Source: https://www.esc.cam.ac.uk/library/research-skills-1/reading-lists
Timestamp: 2019-04-20 02:48:02+00:00

Document:
Please note that if references are marked with an asterisk (*) ,they have been highlighted by your lecturers as being particularlyuseful to you.
These references are for all lectures in this course.
Bourdon, B. et al, (2003) Uranium-series geochemistry, Review in Mineralogy & Geochemistry, Vol. 52.
Dickin, A.P.(2005) 2 nd Ed. Radiogenic isotope geology, Cambridge University Press.
Faure, G. (1986) Principles of isotope geology, Wiley.
Mason, B, (1982) Principles of geochemistry, Wiley.
Powell, R. (1979) Equilibrium thermodynamics in petrology.
Rollinson, H.(1993) Using geochemical data: evaluation, presentation, interpretation. Longman Scientific & technical.
Spear, F.S. (1993) Metamorphic phase equilibria and pressure-temperature-time paths.
Taylor, S.R. & McLennan S.M. (1985) The continental crust, Blackwell Scientific.
Rice J.M. and Ferry J.M. (1982) “Buffering, infiltration and the control of intensive variables during metamorphism.” in Ferry J.M. (ed) Mineralogical Society of America Reviews in Mineralogy, 10, 263-326.
Essene. (1983) Geologic thermometry and barometry. IN: Characterization of metamorphism through mineral equilibria, Ferry, J. M. & Burt et al (Eds.) Rev Mineralogy 10, pp153-206.
*Carswell, D.A. & Harley, S.L., (1990) Mineral barometry and thermometry. In Eclogite-facies rocks (Ed. Carswell, Blackie). Pages 83-110.
If available online the journal title will be hyperlinked to ABSTRACT LEVEL.
A number of these references will be available in the part II/III reprint collection housed in the Library Office. A full listing of what is in this collection is available on the Library website.
A.P. Dickin, Radiogenic isotope geology, Cambridge University Press, 1995.
G. Faure, (1986) Principles of isotope geology, Wiley.
J. Hoefs, (1997) Stable isotope geochemistry, Springer.
H. Rollinson, (1993) Using geochemical data: evaluation, presentation, interpretation. Longman Scientific & technical.
Cerling, T.E. & Craig, H. (1994) Geomorphology and in-situ cosmogenic isotopes. Annual Review of Earth and Planetary Science22, 273-317.
Dawson, J.B. & Smith, J.V., 1975. Occurrence of diamond in a mica-garnet lherzolite xenolith from kimberlite. Nature 254, 580-581.
*Mather, K.A., Pearson, D.G., McKenzie, D., Kjarsgaard, B.A. & Priestley K. (2011), Constraints on the depth and thermal history of cratonic lithosphere from peridotite xenoliths, xenocrysts and seismology, Lithos, 125(1–2), 729–742, doi:10.1016/j.lithos.2011.04.003.
Herzberg, C., 2004. Geodynamic information in peridotite petrology. J. Petrology 45, 2507-2530.
Kinny, P.D. & Dawson, J.B., 1992. A mantle metasomatic injection event linked to late Cretaceous kimberlite magmatism. Nature 360, 726-728.
*Liu, C.Z. et al., 2008. Ancient, highly heterogeneous mantle beneath Gakkel ridge, Arctic Ocean. Nature 425, 311-316.
*Pearson, D. G. and Wittig, N. (2014). The formation and evolution of the subcontinental mantle lithosphere - evidence from mantle xenoliths. Treatise of Geochemistry, Volume 3: The Mantle and Core, Chapter 3.6, 255–292.Via CamTools only.
Davis, F.A., Hirschmann, M.M. & Humayun, M., 2011. The composition of the incipient partial melt of garnet peridotite at 3 GPa and the origin of OIB. Earth & Planetary Science Letters 308, 380-390.
K. Hirose & I. Kushiro, Partial melting of dry peridotites at high pressures: Determination of compositions of melts segregated from peridotite using aggregates of diamond, Earth Planet. Sci. Lett. 114 (1993) 477-489.
Hofmann, A.W. (2003). Sampling mantle heterogeneity through oceanic basalts: Isotopes and trace elements. Treatise on Geochemistry Volume 2, The Mantle and Core, 81-101.
Huang, S., Hall, P. & Jackson, M.G. (2011). Geochemical zoning of volcanic chains associated with Pacific hotspots. Nature Geoscience 4, 874-878.
*Pearson, D. G. et al. (2014), Hydrous mantle transition zone indicated by ringwoodite included within diamond, Nature, 507(7491), 221–224, doi:10.1038/nature13080.
*Walter, M. & 8 others (2011). Deep mantle cycling of oceanic crust: Evidence from diamonds and their mineral inclusions. Science 334, 54-57.
Wilson, Igneous Petrogenesis, Unwin Hyman, London, 466 pp, 1994.
Campbell, I. & Griffiths, R.W., 1990. Implications of mantle plume structure for the evolution of flood-basalts. Earth Planet Sci. Letts. 99, 79-83.
Campbell, I. 2005. Large Igneous provinces and the mantle plume hypothesis. Elements, 1, 265-269.
Farnetani, C. & Richards, M.A., 1994. Numerical investigations of the mantle plume initiation model for flood basalt events. Journal of Geophysical Research 99, 13813-13833.
*Richards, M.A., Duncan, R.A., and Courtillot, V.E., 1989, Flood basalts and hot-spot tracks: plume heads and tails: Science, v. 246, p. 103.
*Sobolev, S.V., et al. 2011, Linking mantle plumes, large igneous provinces and environmental catastrophes: Nature, v. 477, no. 7364, p. 312-316, doi: 10.1038/nature10385.
Thompson, R.N. & Gibson, S.A., 1991. Subcontinental mantle plumes, hot spots and preexisting thinspots. J. Geol. Soc. Lond. 148, 973-977.
*White, R. S. & McKenzie, D. P. 1989. Magmatism at rift zones: The generation of volcanic continental margins and flood basalts. Journal of Geophysical Research, *94*, 7685--7729.
Bryan SE, Riley TR, Jerram DA, Leat PT, Stephens CJ (2002) Silicic volcanism: an undervalued component of large igneous provinces and volcanic rifted margins. In: Menzies MA, Klemperer SL, Ebinger CJ, Baker J (eds) Magmatic Rifted Margins. Geological Society of America Special Paper 362: 99-120.
*Gallagher, K. & Hawkesworth C.J., 1992. Dehydration melting and the generation of continental flood basalts. Nature 358, 57-59.
*Gibson, S.A., Thompson, R.N., Day, J.A. 2006. Timescales and mechanisms of plume-lithosphere interactions: 40Ar/39Ar geochronology and geochemistry of alkaline igneous rocks from the Paraná--Etendeka large igneous province. Earth Planet Sci. Lett. 251, 1-17.
Philpotts & Ague. (2008) Principles of Igneous and Metamorphic Petrology, Cambridge University Press (2nd ed).
Spear 1993. ‘Metamorphic phase equilibria and pressure-temperature-time paths'.
Philpotts and Ague. ‘Principles of Igneous and Metamorphic Petrology'. Chapter 8.
Yardley, B. 1989. ‘An introduction to metamorphic petrology'. Chapter 3.
Austria. Schweiz Min und Pet Mitt 61, 237-273.
Mahar et al. 1997. The eﬀect of Mn on mineral stability in metapelites. J Met Geol, 15, 223-238.
Philpotts and Ague. ‘Principles of Igneous and Metamorphic Petrology'. Chapter 19.
1. Spear 1993. ‘Metamorphic phase equilibria and pressure-temperature-time paths'.
2. Powell 1979. ‘Equilibrium thermodynamics in petrology'. Chapter 8.
3. Yardley, B. 1989. ‘An introduction to metamorphic petrology'. Chapter 5.
assemblages during the Barrovian-style M2 metamorphic event, Naxos, Greece. Contrib.
7. Philpotts and Ague. ‘Principles of Igneous and Metamorphic Petrology'. Chapter 20.
2. Powell, R. & Holland, T.J.B. 1994. Optimal geothermometry and geobarometry.
3. Philpotts and Ague. ‘Principles of Igneous and Metamorphic Petrology'. Chapter 19.
4. Vernon and Clarke. ‘Principles of Metamorphic Petrology. Chapter 2'.
Baker J and Matthews A (1994) Textural and isotopic development of marble assemblages during the Barrovian-style M2 metamorphic event, Naxos, Greece. Contrib. Mineral. Petrol., 116, 130-144.
Rice J.M. (1977) Progressive metamorphism of impure dolomitic limestone in the Marysville Aureole, Montana. American Journal of Science, 277, 1-24.
Trommsdorff V. (1972) Change in T-X during metamorphism of siliceous dolomite rocks of the central Alps. Schweizerische Mineralogische und Petrographische Mitteilungen 52, 567-571.
Lisitzin, A. P. (1996), Oceanic Sedimentation: Lithology and Geochemistry, 400 pp., AGU, Washington, D. C., there is no copy of this in the library, available on line only doi:10.1029/SP044.
Francois, R., M. Frank, M. M. Rutgers van der Loeff, and M. P. Bacon (2004), 230Th normalization: An essential tool for interpreting sedimentary fluxes during the late Quaternary, Paleoceanography, 19, PA1018, doi:10.1029/2003PA000939.
Henderson, G.M., and Anderson, R.F., The U-series Toolbox for Paleoceanography (2003), Reviews in Mineralogy and Geochemistry January 52 ( 1), 493-531.
McCave, I.N., (2002), A poisoned chalice? Science 298, 1186-1187.
Teal, L.R., Bulling, M.T., Parker, E.R. and Solan, M., (2008), Global patterns of bioturbation intensity and mixed depth of marine soft sediments. Aquatic Biology, 2, 207–218.
Oritz, J. and Mix, A. (1997). Comparison of Imbrie-Kipp transfer function and modern analog temperature estimates using sediment trap and core top foraminiferal faunas. Paleoceanography 12(2): 175-190.
Rohling, E.J. (2006) Oxygen isotope composition of seawater. In, Elias, S.A. (ed.) Encyclopedia of Quaternary Science (Vol. 3)., Elsevier, 1748-1756.
Lea, D.W. (2003) Elemental and Isotopic Proxies of Marine Temperatures, (this link is to the 2014 edition) pp. 365-390. In The Oceans and Marine Geochemistry (ed. H. Elderfield, ed.) Vol. 6 Treatise on Geochemistry (eds H.D. Holland and K.K. Tuerekian), Elsevier-Pergamon, Oxford.
Rosenthal, Y., B.K. Linsley, Mg/Ca and Sr/Ca Paleothermometery from Calcareous Marine Fossils, chapter in the Encyclopedia of Quaternary Sciences, Elsevier Ltd., 2006.
Eiler, J.M., 2011. Paleoclimate reconstruction using carbonate clumped isotope thermometry. Quaternary Science Reviews, 30: 3575–3588.
Herbert, T.D., 2003. Alkenone paleotemperature determinations. In: Treatise on Geochemistry, Vol. 6 (December 2003) , p. 391-432.
Schouten, S., Hopmans, E.C., Schefus, E., and Sinninghe Damste, 2002, Distributional variation in marine crenarchaeotal membrane lipids: a new tool for reconstructing ancient sea water temperatures?: Earth and Planetary Science Letters, 204: 265-274.
Berger, A., Milankovitch theory and climate, Reviews in Geophysics, 26, 624-657, 1988.
Hays, J.D., Imbrie, J., and Shackleton, N.J., 1976. Variations in the Earth's Orbit: Pacemaker of the Ice Ages, Science, 194, 1121-1132.
Imbrie, J., and J. Z. Imbrie, 1980. Modeling the climatic response to orbital variations, Science, 207, 943–953.
Paillard, D. (2001), Glacial cycles: Toward a new paradigm, Rev. Geophys., 39, 325 –346.
Wunsch, C., 2004, Quantitative estimate of the Milankovitch-forced contribution to observed Quaternary climate change Quaternary Science Reviews 23, 1001–1012.
Clark, P. U., D. Archer, D. Pollard, J. D. Blum, J. A. Rial, V. Brovkin, A. C Mix, N. G. Pisias, and M. Roy (2006), The middle Pleistocene transition: characteristics, mechanisms, and implications for long-term changes in atmospheric CO2, Quat. Sci. Rev, 25, 3150-3184.
Elderfield, H., Ferretti, P., Greaves, M., Crowhurst, S., McCave, I.N., Hodell, D.A., and Piotrowski, A.M., 2012. Evolution of ocean temperature and ice volume through the Mid-Pleistocene Climate Transition. Science 337, 704-709.
Huybers, 2006, Early Pleistocene glacial cycles and the integrated summer insolation forcing, Science, 313, pp. 508-511.
Raymo, M. E., L. Lisiecki, and K. Nisancioglu, 2006, Plio-Pleistocene ice volume, Antarctic climate, and the global ?18O record, Science, v. 313, p. 492, doi: 10.1126/science.1123296.
Bailey, R.J., 2009. Cyclostratigraphic reasoning and orbital time calibration Terra Nova, 21, 340–351.
Hilgen, F.J., 1991. Astronomical calibration of Gauss to Matuyama sapropels in the Mediterranean and implication for the Geomagnetic Polarity Time Scale. Earth and Planetary Science Letters, 104: 226-244.
Krijgsman, W., Hilgen, F.J., Raffi, I., Sierro, F.J., Wilsonk, D.S., 1999. Chronology, causes and progression of the Messinian salinity crisis. Nature 400: 625-655.
Tuenter, E., Weber, S.L., Hilgen, F.J., Lourens, L.J., 2003. The response of the African summer monsoon to remote and local forcing due to precession and obliquity Global and Planetary Change 36: 219–235.
Weedon, G.P., 2003. Chapter 1 in Time-series analysis and cyclostratigraphy: examining stratigraphic records of environmental cycles, Cambridge University Press, 259 pp.
What role does deep ocean circulation play in affecting global and regional climate? We will examine the physics of ocean circulation and then review the major studies which suggested that the ocean plays an important role in the climate system.
How can we reconstruct the past changes in ocean overturning and carbon storage in the deep ocean? We will learn about the geochemical tools which are used to reconstruct past changes in the source and pathway of deep water masses.
We will survey about the geochemical and sedimentological techniques which are used for reconstructing the overturning rate and flow speeds of deep water masses.
And overview of recently published records of ocean circulation changes during the most recent glacial-interglacial cycle, as well as during more rapid climate changes including D-O cycles and Heinrich Events. How do these relate these to the outputs of global climate models?
This list summarises the key reference texts [that are mostly in print] that you may wish to use throughout your second year of geology. There may be other books and papers that are suggested for particular parts of the course that are not featured on this list. You should be able to find many of these books in your college libraries, or else in the Departmental library. You may (eventually) wish to consider purchasing those marked **.
McClay, K. R. 2002. The mapping of geological structures. (2nd edition) Wiley, 224 pp.
Maltman, A. 1998. Geological maps: an introduction. (2nd Edition) Wiley 260 pp.
Park, R. G. 1997. Foundations of structural geology. (3rd edition) Chapman & Hall, 214 pp, reprinted 2005 by Routledge.
W.S. Broecker and T.H. Peng, Tracers in the sea; Eldigio Press, 1982, 690pp. Now out of print, but in many college libraries.
G. Faure, Principles of Isotope geology, 2nd edition, Wiley, 1986, 589pp. The standard text for an introduction to isotope systematics.
S.M. Libes, An introduction to marine biogeochemistry; Wiley, 1992, 734pp. 2Nd ed 2009 Ebook Covers some of the topics at a less advanced level.
** Bridge, J. and Demicco, R., 2008. Earth Surface Processes, Landforms and Sediment Deposits. Cambridge University Press. Leading text book on the subject.
Leeder, M.R. 1999 Sedimentology and sedimentary basins: from turbulence to tectonics. Blackwell Science. Ebook.
Good coverage of sediment transport by fluids and good on basins and clastics as well.
Reading, H.G. (ed). 1996. Sedimentary environments: processes, facies and stratigraphy. 3rd edition. Blackwell. Ebook Encyclopaedic, reference.
Scoffin, T.P. 1987. An introduction to carbonate sediments and rocks. Blackie.
Stow, D.A.V. 2005. Sedimentary rocks in the field: A colour guide. Manson Publishing.
Futuyma, D. J. 2005 Evolution. Sinauer Associates, Sunderland (Massachusetts). 603 pp. A comprehensive and up to date text covering all aspects of evolutionary biology.
Skelton, P. (ed.) 1993. Evolution, a biological and palaeontological approach. Addison-Wesley. Exhaustive coverage of evolutionary principles with a focus on the unique contribution of palaeontological data.
Allen PA, Allen JR 2013, Basin Analysis: Principles and Application to Petroleum Play Assessment, Chichester, Wiley-Blackwell.
Allen P.A., Allen John R. 2005, Basin analysis: Principles and Applications, Oxford Blackwell Pub, ISBN:9780632052073. 2Nd ed ebook. Good on general principles; more detail than you need, but with a useful chapter on petroleum near the end.
Benton (2015). Vertebrate Palaeontology. Blackwells.
Fastovsky & Weishampel (2005). The evolution and extinction of the dinosaurs. Cambridge Univ Press.
Janis CM & Keller JC (2001). Modes of ventilation in early tetrapods: costal aspiration as a key feature of amniotes. Acta Palaeontological Polonica 46: 137-170 (long-winded, but interesting observations on amniote biology and evolution).
Fastovsky & Weishampel (2005). The evolution and extinction of the dinosaurs. Cambridge University Press.
Nesbitt S et al (2009). A complete skeleton of a Late Triassic saurischian and the early evolution of the dinosaurs. Science 326: 1530-1533.
Sander, et al (2011). Biology of the sauropod dinosaurs: the evolution of gigantism. Biological Reviews 86: 117-155.
Xu et al. (2014). An integrative approach to the understanding of bird origins. Science 346: 1341 summary & (issue 6215 - 8 pages). Gives you a 'heads-up' for later lecture as well.
The soft tissues and biochemistry of dinosaurs investigated and endlessly argued over. This list includes stuff you never actually read from the 1A course! Now's the chance to catch up?
Barrick RE and Showers WJ (1994). Thermophysiology of Tyrannosaurus rex: evidence from Oxygen isotopes. Science 265: 222-224 (see also comment on page 188).
Eagle, RA, et al (2011). Dinosaur body temperature determined from isotopic (13C-18O) ordering in fossil biominerals. Science 333: 443-445.
Chin, K et al (1998). A king-sized theropod coprolite. Nature 393: 680-682. (see also News and Views in same issue).
Varricchio, DJ (2001). Gut contents from a Cretaceous tyrannosaurid: implications for theropod digestive tracts. J. Paleontology 75: 401-406.
Meng, Q-J., Liu J-Y et al. (2004). Palaeontology: Parental care in an ornithischian dinosaur. Nature 431: 145-146.
Schweitzer MH et al. (1994). Heme compounds in dinosaur trabecular bone. PNAS 94: 6291-6296.
Schweitzer MH & JR Horner (1999). Intravascular microstructures in the trabecular bone tissues of Tyrannosaurus rex. Annales de Paléontologie 85: 179-192.
Schweitzer MH et al (2005). Soft-tissue vessels and cellular preservation in Tyrannosaurus rex. Science 307: 1952-1955.
Schweitzer MH et al (2007). Analyses of soft tissue from Tyrannosaurus rex suggest the presence of protein. Science 316: 277-280.
Zimmer, C. (2008) Is dinosaur ‘soft tissue’ really slime? Science 321: 623.
Schweitzer MH, Wittmeyer JL & JR Horner (2005). Gender-specific reproductive tissue in ratites and Tyrannosaurus rex. Science 308: 1456-1460.
Organ CL et al (2008). Molecular phylogenetics of mastodon and Tyrannosaurus rex. Science 320: 499. (refuting the refutations!).
Norman D (2005) Dinosaurs a very short introduction. Oxford University Press.
Gauthier, J & LF Gall (2001). New perspectives on the origin and early evolution of birds. Proceedings of the international symposium in honour of John H Ostrom. Peabody Museum, Yale University.
Farlow J (1987). Speculations about the diet and digestive physiology of herbivorous dinosaurs. Paleobiology 13: 60-72.
Barrett P & Willis K (2001). Did dinosaurs invent flowers? Dinosaur-angiosperm co-evolution revisited. Biological Reviews 76: 411-447.
Piperno, DR & H-D Sues (2005). Dinosaurs dined on grass. Science 310: 1126-1128.
Holliday & Witmer (2008). Cranial kinesis in dinosaurs: intracranial joints, protractor muscles and their significance for cranial evolution and function in diapsids. J. Vertebr. Paleo. 28: 1073-1088.
Williams V, Barrett P, Purnell, M (2009). Quantitative analysis of dental microwear in hadrosaurid dinosaurs – jaw mechanics and feeding. Proc Natl Acad Sci 106: 11194-11199.
Bell, Snively & Shychoski (2009). A comparison of jaw mechanics in hadrosaurid and ceratopid dinosaurs using FEA. The Anatomical Record 292: 1338-1351.
Erickson et al. (2012). Complex dental structure and wear biomechanics in hadrosaurid dinosaurs. Science 338: 98-101.
Barrett P (2014). Paleobiology of herbivorous dinosaurs. Ann. Rev. Earth Planet Sci 42: 207-230.
Mallon & Anderson (2014). The functional and palaeoecological implications of tooth morphology and wear for megaherbivorous dinosaurs ... PlosONE 9 (6) e98605.
Kemp T (2005). The origin and evolution of mammals. Oxford Univ Press.
Huxley TH (1870). Further evidence of the affinity between the dinosaurian reptiles and birds. Quart. J. Geol. Soc. Lond. 26: 12-31.
Ostrom JH (1976). Archaeopteryx and the origin of birds. Biol J Linn Soc London 8: 91-182.
Gatesy SM (1995). Functional evolution of the hindlimb and tail from basal theropods to birds. Functional morphology in vertebrate paleontology (Ed. JJ Thomason. Cambridge Univ Press.
Ji & Ji (1996). On the discovery of the earliest fossil bird in China (Sinosauropteryx gen. nov) and the origin of birds. Chinese Geology, 233: 30-33. [The first report of feathered theropods from China].
Gatesy, SM & K. Dial (1996). Locomotor modules and the evolution of avian flight. Evolution 50: 331-340.
Gatesy, SM & K. Dial (1996). From frond to fan: Archaeopteryx and the evolution of short-tailed birds. Evolution 50: 2037-2048.
Padian, K & Chiappe, LM (1998). The origin of birds and their flight. Scientific American (February): 28-37.
Currie, PJ & Chen, PJ (2001). Anatomy of Sinosauropteryx prima from Liaoning, northeastern China. Canadian J Earth Sci. 38: 1705-1727.
Dial, K. (2003). Wing-assisted inclined running and the evolution of flight. Science 299: 402-404.
Xu, X. et al (2004).Basal tyrannosauroids from China and evidence of protofeathers in tyrannosauroids. Nature 431: 680-684.
Xu, X & M. Norell (2004). A new troodontid dinosaur from China with an avian-like sleeping posture. Nature 431: 838-841.
Xu, X et al. (2009). A Jurassic ceratosaur from China helps clarify avian digital homologies. Nature 459: 940-944.
Benson, RBJ, Butler, RJ et al (2012). Air-filled postcranial bones in theropod dinosaurs: physiological implications and the ‘reptile’-bird transition. Biological Reviews 87: 168-193.
Lisitzin, A. P. (1996), Oceanic Sedimentation: Lithology and Geochemistry, 400 pp., AGU, Washington, D. C., doi:10.1029/SP044.
Lea, D.W. (2003) Elemental and Isotopic Proxies of Marine Temperatures, pp. 365-390. In The Oceans and Marine Geochemistry (ed. H. Elderfield, ed.) Vol. 6 Treatise on Geochemistry (eds H.D. Holland and K.K. Tuerekian), Elsevier-Pergamon, Oxford.
Berger, A., Milankovitch theory and climate, Rev. Geophys., 26, 624-657, 1988.
Hays, J.D., Imbrie, J., and Shackleton, N.J., 1976. Variations in the Earth's Orbit: Pacemaker of the Ice Ages, Science, 194, no. 4270, 1121-1132.
Huybers, Early Pleistocene glacial cycles and the integrated summer insolation forcing, Science, 2006.
Raymo, M.E. and K.H. Nisancioglu, 2003, The 41 Kyr world: Milankovitch's other unsolved mystery, Paleoceanography, v. 18, 10.1029/2002PA000791.
MacKenzie, Donaldson & Guilford, Atlas of igneous rocks and their textures.
Available from the library office.
*Carlson, R.W., Pearson, D.G. & James, D.E., 2005. Physical and chemical characteristics of continental mantle.
Herzberg, C., 2004. Geodynamic information in peridotite petrology, J. Petrology 45, 2507-2530.
*Liu, C.Z.et al., 2008. Ancient, highly heterogeneous mantle beneath Gakkel ridge, Arctic Ocean . Nature 425, 311-316.
Dawson, J. B., 1994. Quaternary kimberlitic volcanism on the Tanzania Craton. Contributions to Mineralogy and Petrology, 116(4), 473.
*Russell, J.K., Porritt, L.A, Lavallee, Y & Dingwell, D.B., 2012. Kimberlite ascent by assimilation-fuelled buoyancy. Nature 481, 352-356.
De Pater, I., & Lissauer, J. (2015). Planetary sciences / Imke de Pater, University of California, Berkeley & Delft University of Technology, and Jack J. Lissauer, NASA-Ames Research Center, & Stanford University. (Second ed.).
Boyet, M. & Carlson, R. W. 142Nd evidence for early (>4.53 Ga) global differentiation of the silicate Earth. Science 309, 576-581 (2005).
Burkhardt, C.et al. Molybdenum isotope anomalies in meteorites: Constraints on solar nebula evolution and origin of the Earth. Earth Planet. Sci. Lett. 312, 390-400 (2011).
Trinquier, A. et al. Origin of nucleosynthetic isotope heterogeneity in the solar protoplanetary disk. Science 324, 374-376 (2009).
Chambers. Planet formation. Chapter 2.4, Treatise on Geochemistry (2014).
Chambers. Planetary accretion in the inner solar system. Earth and Planetary Sciences, 223, 241-252 (2004).
Garaud et al.. From dust to planetesimals: an improved model for collisional growth in protoplanetary disks. The Astrophysical journal 764:146 (2013).
Heger et al.. Origin of the elements. Chapter 2.1, Treatise on Geochemistry (2014).
Krot et al.. Origin and chronology of chondritic components: a review. Geochimica et Cosmochimica Acta 73:4963-4997 (2009).
Palme et al.. Solar system abundances of the elements. Chapter 2.2, Treatise on Geochemistry (2014).
Young. Bayes' theorem and early solar short-lived radionuclides: the case for an unexceptional origin for the solar system. The Astrophysical journal 826:129 (20 16).
Wasserburg et al.. Short-lived nuclei in the early solar system: possible AGB sources. Nuclear Physics A 777:5-69 (2006).
Zinner. Stellar nucleosynthesis and the isotopic composition of presolar grains from primitive meteorites. Annual Reviews of Astronomy and Astrophysics 49:147-188 (2011).
Williams & Cieza. Protoplanetary disks and their evolution. Annual Reviews of Astronomy and Astrophysics 49:67-1 17 (201 1).
Armitage. Dynamics of protoplanetary disks. Annual Reviews of Astronomy and Astrophysics 49:195-236 (2011).
http: //www.circumstellardisksorg/ - List of observed protoplanetary disks, order by references to find the most famous examples.
Frost, D. I. et al. Experimental evidence for the existence of iron-rich metal in the Earth's lower mantle. Nature 428, 409-412 (2004).
Wade, 1. &Wood, B. 1. Core formation and the oxidation state of the Earth. Earth and Planetary Science Letters 236 78-95(2 005).
Boujibar A., Andrault D., Bouhifd M. A., Bolfan-Casanova N., Devidal J.-L. and Trcera N. (2 014) Metal-silicate partitioning of sulphur, new experimental and thermodynamic constraints on planetary accretion. Earth Planet. Sci. Lett. 391,42-54.
N. Dauphas, B. Marty, L. Reisberg, Inference on terrestrial genesis from molybdenum isotope systematics, Geophys. Res. Lett. 29 (6) (2002) 1084.
Holzheid A., Sylvester P., O'Neill H. S. C., Rubie D. C. and Palme H. (2000) Evidence for a late chondritic veneer in the Earth's mantle from high-pressure partitioning of palladium and platinum. Nature 406, 396-399.
Jacobson, S.A., Morbidelli, A., Raymond, S.N., O'Brien, D.P., Walsh, K.J., and Rubie, DC. (2 014) Highly siderophile elements in Earth's mantle as a clock for the Moon-forming impact. Nature, 508, 84-87.
Kruijer T. S., Kleine T., Fischer-Go"dde M. and Sprung P. (2 015) Lunar tungsten isotopic evidence for the late veneer. Nature 520, 534-537.
Righter K., Humayun M. and Danielson L. (2008) Partitioning of palladium at high pressures and temperatures during core formation. Nat. Geosci. 1, 32 1-32 3.
Wang Z. and Becker H. (2013) Ratios of S, Se and Te in the silicate Earth require a volatile-rich late veneer. Nature 499, 328.
Bodenheimer et al.. Models of the in situ formation of detected extra solar giant planets. Icarus 143:2-14 (2000).
Chatterjee et al.. Dynamical outcomes of planet-planet scattering. The Astrophysical journal 686 (2008).
Donati et al.. A hot Jupiter orbiting a 2-million-year-old solar-mass T Tauri star. Nature 534:662-666 (2016).
Mayor & Queloz. A Jupiter mass companion to a solar-type star. Nature 378:355-359.
Planetary Sciences: Second Edition. De Pater and Lissauer. Cambridge University Press. Chapter 13.
The Exoplanet Handbook. Perryman. Cambridge University Press.
Born of chaos. Batygin et al. Scientific American 2016.
Anglada-Escudé et al.. A terrestrial planet candidate in a temperate orbit around Proxima Centauri. Nature 546 437-440 (2016).
Ehlmann et al.. The Sustainability of Habitability on Terrestrial Planets: Insights, Questions, and Needed Measurements from Mars for Understanding the Evolution of Earth-like Worlds. ]ournal of Geophysical Research 121 (2016).
Fischer et al.. Exoplanet detection techniques. Protostars and Planets Vi. arXiv:1505.06869 (2014).
Fressin et al.. The false positive rate of Kepler and the occurrence of planets. The Astrophysical journal 766:81 (2013).
Kane et al.. A catalogue of Kepler habitable zone exoplanet candidates. The Astrophysical journal, 830:1 (2016).
Madhusudhan et al.. Exoplanetary atmospheres. Protostars and Planets Vi. arXiv:1402.1169 (2014).
Segura et al.. Biosignatures from Earth-Like Planets Around M Dwarfs. Astrobiology 56:706-726 (2005).
Langmuir & Broecker. How to build a habitable planet: the story of Earth from the Big Bang to Humankind. Princeton.
www.exoplanets.org - Catalogue of discovered exoplanets. Enables online plotting of datasets and download of the data.
www.habitableplanet.org - Web resources for Langmuir and Broecker's book, including slides and figures.
http://hzgallery.org/ - List of planets specifically within their star's habitable zone. Includes plots of orbital characteristics of these systems and discussion of habitability criteria.
http://depts.washington.edu/naivpl/content/hz-calculator -calculator - Online tool for calculating the location of habitable zones around stars. An implementation of the Kopparapu et al. 2013/2014 work.

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