Source: http://ufgrunwald.com/publications/?s=
Timestamp: 2019-04-21 16:51:02+00:00

Document:
Clingensmith C.M., S. Grunwald and S.P. Wani. 201_. Evaluation of calibration subsetting and new chemometric methods on the spectral prediction of key soil properties in a data-limited environment. European J. of Soil Science (in press).
Viscarra Rossel, R.A., T. Behrens, E. Ben-Dor, D.J. Brown, J.A.M. Demattê, K.D. Shepherd, Z. Shi, B. Stenberg, A. Stevens, V. Adamchuk, H. Aïchi, B.G. Barthès, H.M. Bartholomeus, A.D. Bayer, M. Bernoux, K. Böttcher, L. Brodský, C.W. Du, A. Chappell, Y. Fouad, V. Genot, C. Gomez, S. Grunwald, A. Gubler, C. Guerrero, C.B. Hedley, M. Knadel, H.J.M. Morrás, M. Nocita, L. Ramirez-Lopez, P. Roudier, E.M.R. Campos, P. Sanborn, V.M. Sellitto, K.A. Sudduth, B.G. Rawlins, C. Walter, L.A. Winowiecki, S.Y. Hong and W. Ji. 2016. A global spectral library to characterize the world’s soil. Earth-Sci. Rev. 155, 198–230. doi:10.1016/j.earscirev.2016.01.012. (pdf). This paper won the Pedometrics 2016 Best Paper award of the International Union of Soil Sciences.
Kwon H.Y. and S. Grunwald. 2015. Inverse modeling of CO2 evolved during laboratory soil incubations to link conceptual pools in CENTURY model with directly measured soil properties. Soil Science 180(1): 28-32 (pdf available per request or Research Gate).
Ramnarine R., W.G. Harris and S. Grunwald. 2015. Predicting the distribution of naturally-occurring phosphatic soils across a county wide landscape, Florida, USA. Communications in Soil Science and Plant Analysis. DOI: 10.1080/00103624.2015.1043453 (pdf).
Bliss C.M., N.B. Comerford, D.A. Graetz, S. Grunwald and A.M. Stoppe. 2014. Land use influence on carbon, nitrogen, and phosphorus in size fractions of sandy surface soils. Soil Sci. J. 178: 654-661 (available per request or Research Gate).
Rivero R.G., S. Grunwald, T.Z. Osborne, K.R. Reddy and S. Newman. 2007. Characterization of the spatial distribution of soil properties in Water Conservation Area -2A, Everglades, Florida. Soil Science 172(2): 149-166 (reprints available upon request or Research Gate).
Grunwald S., P. Barak, K. McSweeney and B. Lowery. 2000. Soil landscape models at different scales portrayed in Virtual Reality Modeling Language (VRML). Soil Sci. 165(8): 598-615 (reprints available upon request).
Grunwald S. (ed.), 2006. Environmental Soil-Landscape Modeling – Geographic Information Technologies and Pedometrics. CRC Press, New York, NY.
Grunwald S., D.J. Brown and P. Goovaerts (eds.). 2007. Special Issue Geoderma – Pedometrics. Vol. 140(4): 323-455.
Grunwald S. (ed.), 2006. Environmental Soil-Landscape Modeling – Geographic Information Technologies and Pedometrics. p. 488. CRC Press, New York.
Chaikaew P., S. Grunwald and X. Xiong. 2014. Estimation of the actual and attainable terrestrial carbon budget. The 6th Global Workshop on Digital Soil Mapping – Digital Soil Mapping Across Paradigms, Scales and Boundaries. Nanjing, China, Nov. 11-14, 2014.
Grunwald S., P. Chaikaew, B. Cao, X. Xiong*, G.M. Vasques, J. Kim, C.W. Ross, C.M. Clingensmith, Y. Xu and C. Gavilan. 2014. Integrative soil carbon modeling across various ecosystems and scales. The 6th Global Workshop on Digital Soil Mapping – Digital Soil Mapping Across Paradigms, Scales and Boundaries. Nanjing, China, Nov. 11-14, 2014.
Peng Y., X. Xiong, K. Adhikari, M. Knadel, S. Grunwald and M. Humlekrog Greve. 2014. Modeling top SOC by combining multi-spectral images with laboratory spectra. The 6th Global Workshop on Digital Soil Mapping – Digital Soil Mapping Across Paradigms, Scales and Boundaries. Nanjing, China, Nov. 11-14, 2014.
Yu C., S. Grunwald and X. Xiong.. Transferability and scaling of VNIR prediction models for soil total carbon in Florida. The 6th Global Workshop on Digital Soil Mapping – Digital Soil Mapping Across Paradigms, Scales and Boundaries. Nanjing, China, Nov. 11-14, 2014.
Zhang B. and S. Grunwald. 2014. Spatial assessment of soil organic carbon using Bayesian maximum entropy and partial least square regression models. The 6th Global Workshop on Digital Soil Mapping – Digital Soil Mapping Across Paradigms, Scales and Boundaries. Nanjing, China, Nov. 11-14, 2014.
Myers D.B., N.R. Kitchen, K.A. Sudduth, E.J. Sadler, R.J. Miles and S. Grunwald. 2012. Response surface models of subsoil K concentration for loess over till soils in Missouri. Proceedings of the 42nd North Central Extension/Industry Soil Fertility Conference, Des Moines, IA, Nov 14-15, 2012.
Grunwald S. and G.M. Vasques. 2010. Synthesis of knowledge on soil carbon spatial patterns across a large subtropical soil-landscape in southern U.S. World Congress of Soil Science, Brisbane, Australia, Aug. 2-6, 2010.
Viscarra Rossel, R. (ed) incl. 40 collaborators from 27 countries incl. Grunwald S. 2008. The soil spectroscopy group and the development of a global spectral library. 3rd Global Conference on Digital Soil Mapping organized by the International Union of Soil Sciences, Soil Science Society of America and Utah State University, Sept. 30-Oct. 3, 2008, Logan, UT.
Grunwald S. 2008. Multi-criteria assessment of digital soil modeling approaches. 3rd Global Conference on Digital Soil Mapping organized by the International Union of Soil Sciences, Soil Science Society of America and Utah State University, Sept. 30-Oct. 3, 2008, Logan, UT. Invited keynote talk.
Grunwald S., G.M. Vasques, N.B. Comerford, G.L. Bruland, C.M. Bliss and J.O. Sickman. Biogeochemical soil-landscape modeling. 3rd Global Conference on Digital Soil Mapping organized by the International Union of Soil Sciences, Soil Science Society of America and Utah State University, Sept. 30-Oct. 3, 2008, Logan, UT.
McKay Philippe J., S. Grunwald, X. Shi and R. Long. 2008. Evaluation of the transferability of a knowledge-based soil-landscape model. 3rd Global Conference on Digital Soil Mapping organized by the International Union of Soil Sciences, Soil Science Society of America and Utah State University, Sept. 30-Oct. 3, 2008, Logan, UT.
Vasques G.M. and S. Grunwald. Soil organic carbon estimation from lab-based spectroscopy in the State of Florida. 3rd Global Conference on Digital Soil Mapping organized by the International Union of Soil Sciences, Soil Science Society of America and Utah State University, Sept. 30-Oct. 3, 2008, Logan, UT.
Myers B.D., N.R. Kitchen, K.A. Sudduth, S.Grunwald, R.J. Miles, E.J. Sadler and R.Udawatta. 2008. Combining proximal and penetrating conductivity sensors for high resolution soil mapping. Global Workshop on High Resolution Digital Soil Sensing and Mapping, Sydney, Australia, Feb. 5-8, 2008.
Beck H., K. Morgan, J. Scholberg and S. Grunwald. 2006. Implementation of in-season irrigation and nutrient yools for minimizing environmental impacts of citrus and sugarcane production. World Congress on Computers in Agriculture, Orlando, FL, July 24-26, 2006.
Morgan K., H. Beck, J. Scholberg and S. Grunwald. 2006. In-season irrigation and nutrient decision suport system for citrus production. World Congress on Computers in Agriculture, Orlando, FL, July 24-26, 2006.
Chen S.-S. and S. Grunwald. 2005. The spatial/temporal indexing and information visualization genre for environmental digital libraries. Int. Conference on Universal Digital Library (ICUDL2005), Zhejiang University, Hangzhou, China, Oct. 31 – Nov. 1-2, 2005 (10 pages; ID #178).
Grunwald S. and G.L. Bruland. 2005. Expanding distance education in the spatial sciences. pp. 99-102. International Conference on Education and Information Systems: Technologies & Applications (EISTA), Orlando, FL, July 14-17, 2005. (The paper was selected as the best paper in the session “Internet-Based Teaching / Distance Learning”).
van Griensven A., T. Meixner, S. Grunwald and R. Srinivasan. 2005. Evaluation methods for SWAT models. SWAT 3rd Int. Conference, Zuerich, Switzerland, July 11-15, 2005.
Grunwald S., V. Ramasundaram, N.B. Comerford and C.M. Bliss. 2004. How realistic are our translations of real soil-landscapes and ecosystem processes? pp. 34-44. Global Workshop on Digital Soil Mapping, Montpellier, France, Sept. 14-17, 2004.
Grunwald S., K.R. Reddy and J.P. Prenger. 2004. Characterization of the spatial and parameter variability in a subtropical wetland. pp. 89-74. Int. Environmetrics Society & Symposium on Spatial Accuracy Assessment, Portland, ME, June 28-July 1, 2004.
Grunwald S. 2003. 3D geographic information technology used for site-specific agricultural management. pp. 83-88. 4th European Conference on Precision Agriculture (ECPA), Berlin, Germany, June 15-18, 2003 (proceeding paper – oral presentation).
Grunwald S., D.J. Rooney, K. McSweeney and B. Lowery. 1999. Application of a profile cone penetrometer to distinguish between soil materials. pp. 41-44. 3rd Conference of the Working Group on Pedometrics of IUSS, Sydney, Australia, Sept. 27-29, 1999.
Chaikaew P. 2010. Valuing watershed services. EcoLearnIT Reusable Learning Object Systems #65. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=459.
Chaikaew P. 2010. Understanding watershed services and attributes. EcoLearnIT Reusable Learning Object Systems #64. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=446&final_id=64.
Kwon H.Y and S. Grunwald. 2010. Ontology in information science and ontology-based modeling. EcoLearnIT Reusable Learning Object Online Journal #62. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=410.
Kanniappan I., K. Chandrasekaran, S. Grunwald, V. Pirabu and B. Hoover. 2009. Drip fertigation in banana. EcoLearnIT Reusable Learning Object System #31. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=135.
Chandrasekan K., V. Pirabu and S. Grunwald. 2009. Electronic agriculture. EcoLearnIT Reusable Learning Object System #241. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=241.
Chandrasekaran K., P. Kuppannan, V. Palanichamy and S. Grunwald. 2008. Assessing the performance of tank irrigation systems. EcoLearnIT Reusable Learning Object Systems #3. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=93.
Chandrasekaran K., P. Kuppannan, V. Palanichamy and S. Grunwald. 2008. Harvesting rainwater. EcoLearnIT Reusable Learning Object System #2. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=80.
Grunwald S. 2008. Geographic information systems and water management. EcoLearnIT Reusable Learning Object System #6. Available at: http://ecolearnit.ifas.ufl.edu/viewer.asp?rlo_id=16.

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