso ai fondi europei per le imprese con l ambizione di aprire nuove società di produzione di sementi autoctone. La descrizione sopra riportata anche se verosimile e ben documentata ha solo valore indicativo. Non vincola in alcun modo il MUSE ad instaurare un rapporto di lavoro alla fine dell incarico di collaborazione. L effettiva spendibilità sul mercato del lavoro del titolo conseguito dipenderà in gran parte dalle effettive capacità del singolo ricercatore e dal suo spirito imprenditoriale. PARI OPPORTUNITÀ Il museo aderisce al progetto Family Audit, promosso dalla Provincia Autonoma di Trento, volto a facilitare le condizioni lavorative per le famiglie promuovendo strumenti di flessibilità lavorativa e mettendo a disposizione strumenti anche finanziari per sostenere le 34 famiglie. L assegnatario dell incarico verrà regolarmente coinvolti nel processo di Family Audit, in maniera partecipativa, gli verrà richiesto di esprimere le proprie necessità e bisogni in ambito di organizzazione familiare, valutando congiuntamente quali benefici l ente può mettergli a disposizione compatibilmente con le attività svolte. In particolare i possibili benefici riguardano tra gli altri: Ambito A. Organizzazione del lavoro: 1) Orari: turnazioni, flessibilità, congedi parentali, pause, permessi, ecc.; 2) Processi di lavoro: distribuzione delle competenze, lavoro di team, sistemi di delega, orari delle riunioni, priorità, carichi di lavoro, pianificazione, ecc.; 3) Luoghi di lavoro: telelavoro, lavoro decentrato, mobilità al posto di lavoro, ecc. Ambito C. Comunicazione 6) Strumenti per informazione e comunicazione: strumenti, politiche e modalità di comunicazione interna ed esterna, responsabilità, competenze, ecc. Ambito D. Benefit e servizi 7) Contributi finanziari: sistemi premianti, assicurazioni, mutue, casse per prestazioni mediche, borse di studio ai figli, ecc. 8) Servizi alla famiglia: cure, mensa, assistenza ai figli nei periodi di chiusura delle scuole, uso di attrezzature aziendali, consulenza/mediazione, servizi di time-saving, sostegno della genitorialità, ecc. TRATTAMENTO ECONOMICO Il trattamento economico, è il seguente: - assegno mensile lordo di 2.600,00 per 12 mensilità all anno; - assegno per il nucleo familiare se ed in quanto dovuto; - eventuali ulteriori emolumenti previsti dalle vigenti disposizioni legislative o contrattuali; inoltre tutte le tutele, diritti e benefici previsti per i dipendenti a tempo determinato inseriti nel CCPL provinciale (Contratto Collettivo Provinciale di Lavoro comparto delle autonomie locali - area non dirigenziale): il museo integrerà quanto non riconosciuto dai contratti di collaborazione per equiparare le tutele del collaboratore a quelle del lavoratore dipendente, garantendo la richiesta dei programmi Marie Curie di fornire al lavoratore le maggiori tutele possibili. In particolare verranno garantite la copertura pensionistica con l iscrizione all INPS per la categoria parasubordinati, l assicurazione INAIL per gli infortuni e le malattie sul lavoro, la tutela della maternità, il congedo parentale sia materno che paterno, il trattamento di missione previsto per i lavoratori dipendenti, il buono pasto ad oggi del valore di 6 euro per giornata lavorativa di durata non inferiore alle 6 ore, i permessi retribuiti per matrimonio, lutto, donazione di sangue, donazione di midollo osseo, partecipazione a concorsi ed esami, testimonianze in tribunale, partecipazione alle operazioni di soccorso in pubbliche calamità, volontariato internazionale, servizio elettorale, gravi motivi personali, assistenza ai familiari di primo e secondo grado o conviventi. Sarà garantita la massima flessibilità di orario senza fasce obbligatorie da rispettare. AMMISSIONE ALLA SELEZIONE: REQUISITI RICHIESTI Per l ammissione alla selezione è richiesto il possesso dei seguenti requisiti: - età non inferiore agli anni 18 compiuti alla data di scadenza di presentazione delle domande di partecipazione alla selezione; - cittadinanza di un qualunque stato il cui governo è riconosciuto dal governo italiano e/o dall Unione Europea. 45 - idoneità fisica all impiego, rapportata alle mansioni lavorative richieste dalla figura professionale posta a selezione (non verranno comunque discriminati in alcun modo i portatori di handicap). All atto del conferimento dell incarico l amministrazione ha facoltà di sottoporre a visita medica collegiale di controllo il concorrente, il quale può farsi assistere da un medico di fiducia assumendosi la relativa spesa; - immunità da condanne che comportino l interdizione dai pubblici uffici perpetua o temporanea per il periodo dell interdizione; - non essere stati esclusi dall elettorato politico attivo, né essere stati destituiti, licenziati o dichiarati decaduti dall impiego per aver conseguito l assunzione mediante la produzione di documenti falsi o viziati da invalidità non sanabile oppure per lo svolgimento di attività incompatibile con il rapporto di lavoro alle dipendenze della pubblica amministrazione; - di essere disponibile a raggiungere qualsiasi sede dislocata sul territorio provinciale; - patente di guida per autoveicoli di categoria B; - essere in possesso di un diploma di laurea di durata almeno triennale (BSc. Bachelor of Science) in ambito disciplinare naturalistico / forestale / agronomico / ecologico; - per i cittadini soggetti all'obbligo di leva: aver assolto tale obbligo o essere stati congedati dall autorità competente. Non possono ricevere l incarico di collaborazione coloro che negli ultimi 5 anni precedenti al conferimento dell incarico siano stati destituiti o licenziati da una pubblica amministrazione per giustificato motivo soggettivo o per giusta causa o siano incorsi nella risoluzione del rapporto di lavoro in applicazione dell articolo 32 quinques, del codice penale o per mancato superamento del periodo di prova nella medesima categoria e livello a cui si riferisce l assunzione. L Amministrazione del Museo delle Scienze si riserva di provvedere all accertamento dei suddetti requisiti e può disporre in ogni momento, con determinazione motivata del Dirigente, l esclusione dalla selezione dei concorrenti in difetto dei requisiti prescritti. L'esclusione verrà comunicata all'interessato. Per eventuali informazioni rivolgersi all'ufficio Affari generali del Museo delle Scienze di Trento, Corso del Lavoro e della Scienza n. 3, Trento (Paolo Previde Massara, tel. 0461/270346). Il Responsabile del procedimento è individuato nel dott. Costantino Bonomi, dipendente del Museo delle Scienze, responsabile della sezione botanica e coordinatore del progetto NASSTEC (tel ). AMMISSIONE ALLA SELEZIONE: REQUISITI PREFERENZIALI - Ottima conoscenza scritta e parlata della lingua inglese; - Conoscenza basilare dell italiano; - Conoscenza di un altra lingua straniera oltre alla propria lingua madre e all inglese; - Laurea magistrale, Master of Science, specializzazioni, dottorato in area disciplinare attinente; - Votazione/i conseguite/i nel/i titolo/i di studio conseguito/i; - Esperienza nella gestione e organizzazione di progetti europei; 56 - Background di conoscenze botaniche, di ecologia vegetale, sistematica, fisiologia della germinazione, produzione sementi; - Passione per le piante e la conservazione della natura; - Personalità dinamica, propositiva, intraprendente, capace di lavorare su più progetti contemporaneamente, rispettando le scadenze; - Capacità di lavorare sia in gruppo che indipendentemente; - Capacità di sviluppare e consolidare relazioni internazionali negli ambiti disciplinari messi a concorso; - Disponibilità a lavorare in trasferta presso le sedi dei partner di progetto. Questi aspetti verranno valutati sulla base del curriculum in caso di preselezione come descritto nella seguente sezione Preselezione sulla base dei titoli e in ogni caso durante il colloquio selettivo. AUTOCERTIFICAZIONI Dal 1 gennaio 2012, secondo quanto disposto dalla Legge 12 novembre 2011, n. 183 non è possibile richiedere ed accettare certificati rilasciati da Pubbliche amministrazioni che restano utilizzabili solo nei rapporti tra privati; detti documenti devono essere sostituiti dall acquisizione d ufficio delle informazioni necessarie, previa indicazione da parte dell interessato degli elementi indispensabili per il reperimento delle stesse o dalle dichiarazioni di cui agli artt. 46 e 47 del DPR 445/2000. Con la presentazione della domanda di partecipazione alla procedura, nelle forme di cui al DPR 445/2000, il candidato assume la responsabilità della veridicità di tutte le informazioni fornite, nella domanda e negli eventuali documenti allegati, nonché della conformità all originale delle copie degli eventuali documenti prodotti. MODALITA PER LA PRESENTAZIONE DELLA DOMANDA Per essere ammessi alla selezione gli aspiranti dovranno far pervenire all'ufficio Affari generali del Museo delle Scienze di Trento, Corso del Lavoro e della Scienza n. 3, Trento entro le ore del giorno 7 aprile 2014 apposita domanda che dovrà essere redatta su carta semplice, seguendo il fac-simile allegato al presente bando (allegato II), corredata del proprio CV secondo il facsimile allegato (allegato III) e fino ad un massimo di 3 lettere di referenze. I fac-simile sono disponibili sul sito Internet del museo alla voce partecipa - collabora con noi - selezioni - Nasstec oppure sul sito dedicato inglese Ogni altro documento non verrà considerato. Le domande devono pervenire al museo entro la data di scadenza del bando, pena la non validità della domanda. Anche in caso di invio a mezzo posta la domanda dovrà comunque pervenire al Museo entro le ore del giorno della scadenza del bando e quindi NON farà fede il timbro dell ufficio postale accettante. La data di acquisizione delle istanze sarà stabilita e comprovata dalla data indicata nella ricevuta sottoscritta dal personale di questa Amministrazione addetto al ricevimento o dal timbro a data apposto a cura del protocollo del Museo delle Scienze. La domanda potrà anche essere inviata via fax (al numero 0461/270322). Tuttavia, al fine di agevolare le operazioni di controllo da parte dell Amministrazione, si prega di inoltrare 67 la domanda via fax all Ufficio Affari generali, entro il giorno antecedente la data di scadenza per la presentazione delle domande. Il candidato avrà cura di conservare la ricevuta attestante il ricevimento da parte dell'amministrazione della domanda di partecipazione o la ricevuta del fax da cui risulti che lo stesso è stato inviato nei tempi sopra indicati. E ammesso l invio tramite posta elettronica all indirizzo specificando nell oggetto Domanda per la partecipazione a selezione NASSTEC. (farà fede esclusivamente la data dell di conferma della ricevuta della domanda, solitamente inviata entro 1 giorno lavorativo). Gli allegati dovranno essere solamente in formato PDF compatibile dalla versione 5.0 e superiori. Visti i possibili ritardi e la non totale affidabilità della posta elettronica e fax si raccomanda di inviare tutta la documentazione con un adeguato anticipo, che consenta il ricevimento della conferma di presentazione della domanda prima della data di scadenza del bando (solitamente inviata entro 1 giorno lavorativo dal ricevimento della domanda). Nella domanda, redatta in carta semplice, l'aspirante dovrà dichiarare, sotto la propria personale responsabilità, ai sensi degli articoli 46 e 47 del D.P.R. n. 445 del 28 dicembre 2000 e consapevole della decadenza dagli eventuali benefici ottenuti e delle sanzioni penali previste rispettivamente dagli articoli 75 e 76 del citato decreto, per le ipotesi di dichiarazioni non veritiere, di formazione o uso di atti falsi: - le complete generalità (nome, cognome, data e luogo di nascita, il codice fiscale; le coniugate dovranno indicare il cognome da nubili); - di essere di età non inferiore agli anni 18; - il possesso della cittadinanza di uno stato il cui governo è riconosciuto dal governo italiano e/o dall Unione Europea. - l idoneità fisica all impiego rapportata alle mansioni lavorative richieste dalla figura professionale a cui si partecipa (non verranno comunque discriminati in alcun modo i portatori di handicap); - le eventuali condanne penali o le applicazioni della pena su richiesta di parte (patteggiamento), oppure di non aver riportato condanne penali e di non essere stato destinatario di provvedimenti che riguardano l applicazione di misure di sicurezza e di misure di prevenzione, di decisioni civili e di provvedimenti amministrativi iscritti nel casellario giudiziale ai sensi della vigente normativa (comprese quelle con il beneficio della non menzione) e di essere a conoscenza o meno di avere procedimenti penali pendenti; - il comune di iscrizione nelle liste elettorali, ovvero i motivi della non iscrizione o della cancellazione dalle liste elettorali medesime; - di non essere stato destituito, licenziato o dichiarato decaduto dall impiego presso pubbliche amministrazioni per aver conseguito l'assunzione mediante la produzione di documenti falsi o viziati da invalidità non sanabile oppure per lo svolgimento di attività incompatibile con il rapporto di lavoro con una pubblica amministrazione; - di essere consapevole del fatto che, con riferimento agli ultimi 5 anni precedenti all eventuale assunzione, l essere stati destituiti o licenziati da una pubblica amministrazione per giustificato motivo soggettivo o per giusta causa o l essere 78 incorsi nella risoluzione del rapporto di lavoro in applicazione dell articolo 32 quinques, del codice penale o per mancato superamento del periodo di prova nella medesima categoria e livello a cui si riferisce l assunzione, comporta l impossibilità a ricevere l incarico di collaborazione; - per i cittadini soggetti all'obbligo di leva: essere in posizione regolare nei confronti di tale obbligo; - l eventuale possesso di titoli di preferenza, a parità di valutazione, di cui all allegato A) al presente bando (la mancata dichiarazione al riguardo sarà equiparata alla manifestazione di volontà nel non volerne beneficiare e pertanto tali titoli non verranno valutati); - il diploma di laurea posseduto e la votazione conseguita (la mancata dichiarazione al riguardo sarà equiparata ad assenza di titolo di studio richiesto per l accesso e perciò comporterà l esclusione) nonché il numero e la dicitura della classe di laurea universitaria o classe di laurea specialistica o magistrale di appartenenza specificando l università, la data di rilascio, la durata legale del corso di laurea e il punteggio conseguito. - eventuali altri titoli di studio e/o abilitazione professionale in ambito disciplinare attinente, precisando il titolo completo, l università emittente, la data di rilascio, la durata legale del corso e il punteggio conseguito. - il proprio curriculum vitae e studiorum reso nella forma di dichiarazione sostitutiva di atto notorio secondo l allegato (Allegato III) che riporti il livello di conoscenza dell inglese e l esperienza di lavoro nei progetti europei; - una fotocopia fronte e retro di un documento di identità in corso di validità; - fino ad un massimo di 3 lettere di referenze redatte dal proprio responsabile lavorativo / scientifico / universitario con una relazione sulle abilità e attitudini relative alle esperienze di studio e/o lavoro condotte negli ultimi tre anni, calcolati alla data di scadenza del bando; - il comune di residenza, l esatto indirizzo (comprensivo del CAP), l eventuale diverso recapito presso il quale devono essere inviate tutte le comunicazioni relative alla selezione, i recapiti telefonici e l indirizzo di posta elettronica; - godimento dei diritti civili e politici anche negli Stati di appartenenza o di provenienza, ovvero i motivi del mancato godimento. LA DOMANDA DOVRÀ ESSERE FIRMATA DAL CONCORRENTE A PENA DI ESCLUSIONE Nel caso in cui dalle dichiarazioni emergano incongruenze, dubbi od incertezze, l Amministrazione si riserva di chiedere chiarimenti e documenti da produrre entro il termine perentorio indicato dall Amministrazione stessa. Tutti i requisiti ed i titoli prescritti devono essere posseduti alla data di scadenza del termine per la presentazione delle domande di partecipazione alla selezione. I candidati sono tenuti, in ogni caso, a comunicare, tempestivamente, al Museo qualsiasi variazione dei dati dichiarati nella domanda di partecipazione alla selezione. Ai sensi dell'art. 13 del decreto legislativo 30 giugno 2003 n. 196 recante disposizioni in merito al codice di protezione dei dati personali, i dati forniti dai candidati tramite l'istanza formeranno oggetto di trattamento nel rispetto della normativa suddetta e degli obblighi 89 di riservatezza, per provvedere agli adempimenti connessi all'attività concorsuale, così come illustrato nella nota informativa di cui all allegato B. Il presente bando è emanato nel rispetto delle pari opportunità tra uomini e donne per l accesso al lavoro, ai sensi del D.Lgs. 11 aprile 2006, n. 198 Codice delle pari opportunità tra uomo e donna, a norma dell'articolo 6 della L. 28 novembre 2005, n Il presente bando è conforme al Codice di Condotta per l assunzione dei ricercatori dell Unione Europea. Alla domanda dovrà essere allegata la fotocopia semplice di un documento d identità (fronte e retro) in corso di validità. L'Amministrazione del museo non assume responsabilità per la dispersione di comunicazioni dipendente da inesatta indicazione del recapito da parte del candidato oppure da una mancata o tardiva comunicazione del cambiamento dell'indirizzo indicato nella domanda, né per eventuali disguidi postali, telegrafici, via fax o comunque imputabili a fatto di terzi, a caso fortuito o forza maggiore. Ai fini dei requisiti richiesti per l accesso, il candidato dovrà presentare i documenti alternativamente, in uno dei seguenti modi: - in originale o in copia autenticata, ai sensi del D.P.R. n. 445 del 28 dicembre 2000; - in copia semplice. In tal caso il candidato dovrà accompagnare la copia semplice con una propria dichiarazione sostitutiva dell atto di notorietà, ai sensi dell art. 47 del precitato D.P.R. n. 445/2000, secondo lo schema di cui al fac simile di domanda, debitamente sottoscritta, attestante la conformità all originale della copia del documento; - in sostituzione della documentazione, il candidato potrà produrre una dichiarazione sostitutiva di certificazione e/o sostitutiva dell atto di notorietà, secondo lo schema di cui al fac simile di domanda, debitamente sottoscritta, attestante il possesso dei requisiti e titoli medesimi. Tali dichiarazioni sostitutive dovranno essere redatte in modo analitico, pena la loro non valutazione, indicando tutti gli elementi ed i dati del certificato sostituito. L Amministrazione effettuerà dei controlli, anche a campione, sulle dichiarazioni sostitutive di cui sopra; sanzioni penali sono previste dall art. 76 del D.P.R. n. 445/2000 per le ipotesi di formazione o uso di atti falsi e di dichiarazioni mendaci. PRESELEZIONE SULLA BASE DEI TITOLI In caso di ricevimento di un numero di domande superiore a 15, il museo si riserva il diritto di procedere ad effettuare una preselezione sulla base dei titoli di servizio, di cultura e di conoscenza dell inglese. I titoli vengono valutati in trentesimi. La preselezione richiede un punteggio minimo di 5/30 e ammette un massimo di 10 candidati alla prova orale. In caso di parità di merito, si applicano le preferenze previste dalla normativa vigente. Il punteggio della preselezione non verrà cumulato al punteggio della prova orale, che sarà il solo valido per determinare il punteggio finale della selezione. 910 A. TITOLI DI SERVIZIO (10 punti) A.1. Anzianità di servizio. a) attività professionale svolta con rapporto di lavoro, stabile o temporaneo, a tempo pieno o tempo parziale, presso datori di lavoro pubblici e privati con funzioni corrispondenti o equiparabili a qualifiche pari o superiori al posto messo a concorso; b) le frazioni di anno sono valutabili in ragione mensile, considerando come mese intero i periodi continuativi di trenta giorni o frazioni uguali o superiori a quindici giorni; c) l'attività prestata con rapporto di lavoro part-time è valutabile con punteggio proporzionalmente ridotto in ragione della riduzione dell'orario. Verranno assegnati 3 punti per ogni anno equivalente di servizio con funzioni corrispondenti o equiparabili a qualifiche pari o superiori al posto messo a concorso B. TITOLI DI CULTURA (10 punti) B.1. Titolo di studio richiesto: valutabile in relazione al voto finale (fino ad un massimo di 2 punti) B.2. Titoli di studio di grado superiore a quello richiesto in ambiti disciplinari attinenti, valutabile in relazione al voto finale (fino ad un massimo di 3 punti). B.3. Abilitazioni all'esercizio della professione nonché eventuali altre abilitazioni previste dalla normativa statale, regionale e provinciale in ambiti disciplinari attinenti a quelli richiesti per l accesso al concorso, valutabili in relazione al voto finale (fino ad un massimo di 2 punti). B.4. Titoli di specializzazione post laurea e il dottorato di ricerca in ambiti disciplinari attinenti quelli richiesti per l accesso al concorso, valutabili in relazione al voto finale (fino ad un massimo di 3 punti). C. TITOLI VARI (10 punti) Buona conoscenza della lingua inglese, comprovata dal conseguimento di titoli di studio in paesi anglofoni o in università anglofone, dalla cittadinanza attiva di un paese anglofono, da certificati di conoscenza dell inglese per stranieri ottenuti in seguito a esami riconosciuti a livello internazionale per l immatricolazione nelle università britanniche, esperienze di lavoro e/o studio all estero in paesi anglofoni per periodi cumulativi superiori ai 6 mesi. Verranno assegnati 3 punti per ogni anno equivalente di esperienza estera. Verranno assegnati 3 punti per titoli che danno diritto all immatricolazione nelle università britanniche quali IELTS con votazione maggiore di 7, Certificate of Proficency in English emessi da UOCLES (University of Cambridge Local Examination Syndacate) ed equivalenti. Verranno assegnati fino a 4 punti per titoli che provano la conoscenza di altre lingue straniere oltre all inglese con la sola esclusione della propria lingua madre, e altre esperienze lavorative e formative quali insegnamento, tutoraggio, lavoro in equipe, trasferimento tecnologico, gestione di progetti di ricerca e di attività di innovazione, educazione e divulgazione. PROGRAMMA D ESAME L esame consiste in una prova orale che si terrà in lingua inglese e verterà sui seguenti argomenti e si intenderà superata se il candidato avrà riportato una votazione di almeno 18/30: Ecologia vegetale e sistematica delle tracheofite; 1011 Conservazione biologica applicata alla flora; Biologia ed ecologia dei semi: morfologia, fisiologia, germinazione, dormienza; Tecniche di raccolta semi e conservazione in banca del germoplasma; Tecniche di rinaturalizzazione degli ambienti degradati; Botanica agraria, miglioramento genetico, orticoltura; Produzione industriale, semina e insediamento di sementi di flora autoctona; Genetica e biologia molecolare applicate alla conservazione delle piante; Strategie di finanziamento per la ricerca naturalistica e la conservazione della natura; Gestione e funzionamento di progetti europei con particolare riferimento al 7 programma quadro per la ricerca e l innovazione e alle azioni Marie Curie; strumenti divulgazione della scienza e mediazione culturale, con particolare riferimento all IBSE; promozione dei progetti di ricerca e innovazione europei presso la società civile. La prova orale si svolgerà in un aula aperta al pubblico. Al termine di ogni seduta dedicata alla prova orale, la commissione giudicatrice formerà l elenco dei candidati esaminati, con l indicazione del voto da ciascuno riportato che sarà affisso nella sede d esame. La prova orale avrà luogo a partire dal 22 aprile La data precisa, il luogo, l elenco dei candidati ammessi e l ora di effettuazione della prova orale sarà comunicata unicamente attraverso la pagina dedicata del sito web del Museo delle Scienze entro il 14 aprile 2014 COMMISSIONE ESAMINATRICE La Commissione esaminatrice è costituita come segue: PRESIDENTE COMMISSARI ESPERTI: - Dr. Mariano ANDERLE, incaricato speciale del Dipartimento della Conoscenza della Provincia Autonoma di Trento, per la Promozione del Sistema Trentino dell'alta Formazione e Ricerca e supporto al Comitato Tecnico Scientifico; - dott.ssa Fiona GUEST, esperta in biologia dei semi e produzione industriale, vice titolare della ditta produttrice di sementi autoctone SCOTIA SEEDS, e vice coordinatore del progetto NASSTEC (sostituito in caso di impedimento dal titolare di SCOTIA SEEDS, dott. Giles LAVERACK); - dott. Costantino BONOMI, dipendente del museo e funzionario indirizzo conservatore di area botanica, coordinatore del progetto NASSTEC (sostituito in caso di impedimento dalla dott.ssa Denise Eccher, dipendente del museo e funzionario amministrativo), anche con funzioni di segretario. COMPILAZIONE DELLA GRADUATORIA DELLA SELEZIONE E INIZIO INCARICO Alla valutazione delle prove provvederà la Commissione esaminatrice che formerà, in base all esito delle prove, la graduatoria di merito secondo l'ordine del punteggio complessivo conseguito dai candidati idonei. 1112 A norma dell art. 40 della legge provinciale 3 aprile 1997, n. 7 e dell articolo 25 del D.P.P. n /Leg. di data 12 ottobre 2007, il Consiglio di Amministrazione del Museo procederà all approvazione dell'operato della Commissione esaminatrice e della graduatoria di merito, osservate le eventuali preferenze di legge di cui all allegato A) del presente bando di selezione dichiarate nella domanda di partecipazione. Saranno poi adottate, con determinazione del Direttore del Museo, le disposizioni relative al conferimento dell incarico mediante sottoscrizione del contratto di collaborazione, secondo la normativa vigente. L incarico avrà inizio presumibilmente il 2 maggio 2014; il collaboratore dovrà comunque assumere l incarico entro 15 giorni dal ricevimento di apposito avviso di inizio collaborazione, se l avviso pervenisse a meno di quindici giorni dalla data di inizio incarico. In casi di documentata difficoltà a prendere servizio nei tempi prescritti causa lontananza o altre comprovate circostanze particolari il museo si riserva di concordare con il collaboratore un altra data differita di avvio incarico. In ogni caso trascorso il termine concordato senza che il collaboratore prenda servizio, il Museo procederà ad affidare l incarico al candidato idoneo che segue in graduatoria. La graduatoria finale di merito sarà pubblicata all Albo del Museo delle Scienze di Corso del Lavoro e della Scienza n. 3 e sul sito Internet del museo alla voce partecipa - collabora con noi - selezioni - Nasstec oppure sul sito dedicato inglese Dalla data di pubblicazione di detto avviso all albo ufficiale di Corso del Lavoro e della Scienza n. 3 decorrerà il termine per eventuali impugnative. La graduatoria avrà validità per un periodo di tre anni successivi alla data di approvazione. PERIODO DI PROVA Il candidato vincitore all atto della presa di servizio è soggetto ad un periodo di prova di 90 giorni, durante il quale ciascuna delle parti può recedere dal contratto senza obbligo di preavviso o di indennità sostitutiva. Il motivato parere negativo sul periodo di prova, espresso entro il 90 giorno, costituisce valido motivo di recesso del Museo dal contratto. Ai fini del compimento del suddetto periodo di prova si tiene conto del solo servizio effettivamente prestato. Il periodo di prova è sospeso in caso di assenza per malattia o infortunio e in caso di maternità. INTERRUZIONE DEL CONTRATTO Superato il periodo di prova entrambe le parti hanno facoltà di interrompere il contratto dandone un preavviso minimo di 4 mesi, in caso di recesso senza preavviso l assegnatario dell incarico sarà tenuto a corrispondere le ultime quatto mensilità se già percepite o le frazioni di esse percepite, calcolate alla data di interruzione del contratto. PRESENTAZIONE DEI DOCUMENTI Ove siano trascorsi più di sei mesi dalla data di presentazione della domanda di partecipazione alla selezione, l assegnatario dell incarico dovrà presentare, a propria scelta, entro 30 giorni dalla data di ricevimento di apposito invito, a pena di decadenza e salvo giustificato motivo, o l autocertificazione in carta semplice, o la documentazione, in carta semplice, in originale o in copia autenticata, relativamente al possesso, anche alla 1213 data di scadenza del termine per la presentazione delle domande di partecipazione alla selezione, dei seguenti requisiti prescritti dal bando di selezione: - cittadinanza; - godimento dei diritti politici; - posizione in ordine agli obblighi di leva; - assenza di condanne penali interdicenti la nomina. Dovrà altresì dichiarare, con riferimento ai 5 anni precedenti al conferimento dell incarico, di non essere stato destituito o licenziato da una pubblica amministrazione per giustificato motivo soggettivo o per giusta causa, di non essere incorso nella risoluzione del rapporto di lavoro in applicazione dell articolo 32 quinques, del codice penale o per mancato superamento del periodo di prova nella medesima categoria e livello a cui si riferisce l incarico di lavoro. Il Museo ha la facoltà di sottoporre l assegnatario dell incarico a visita medica collegiale di controllo, al fine di attestare l idoneità fisica al servizio continuativo ed incondizionato all'impiego e l esenzione da imperfezioni che possono influire sul rendimento (non verranno comunque discriminati in alcun modo i portatori di handicap). Alla visita medica verranno sottoposti anche gli appartenenti alle categorie di cui alla legge n. 68/1999, i quali devono non aver perduto ogni capacità lavorativa e, per la natura ed il grado della loro invalidità, non devono essere di danno alla salute ed alla incolumità dei compagni di lavoro ed alla sicurezza degli impianti. Il Museo delle Scienze procederà, ai sensi dell'articolo 71 del D.P.R. n. 445 del 28 dicembre 2000, ad idonei controlli, anche a campione, sulla veridicità delle dichiarazioni sostitutive contenute nella domanda di partecipazione relative sia ai requisiti per l accesso che alla valutazione dei titoli; sanzioni penali sono previste dall art. 76 del D.P.R. n. 445/2000 per le ipotesi di formazione o uso di atti falsi e di dichiarazioni mendaci. Qualora dal controllo emerga la non veridicità del contenuto delle dichiarazioni, il candidato, oltre a rispondere ai sensi dell'art. 76 del citato decreto, decade dai benefici eventualmente conseguenti al provvedimento emanato sulla base della dichiarazione non veritiera. I candidati che renderanno dichiarazioni non rispondenti a verità, relative al possesso dei requisiti fondamentali per la partecipazione alla selezione, verranno cancellati dalla graduatoria e il rapporto di lavoro, ove già instaurato, verrà risolto. Trento, lì 3 marzo 2014 IL PRESIDENTE Prof. Marco Andreatta 1314 Allegato A) TITOLI CHE DANNO DIRITTO ALLA PREFERENZA A PARITA' DI MERITO (art. 5, comma 4 del D.P.R. 9 maggio 1994, n. 487 e successive modificazioni ed integrazioni, art.25 del D.P.P. n /Leg. di data 12 ottobre 2007 e s.m, art. 49, c. 5 della L.P. 3 aprile 1997, n. 7). 1) GLI INSIGNITI DI MEDAGLIA AL VALOR MILITARE 2) I MUTILATI ED INVALIDI DI GUERRA EX COMBATTENTI 3) I MUTILATI ED INVALIDI PER FATTO DI GUERRA 4) I MUTILATI ED INVALIDI PER SERVIZIO NEL SETTORE PUBBLICO E PRIVATO 5) GLI ORFANI DI GUERRA 6) GLI ORFANI DEI CADUTI PER FATTO DI GUERRA 7) GLI ORFANI DEI CADUTI PER SERVIZIO NEL SETTORE PUBBLICO E PRIVATO 8) I FERITI IN COMBATTIMENTO 9) GLI INSIGNITI DI CROCE DI GUERRA O DI ALTRA ATTESTAZIONE SPECIALE DI MERITO DI GUERRA NONCHÉ I CAPI DI FAMIGLIA NUMEROSA 10) I FIGLI DEI MUTILATI E DEGLI INVALIDI DI GUERRA EX COMBATTENTI 11) I FIGLI DEI MUTILATI E DEGLI INVALIDI PER FATTO DI GUERRA 12) I FIGLI DEI MUTILATI E DEGLI INVALIDI PER SERVIZIO NEL SETTORE PUBBLICO E PRIVATO 13) I GENITORI VEDOVI NON RISPOSATI, I CONIUGI NON RISPOSATI E LE SORELLE ED I FRATELLI VEDOVI O NON SPOSATI DEI CADUTI IN GUERRA 14) I GENITORI VEDOVI NON RISPOSATI, I CONIUGI NON RISPOSATI E LE SORELLE ED I FRATELLI VEDOVI O NON SPOSATI DEI CADUTI PER FATTO DI GUERRA 15) I GENITORI VEDOVI NON RISPOSATI, I CONIUGI NON RISPOSATI E LE SORELLE ED I FRATELLI VEDOVI O NON SPOSATI DEI CADUTI PER SERVIZIO NEL SETTORE PUBBLICO E PRIVATO 16) COLORO CHE ABBIANO PRESTATO SERVIZIO MILITARE COME COMBATTENTI 1415 17) COLORO CHE ABBIANO PRESTATO SERVIZIO A QUALUNQUE TITOLO (in qualità di lavoratore dipendente) PER NON MENO DI UN ANNO, NELL'AMMINISTRAZIONE PROVINCIALE 18) I CONIUGATI E I NON CONIUGATI CON RIGUARDO AL NUMERO DEI FIGLI FISCALMENTE A CARICO (indicare il n. dei figli fiscalmente a carico desumibili dall ultima dichiarazione dei redditi) 19) GLI INVALIDI ED I MUTILATI CIVILI - certificato rilasciato dalla Commissione sanitaria regionale o provinciale attestante causa o grado di invalidità. 20) I MILITARI VOLONTARI DELLE FORZE ARMATE CONGEDATI SENZA DEMERITO AL TERMINE DELLA FERMA O RAFFERMA In caso di permanenza di parità di merito e di titoli, la preferenza è data dal genere (maschile o femminile) meno rappresentato nella figura professionale oggetto del concorso, alla data di scadenza dei termini per la presentazione delle domande di partecipazione allo stesso. A parità di genere, la preferenza è determinata nell ordine: a) dal numero di figli fiscalmente a carico, indipendentemente dal fatto che il candidato sia coniugato o meno; b) dall'aver prestato servizio in Provincia o in altre amministrazioni pubbliche in qualità di lavoratore dipendente (indicare l Amministrazione presso la quale è stato prestato il servizio); c) dal più giovane di età; d) dal maggior punteggio o valutazione conseguiti per il rilascio del titolo di studio richiesto per l accesso. Ai sensi della L. n. 407/1998, sono equiparati alle famiglie dei caduti civili di guerra, le famiglie dei caduti a causa di atti di terrorismo consumati in Italia. Tutti i titoli che danno diritto alla preferenza a parità di merito, tranne quelli di cui al punto 19), dovranno essere autocertificati ai sensi degli artt. 46 e 47 del DPR 445/16 Allegato B) MUSEO DELLE SCIENZE TRATTAMENTO DEI DATI PERSONALI IN CONFORMITÁ ALL ART 13 DEL DECRETO LEGISLATIVO N. 196/2003 I dati personali forniti dai candidati nella domanda di ammissione saranno raccolti in archivi anche informatici presso la sede del Museo delle Scienze di Trento in Corso del Lavoro e della Scienza, Trento, da personale individuato in base alla normativa vigente, per la finalità di gestione della procedura concorsuale ed eventualmente ai fini dell instaurazione e della gestione del rapporto di lavoro. Il conferimento di tali dati è obbligatorio ai fini della valutazione dei requisiti di partecipazione ed il mancato conferimento provocherà l esclusione dalla procedura concorsuale. Le medesime informazioni potranno essere comunicate unicamente alle amministrazioni pubbliche direttamente interessate allo svolgimento della procedura concorsuale. L interessato gode dei diritti di cui al citato D.Lgs 196/2003 tra i quali figura il diritto di accesso ai dati che lo riguardano, nonché alcuni diritti complementari come il diritto di rettificare, aggiornare, completare o cancellare i dati erronei, incompleti o raccolti in termini non conformi alla legge. Tali diritti potranno essere fatti valere nei confronti del Museo delle Scienze di Trento titolare del trattamento. Si precisa infine che la presente informativa persegue unicamente gli scopi conoscitivi sopra evidenziati. 1617 SEVENTH FRAMEWORK PROGRAMME THE PEOPLE PROGRAMME Annex I - Description of Work * PART A: Grant agreement for: Call identifier: Initial Training Networks FP7-PEOPLE-2013-ITN Implementation mode: Multi-ITN Project acronym: NASSTEC Grant agreement no.: Project full title: The NAtive Seed Science, TEchnology and Conservation Initial Training Network Date of approval of Annex I by REA: 23/05/2013 Project start date: 01/04/2014 * This Annex I refers to the 2013 PEOPLE Work Programme (European Commission C(2012)4561 of 9 July 2012) 118 A.1 Project abstract Keywords: Biodiversity, Conservation biology, Botany, Habitat and species restoration and rehabilitation, Seed ecology, Germination protocols, Seed production and trade, Ecosystem management. Abstract: NASSTEC will train 11 Early Stage Researchers and 1 Experienced Researcher in native seed science, conservation and use, so that environmental mitigation and adaptation projects can have increased impact. Without immediate enhancement of capacity and capability in this specific area of biodiversity science, the native seed industry in Europe will fail to develop towards the multimillion dollar markets of the US and Australia. NASSTEC plans to interconnect the public and private sector through the establishment of a multidisciplinary European doctoral school with the aim of integrating knowledge in plant ecology, genetics, molecular biology, taxonomy, ecology, conservation, seed biology, environmental science, agricultural botany, crop science, breeding and horticulture. This knowledge will be transferred to industry, thereby contributing to the EU bio-economy. NASSTEC includes 7 full (FP) and 8 associated partners (AP) from 4 EU Member States. It interconnects 4 different sectors: private companies (3 FP and 2 AP), NGOs (2 AP), public land governance bodies and academic institutions (4 FP and 4 AP). The scientific and training programmes embrace 12 research topics, clustered under three sub programmes: A) In situ seed sampling; B) Seed biology characterisation; and C) Production and deployment of seed. Critically, the findings from the three sub-programmes will be interconnected, integrated and communicated rapidly and effectively to the ESRs/ER and all external stakeholders through a global e-learning Environment (ELE). This ELE will be pivotal in delivering a balanced scheme of exchange visits and secondments, a rich programme of network events, news of network achievements and research information; including the findings of the final NASSTEC conference. NASSTEC will increase the competitiveness of ESRs/ER substantially and ensure that human capital is directed towards the development of a sustainable and dynamic European native seed industry. PLEASE NOTE: According to the recommendations given in the Negotiation Guidance N, this text has been typeset in Times New Roman 12pt., in the tables in 9pt., page margins have been set at 2 cm. 219 PART B: B.1 List of participants B.1.1. List of Participants (full beneficiaries) Beneficiary Number Beneficiary short name Beneficiary full name Private Sector (Y/N) SME (Y/N) Country Month enter project 1 (Coord.) MUSE Museo delle Scienze N N Italy RBGK Royal Botanic Gardens Kew N N UK UNIPV Università degli studi di Pavia N N Italy SSE Scotia Seeds Limited Y Y UK JHI The James Hutton Institute N N UK SESIL Semillas Silvestres SL Y Y Spain SYN Syngenta Seeds BV Y N The Netherlands 1 48 Month exit project B.1.2. List of Associated Partners (including role and status) N. Associated Partner name Short name 1 Recrea - Gestión de Instraestructuras culturales, Turística y deportivas del principado de Asturias, S.A.U. Country Organis ation type SME (Y/N) Role in the project RCRA Spain Private N TR, SEC 2 Mylnefield Research Services (MRS) Ltd MRS UK Private Y RES, TR, SEC 3 Agenzia per la Promozione della Ricerca Europea APRE Italy Private N TR, SEC 4 The National Trust for Scotland NTS UK Private N RES, TR, SEC 5 Botanic Gardens and Parks Authority BGPA Australia Public N RES, TR, SEC 6 Jardín Botánico Atlántico, S.A JBA Spain Private N RES, TR, SEC 7 Provincia Autonoma di Trento PAT Italy Public N TR, SEC 8 Università degli studi di Bologna UNIBO Italy Public N TR 320 B.2 S&T Quality B.2.1. Objectives of the research programme B NASSTEC specific objectives The overall objective of NASSTEC is a functioning network of academic and industry specialists able to produce and use European native seed effectively and efficiently. NASSTEC will: 1. Deliver key practical state-of-the-art training to ESRs and partners to ensure high quality seed sourcing and production. This will help identify, consolidate and improve existing technology platforms across the training network. 2. Connect key disciplines in native seed use, from innovative seed science research to technological development and inter-sector links. 3. Develop joint network products, including assessment and evaluation tools, such as protocols, and research outputs collated in an ad hoc NASSTEC Manual (D39) for relevant internal and external stakeholders. 4. Create a dedicated internet-based NASSTEC Information Facility (IF, M3). 5. Provide draft guidelines on the production and use of native species seed for submission to EU regulatory services as a complement to available seed certification schemes. 6. Connect NASSTEC with the USA and Australia native seed science and technology infrastructures that are already recognised internationally as examples of best practice. Project-specific outputs seek to maximise use by a range of stakeholders (industry, non-profit organisations and public sector researchers). Table 1. List of Work Packages Work package No WP Type Work package title Deleverables (D) Milestones (M) WP1 MGT Management M: 1, 3, 4, 17; D: 1, 3, 6, 12, 17, 20, 24, 29, 36, 40 WP2 MGT Recruitment M: 2, 5, 18, 23 D: 2, 4 WP3 RTD Research M: 6, 8, 14, 15, 19, 25, 26,29 D: 7, 16, 18, 21, 28, 30, 31, 32, 34 WP4 TR Training M: 9, 11, 27 D: 8, 9, 11, 13, 19, 22, 25 WP5 MGT Quality of research and M: 10, 21 training D: 5, 37 WP6 DISS Dissemination M: 7, 16, 28 D: 10, 35, 39, 41 WP7 DISS Industry-academia M: 20, 22, 24 integration D: 38 WP8 OUT Outreach M: 12, 13 D: 14, 15, 23, 26, 27, 33 Lead beneficiar y Start month MUSE 1 48 UNIPV 1 23 RBGK 5 48 JHI 6 42 UNIPV 4 46 RBGK 7 48 SSE MUSE 9 40 End month B.2.2. Research methodology and approach B Overview of NASSTEC role and planned activities NASSTEC s scientific programme interconnects 4 leading academic institutions, with experience in seed science and plant biodiversity, with 3 private companies as full partners. This core group will facilitate mobility within the network and learn from market leaders in US and Australia so that specific expertise, technology and the native seed trade in Europe can grow 421 quickly. The inter-disciplinary nature of NASSTEC will enable the establishment of a high profile European doctorate in the area of seed research for native species able to deliver teaching and learning to all relevant stakeholders. NASSTEC comprises 3 sub-programmes: A - In situ seed sampling - to provide essential training in plant taxonomy, ecology and reproductive plant biology, enabling the selection of species for mitigation projects aimed at Alpine, Atlantic, Continental and Mediterranean grassland habitats, involving ESR 1-3; B - Seed biology characterisation - to develop skills in native seed physiology (germination and storage) and stress tolerance, so that functional and genetic data can be generated and used to match seed lots to specific environments for improvement, involving ESR 4-7; C - Production and deployment of seed - to transfer knowledge on the means of improving seed quality (performance) to the nascent industrial sector (SMEs) for native seed production, enhancing the conversion rate from seed to plant (increased efficiency). Collectively, the work programmes will link source environments of the seed (physiology, biochemistry) with whole plant characteristics (intra-specific functional diversity), such that best-fit-for-purpose types can be sourced, selected and used, involving ESR 8-11 and ER 12. NASSTEC S&T will be coordinated by Prof. H. W. Pritchard 1 whose research group at RBGK regularly publish in high quality journals (e.g. PNAS, Trends in Plant Science) on all aspects of wild species seed biology. He will be supported by Prof. G. Squire 1 at JHI, and Prof. G. Rossi 1 providing an ecological and taxonomical perspective and leading the PhD school at UNIPV. B Detailed description of the 3 sub programmes NASSTEC S&T will focus on research topics identified by private and public stakeholders for urgent attention at the European level and with particular emphasis on the grassland habitats in the different biogeographical areas in the partnership (Atlantic, Alpine, Mediterranean and Continental). Known generic differences in grassland performance between grasses and forbs mean that this system is ideal for fundamental science and practical application through multispecies, trait-based approaches to species selection and seed production. Through ESR-led case and pilot studies in different area, advice will be forthcoming on grassland restoration options of significance to many European countries and across the pedo-climatic range of the EU. Projects will tackle the issues of protection from soil erosion, and knowledge transferrable to many grassland restoration needs (e.g. railway and roadside banks, cave sites and building sites). For each system key species will be selected as models for detailed intra-specific studies. B Research sub programme A: In situ seed sampling (mentor: Pietro Iannetta 1, JHI) Key industrial question to answer: What species should I use and of what provenance? Companies wishing to produce seeds for restoration need species and ecotypes that are fit-forpurpose, both for the ensuing environmental conditions (including future-proofing) and edaphic features. NASSTEC intend to establish and test a simplified habitat classification system, that is more likely to be widely adopted, and to validate its appropriateness by assessing the variation in species performance based on plant and seed traits (phenotyping). The resulting reference guide will contain criteria that match species to habitats for restoration in Europe. The main objectives here are to produce a species reference guide and design the prototype on-line decision-tree for species selection for restoration for the targeted regions, based on a simplified habitat classification that matches pedo-climatic features with plant distribution patterns and functional traits, including reproductive and germination characteristics. Specifically, the aim is to be able to select key herbaceous taxa from various sources with high resilience to eroded, impoverished soils following the definition of seedling-sapling and seed quality parameters, including seed 1 If any of the persons mentioned in Annex I is unable to participate in the project, s/he will be replaced by someone with the same level of experience and/or expertise 522 mass that is a good predictor of light sensitivity and the ability of the seedling to emerge from depth and thus establishment and resource capture. The final aim is to develop and apply userfriendly propagation protocols to enable the description of seed functional phenotypes. This subprogramme will involve ESR 1-3. B Research sub programme B: Seed biology characterisation (mentor P. Toorop, RBGK) Key industrial question to answer: How can I get maximum seed germination and establishment? This sub-programme applies seed molecular physiology, biophysics and other disciplines to gain an understanding of heterogeneity in seed qualities (dormancy, germination, survival). Whilst these vary with developmental / maturation time, they can be affected by post-harvest seed treatments. Comprehension of seed dormancy will aid successful reintroduction and restoration projects by improving the availability of cost-effective, fit-for-purpose seed, benefiting practitioners and growers in and beyond Europe. Outputs will include seed dormancy classifications, germination protocols, seed storage predictions and stress tolerance classes for seeds and seedling. In order to transfer knowledge to industry, research must be conducted on a wide range of species from different provenances. NASSTEC aims to investigate the germination behavior and assign species to the known >10 dormancy classes / types based on seed internal morphology and temperature application. Optimum germination conditions will be investigated and used to develop cultivation protocols for a selection of target species for grassland restoration in Europe, including a comparison of substrates for maximal seedling growth and reduction in seedling loss on transfer to the natural environment. Reliable supply of high quality seed lots in the trade demands the maintenance of viability over time. Seed longevity for alpine region species will be compared with those from other habitat types so that advice can be given to industry on adequate storage conditions and viability monitoring intervals. The inter-relatedness of seed vigour and viability will be explored and assessed as markers for substrate-dependent variation in seed/seedling growth. This sub-programme will involve ESRs 4-7. B Research sub programme C: Production and deployment of seed for environmental mitigation (mentor Giles Laverack, SSE) Key industrial question to answer: How do I mass produce native seed to a quality assurance standard? This sub-programme focuses on delivering seeds and knowledge for environmental restoration activities, particularly the grassland restoration pilot projects, and analysing case studies of mitigation practice. Profitable interconnections between the seed production industry, the environmental management authorities and the academic institutions will be facilitated to ensure that research delivers the required products. This sub-programme will deliver outputs on: case studies of best practice in the use of native seeds for mitigation projects; standard procedures for native seed quality assessment and certification; pre-treatments to improve seed establishment. Seed producers seek to simplify germination test conditions, to limit the range of sites, techniques and equipment needed to make the business more efficient and to improve the quality of the seeds on offer to customers. Sub-programme C will combine the products of the diverse research projects and deliver agronomic, processing, seed treatment and other production advice to the native seed industry. It aims to determine the quality (germination and purity) of seed currently being produced for the market from diverse sources and reveal any causes of low quality. It will modify field production, harvest methods and timing, post-harvest treatments, processing and storage procedures so that high quality seed lots can be consistently produced. This information will be combined with data from field experiments, and from sub-programmes A and B, to create growing protocols for initial multiplication and commercial production of seed. A key objective is to improve seed (and seedling) stress tolerance and performance through seed treatments. It will 623 define seed provenance zones based on sub-programme A, specify simple standards and tests for quality control based on sub-programme B and interpret good management practice from subprogramme C. Finally, it will complete the development of the qualitative decision tool for species selection for restoration based on the business lifecycle, leading to the development of a certification scheme for discussion with appropriate users and agencies. This sub-programme will involve ESRs 8-11 and ER 12. B Integration, consistency and originality of the three sub programmes In order to build the required capacity in the public and private sectors and expertise in native seed biology across Europe, it is essential to cover research capability and experience that spans the entire plant life cycle: seed production in the natural environment; characterisation of seed biology ex planta; and commercial production and deployment of seedlots. The three subprogrammes therefore present a logical means of delivering research expertise from field to laboratory to production. Improved understanding and application is needed in all steps of this cycle to ensure successful habitat restoration in the chosen system (grassland) for environmental mitigation activities. Development of competencies in the 12 individual topics will support both the academic ambitions of early career scientists (through high quality training and skills development) and the applied needs of end-users. Importantly, NASSTEC will serve as a multidisciplinary technology platform and an innovation hub for sustainable development, supporting plant / crop science, the agro-biodiversity community and the industrial sector. NASSTEC s key research programme outputs will be: highly competent ESRs/ER knowledgeable of the science and practice of restoration with native seed; published papers; guidelines on species and seed traits in relation to provenance; industry standards for native seed production and marketing; a DEXI-based decision tool for species choice that combines biology, agronomic and business information. Knowledge transfer between science-push (on the selection, sourcing, storage and germination of seeds) and user-pull (for functional production systems for native seed) will be ensured, so that European native seed heritage is not jeopardised by lack of knowledge and use of ineffective procedures that waste precious genetic resources during environmental mitigation actions. This combination of cutting-edge research (high quality output) on native seed and opportunity for commercial take-up (impact) is highly original. The information flows referred to above will be led by RBGK and supported by the three mentors of the S&T sub-programmes. Integration and communication will be underpinned by innovative management-systems support and facilitated through the internet-based NASSTEC Information Facility (IF) that will enable the delivery of the training programme. B Role of private companies The three private companies that are full partners will add an essential industrial perspective to the science and expertise in the NASSTEC training network. They will help ESRs (and their supervisors) to recognise and deal with key aspects of applied seed science, e.g. improved production processes, seed treatment and multiplication (SSE & SESIL), seed pre-treatments (SYN) and sowing. Mechanisation of all native seed production processes seeks to ensure industrial scale production that will increase market value and capacity for native seed production. In so doing, numerous barriers to the availability of sufficiently large quantities of native seed for habitat restoration will be removed. The only ER in the network will play a pivotal role in transferring knowledge to the European seed industry within and beyond NASSTEC. Already, crop seed priming underpins enhanced seedling performance in the field and similar work on native seed will have undoubted impact on seed quality. This and other innovations, driven by industrial needs, will result in the development of standard operating protocols and guidelines for industrial-scale restoration applications (SESIL, SSE and SYN in particular). Because of the potential commercial benefits of the findings in NASSTEC, appropriate IP rights and patenting will be developed and agreed. 724 B.3 Training B.3.1. Quality of the training programme B Overview of the training elements NASSTEC training comprise a host-based element and a network wide element. The 2 components have been designed to integrate and build one on the other. The host based training provides the essential learning environment for each ESR. The network wide elements are broken down into 2 exchange types: which are the e-learning environment (ELE) and face-to-face learning environment (FtFLE). B Host based training All ESRs will enjoy the benefits of the individual training usually provided by the host institution through participation in additional lectures and seminars relevant for the specific research topic undertaken. Specific direct individual tutoring will cover topic-related training and general complementary skills development. Elements include, introduction to facilities and equipment provided by supervisors and research fellows, health and safety induction, associated joint fieldwork and laboratory activities, oral and written presentation skills, scientific paper preparation workshops and career guidance. All relevant lectures and short courses offered by the academic partners will be listed in an ITN taught-element handbook (deliverable D8 so that each ESR/ER can use this document to help in deciding where to spend their exchange visits and secondments to their maximal benefit and career development. B NASSTEC PhD Programme All ESRs will be formally enrolled in the PhD programme in Earth and Environmental Sciences offered by the University of Pavia (UNIPV) running from to (tentative dates) (M5). Apart from the initial induction course (D9), on site attendance will not be expected, but all ESRs will be required to complete the distance learning modules that will include the unifying subjects specified below and will integrate lectures from all the network partners. Teaching material and lectures will be available through the network information facility (IF) via podcast, streaming and Q&A live session. All ESRs will prepare, submit for evaluation and discuss a peer-reviewed thesis in fulfilment of the requirements for the award of the degree of Doctor of Philosophy (M29). This special PhD cycle will be coordinated by Prof. G. Rossi (UNIPV) and advised by Prof. H. Pritchard as S&T coordinator. The 11 Unifying subjects of the PhD programme will be: Statistics (36h), GIS (36h), Taxonomy of the most widespread European grassland genera Poaceae and Fabaceae, (24h, lecturer: B. Jiménez-Alfaro, SESIL), Seed Ecology and Sampling (24h, A. Mondoni, MUSE); Conservation genetics (24h, P. Iannetta et al., JHI); Agronomy and seed field production of herbaceous plants (24h, C. Galvez, SESIL); Grasslands of Europe: species composition, plant communities and ecology (36h, G. Rossi, UNIPV); Physiology of germination and seed quality (36h, A. Balestrazzi, UNIPV, H. Prtichard RBGK); Restoration ecology and transfer of technological knowledge (36h, K. Dixon, BGPA); Legislation on production and marketing of native seeds for habitat restoration (24h, S. Pedrini, UNIPV) Economical potential of the plant conservation market in Europe (24h, lg. Laverack, SSE). These add up to a total of 324h, at least 70% of which are mandatory according to the specific career development plant agreed. 825 B Supervision arrangements NASSTEC training plan / handbook (D8) will be a general reference guide to the ITN supervision arrangements including the programme and timetable of events, secondments, exchange visits, roles, reporting periodicity, code of conduct (including research integrity) also providing an introduction to the ELE and IF, aiming at establishing an open, discursive and supportive community of practice to underpin the high quality science to be carried out. The first months after ESR enrolment (M5) will be a critical period leading to the development of an individual career plan and research extended abstract (D7). For this initial stage D8 will include induction objectives to be delivered though an induction course (D9) and circulated among supervisors to ensure that the students are fully integrated within their host institution and aware of their hosts facilities and other training provisions. The supervisors will provide each ESR with an initial list of key published peer-reviewed articles relating to their project and will constantly coach their progress. D8 will provide details on the expected periodicity of tutoring meetings (more frequent in the initial period), event debriefing sessions, progress reports, oral and written presentations and personal web pages that each ESR is expected to deliver, also providing a scheme for regularly circulating selected information throughout the ITN and regularly reporting to the E-COM and the supervisory board. B Network based training Training elements will also be provided by the network-wide collective training activities. These are delivered via 2 key vehicles which are the e-learning and Face-to-Face Environments for training. NASSTEC E-Learning Environment (ELE) offers the opportunity of an unlimited, inexpensive and continuous on-line electronic based communication and knowledge exchange system. This contact is structured into the following 3 components. 1 - A network-wide information facility (IF), using free web2.0 tools the IF will deliver mailing lists, e-forums, an e-notice-board, on-line project management tool, social tools (wiki, facebook, tweets) and others tailored for the science community (citeulike; mendeley) and Open Access Publishing in European Networks (OAPEN). The IF will support 3 Annual general network e-meetings (one per year), to discuss cross-cutting issues (as well as ESR training and findings). In addition, network wide e-workshops will also be delivered on the topics of: EW1 - statistical analysis of seed germination data, paper writing skills; EW2 - native seed production and trade regulations; EW3 - Key equipment appraisal in relation to seed bank design and storage techniques/seed-status monitoring. An electronic newsletter will also be published quarterly and a wiki space will be populated by user generated content to showcase the knowledge gained. These resources shall be organised and accessible via a single NASSTEC website based Resource Centre (hosted by MUSE). 2 - E-tutoring service. ESRs will discuss their individual research topic and needs jointly with the 2 project supervisors (the local and the associated one) on a quarterly basis as a minimum periodicity and each half year with the sub-programme Mentor using video conference facilities. Additional meetings are anticipated, arising as necessary and according to the specific needs of the ESR and topic area. Every meeting will be documented taking concise minutes that will be filed and copied to the coordinator. A skills and capability data base will be compiled for all partners. This will be used to encourage and support meaningful dialogue, with a view to increasing capability and impact of native seed science across all sectors. 3 - A video streaming service will also be used to progress further knowledge exchange by broadcasting relevant seminars across the network at regular intervals. This service will be structured to span the range of technologies, socio-economic and ethical factors involved in 926 native seed biology. Over the course of the programme every partner will be expected to deliver at least one training seminar annually. NASSTECs Face-to Face Learning Environment (FtFLE). This element delivers individual bilateral exchange visits, secondments and regular network-wide meetings that include: 1 PhD Induction course, 3 Annual General Meetings (D ) where all network trainees will be expected to present the progress of their individual project;. 3 annual workshops (D ) to address and debate cross-cutting issues and develop specific complementary skills; 2 summer schools (D13-22) being all round short courses to fully address a specific themes relevant for all ESRs; 1 end-of-programme conference (D35). The final conference shall be attended by open invitation to key stakeholders. The FtFLE provides unique networking opportunities for all network members, ESRs, supervisors and stakeholders, to integrate professionally and socially as part of global community of practice. Collectively these will comprise a valuable resource to build advanced final network products (such as the NASSTEC Manual - D39). B Secondments scheme Each ESR will benefit from 3 secondments to partners to obtain key training in a discipline that is relevant to their own research activity. Over the maximum 3 secondments the time spent away from their main host institution will not exceed 3 months; for an average duration of 1 month per secondment. The first 2 secondments are pre-selected as described in the individual project description; assigning one to an academic partner and one to an industrial partner; this will ensure effective knowledge exchange between the academic and private sector. The 3 rd secondment will be freely selected by each ESR to any other partner in the network that they deem suitable and is consistent with their research topic. B Exchange visit scheme The exchange visit scheme will integrate and complement the other existing mobility opportunities and will be used to ensure connection among network partners for whom contact has not been facilitated via the secondment or training events. This might facilitate the opportunity to contact fellow ESRs with whom specific training activities or network event preparation is planned. The typical duration of an exchange visit is expected to be 1 week. The typical number of exchange visits is expected to range between 2 to 3 per ESR. Exchange visits must be planned and justified in relation to the delivery of their NASSTEC training milestones and approved by the relevant supervisor. Where possible, such visits should be profitably attached to existing scheduled training events, to minimise travelling. B Role of industry and associated partners Each Associate Partner will host ESR mandatory secondments and will deliver an added value for the network via practical work experience and supporting individual ESR research projects. Within NASSTEC the expertise of private enterprises will be utilised to ensure that findings address issues that maximise the success and impact of native seed companies. Each commercial partner will disseminate the outcome of workshops among their colleagues. 1027 B.3.2. Network-wide training events, schools, conferences, workshops Table 2. Training activities Training events, workshops & conferences (2 events per year) 1 PhD Induction Course (IC) (incl. Annual General Meeting) (D9) 2 Cross Cutting Workshop 1 (CCW1) Quantitative functional molecular Diversity (D11) 3 Summer School 1 (SS1) Seed collecting strategies to face climate change (D13) 4 Complementary Skills Workshop 1 (CSW1) (incl. Annual General Meeting) Mock grant appl., IPR and patenting (D19) 5 Summer School 2 (SS2) Lab practice of germination & industrial seed processing (D22) 6 Complementary Skills Workshop 2 (CSW2) (incl. AGM) - Plant conservation, ethics-outreach (D25) Lead Organising Institution UNIPV JHI JBA APRE UNIPV MUSE Planned date Oct 2014 Feb 2015 Jun 2015 Feb 2016 Jun 2016 Sep Conference (C) - Native seed S&T at the service of environmental mitigation (D35) RBGK Sep PhD awarding ceremony (M29) UNIPV Mar 2018 Duration Participants Project month Planned venue 8 days all ESRs 7 UNIPV 5 days all ESRs 11 JHI 5 days all ESRs 15 JBA 8 days all ESRs/ER 23 SYN 5 days ESRs/ER 27 UNIPV 8 days ESRs/ER 30 MUSE 3 days public 42 RBGK 1 day public 48 UNIPV PhD Induction Course (IC) (D9) Host: UNIPV (RBGK) 1 - a 5 full days (36h) course (+ 3 days Annual General Meeting = 8 days) delivered by G. Rossi, H. Pritchard, A. Mondoni, R. Probert, P. Toroop., P. Iannetta, G. Laverack, C. Domeneghetti, A. Picco, T. Abeli, K. Dixon, D. Merritt. Content: This course will illustrate the PhD course in Earth and Environmental Sciences, and the special provisions made for the NASSTEC sub-programme. It will introduce the key staff, supervisors and mentors, the training programme and its delivery composed of a balanced integration of teaching modules (also available as distance learning modules in the NASSTEC sub-programme) and individual research carefully supervised in conjunction with the NASSTEC mentoring scheme. It will specify the requirement for the award of the PhD title being a credit system fulfilled by attending teaching modules, passing examinations, taking part to workshops, seminars, summer schools and finally submitting a thesis. The course will provide basic complementary skills for analysing and discussing scientific literature; collecting, analysing and interpreting ecological datastudents will be exposed to ecological research methods; guiding them to ask the relevant ecological questions, designing and implementing studies to answer those questions applied to seed ecology, eventually planning and carrying out their own experimental, ecological investigations. It aims to enable research students to successfully pursue a career in Applied Ecology and in the Seed Industry. The PhD School publishes twice a year the extended abstracts (D7) of the theses in its own journal Scientifica Acta available on-line at Cross Cutting Workshop 1 (CCW1) Quantifying functional and molecular diversity (D11) Host: JHI (MRS) - a 5 full day (36h) workshop delivered by P. Iannetta, P. Hedley, J. Russell, M. Young. 1 The institution in brackets will co-organise the event 1128 Content: Sustainable ex-situ conservation and use of native species requires genetically representative sampling of their populations. Information about population structure and genetic diversity of target species is necessary especially in the case of geographically limited or disjunct populations. The theoretical part comprises lectures and discussions about the state-of-the-art techniques of such as those which are based on metabolism (MALDI-TOF), protein (1-D and 2- D) and nucleic acid (dominant and co-dominant marker based methods such as AFLP, SSR, I- SSRs etc.). Activities will include the use of molecular based protocols with dominant I-SSR based markers, PCR methods, genotyping using modern automated (laser-based) hardware, data processing and analysis using various software. The intellectual basis of diversity monitoring within an individual and within and between populations will be explored in depth. Next and 3rd- Generation (NG) sequence acquisition and data-analysis will also be broached; illustrating their application, potential, experimental designs and cover options for data analysis. Complementary Skills Workshop 1 (CSW1): Mock grant application - grant writing, IPR and patenting (D19). Host: SYN (APRE) a 5 full days (36h) workshop (+ 3 days Annual General Meeting = 8 days) delivered by K. Insogna, F. Lanfermeijer, J. Slaven, K. Dixon, D. Merritt et al. Content: ESRs select 1 global and 3 sub-programme-related open calls for funding within the existing European funding framework that span research (Horizon2020), conservation (Life+), international cooperation (INTERREG), regional and rural development fund (ERDF and RDF). Workshop facilitators will introduce well in advance via the network IF various project management tools such as the Work Breakdown System (WBS) and object oriented planning tools such as the Logical Framework Approach (LFA). These will assist in structuring the prospective projects, identifying and defining WPs, Aims, Objectives, Milestones, Deliverables, Outputs, Outcomes, Constraints, Assumptions and Risk Assessment. Also, budget and project management. Appointed coordinators will collate the contributions from the network and finalise the application of those bids suitable for funding. Their efforts will be compared to EU bids that were successful (available from full partners). Complementary Skills Workshop 2 (CSW2): Plant conservation, its ethics, economics, communication and social outreach (D24). Host: MUSE (PAT) a 5 full days (36h) workshop (+ 3 days Annual General Meeting = 8 days) delivered by M. Cattadori, S. Dorigotti, M. Mezzanotte. Content: All ESRs will meet to discuss the ethical aspects of plant (re)introduction with experienced senior researchers in the field. The rationale that justify why only native species should be used in environmental mitigation projects will be tested. The workshop will deliver specific recommendations on this issue. In a second stage ESR will debate and develop effective social outreach tools. The media will be tailored to ensure to meet the relevant needs of the various stakeholders and general public. This workshop will be open to key experts within the partner institutions and within the important area of public education and communication, fully integrating the IBSE approach (Inquiry based Science Education) promoted by the INQUIRE project (FP7-SIS ) and the new MUSE science museum. Summer School 1 (SS1): Seed collecting strategies to face climate change (D13). Host: JBA (RCRA) a 5 full day (36h) course in the Cantabrian range (Spain) delivered by A. Bueno, R. Álvarez, B. Jiménez-Alfaro et al. Content: ESRs will devise a collecting plan taking into account all environmental and genetic information for their target species. Facilitators will illustrate all the required steps needed to safely obtain seed from different representative sites. The use of GPS and GIS technology will be 1229 demonstrated during the fieldwork. Special attention will be paid to seed maturity and the optimal times for collection, taking into account the seed storage behaviour (orthodox, intermediate and recalcitrant). Seed protection will also be studied and the ESRs will gain insight into the risks associated with key seed insects and fungal pests. Attention will then move to post-harvest treatments that including dry after ripening and with a view to safeguarding and maximising seed viability and longevity. The ERSs will be introduced to the necessary equipment and techniques for monitoring the key physiological indicators of seed quality during drying. Practical sessions will focus on data logging, seed cleaning and initial storage with a special attention given to testing and validating procedures. A special final session will be devoted to define the potential ecological niche of glacial relicts surviving on the Cantabrian Range, using advanced GIS software and distribution modelling together with genetic information, useful for guiding reintroduction activities, as mitigation against climate change. Summer School 2 (SS2): Laboratory practice of germination, industrial management and seed processing (D22) Host: UNIPV (SESIL, UNIBO) - a 5 full days (36h) course delivered by G. Rossi, S. Orsenigo, C. Gálvez, T. Abeli, C. Ferrari Content: This school will include theoretical and practical laboratory sessions. Its novel aspect will be the careful and detailed joint analysis of the experimental design for studies that assess germination. Each ESR will present their proposed germination activities, and these will form the basis for the network-wide field/commercial based case studies. It will also offer a review of the existing native seed production practice across Europe, serving to illustrate the different solutions, their relative effectiveness and to highlight specific issues. This exercise is also aimed to highlight additional research and infrastructure requirements to develop native seed production. ESR will be exposed to seed industries with site visit to seed industries district in the Po plain thanks to associated partner UNIBO. Conference (C): Native seed science and technology for environmental mitigation (D35) Host: RBGK (BGPA), a 3 full days international conference, organised by H. Pritchard, P. Toorop, G. Laverack, P. Iannetta, R. Probert, K. Dixon, D. Merritt. Content: The conference will illustrate procedures, protocols, and case studies of restoration operations. It will also discuss the applicability of these approaches within Europe; presenting the ESRs with an opportunity to exploit the most promising applications. Various delivery media will be used to maximise impact. While presentations are more useful to scientists other means such as fact sheets, interactive demonstrations and workshops will be more useful to different stakeholders and practitioners. Visiting scientists Prof. K. Dixon and Dr. D. Merritt will play a pivotal role to facilitate the conference aims. The conference will be attached to a meeting of the Society for Ecological Restoration International (SERI). The conference is open to the public for external attendance. All network events will total up to a maximum of 6 months per ESR out of the 36 standard duration of their appointment, that equals to 17% time-commitment of the total allotted to each ESR. 1330 B.4 Implementation B.4.1. Workplan B Overview of the work plan, milestones and deliverables NASSTEC implements a standard Work Breakdown Structure (WBS) to detail, organise and manage the ITN activities in a deliverable oriented hierarchical subdivision of the workload in manageable units (WP - work packages), listed in Table 1 in section B2.1 on page 4, as required by the annex format, but is also copied below for the reader s convenience. Table 3. List of Work Packages WP N. NASSTEC WBS Work Package Title Type of Activity Lead Participant Other Participants Involved Start month End month 1 Management management MUSE all Recruiting management UNIPV all Research research RBGK all Training training JHI all Quality of research and training management UNIPV all Dissemination dissemination RBGK all Industry Academia integration dissemination SSE all Outreach outreach MUSE all 9 40 The detailed list of milestones and deliverables (ordered by date) is provided in the tables below and the relative Gantt Chart is in appendix 1 on page 32 as required by the annex format. Here follows a brief description of the content and task distribution within each WP. WP1 - Management, C. Bonomi (MUSE) as project coordinator. This work package ensures an effective and timely delivery of all project products, taking care of coordinating the work via regular electronic contacts and meetings, a kick off meeting, 3 annual general meetings attached to network training events to minimise travel, a conclusion meeting and regular annual project reports. A full time project officer will make sure milestones are reached on time and will facilitate e timely production of project deliverables. A small and agile Executive Committee will assist the supervisory board to make the appropriate and timely decisions required by the project management The project will employ an on-line project management platform WP2 - Recruiting, G. Rossi (UNIPV). This WP is strategically led by the only university in the network that will give to all the ESRs in the network the opportunity to gain a PhD award. A specific MoU between all partners will validate the individual training as appropriate for a PhD. WP2 will coordinate the individual partners recruitment, specifically promoting agreed guidelines. WP3 Research, H. Pritchard (RBGK). This WP includes the 3 research sub programmes that are entrusted to the mentors of each area as previously described. This WP includes standard M & D (career development plans, individual project research plan, reports and theses) and specific outputs such as manuals, peer-review publications and pilot projects on grassland restoration. WP4 - Training, P. Iannetta (JHI). This WP oversees the network wide training, producing the network training plan/handbook (D8), composed by the final version of the secondment scheme, the event calendar, the programme of the training events (workshops, summer schools and conference). WP5 - Quality of research and training, A. Carini (UNIPV). This WP is lead by UNIPV (providing the PhD scheme) and will implement quality control procedures, ensuring that the best standards are adopted and improved with ad hoc guidelines and quality plan, leading regular audits, reviews and controls on project performance. WP6 - Dissemination, P. Toorop (RBGK). This WP is lead by RBGK that hosts the project conference and is leading research. It aims at building a community of practice as a privileged way to disseminate the project products, raising the status of native seed science among the 1431 scientific community. The conference proceedings will be published in a high impact factor journal. WP7 - Industry Academia integration, led by G. Laverack (SSE). This WP will be led by the key project SME with the contribution of the ER. A three-way communication network will be developed between academia, producers and users. Current and potential producers and users will be identified in all EU countries (M11,12), initially through contacts with academic and botanical organisations. The technical level of development and current market will be established by questionnaire (M22), interview and direct contact and this will be fed into the project research programme to create messages for industry to be disseminated and developed through social media, an online forum, technical meetings at relevant conferences (ISTA, SER etc) (M24) and particularly through production and promotion of the technology transfer and NASSTEC manual (D38,39). The Australian experience in developing an integrated system of academic work and industrial practice will be used with key inputs from AP BGPA and the resources of AP PAT will be utilized to promote the improvement and expansion of native seeds by public administrations. WP8 - Outreach, led by M. Cattadori (MUSE). M. Cattadori i based at MUSE the new Trento Science Museum and that leads a successful example of teachers community of practice focused on Inquiry Based Science Education (IBSE). Delivery is by means of exhibitions, events and special school projects as detailed in B5 and in deliverable D14, D15, D23, D27, D33, promoting Responsible Research and Innovation (RRI). Table 4. List of milestones M. N. List of milestones Lead WP N. Expecte d date beneficiary 1 M1 Nasstec Project officer recruited Indicator: project officer appointed MUSE 2 2 M2 11 ESR & PhD positions advertised Indicator: job description published UNIPV 3 1 M3 Information Facility up and running Indicator: website & IT tools in place MUSE 4 1 M4 Log frame Analysis performed Indicator: log frame adopted throughout the ITN MUSE 6 2 M5 11 ESR & PhD enrolled Indicator: ESR based at host institution UNIPV 7 3 M6 3 subprogramme research plans. Indicator: plans produced and circulated RBGK 7 6 M7 ITN dissemination strategy Indicator: agreed, and circulated to the ITN RBGK 10 Criteria for species selection for grassland restoration. Indicator: target species lists produced: 10 species per ESR - total 110 species RBGK 11 3 M8 4 M9 LOM selected for training and outreach material Indicator: format defined JHI 12 5 M10 Define assessment criteria for quality training Indicator: quality plan circulated UNIPV 12 4 M11 Set up community of practice Indicator: target audience contacted JHI 14 Target audience and outreach plan and social media started. Indicator: target 8 M12 identified and plan circulated MUSE 14 8 M13 Set up community of practice in education Indicator: on line forum active MUSE 16 Grassland restoration pilot projects: at least 3 project started. Indicator: at least 3 exact locations selected RBGK 17 3 M14 3 M15 Guide to dormancy and germination Indicator format and information collated RBGK 18 6 M16 Agreement with a IF journal to publish conference proceedings. Ind. agreement rchd RBGK 18 1 M17 Mid term review MUSE 19 2 M18 1 ER position advertised Indicator: job description published UNIPV 20 Grassland restoration pilot projects: at least 3 sites sown. Indicator at least 10 species sown for in at least 3 locations - total at least 30 species RBGK 20 3 M19 7 M20 Identifying stakeholders in the EU native seed users Indicator: list prepared SSE 20 5 M21 Audit and feedback on quality training Indicator: data collected throughout the ITN UNIPV 22 7 M22 Survey EU native seed users needs Indicator: questionnaire circulated SSE 22 2 M23 1 ER enrolled Indicator: ER based at host institution UNIPV 23 7 M24 Set up Industry-Academia community of practice Indicator: on line forum active SSE 26 3 M25 Grassland restoration pilot projects: at least 3 sites monitored after 1 year. Indicator at least 10 monitored for at least 3 locations - total at least 30 species monitored RBGK 29 Grassland restoration pilot projects: at least 3 sites monitored after 2 years. Indicator at least 10 monitored for at least 3 locations - total at least 30 species monitored RBGK 40 3 M26 4 M27 Training and outreach material loaded onto Scientix Indicator: material uploaded JHI 42 6 M28 Collation of conference presentations and papers published by each ESRs/ER RBGK 42 3 M29 PhD awarded. Indicator: ESRs take part to award ceremony in Pavia RBGK 48 1532 Table 5. List of Deliverables Del. N. List of Deliverables WP N. Lead Nature Dissemin. Month beneficiary 1 D1 Kick off meeting MUSE E CO 2 2 D2 Recruitment guidelines and training course for selection panels UNIPV O CO 2 1 D3 Consortium agreement signed MUSE O CO 5 2 D4 MoU for PhD & training recognition signed UNIPV O RE 6 5 D5 Guidelines for quality management and implementation incl. IPR UNIPV R RE 6 1 D6 1st Annual General Meeting MUSE E CO 7 11 ESRs career development plans incl. extended abstracts or research plans RBGK R RE 7 3 D7 4 D8 Training plan/handbook (event programme, calendar, addresses, etc..) JHI R RE 7 4 D9 Induction course UNIPV E CO 7 6 D10 Project newsletter - quarterly from month 7 to month 40 RBGK R PU D11 CCW1 and related teaching materials JHI E RE 11 1 D12 1st year Annual project report incl. financial report MUSE R CO 13 4 D13 Summer School 1 and related teaching materials JHI E RE 15 8 D14 6 IBSE activities designed for schools (minimum) MUSE P PU 15 8 D15 6 participants to the local Researcher s night (minimum) MUSE E PU 18 3 D16 base stock of seeds collected and stored in partners seed banks. Indicator: 20 accessions per ESR - total 220 RBGK O PU 20 1 D17 2nd Annual General Meeting MUSE E CO 23 3 D18 1 ER career development plan incl. extended abstract of research RBGK R RE 23 CSW1 and related teaching materials. Indicator at least 3 draft application prepared JHI E RE 23 4 D19 1 D20 2nd year Annual project report incl. financial report MUSE R CO 25 3 D21 12 interim research project reports RBGK R RE 27 4 D22 Summer School 2 and related teaching materials JHI E RE 27 8 D23 6 Marie Curie Ambassadors in schools (minimum) MUSE E PU 27 1 D24 3rd Annual General Meeting MUSE E CO 30 4 D25 CSW2 and related teaching materials JHI E RE 30 8 D26 6 participants to the Famelab contest in selected countries (minimum) MUSE P PU 30 8 D27 2 weeks school teachers placements in each partner lab MUSE E PU 32 3 D28 protocols for germination/cultivation/characterisation of target material prepared. Indicator: at least 10 protocols delivered for representative keystone families RBGK R PU 33 1 D29 3rd year Annual project report incl. financial report MUSE R CO 37 3 D30 Publications for species selection in grassland restoration. Indicator: at least 1 manual and 3 papers published in peer-reviewd journals RBGK P PU 38 3 D31 3 D32 Publications for quality certification procedures for native seeds. Indicator: at least 10 case studies of certification analysed, 1 manual and 2 paper published in peer-reviewd journals. RBGK P PU 39 Publications for adaptation, dormancy and germination. Indicator at least 7 papers published in peer-reviewd journals. RBGK P PU 40 Native flower beds display in 5 key cities of partner countries (minimum) MUSE P PU 40 8 D33 1 D34 Conclusion meeting MUSE E CO 42 3 D35 12 final project reports (theses) RBGK R PU 42 6 D36 NASSTEC Conference RBGK E PU 42 5 D37 Report on quality management UNIPV R RE 45 7 D38 Manual for Technology Transfer to the EU seed industry SSE P PU 46 6 D39 NASSTEC Manual* RBGK P PU 47 1 D40 End of project report incl. final financial report MUSE R CO 48 6 D41 Conference proceedings published RBGK P PU 48 the NASSTEC Manual (D39) will collate and present in an integrated way all key deliverables produced during the project: and in particular D30, D31, D32, D38 including - criteria for species selection and identification of provenance areas for mitigation projects, - detailed lists of species and provenance areas to be targeted for mitigation projects in 4 bio-geographical regions (Atlantic, Alpine and Mediterranean) in selected countries, - Prediction tools for species ecotypes selection for mitigation projects. - Recommendations for improved seed storage methodologies and guide to the implementation of advanced non routine methods. - Seed germination protocols for a selection of taxonomic groups mostly used for mitigation. - Seed production protocols for a selection of taxonomic groups mostly used for mitigation. - Standard procedures for native seed certification - Case studies of best practice in the use of native seeds for mitigation projects - A grant application for the future advancement beyond the end of the project. 1633 Table 6. List of Fellows' individual projects Fellow number Project title Host institution Relevan t WP Durati on Indicativ e start date Research sub programme A: In situ seed sampling A bio-geographical approach to species selection for mitigation / ESR 1A adaptation projects, with a specific focus in the Alpine and Atlantic MUSE (JHI) 1 WP3 36 month 7 region ESR 2A Selection of high-quality grasses for the Mediterranean and Continental bio-region SESIL (UNIPV) WP3 36 month 7 ESR 3A Methods for seed and seedling phenomics JHI (MRS) WP3 36 month 7 Research sub programme B: Seed biology characterisation ESR 4B Bio-geographical aspects of seed dormancy UNIPV (RBGK) WP3 36 month 7 ESR 5B Propagation protocols for the restoration of grassland habitat in Europe SESIL (UNIPV) WP3 36 month 7 ESR 6B Seed longevity in storage UNIPV (RBGK) WP3 36 month 7 ESR 7B Life history traits in contrasting environments - intra-species variation in stress tolerance RBGK (JHI) WP3 36 month 7 Research sub programme C: Production and deployment of seed for environmental mitigation ESR 8C Improving seed quality in large-scale production SSE (SESIL) WP3 36 month 7 ESR 9C Developing propagation and seed multiplication protocols for herbaceous flora RBGK (SSE) WP3 36 month 7 ESR 10C Seed pre-treatments of native species for optimal establishment, for use in in situ restoration SYN (RBGK) WP3 36 month 7 ESR 11C Certification of seed quality and provenance MUSE (SSE) WP3 36 month 7 ER 12C Transfer of NASSTEC knowledge to European seed producers SSE (SESIL) WP7 20 month 23 The network as a whole undertakes to provide a minimum of 416 person-months of Early Stage and Experienced Researchers whose appointment will be financed by the contract. Quantitative progress on this, with reference to the table contained in Part C and in conformance with relevant contractual provisions, will be regularly monitored at the consortium level. 1 The institution in brackets will co-supervise the ESR project 1734 Fellow ESR 1A Research sub programme A: in situ seed sampling B.4.2. Fellows individual research projects Host institution MUSE (co-supervised by JHI) Duration 36 months Start date month 7 Project title: A bio-geographical approach to species selection for mitigation / adaptation projects, with a specific focus in the Alpine and Atlantic region (WP3). Supervisor name: C. Bonomi MUSE / P. Iannetta JHI PhD enrolment: Yes, awarded by UNIPV Objectives: - Develop a model that identifies and structures the criteria for species and ecotype selection in restoration projects. - Characterisation of the distribution patterns of selected keystone species from both the Alpine and Atlantic regions. - Match seed provenance, habitat characteristics and location for keystone species in the Alpine and Atlantic regions. Tasks and methodology: - Survey, critical review and adaptation of existing habitat and pedo-climagtic classifications systems. - Define provenance areas for seed sourcing and use, based on the ecological and taxonomical data derived from this survey - Sample and characterise the morphology, germination and dormancy of the populations of about 20 keystone species, clarifying the reproductive biology (e.g. phenology and seed output per plant at peak season). - Frame a functional ex situ seed production system, taking into account, seedling productivity judged as shoot and root dry mass, comparing best performing seed lots of known provenance, with a qualitative multi-attribute decision-model Results: - A simplified classification system for restoration projects in Alpine and Atlantic bio-geographical regions - A guide to best performing seed lots of known provenance for key habitats and species in the Alpine and Atlantic region - A decision-tree for species selection for restoration for the Alpine and Atlantic biogeographical regions. Contributing to milestone(m): 8, 14, 19, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 30, 33, 34, 35 Dissemination: - Presentations at conferences of the Society for Ecological Restoration and Conservation Biology - Two papers in peer reviewed journals Planned secondments: 1. SSE, Atlantic acidic grasslands seed selection; in Year 1; duration: 1 month 2. JBA, restoration in the Cantabrian range; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: Seasonality, deep seed dormancy and poor yield might severely affect the outcome of germination trials and seedling productivity measures; to prevent these events from badly affecting this project result the target species and population sampled will be increased by 50% to maintain a safe margin well above the minimum number of target data. Fellow ESR 2A Research sub programme A: in situ seed sampling Host institution SESIL (co-supervised by UNIPV) Duration 36 months Start date month 7 Project title: Selection of high-quality grasses for the Mediterranean and Continental bio-region (WP3). Supervisor name: B. Jiménez-Alfaro SESIL / G. Rossi UNIPV. PhD enrolment: Yes, awarded by UNIPV Objectives: - Develop skills in assessing, selecting and growing key herbaceous taxa from xeric grasslands for the restoration of degraded soils, with a special interest in landscapes of southern Spain and the Po Plain, Italy. Tasks and methodology: - Select best-fit-for-purpose species for the target soils and habitat using existing information on vegetation. - Characterisation of in situ populations of about 20 target species, recording of reproductive biology and seed traits (mass, germination, morphometry) using methods described for project 1A. - Seed collection of keystone species for the target ecological regions belonging to Poaceae, Fabaceae and Asteraceae (e.g. Festuca, Sesleria, Bromus, Poa, Stipa, Erianthus, Ampelodesma; Medicago, Lotus, Astragalus, Trifolium; Aster, Inula, Helichrysum, Centaurea. - Assess purity with ISTA methods for viability (X-ray, tetrazolium staining) and germination (vigour) - Field sowing and / or transplanting in different degraded zones, slopes and soils in high xericity zones, based on autoecology. - Monitoring and evaluation of this material through to reproductive maturity and the seed yield determination. - Evaluation of reproductive maturity for a selection of key species in dry meadows Results: - A prioritization system for the selection of appropriate taxa for a selection of the most representative habitats - Datasheets containing information about species traits and their capability for habitat restoration. - Toolkit for habitat restoration using native species, focusing on industrial applications for the investigated habitats. Contributing to milestone(m): 8, 14, 19, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21,23/26, 27, 30, 33, 34, 35 Dissemination: - Presentations at thematic conferences on restoration ecology, applied ecology and biodiversity conservation - Two publications in peer-reviewed journals Planned secondments: 1. JHI, Phenomics and species prioritisation and selection; in Year 1; duration: 1 month 2. SYN, Quality control in industrial seed processing; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: This task is entirely dependent on the selection of target species, and a crucial risk derives from possible low success of germinating seeds in the study habitats. To prevent this, it will be necessary to develop an adaptive methodology according to the available information of the target species and the preliminary results that will be generated along the time. 1835 Fellow ESR 3A Research sub programme A: in situ seed sampling Host institution JHI (co-supervised by MRS) Duration 36 months Start date month 7 Project title: Methods for seed and seedlings phenomics (WP3). Supervisor name: P. Iannetta JHI / J. Snape MRS PhD enrolment: Yes, awarded by UNIPV Objectives: - Functional characterisation of intraspecific variation among individual accessions of wild legumes. - To identify trait combinations that facilitates their establishment and co-existence with plants in different environments. - Specific focus on seedling and resultant whole plant phenology, nitrogen fixation/rhizodeposition and seed functional traits Tasks and methodology: - Survey and sampling of seeds (and root nodule bacteria) of species at key sites: followed by seed multiplication ex situ. - Phenotypic and molecular characterisation of seedling types from multiplied seeds, and the F2 seed characteristics. - Trials to assess the potential of diverse types from a model legume species to facilitate coexistence with non-legumes. Results: - Ecological survey of key wild legumes types from sites of special scientific interest. - Functional characterisation of model legume types with high co-existence potential. - Quantitative assessment of seed suitability plant facilitation/co-existence in situ. Contributing to milestone(m): 8, 14, 19, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 28, 30, 32, 34, 35 Dissemination: - Join the British Ecological Society Agroecology Group, and International Society for Seed Science. - Report perspectives and findings in years 2 and 3, to stakeholder fora identified via the NASSTEC network. - To publish two publications in peer-reviewed journals, and report these at the ISSS Annual Meeting. Planned secondments: 1. RCRA, Habitat restoration in ski slopes; in Year 1; duration: 1 month 2. MUSE, Species selection criteria; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: It is critical that the range of functionally distinct types identified for the co-existence/facilitation trials yield seeds that have a level of seed dormancy which is low: that is, their seeds must germinate readily. Failure in this respect will demand that additional trails are carried out to establish standard seed treatments which optimise germination and seedling establishment, such as: acid pre-treatment; scarification, seed coat removal; cold chilling, or/and; seed priming. Fellow ESR 4B Research sub programme B: Seed biology characterisation Host institution UNIPV (co-supervised by RBGK) Duration 36 months Start date month 7 Project title: Biogeographical aspects of seed dormancy (WP3). Supervisor name: S. Orsenigo UNIPV / R. Probert RBGK PhD enrolment: Yes, awarded by UNIPV Objectives: - To identify optimum germination conditions in c. 40 alpine species. - To assign specific seed dormancy classes. - To characterise appropriate conditions for dormancy alleviation for seed lots from different provenances. Tasks and methodology: - Field data logger information linked to provenance will be used to set appropriate constant and alternating temperature regimes for germination testing in the laboratory involving up to six temperature treatments, and including move-along studies that potentially last > 6 months each. - Seed internal structure (sectioning and light microscopy) will also be used to inform test conditions (e.g. small embryos may be morpho-physiological dormant), and chemical treatments will be applied to the seeds when appropriate (e.g. gibberellic acid). - Optimum conditions will then be used for the germination of soil seed bank samples from an altitudinal range (linked to 3A). - Non-germinating seeds will be vital-stained with 1% tetrazolium chloride solution following ISTA-based methods, so that seed lot viability is known and can be compared between seed lots of difference provenances and between species. Results: - Based on seed physiological responses to temperature, morphology and sensitivity to plant hormones, the species seeds will be assigned to the known >10 dormancy classes / types. - Across the whole range of species tested, phylogenetic independent contrast analysis will be used to assess germination patterns in relation to taxonomy and ecology. - Seed lot viability compared between seed lots of difference provenances and between species. Contributing to milestone(m): 8, 14, 15, 19, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 23/26, 23, 27, 28, 32, 33, 34, 35 Dissemination: - Presentation of the results at international conferences of Seed Ecology and Seed Biology. - To publish two publications in peer-reviewed journals, and report these at the ISSS Annual Meeting. Planned secondments: 1. NTS, Restoration in the Atlantic biogeographical region; in Year 1; duration: 1 month 2. SYN, Industrial germination treatments; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: abnormal climatic conditions may affect normal seed development and therefore seed availability for some species; a few species may not provide seeds enough to carry out the complete set of experiments; species and population sampled will be increased by 50% to maintain a safe margin well above the minimum number of target data 1936 Fellow ESR 5B Research sub programme B: Seed biology characterisation Host institution SESIL (co-supervised by UNIPV) Duration 36 months Start date month 7 Project title: - Propagation protocols for the restoration of grassland habitat in Europe (WP3). Supervisor name: C. Gálvez SESIL / L. Zubani UNIPV PhD enrolment: Yes, awarded by UNIPV Objectives: - Select the most appropriate taxa for restoring fields in Mediterranean (olive grove crops) and Atlantic vegetation areas. - Define cultivation protocols for selected taxa (particularly grasses, legumes and composites) used in restoration projects Tasks and methodology: - Assessing seed germination and growth for target species, comparing lab, greenhouse, field conditions, adjusting parameters affecting seedling growth (nutrient delivery N, P, K), soil composition / substrates, light levels, temperature and humidity. - Experimenting pre-germination pre-treatments and other relevant agronomic aspects for production. - Above-ground and radical biomass estimate through observation and use of phenologic scales for each selected taxa - Description of produced seed batches (viability- TTZ test/germination and purity,...), of harvesting ease and production costs, in small test plots (maximum 3x3m). - Development of seed mixtures for setting covers in woody crops (olive grove). - Assessment of performance of settled covers (setting, phenologic monitoring, and coverage). - Capacity for sexual reproduction in commercial seeds batch conditions. Results: - A compendium of nursery protocols on seed priming, germination and establishment for commercial companies. - Guidelines for Industrial multiplication of key species for herbaceous covers in grassland and on woody crops (olive groves) - Guidelines to prepare seed mixtures for herbaceous covers with native species under different pedoclimatic conditions Contributing to milestone(m): 8, 14, 15, 19, 22, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 28, 30, 33, 34, 35, 38 Dissemination: - presentations at conferences (e.g. IUCN, Landa restauration Congress, Expoliva, SER, AEIP (Asociacion Española de la Ingenieria del Paisaje) - two publications in peer-reviewed journals Planned secondments: 1. MRS, Advanced laboratory use; in Year 1; duration: 1 month 2. BGPA, native plant propagation in W Australia; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: The main risk will be to investigate species unsuitable for seed mixtures in industrial use. As a mitigation measure, a larger number of target species will be included belonging to the families of Asteraceae, Poaceae and Fabaceae, selected on the basis of their ecological behaviour. Fellow ESR 6B Research sub programme B: Seed biology characterisation Host institution UNIPV (co-supervised by RBGK) Duration 36 months Start date month 7 Project title: Seed longevity in storage (WP3). Supervisor name: A. Balestrazzi UNIPV / R. Probert RBGK. PhD enrolment: Yes, awarded by UNIPV Objectives: - To characterise seed life-span of species of greatest likely interest for commercial production (sky trucks restoration) - To make available guidelines on viability monitoring protocols for the seed trade. - To investigate priming techniques for increase seed longevity in storage. Tasks and methodology: - Species from the alpine region and other habitat types (including some woodland and wetland species) will be assessed - Seed lot half-life (P50) will be determined using an existing ageing method (ageing at 45 C and 60% RH). - Survival curves will be produced and P50 estimated. These will be compared with benchmark species and used to estimate potential longevity under appropriate storage conditions for conservation. - Longevity determinations will also enable recommendations on viability retest intervals for stored collections. - Seed priming effects will be investigated on target species, considering biomolecular analysis (DNA repair and antioxidant mechanisms). Results: - A predictive model for seed longevity based on seed structure, habitat and climate factors will be will be developed. - The effects of reduced seed viability on lowered seed vigour will be assessed; as such knowledge will be of help in interpreting substrate-dependent variation in germination in some species. - The effect of seed priming (see ESR 5B) on longevity will be assessed for some species. Contributing to milestone(m): 8, 14, 19, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27,28, 32, 33, 34, 35 Dissemination: - Presentation of the results at international conferences of Seed Ecology and Seed Biology. - To publish two publications in peer-reviewed journals, and report these at the ISSS Annual Meeting Planned secondments: 1. SYN, Industrial seed storage and processing; in Year 1; duration: 1 month 2. RBGK, Seed storage improvement; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: unpredictable climatic conditions may affect normal seed development and therefore seed availability for some species; a few species may not provide seeds enough to carry out the complete set of experiments. 2037 Fellow ESR 7B Research sub programme B: Seed biology characterisation Host institution RBGK (co-supervised by JHI) 21 Duration 36 months Start date month 7 Project title: Life history traits in contrasting environments - intraspecies variation in stress tolerance (WP3). Supervisor name: H.W. Pritchard & P. Toorop RBGK / P. Iannetta JHI PhD enrolment: Yes, awarded by UNIPV Objectives: - To generate genetic and phenotypic information on provenances adapted to stressful environments in which water and temperature limitations / extremes impact on species selection and survival. - To develop species ranking for seed stress tolerance and a list of alleles and genes that concur with stress tolerance. Tasks and methodology: - Phenotypic stress responses will be assessed for seeds of c. 10 species from various families and habitats and geographical distribution, matching the species selection in project 10C. - Seeds of both the soil seed bank and fresh will be exposed to stress pre- and during germination; and seedlings will be treated to the similar temperature changes (cold and warm excursions), water limitation (e.g. PEG controlled) and stress cycles. - Differential scanning calorimetry at slow cooling rates will be used to investigate seed and seedling freezing responses. A perspective will emerge on natural regeneration likelihood and survival of species in the natural environment. - Species with a well characterised phenotype will be subject to genetic studies using pyrosequencing to test that locally adapted provenances that grow outside the species natural habitat contain genetic backgrounds for stress tolerance. Results: - Diversity baselines assessments and seed banking of intraspecific diversity at key sites. - Functional characterisation of ecotypes in relation to geo-physics of provenance. - Understanding seed functional attributes in relation to persistence and adaptation to climate change (osmotic stress avoidance). Contributing to milestone(m): 8, 15 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 28, 32, 34, 35 Dissemination: - presentation at congresses of the British Ecological Society -Agroecology Group, and International Society for Seed Science. - Report perspectives and findings in years 2 and 3, to stakeholder fora identified via the NASSTEC network. - Two publications in peer-reviewed journals. Planned secondments: 1. PAT, Habitat restoration in the Alps; in Year 1; duration: 1 month 2. RCRA, habitat restoration in ski slopes; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: seed availability and deep dormancy and might severely affect the outcome of germination trials and stress tolerance measures; an increased safe margin in the number of population and species sampled will mitigate this risk Fellow ESR 8C Research sub programme C: Production and deployment of seed.. Host institution SSE (co-supervised by SESIL) Duration 36 months Start date month 7 Project title: Improving seed quality in large-scale production (WP3). Supervisor name: G. Laverack SSE / C. Gálvez SESIL. PhD enrolment: Yes, awarded by UNIPV Objectives: - Establish quality of seed currently in production. - Develop production protocols to improve seed quality to attain higher levels of purity and germination - Establish achievable quality standards Tasks and methodology: - Survey of seed quality from a wide range of producers across Europe from commercial suppliers, supplemented by material from non-commercial sources and from activities under NASSTEC sub-programmes A and B. - A range of quality factors will be evaluated; primarily, germination in temperature controlled incubators and purity employing the standard technique of X-ray analysis - Test field production protocols for target species with low quality, assessing dormancy applying testing protocols that incorporate species-specific dormancy-breaking treatments as revealed by ESR projects across NASSTEC (e.g. after-ripening) and application of enhancement treatments, such as priming. - Harvest and Post-harvest techniques assessment testing mechanical methods for sequential harvesting to collect the ripest seed as an alternative to harvesting the whole seed population at one time Results: - Base-line survey data of seed quality. - Improved field and post-harvest production protocols - Recommendations for minimum standards Contributing to milestone(m): 8, 14, 19, 20, 22, 24, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 31, 33, 34, 35, 38 Dissemination: - Two peer-reviewed publications - Presentations at the International Seed Testing Association and ISSS congresses - Report to NASSTEC network, including final conference Planned secondments: 1. SESIL, Quality in Mediterranean seeds; in Year 1; duration: 1 month 2. MUSE, criteria for species selection; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: Obtaining large enough numbers of samples for comparison may be a problem; a well-organised approach to gathering test samples is essential. Field production success is heavily dependent on weather conditions, a careful selection of target species and a larger number or trials well above the minimum target level will mitigate the identified risks.38 Fellow ESR 9C Research sub programme C: Production and deployment of seed.. Host institution RBGK (co-supervised by SSE) 22 Duration 36 months Start date month 7 Project title: Developing propagation and seed multiplication protocols for herbaceous flora (WP3). Supervisor name: R. Probert RBGK / G. Laverack SSE. PhD enrolment: Yes, awarded by UNIPV Objectives: - Assess natural reproductive output and soil seed bank dynamics and quantify constraints to germination and seed storage in selected understory plants - Develop germination and propagation protocols - Determine field production methods that maximise plant establishment and genetic diversity of offspring Tasks and methodology: - Survey convenient populations of targeted species to facilitate field monitoring of natural reproductive phenology - Investigate post-harvest handling methods to maximise seed quality, laboratory experiments to quantify seed longevity - Laboratory experiments to assess seed dormancy and to develop practical treatments for dormancy removal - Apply germination and dormancy breaking treatments that maximise nursery establishment and plug plant production - Set up field plots to investigate production methods (eg open versus shaded sites) that maximise flowering and seed production - Field experiments to quantify the natural soil seed bank and to define emergence phenology under natural conditions Results: - Reproductive output including seed versus vegetative propagation quantified for targeted woodland understory species - Post-harvest handling procedures that maximise seed quality developed - Germination and propagation protocols available to inform nursery production of high quality plug plants - Field production methods developed that maximise flowering and seed production Contributing to milestone(m): 8, 15 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 28, 32, 34, 35 Dissemination: - At least two peer-reviewed papers on seed biology of targeted species - present oral and poster papers at international conferences such as Society for Ecological Restoration (SER) - develop training materials and technical guidelines for commercial producers Planned secondments: 1. UNIPV, Dormancy in endospermic seeds perennials; in Year 1; duration: 1 month 2. SESIL, Mediterranean native seed production; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: - Extreme weather events could seriously impact on all field experiments - Intractable seed storage and / or dormancy problems could prevent the on-going development of propagation methods. A careful selection of study species should mitigate this Fellow ESR 10C Research sub programme C: Production and deployment of seed.. Host institution SYN (co-supervised by RBGK) Duration 36 months Start date month 7 Project title: Seed pre-treatments of native species for optimal establishment, for use in in situ restoration (WP3). Supervisor name: F. Lanfermeijer SYN / P.E. Toorop RBGK. PhD enrolment: Yes, awarded by UNIPV Objectives: - Test and improve, through seed treatments, the stress tolerance of alpine species for use in the in situ restoration of alpine meadows. - Test the hypothesis that seed lots with higher stress tolerance will establish better in an alpine meadow, either because of their inherent genetic makeup or because of an improved sensitivity to performance-enhancing treatments. Tasks and methodology: - Selected species chosen by industry and seed lots of various sites from different geographical origin will be characterised for different levels of stress tolerance to temperature and water stress (at the seed and early sprouting stage). - The seed treatments with the potential to enhance seed vigour (performance) will include priming in polyethylene glycol (PEG). Subsequent stress tests will be applied under controlled laboratory environment conditions, including cold test. - Gene expression markers (from ESR 7B) will be used to select seed lots of high stress tolerance for testing in the field. - Different sowing methods will be applied: a) broadcast sowing of treated/untreated seeds b) field planting of plugs grown in a greenhouse after laboratory germination of treated/untreated seeds. Furthermore, testing of stress tolerance, e.g. germination at low temperature, will be conducted in the laboratory and in soil at Syngenta. Results: - Seed lots ranked from higher or lower stress tolerance (publication 1 - yr 2 work). - The ability of seed lots to respond to treatments that can re-induce desiccation tolerance assessed (publication 2 - yr 2 work). - Reintroduction of seed lot with high stress tolerance to alpine meadow (publication 3 - yr 2 work). Contributing to milestone(m): 8, 15 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 28, 32, 33, 34, 35 Dissemination: - Presentation of the results at international conferences of Seed Ecology and Seed Biology. - To publish two publications in peer-reviewed journals, and report these at the ISSS Annual Meeting (years 1, 2 & 3). Planned secondments: 1. SSE, Seed priming in acidic grassland restoration; in Year 1; duration: 1 month 2. UNIPV, Continental species germ & restoration; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: Seasonality may affect seedling survival: a careful selection of study species will avoid this contingency39 Fellow ESR 11C Research sub programme C: Production and deployment of seed.. Host institution MUSE (co-supervised by SSE) Duration 36 months Start date month 7 Project title: Certification of seed quality and provenance (WP3). Supervisor name: A. Mondoni MUSE / G. Laverack SSE. PhD enrolment: Yes, awarded by UNIPV Objectives: - Establish the current state of regulations and practice across Europe - Identify quality requirements for genetic conservation and plant establishment - Develop a certification scheme for European native species that is grounded in the findings of NASSTEC and meets the growers needs Tasks and methodology: - Review EU and country regulations and their operation - Gather information from the commercial seed sector on the relevant needs (business drivers) with respect to current seed quality levels and challenges, encompassing the equipment development needs and costs to mechanise production, including the semiautomated production of seed mixtures. - Survey of seed users and conservation scientists problems with seed quality and availability (ground- truthing) - Assess the different factors affecting seed production and yield for native seeds and techniques developed by NASSTEC to enhance native seed production (e.g. provenance, gene expression, stress tolerance, shade tolerance, harvesting, etc) - GIS modelling of ecological and administrative units for potential zoning employing DEXI models Results: - Report on the current state of development of regulations, with suggestions for future developments - Identification of threats to conservation below species level and the role of the market in native seeds - Recommendations on regulation / certification Contributing to milestone(m): 8, 14, 19, 20, 22, 24, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 31, 33, 34, 35, 38 Dissemination: - Two peer-reviewed papers - Congress presentations at the Society for Ecological Restoration and positive interaction with the Restoration Alliance - Engagement EU policy makers bridging the commercial sector and the restoration practice Planned secondments: 1. BGPA, Plant establishment; in Year 1; duration: 1 month 2. MRS, industrial quality control; in Year 2; duration: 1 month 3. freely chosen by the ESR; in Year 3; duration: 1 month Risk assessment: An accurate and comprehensive picture for all EU countries may be difficult to obtain. Contact with local seed producers associations should mitigate this aspect Fellow ER 12C Research sub programme C: Production and deployment of seed.. Host institution SSE (co-supervised by SESIL) Duration 20 months Start date month 23 Project title: Transfer of NASSTEC knowledge to European seed producers (WP7). Supervisor name: G. Laverack SSE / C. Gálvez SESIL. PhD enrolment: No, not applicable Objectives: - To implement an efficient two-way communication between NASSTEC and the European seed producers - Efficiently Transfer relevant technology from NASSTEC to the European native seed producers, effectively integrating Industry and Academia Tasks and methodology: - Identify native seed producers and potential producers in all sectors in the EU and establish their technical needs - Gather information on the research and useful results delivered by all individual ESR projects by continuous contact with the whole NASSTEC community, facilitating the delivery of the NASSTEC manuals - Carry out visits to selected project partners and seed producers, keeping in contact with the general public. - Keep the Information Facility up to date with information exchange and using website and social media to communicated within and beyond the NASSTEC community. Results: - Active contribution to website and social media and coordination of D33 - native plants displays in partner countries. - Direct contacts and special meetings with EU native seed producers to implement technology transfer - Supporting the delivery of the NASSETEC European Native Seed Production Manual (D39) Contributing to milestone(m): 8, 14, 19, 20, 22, 24, 25, 26 & deliverable(d): 7, 10, 14/15, 16, 19, 21, 23/26, 27, 31, 33, 34, 35, 38 Dissemination: - The project website, social media and side events at Seed biology meetings (e.g. ISTA, SER, Seed Ecology, ISSS), - Special meetings with Seed producer targeting selected producers and producers association (Flora locale & VWW) - Promoting the NASSETEC European Native Seed Production Manual (D39) with all relevant stakeholders identified - One review paper on a peer reviewed journal Planned secondments: 1. SESIL, seed production for restoration; in ER Year 1 (ESR year 2); duration: 1 month 2. freely chosen by the ESR; in ER Year 2 (ESR year 3); duration: 1 month Risk assessment: Poor feedback from target audience should be addressed showcasing the business opportunities connected with native seed production. 2340 B.4.3. Management structure, organisation and procedures B Network organization and management structure For the ITN management, the coordinator will be supported by a full time project officer (to be recruited). S/he will be in charge of the day-to-day practical management of the network and will interconnect all ESRs/ER, their supervisors, other partners staff, the REA and the committees described below. The project will employ an on-line project management platform (such as Glasscubes) providing different levels dashboards where project activities will be planned, modified and regularly updated electronically, implementing an automated reminder system and an on-line workspace including forums, discussion areas, conference calls, on-line file sharing and storage. The project officer will run the project helpdesk to answer all queries from inside and outside the network, will organise all technical meetings of the project committees and boards (see diagram below), the Annual General meetings and assist with the logistics of the training events. S/he will prepare minutes and collate reports, set internal deadlines, constantly remind the outstanding actions and contributions required from the relevant key person. S/he will regularly provide to partners the format and templates necessary for the required reports. In its leadership role, the coordinator will be supported by a deputy that will assist him, should any problem arise. The deputy role will be taken over by SSE in particular by Dr. Giles Laverack, providing in this way an additional link with industry. The main decision making body of the network will be the NASSTEC executive committee (E-COM), composed by 5 representatives: the coordinator (MUSE) and/or his deputy (if necessary), the leader of S&T Hugh Pritchard (RBGK), the leader of Training Pietro Iannetta (JHI), the representative of private companies, Giles Laverack (SSE) and 1 representative of the ESRs. The latter will be democratically elected by all ESRs. The E- COM will enforce the project workplan dealing with all network scientific and training activities, ensuring the high quality of the science produced by the network, monitoring and auditing its implementation. The E-COM will meet every 1 or 2 months (as necessary) by electronic meansand face to face when occasion arises (for the kick off meeting and then twice a year for the 2 annual joint network events (7 times over the 4 years duration of the project). Additional initial bilateral visits between the coordinator and the partners may take place as needed (at least one per partner). The E- COM will appoint and seek regular advice from an external advisory board that will act as an audit panel. This advisory board will include 3 high profile independent scientists in the relevant field. The advisory board will be asked to join the Annual network meetings, where it will carry out an independent review of the project activities. The E-COM reports to the supervisory board that ratifies its decisions. The Supervisory board is chaired by the coordinator, is composed of delegates of all network partners, both FP and AP and the ESR representative. It will meet face to face once a year in conjunction with scheduled network events (3 times in total over the whole duration of the project). If necessary it might meet more frequently via electronic 2441 means if at least 2 members call for a meeting. The day-to-day interface with the ESRs is entrusted to the individual research topic supervisors based locally. According to the recommendations of the European Charter for Researchers supervisors and an additional local tutor will be officially designated for each ESR by the local host and ratified by the supervisory board. They will be expected to meet at regular intervals with the ESRs and keep records of such meetings to be copied to the network coordination. They will be in close contact with the Mentor of each sub programme who is also expected to join in electronically to some of these regular meetings on a quarterly basis. Table 7. Calendar of face to face management meetings: N. Management meetings (2 events per year) Planned venue Planned date Participants 1 Kick off meeting (D1) MUSE May 2014 all partners, full and associated st Annual General Meeting (D6) UNIPV Oct 2014 all partners, full and associated, all ESRs 7 3 Mid term review (M17) MUSE Oct 2015 the e-com nd Annual General Meeting (D17) SYN Feb 2016 all partners, full and associated, all ESRs rd Annual General Meeting (D24) MUSE Sep 2016 all partners, full and associated, all ESRs 30 6 Conclusion meeting (D36) RBGK Sep 2017 all partners, full and associated 42 Month According to the Special Clause 5 bis of Article 7 of the Grant Agreement, a mid-term review meeting must be organised, preferably during month of the project. The venue and organisation of this meeting will be of the responsibility of the coordinator, and the timing and location of the meeting must be agreed with the REA project officer. B Financial management The coordinator will entrust the financial management of the project to an experienced finance officer (Dr Denise Eccher) based at MUSE that actively led the financial management of 5 EU projects in the last 6 years, 2 of which in coordinator s role. A traffic light system will also be employed to link the payment of financial advances to the effective delivery of the agreed work plan; such a system was successfully employed in a previous project that involved 24 project partners (FP6-Ensconet) and can be considered an effective contingency planning and risk management system. A certain percentage (approx 30% of the training budget (category 3) will be withheld by the coordinator in a common basket to support participation to the training events of Associated Partners and to support the expenses of network-wide training activities. B Recruitment strategy The E-COM will be in charge of the recruiting operations. It will produce specific guidelines for recruitment that will define the requirements needed for enrolment in the ITN and the subject area, open to first class degrees that qualify for enrolment on a PhD programme. They will enforce the EU Code of Conduct for the Recruitment of Researchers and provide practical recommendations to promote the effective implementation of the European Charter for Researchers, creating a supportive environment and working culture in each partner organisation. The E-COM will make sure that the job descriptions comply with the prerequisites and conditions for eligibility of candidates to ESR/ER positions as set out in the Marie Curie People work programme. The E-COM will ratify all the selection panels appointed by each partner for candidate selection recommending that they should be composed by at least 3 members and that at least 1 originate from a country other than the host and that at least 1 is female to grant gender balance. The E-COM will organise a specific training course on candidate selections procedures that is mandatory for each panel component, issuing specific evaluation criteria designed to judge impartially the achievements of each candidate taking into account a wide range of the candidate s abilities including group work ability, mobility experience, project management, public awareness activities, industrial involvement and knowledge transfer. All recruitment 2542 procedures will be conducted in the same open, efficient and transparent way in all countries including assessment of CV, a set of interviews and written assignments. A minimum period of 2 months between the publication of the position advert and the deadline for submission will apply. All details of the recruiting procedures will be publicly accessible. Positions will be widely advertised via websites with banners and links but also with printed flyers, targeting the relevant stakeholders. National information days will be organised in country where partners are based. Adverts will be posted on the global European and the national Euraxess portal. All appointed ESRs will be briefed on The European Charter for Researchers and the ethical principles they should abide to, illustrating in detail what they should expect from their appointments and the constraints they will be subject to, detailing safe working practices, research freedom, intellectual property rights, joint data ownership, co-authorship, relation with supervisors, career opportunities, continuous professional development (CPD), etc. B Gender aspects The E-COM will urge all partners to do their best to remove all local administrative and legal obstacles to obtain full employment contracts, even if temporary, for all ESRs/ER, making sure all social security provisions are granted providing working conditions which allow both women and men researchers to combine family and work, children and career. Specific provisions will be put in place to grant maternity leave, and if necessary a specific extension of the project duration will be negotiated with the EU to grant female researchers the possibility of resume their research appointment within the network without any major disadvantage or drawback caused by the maternity interruption. In order to promote women participation, gender balance, equal opportunities and disadvantaged groups access, the E-COM will urge each partner to allow maximum flexibility in working hours, also considering tele-working and remote access when appropriate; however under no circumstance will less advantaged groups have precedence over quality and competence criteria. Career breaks will in no circumstance be penalised. A family audit procedure will be implemented throughout the network taking the move from MUSE family audit system aimed at monitoring women and family needs and designing adequate tools to accommodate them, aiming to be effectively user oriented. A Equal Opportunities officer will be officially appointed to facilitate promotion of gender aspect throughout the network. Outreach activities gender oriented are included in the list of outreach activities in B.5.3 The E-COM will adopt a Gender Action Plan that will implement the points laid out above setting a target of 40% women in recruiting and a gender balance in the E-com and supervisory board. B Intellectual property Because of the potential commercial benefits of the findings in NASSTEC, appropriate IP rights and patenting management will be crucial for the successful interaction of academia and industry. A specific IP strategy will be developed, agreed and included into D5, thanks to UNIPV IPR office that will actively monitor Nasstec R&D technological solutions to verify their originality, uniqueness and innovative potential constantly comparing them with the market leader in the respective industrial sector. In doing so, the IPR office will be supported by J. Slaven, Patent Attorney, expert on patenting and IPR Syngenta department of IP Crop Protection. The IPR office will support and facilitate the interaction with the EU IPR helpdesk (www.iprhelpdesk.eu), being available for the whole duration of the project to support recognition and protection if IP developed in the course of the project and providing advice to promptly identify technology suitable for patenting and facilitating its registration process. B Subcontracting NOT applicable B Third parties (other than subcontractors) NOT applicable B Consortium Agreement A Consortium Agreement will be signed within the first 2 months of the project. 2643 B.4.4. Project monitoring and key performance indicators Periodic and final reports are contractual deliverables, according to Article 4 and II.4 of the Grant Agreement. In addition, progress reports are due at the end of the first and third year in order for the REA to monitor the implementation of the project. When preparing those documents, the coordinator should report according to the following key performance indicators and specify the means to monitor them. B Research Activities Research results obtained (including a short description of progress on the individual projects) and deviations, if any, to the original research work plan. Scientific highlights and achievements (scientific/technological breakthrough, patents, awards, prizes etc...). A full list of individual and joint publications, directly related to the work undertaken within the project (including citation index and impact factor), with appropriate acknowledgment of the funding source. Intersectoral and multidisciplinary collaboration. B Training Activities Implemented training events/activities and deviations, if any, to the original training plan (including Career Development Plans, coaching or mentoring activities in place at each host institution). Participation of the fellows in training events and meetings from the network (workshops, seminars, summer schools, etc), and at international conferences outside the network (names, places, dates). Transferable skills training (e.g. project management, presentation skills, language courses, ethics, intellectual property rights, communication, entrepreneurship, etc.). Implementation of visits/secondments undertaken within the network to both full participants and associated partners. B Management activities Status of ESR/ER recruitments at each participant, and relevant issues related to the recruitment strategy/process and gender balance, with justification for any deviation from the original plan. Effectiveness of networking, communication and decision-making between stakeholders. Effectiveness of the "training events and conferences": external participation and integration in the training programme. Effectiveness of the financial management and compliance with Marie Curie salary rates. IPR management and commercial exploitation of research results. B Dissemination and outreach activities Implementation and analysis of the proposed outreach activities and deviations, if any, to the original work plan. Analysis of the dissemination activities. 2744 B.5 Impact B.5.1. Impact towards the policy objectives of the programme Most growers and producers of native seeds in Europe are individuals or very small companies with only a few employees. Current career paths are generally from conservation work with an environmental background or from horticultural seed production. In most cases crucial knowledge of the scientific and technical characteristics of native seeds are lacking and there is no established route for access to this knowledge for producers. Many producers are operating on a trial and error approach and use of anecdotal evidence. Error is prevalent and in some cases an entire mythology has emerged relating to seed longevity and storage, dormancy, germination and quality testing and the significance of seed origin. Native seed producers often lack many of the resources available to established conventional seed producers: links with academia; research and development capability; trade associations with lobbying capacity; access to capital; marketing skills. Demand often exceeds supply, especially for species which are difficult to produce. The recent enactment of directive 2010/60/EU, affecting a range of fodder crops which are native species, also demonstrates the weakness of the producers in influencing their trading environment. The directive is widely seen as restrictive in ways which are problematic to producers and detrimental to conservation while protecting the interests of plant breeders. NASSTEC plans to make an impact on the European market by training the personnel needed for its development with a wide range of skills. The project s main goal to create a network of academic and industry specialists able to produce and use European native seed effectively and efficiently will be achieved by connecting four leading academic institutions, with experience in seed science and plant biodiversity, with three private companies as full partners and seven associate partners. This will allow the establishment of a high profile European doctorate at UNIPV in the area of seed research for native species as part of the Earth and Environmental Sciences PhD stream, outing NASSTEC researchers at the forefront of native seed science. The project ESRs and ER career prospects will be enhanced by their participation in a range of varied but integrated research projects at PhD level, coordinated across a set of organisations. This arrangement will allow the opportunity to experience a comprehensive range of activities, which make up this developing area of native seed science and technology. The projects will attract well qualified and motivated individuals and to allow them to choose the subjects which interest them most and to tailor their training to their individual needs by access to the partners and to the wider contacts of the network. ESRs/ER will have access to excellent laboratory facilities and the most experienced scientific and technical professionals possible; and to real examples of practical applications of the use of native seeds. It will enable ESRs/ER to construct a broad view of the various areas of work in this subject which will help them in their future careers in research, research and development in seed production or advisory work in the use of native seeds by allowing them the flexibility to move between different sectors and to understand and incorporate the varying needs in their own work, offering recruitment and career opportunities. Each ESR/ER will feel part of a thriving international research community articulated in a complex and yet well targeted network. The scientific, technical and entrepreneurial skills which will be gained by ESRs/ER in NASSTEC are needed in the public and private sector by existing employers and new employers as more companies and countries begin native seed production. We see the researchers, on graduation, as valuable assets to the types of organisation participating in the project universities, research centres, public land bodies, NGOs, seed producers and to a wider range of employers including consultants, engineering companies and government departments. Experience in the project will give 2845 researchers the skills and confidence to work in EU countries with developed native seed production and research and also countries with little or no current involvement in this area. The UNIPV PhD structure set up for NASSTEC is seen as a key long-term collaboration which will persist beyond the period of the project with ongoing contributions from the project partners. The links between industry, the public sector and NGOs will be strengthened during the project in ways which will extend beyond the life of NASSTEC funding as many more questions will be raised by these initial collaborations and the relationships will be established to pursue them jointly. The expected results will include the graduation of highly employable researchers and ESR/ER career prospects will be monitored by recording and reporting feedback from contacts of individual researchers with potential employers (where this is not confidential) at year three and actual careers will be monitored at the end of the project. and beyond. Positive discussions and, above all, appointments in a relevant subject area will be seen as indicators of success. B.5.2. Plans for exploitation of results and Dissemination strategy Dissemination to the research community beyond the NASSTEC partners will be through: A project website, actively used, promoted and linked to relevant sites including forums, social networking tools and open-access publishing. Publications (as detailed below) Researchers joining scientific associations and congresses (as detailed below) Production of a NASSTEC Manual of results (as detailed below) Guidelines on seed production and use for EU regulatory services The programme of visiting scientists The workshop programme which will be open to invited guests The end of project conference and published proceedings A dissemination and use plan will be prepared in the first phase of the project. In total 23 papers (2 by each ESR and 1 by the ER) will be submitted to the journals listed below, aiming to effectively publish at least 12 of them within the project duration (being deliverable D30, 31, 32 (for individual details please refer to the dissemination tab in each individual project description in section B.4.2) List of target journals addressed by ESR/ER for submitting publications: PNAS, Trends in Plant Science, Annals of Botany, Journal of Applied Ecology, Journal of Ecology, Conservation Biology, Biological conservation, Biodiversity and Conservation, Seed Science and Research, Seed Testing International, Ecography, Oikos, Plant Biosystems, Nordic Journal of Botany, Plant Physiology, Crop Science, the Plant Journal, Ecological Management & Restoration, Ecological Restoration, Restoration Ecology, New Phytologist, Annals of Botany, Environmental and Experimental Botany, Flora, Journal of Vegetation Science, Integrative and Comparative Biology, Physiologia Plantarum, Plant Biology, As a whole the project will be presented to at least 32 international congresses and conferences as detailed in the dissemination tab of each individual project description in section B.4.2. Oral and Poster presentations will be submitted to the following target conferences: the World Conference on Ecological Restoration and the European Conference on Ecological Restoration organised periodically by the Society for Ecological Restoration (SER); the International Congress for Conservation Biology (ICCB) and the European Congress for Conservation Biology (ECCB) organised periodically by the Society for Conservation Biology (SCB); the Annual meeting of the British Ecological Society; the Seed Ecology conference: an international meeting on seed and the environment and the workshops on the Molecular Aspects of Seed Dormancy and 2946 Germination organised periodically by the International Society for Seed Science (ISSS); the IUCN conference; the International Seed Testing Association Congress; the Landa Restauration Congress, the congress of the Asociacion Española de la Ingenieria del Paisaje; the European Botanic Garden Congress (Eurogard) and the Global Botanic Garden Congress organised every three years by Botanic Gardens Conservation International, The International Botanical Congress; the Annual Botany Conference of the International Association for Plant Taxonomy; the International Congress of Ecology organised by the International Association for Ecology (INTECOL) and other similar conferences local, national or regional interest. Selected contributions will also be presented at the final project conference and will be published in the conference proceedings (D41). As a whole the ESRs/ER in the project will contribute to publish 12 issues of the project newsletter and to the following 6 joint project publications including manuals, guidelines, protocols and case studies: Protocols for germination/cultivation/characterisation of target material (D28), Manual for species selection in grassland restoration (D30), Manual for quality certification procedures for native seeds (D31), Guide to dormancy and germination (M15), Manual for adaptation, dormancy and germination (D32), Manual for technology transfer to the EU native seed industry (D38). All of these will be collated in a general Nasstec Manual (D39). (for the individual involvement of each ESR/ER in these products please refer to the results tab in each individual project description in section B.4.2). The visiting researchers (identified in Prof. Kingsley Dixon and Dr. Dave Merritt from Associated Partner BGPA) will join in person the project community for a few days/weeks in preparation of the following 3 key network events: during the Induction Course at the beginning of the ESR appointment (D9 in Oct 2014 in Pavia, Italy); half way through the ESR training for the Complementary skills workshop 1 - mock grant application, IPR and patenting (D17 in Feb 2016 in the Netherlands) and at the final conference (D31 in Sep 2017 in Kew, UK). As required by Annex II of the grant agreement, the coordinator will ensure that all publications and presentations by members of the project consortium - including all funded fellows - acknowledge the EU financial support received. This acknowledgement should specifically refer to the Marie Curie Initial Training Networks (ITN) action, as well as the project number and acronym. B.5.3. Outreach activities Outreach activities to the general public will be prioritised as a specific programme within the project, led and coordinated by MUSE, and implemented by the research fellows. ESRs will be required to carry out dissemination and outreach activities as part of their contracts of employment, with carefully-planned activities for each ESR, as detailed in the outreach plan (M12). These will not be overly-prescriptive but rather appropriate activities related to their own projects and host institutions. In their planning for each outreach activity ESRs will formulate clearly the impact they wish to achieve with special attention to Responsible Research and Innovation (RRI). The impact of the ESR-led public-engagement activities will also be highlighted and publicised at the Annual Meeting, on the project website and in the regular Newsletter. A necessary indexing and selection criterion of the metadata pertaining to the outreach and dissemination activities will be the first step in the outreach programme and will be carried out at the beginning of the ESR appointment using LOM descriptors (Learning Object Metadata) that will be used to index all the material produced (M9). These descriptors will be included in the outreach plan (M12). The model of the teachers community of practice lead by MUSE a on sustainability issues will taken up by NASSTEC, creating a similar community for native seeds (M13). 3047 The actual outreach tasks and deliverable will be the following: D10 - A quarterly newsletter - A standard outreach tool, supplemented by press releases, leaflets, posters and the regular use of social media carried out both centrally by the project officer and individually by each fellow form the beginning of their appointment D14 - IBSE activities designed for schools. The existing connection with the EU project INQUIRE - Inquiry-based teacher training for a sustainable future (thanks to MUSE and RBGK) will be used to select, adapt and use established resources for environmental education in schools and botanic gardens relevant for the use of native seeds and plants, both in formal and informal settings. At least 6 ESRs will therefore select, adapt or develop a specific IBSE (Inquiry Based Science Education) to use with local schools D15 - Six participants to the local Researcher s night (minimum). Selected partners/esrs (minimum six) will contribute to the local edition of the EU researcher night, offering to develop/host a local session if no local edition has been already planned in the vicinity of a partner site. This event is usually held in September. D23 - Six Marie Curie Ambassadors in schools. At least 6 ESRs will be required to make contacts with selected local schools, planning and running a day visit as Marie Curie Ambassadors to introduce the project and highlight its benefit to society, using one of the IBSE activities designed in D14. These might also include seed collecting days and seed sowing events that will be used to target also parents of pupils, to raise awareness of the importance of native seeds and of the research being carried out in NASSTEC. D26 - Six participants to the Famelab contest in selected countries - Selected partners/esrs (minimum six) will contribute to the local edition of the FAMELAB contest (www.famelab.org), offering to develop/host a local session if no local edition has been already planned in the vicinity of a partner site. This contest aims at electing the brightest science communicator in each partner country, eventually reaching the European finals. D27 - Two weeks school teachers placements in each partner lab. Contacts will local schools will also be used to offer teachers the opportunity to spend a two weeks placement period in each partners lab, during the summer school break, to raise awareness of the use of native flora among teachers and educators D33 - Native flower beds display in 5 key cities of the partner countries. The project success will be celebrated with native seeds, plants and flower beds display in 5 cities of all partner countries, showcasing the real product that the project aims to deliver. M27 - All Training and outreach material loaded onto Scientix - the EU science education portal and LRE - the Learning Resource Exchange portal Table 8. List of Outreach Milestones and Deliverables: N. M & Milestone or Deliverable title Lead ESR /ER by D N. organisation involved month 1 D10 Project newsletter - quarterly from month 7 to month 40 RBGK all M9 LOM selected for training and outreach material JHI none 12 3 M12 Target audience and outreach plan and social media started MUSE none 14 4 D14 6 IBSE activities designed for schools (minimum) All ½ of all ESRs* 15 5 M13 Set up community of practice in education MUSE none 16 6 D15 6 participants to the local Researcher s night (minimum) All ½ of all ESRs* 18 7 D23 6 Marie Curie Ambassadors in schools (minimum) All ½ of all ESRs* 27 8 D26 6 participants to the Famelab contest in selected countries (minimum) All ½ of all ESRs* 30 9 D27 2 weeks school teachers placements in each partner lab All all D33 Native flower beds display in 5 key cities of partner countries (minimum) All all except 3,7, M27 Training and outreach material loaded onto Scientix All none 42 will be done centrally by the project officer being an organisational/reporting task * to be freely chosen by the ESR (alternative options D14/15; D23/26) 3148 B.6 Ethical issues The Beneficiaries accept to uphold the highest standards of scientific integrity and ethical conduct during the implementation of the grant agreement. No ethical issues are raised by NASSTEC, as confirmed by the Evaluation Summary Report.49 PART C: Overall indicative project deliverables 3350 PART D: Overall maximum EU contribution 34 Vedere altro
LAZIODISU. BANDO DI CONCORSO PUBBLICO, PER TITOLI ED ESAMI, PER LA COPERTURA DI N. 4 POSTI DI OPERATORE INFORMATICO, cat. B3.
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Ministero dell Istruzione, dell Università e della Ricerca Ufficio Scolastico Regionale per la Lombardia Ufficio VI Personale della scuola BANDO DI CONCORSO DEL DIRETTORE GENERALE REGIONALE DELLA LOMBARDIA Dettagli AZIENDA SANITARIA LOCALE 2 SAVONESE BANDO DI CONCORSO PUBBLICO RISERVATO
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