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This Botanical Briefing reviews how the integration of palaeontology, geochemistry and developmental …

Biology Articles » Evolutionary Biology » Leaf Evolution: Gases, Genes and Geochemistry » Literature cited

Literature cited
- Leaf Evolution: Gases, Genes and Geochemistry

Beerling DJ, Berner RA. 2005. Feedbacks and the coevolution of plants and atmospheric CO2. Proceedings of the National Academy of Sciences of the USA 102: 1302–1305.

Beerling DJ, Osborne CP, Chaloner WG. 2001. Evolution of leaf-form in land plants linked to atmospheric CO2 decline in the Late Palaeozoic. Nature 410: 352–354.

Berner EK, Berner RA, Moulton KL. 2003. Plants and mineral weathering: present and past. Treatise on Geochemistry 5: 169–188.

Berner RA. 2004. The phanerozoic carbon cycle: CO2 and O2. Oxford: Oxford University Press.

Berner RA, Lasaga AC, Garrels RM. 1983. The carbonate-silicate geochemical cycle and its effect on atmospheric carbon dioxide and climate. American Journal of Science 283: 641–683.

Boyce CK, Knoll AH. 2002. Evolution of developmental potential and the multiple independent origins of leaves in Paleozoic vascular plants. Paleobiology 28: 70–100.

Byrne ME, Barley R, Curtis M, Arroyo JM, Dunham M, Hudson A, Martienssen RA. 2000. Asymmetric leaves1 mediates leaf patterning and stem cell function in Arabidopsis. Nature 408: 967–971.

Chaloner WG, Sheerin A. 1979. Devonian macrofloras. In: House MR, Scrutton CT, Bassett MG. The Devonian system. Palaeontological Society Special Paper in Palaeontology 23: 145–161.

Cronk QCB. 2001. Plant evolution and development in a post-genomic context. Nature Reviews, Genetics 2: 607–619.

Edwards D. 1998. Climate signals in Palaeozoic land plants. Philosophical Transactions of the Royal Society, Series B 353: 141–157.

Edwards D, Wellman C. 2001. Embryophytes invade the land. In: Gensel PG, Edwards D, eds. Plants invade the land. New York, NY: Columbia University Press, 3–28.

Ehleringer JR. 1988. Comparative ecophysiology of Encelia farinosa and Encelia frutescens. 1. Energy balance considerations. Oecologia 76: 553–561.

Emery JF, Floyd SK, Alvarez J, Eshed Y, Hawker NP, Izhaki A, et al. 2003. Radial patterning of Arabidopsis shoots by class III HD-ZIP and KANADI genes. Current Biology 13: 1768–1774.

Field CB, Behrenfeld MJ, Randerson JT, Falkowski P 1998. Primary production of the biosphere: integrating terrestrial and oceanic components. Science 281: 237–240.

Floyd SK, Bowman JL. 2004. Ancient microRNA target sequences in plants. Nature 428: 485–486.

Gifford EM, Foster AS. 1988. Morphology and evolution of vascular plants. New York, NY: Freeman.

Graham JB, Dudley R, Aguilar NM, Gans C. 1995. Implications of the late Palaeozoic oxygen pulse for physiology and evolution. Nature 375: 117–120.

Gray JE, Holroyd GH, van der Lee FM, Bahrami AR, Sijmons PC, Woodward FI, Schuch W, Hetherington AM. 2000. The HIC signalling pathway links CO2 perception to stomatal development. Nature 408: 713–716.

Hake S, Smith HMS, Holtan H, Magnani E, Mele G, Ramirez J. 2004. The role of KNOX genes in plant development. Annual Review of Cell and Developmental Biology 20: 125–151.

Hao SG, Beck CB. 1993. Further observations on Eophyllophyton bellum from the lower Devonian (Siegenian) of Yunnan, China. Palaeontographica 230: 27–47.

Hao S, Beck CB, Deming W. 2003. Structure of the earliest leaves: adaptations to high concentrations of CO2. International Journal of Plant Sciences 164: 71–75.

Harrison CJ, Corley SB, Moylan EC, Alexander DL, Scotland RW, Langdale JA. 2005. Independent recruitment of a conserved developmental mechanism during leaf formation. Nature 434: 509–514.

Hetherington AM, Woodward FI. 2003. The role of stomata in sensing and driving environmental change. Nature 424: 901–908.

Kenrick P, Crane PR. 1997. The origin and early evolution of plants on land. Nature 389: 33–39.

Knoll AH, Niklas KJ, Gensel PG, Tiffney BH. 1984. Character diversification and patterns of evolution in early vascular plants. Paleobiology 10: 34–47.

McElwain JC, Chaloner WG. 1995. Stomatal density and index of fossil plants track atmospheric carbon dioxide in the Palaeozoic. Annals of Botany 76: 389–395.

Matten LC. 1968. Actinoxylon banksii Gen. Et. Sp. Nov.: a progymnosperm from the middle Devonian of New York. American Journal of Botany 55: 773–782.

Odling-Smee FJ, Laland KN, Feldman MW. 2003. Niche construction. The neglected process in evolution. Princeton, NJ: Princeton University Press.

Osborne CP, Beerling DJ, Lomax BH, Chaloner WG. 2004a. Biophysical constraints on the origin of leaves inferred from the fossil record. Proceedings of the National Academy of Sciences of the USA 101: 10360–10362.

Osborne CP, Chaloner WG, Beerling DJ. 2004b. Falling atmospheric CO2 – the key to megaphyll leaf origins. In: Poole I, Hemsley AR. The evolution of plant physiology. Kew: Elsevier Academic Press, 197–215.

Raven JA, Edwards D. 2001. Roots: evolutionary origins and biogeochemical significance. Journal of Experimental Botany 52: 381–401.

Roth-Nebelsick A. 2001. Heat transfer of Rhyniophytic plant axes. Review of Palaeobotany and Palynology 116: 109–122.

Rowe N, Speck T. 2005. Plant growth forms: an ecological and evolutionary perspective. New Phytologist doi:10.1111/j.1469-8137.2004.01309.x.

Sano R, Jurárez CM, Hass B, Sakakibara K, Ito M, Banks JA, et al. 2005. KNOX homeobox genes potentially have similar function in both diploid unicellular and multicellular meristems, but not haploid meristems. Evolution and Development 7: 69–78.

Schulte PJ, Gibson AC, Nobel PS. 1987. Xylem anatomy and hydraulic conductance of Psilotum nudum. American Journal of Botany 74: 1438–1445.

Smith WK. 1978. Temperature of desert plants: another perspective on the adaptability of leaf size. Science 201: 614–616.

Timmermans MCP, Hudson A, Becraft PW, Nelson T. 1999. ROUGH SHEATH2: a Myb protein that represses knox homeobox genes in maize lateral organ primordial. Science 284: 151–153.

Volk T. 1987. Feedbacks between weathering and atmospheric CO2 over the last 100 million years. American Journal of Science 287: 763–779.

Volk T. 1989. Rise of angiosperms as a factor in long-term climatic cooling. Geology 17: 107–110.

Waites R, Hudson A. 1995. PHANTASTICA: a gene required for dorsoventrality of leaves in Antirrhinum majus. Development 121: 2143–2154.

Walker JCG, Hays PB, Kasting JF. 1981. A negative feedback mechanism for the long-term stabilization of Earth's surface temperature. Journal of Geophysical Research 86: 9776–9782.

Woodward FI. 1987. Stomatal numbers are sensitive to CO2 increases from pre-industrial levels. Nature 327: 617–618.

Zimmermann W. 1930. Die Phylogenie der Pflanzen. Fischer: Jena.

Zimmermann W. 1952. Main results of the telome theory. The Palaeobotanist 1: 456–470.

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