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References

  • Beerling DJ, Osborne CP, Chaloner WG. 2001. Evolution of leaf-form in land plants linked to atmospheric CO2 decline in the late Palaeozoic era. Nature 410: 352354.
  • Berner RA. 1998. The carbon cycle and CO2 over Phanerozoic time: the role of land plants. Philosophical Transactions of the Royal Society of London 353: 7582.
  • Berner RA. 2001. Modelling CO2 over Phanerozoic time. Geochimica et Cosmochimica Acta 65: 685694.
  • Berner RA, Kothavala Z. 2001. GEOCARB III. A revised model of atmospheric CO2 over phanerozoic time. American Journal of Science 301: 182204.
  • Brown AH, Escombe F. 1900. Static diffusion of gases and liquids in relation to the assimilation of carbon and translocation in plants. Philosophical Transactions of the Royal Society of London B 193: 223291.
  • Brown AH, Escombe F. 1905. Research on some of the physiological processes of green leaves, with special reference to the interchange of energy between the leaf and its surroundings. Philosophical Transactions of the Royal Society of London B 76: 29111.
  • Brownlee C. 2001. The long and the short of stomatal density signals. Trends in Plant Science 6: 441442.
  • Chaloner WG. 1970. The rise of the first land plants. Biological Reviews 45: 353377.
  • Church AH. 1919. Thalassiophyta and the subaerial transmigration. Oxford Memoirs, no. 3. Oxford, UK: Oxford University Press, 195.
  • Corner EJH. 1964. The life of plants. London, UK: Weidenfield and Nicolson.
  • Cowan IR. 1977. Stomatal behaviour and environment. Advances in Botanical Research 4: 117228.
  • Cowan IR. 1986. Economics of carbon fixation in higher plants. In: GivnishT, ed. On the economy of plant form and function. Cambridge, UK: Cambridge University Press, 421492.
  • Crowley TJ, Berner RA. 2001. CO2 and climate change. Science 292: 870872.
  • Datnoff LE, Korndorfer GH, Syder GH, eds. 2001. Silicon in agriculture. Amsterdam, The Netherlands: Elsevier.
  • Dörffling K, Streich J, Kruse W, Muxfeldt B. 1977. Abscisic acid and the after-effect of water stress on stomatal opening potential. Zeitschrift für Pflanzenphysiologie 81: 4356.
  • Edwards D. 1986. Dispersed cuticles of putative non-vascular plants from the Lower Devonian of Britain. Botanical Journal of the Linnean Society 93: 259275.
  • Edwards D. 1993. Cells and tissues in the vegetative sporophytes of early land plants. New Phytologist 125: 225247.
  • Edwards D. 2000. The role of mid-Palaeozoic mesofossils in the detection of early embryophytes. Philosophical Transactions of the Royal Society of London 355: 733735.
  • Edwards D, Abbott GD, Raven JA. 1996. Cuticles of early land plants: a palaeoecophysiological evolution. In: KerstiensG, ed. Plant cuticles – an integrated approach. Oxford, UK: Bios Scientific Publishers, 131.
  • Edwards D, Axe L. 1992. Stomata and mechanics of stomatal functioning in some early land plants. Courier Forschungsinstitut Senckenberg 147: 5973.
  • Edwards D, Kerp H, Hass H. 1998. Stomata in early land plants: an anatomical and ecophysiological approach. Journal of Experimental Botany 49: 255278.
  • Edwards D, Rose V. 1984. Cuticles of Nematothallus: a further enigma. Botanical Journal of the Linnean Society 88: 3554.
  • Farquhar GD, Ehleringer JR, Kubick KT. 1989. Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 40: 503537.
  • Gaff G. 1981. The biology of resurrection plants. In: PateJS, McCombAJ, eds. The biology of australian plants. Nedlands, Australia: University of Western Australia Press, 114146.
  • Garner DLB, Paolillo DJ. 1973. On the functioning of stomates in Funaria. Bryologist 76: 423427.
  • Graham LE. 1993. Origin of land plants. New York, USA: John Wiley and Sons.
  • Graham LE, Wilcox LW. 2000a. Algae. Upper Saddle River, NJ, USA: Prentice Hall.
  • Graham LE, Wilcox LW. 2000b. The origin of alternation of generations in land plants: a focus on matrotrophy and hexose transport. Philosophical Transactions of the Royal Society of London B 355: 757767.
  • Gray JE, Holroyd GH, Van Der Lee FM, Bahrami AR, Sijmars PC, Woodward FI, Schuch W, Hetherington AM. 2000. The HIC signalling pathway links CO2 perception to stomatal development. Nature 408: 713716.
  • Green TGA, Lange OL. 1994. Photosynthesis in poikilohydric plants: a comparison of lichens and bryophytes. In: SchulzeED, CaldwellMM, eds. Ecophysiology of photosynthesis. Berlin, Germany: Springer-Verlag, 319341.
  • Grubb PJ. 1961. Uptake and movement of salts in Polytrichum. PhD thesis, University of Cambridge.
  • Habgood KS. 2000. Two cryptospore-bearing land plants from the Lower Devonian (Lochkovian) of the Welsh Borderland. Botanical Journal of the Linnean Society 133: 203227.
  • Hebant C. 1977. The conducting tissue of bryophytes. Lehre, Germany: J. Cramer.
  • Van Den Hoek C, Mann DG, Jahns HM. 1995. Algae. An introduction to phycology. Cambridge, UK: Cambridge University Press.
  • Jones HG, Sutherland RA. 1991. Stomatal control of xylem embolism. Plant, Cell & Environment 14: 67612.
  • Keeley JE. 1998. CAM photosynthesis in submerged aquatic plants. Botanical Review 64: 121175.
  • Keeley JE, De Maison DA, Gonzalez R, Markham KR. 1994. Sediment-based carbon nutrition in tropical alpine Isoetes. In: RundelRW, SmithAP, MeinzerFC, eds. Tropical alpine environments: plant form and function. Cambridge, UK: Cambridge University Press, 167194.
  • Keeley JE, Osmond CB, Raven JA. 1984. Stylites, a vascular land plant without stomata absorbs CO2via its roots. Nature 310: 694695.
  • Kenrick P, Crane PR. 1997. The origin and early diversification of land plants. A cladistic study. Washington DC, USA: Smithsonian Institution Press.
  • Konrad W, Roth-Nebelsick A, Kerp H, Hass H. 2000. Transpiration and assimilation of Early Devonian land plants with axially symmetrical telomes-simulations at the tissue level. Journal of Theoretical Biology 206: 91107.
  • Lake JA, Quick WP, Beerling DJ, Woodward FI. 2001. Signals from mature to new leaves. Nature 411: 154.
  • Lange OL, Green TGA, Reichenberger H, Meyer A. 1996. Photosynthetic depression at high thallus water contents in lichens: concurrent use of gas exchange and fluorescence techniques with a cyanobacterial and a green algal Peltigera species. Botanica Acta 109: 4350.
  • Leung J, Giraudat J. 1998. Abscisic acid signal transduction. Annual Review of Plant Physiology and Plant Molecular Biology 49: 199222.
  • Ligrone R, Duckett JG, Renzaglia KS. 2000. Conducting tissues and phyletic relationships of bryophytes. Philosophical Transactions of the Royal Society of London 355: 795813.
  • Longton RE. 1988. Biology of polar bryophytes and lichens. Cambridge, UK: Cambridge University Press.
  • Lutzoni F, Pagel M, Reed V. 2001. Major fungal lineages are derived from lichen symbiotic ancestors. Nature 411: 937940.
  • McElwain JC. 1998. Do fossil plants signal palaeo-atmospheric CO2 concentration in the geological past? Philosophical Transactions of the Royal Society of London 353: 8396.
  • McElwain JC, Chaloner WG. 1995. Stomatal density and index of fossil plants track atmospheric carbon dioxide in the Phanerozoic. Annals of Botany 76: 389395.
  • Meidner H, Mansfield TA. 1968. Physiology of stomata. New York, USA: McGraw-Hill.
  • Moulton KL, West J, Berner RA. 2000. Solute flux and mineral balance approaches to quantification of plant effects on silicate weathering. American Journal of Science 300: 539576.
  • Murray BM. 1988. Systematics of the Andreaeopsida (Bryophyta): two orders with links to Takakia. Beiheft Zur Nova Hedwigia 90: 289336.
  • Nobel PS. 1977. Internal leaf area and cellular CO2 resistance: photosynthetic implications of variations with growth conditions and plant species. Physiologia Plantarum 40: 137144.
  • Nobel PS. 1999. Physicochemical and environmental plant physiology. San Diego, CA, USA: Academic Press.
  • Parihar NS. 1961. An introduction to embryophyta, vol. 1, Bryophyta. Allahabad, India: Central Book Depot.
  • Paterson NW, Weyers JDB, Herdman L. 2001. Relative control potential of abscisic acid, carbon dioxide and light in responses of Phaseolus vulgaris stomata. Physiologia Plantarum 111: 412418.
  • Paton JA, Pearce JV. 1957. The occurrence, structure an functions of the stomata in British bryophytes. Transactions of the British Bryological Society 3: 228259.
  • Pédersen O. 1993. Long-distance water transport in aquatic plants. Plant Physiology 103: 13691375.
  • Pédersen O, Sand-Jensen K. 1992. Adaptations of submerged Lobelia dortmanna to aerial life form: morphology, carbon sources and oxygen dynamics. Oikos 75: 6986.
  • Pédersen O, Sand-Jensen K. 1993. Water transport in submerged macrophytes. Aquatic Botany 44: 385406.
  • Pédersen O, Sand-Jensen K. 1997. Transpiration does not control growth and nutrient supply in the amphibious plant Mentha aquatica. Plant, Cell & Environment 20: 117123.
  • Petit JR, Jouzel J, Raynaud D, Barkov NI, Barnola JM, Basile 1 Berner M, Chappelaz J, Davis M, Delaygue G, Delmotto M, Kotlyanov VM, Legarnd M, Lipenkov VY, Lorins L, Pepin L, Ritz C, Saltzman E, Stievenard M. 1999. Climate at atmospheric history of the last 420 000 years from the Vostok ice core, Antarctica. Nature 399: 429436.
  • Proctor MCF. 1977. Evidence on the carbon nutrition of moss sporophytes from 14CO2 uptake and the subsequent movement of assimilate. Journal of Bryology 9: 375386.
  • Proctor MCF. 1979a. Structure and eco-physiological adaptations in bryophytes. In: ClarkeGCS, DuckettJ, eds. Bryophyte systematics. Systematics special volume no. 14. London, UK: Academic Press, 479509.
  • Proctor MCF. 1979b. Surface wax on the leaves of some mosses. Journal of Bryology 10: 531538.
  • Proctor MCF, Raven JA, Rice SK. 1992. Stable carbon isotope discrimination measurements in Sphagnum and other bryophytes: physiological and ecological implications. Journal of Bryology 17: 193202.
  • Pryor KM, Schneider H, Smith AR, Cranfill R, Wolf PG, Hunt JS, Sipes SD. 2001. Horsetails and ferns are a monophyletic group and the closest living relatives of seed plants. Nature 409: 618621.
  • Qiu Y-L, Cho Y, Cox JC, Palmer JD. 1998. The gain of three mitochondrial introns identifies liverworts as the earliest land plants. Nature 394: 671674.
  • Raskin I, Kende H. 1985. Mechanism of aeration in rice. Science 228: 327329.
  • Raven JA. 1977. The evolution of vascular land plants in relation to supracellular transport processes. Advances in Botanical Research 5: 153219.
  • Raven JA. 1984a. Physiological correlates of the morphology of early vascular plants. Botanical Journal of the Linnean Society 88: 105126.
  • Raven JA. 1984b. Energetics and transport in aquatic plants. New York, USA: AR Liss.
  • Raven JA. 1986a. Evolution of plant life forms. In: GivnishT, ed. On the economy of plant form and function. Cambridge, UK: Cambridge University Press, 421492.
  • Raven JA. 1986b. Long distance transport of calcium. In: TrewavasA, ed. Molecular and cellular aspects of calcium in plant development. New York, USA: Plenum Press, 241250.
  • Raven JA. 1991. Terrestrial rhizophytes and H+ currents circulating over at least a millimetre: an obligate relationship? New Phytologist 117: 177185.
  • Raven JA. 1993. The evolution of vascular plants in relation to quantitative functioning of dead water-conducting cells and stomata. Biological Reviews 68: 337363.
  • Raven JA. 1995. The early evolution of land plants: aquatic ancestors and atmospheric interactions. Botanical Journal of Scotland 47: 151175.
  • Raven JA. 1996. Into the voids: The distribution, function, development and maintenance of gas spaces in plants. Annals of Botany 78: 137142.
  • Raven JA. 1999a. The minimum size of seeds and spores in relation to the ontogeny of homoiohydry. Functional Ecology 13: 514.
  • Raven JA. 1999b. The size of cells and organisms in relation to the evolution of embryophytes. Plant Biology 1: 212.
  • Raven JA. 2000. Land plant biochemistry. Philosophical Transactions of the Royal Society of London 355: 4154.
  • Raven JA, Edwards D. 2001. Roots: evolutionary origins and biogeochemical significance. Journal of Experimental Botany 52: 381401.
  • Raven JA, Griffiths H, Smith EC, Vaughn KC. 1998. New perspective in the biophysics and physiology of bryophytes. In: BatesJW, AshtonNW, Duckett JG, eds. Bryology for the twenty first century. London, UK: British Bryological Society, 261275.
  • Raven JA, Handley LL, MacFarlane JJ, McInroy S, McKenzie L, Richards JH. 1988. The role of root CO2 uptake and CAM in inorganic C acquisition by plants of the isoetid life form. A review, with new data on Eriocaulon decangulare. New Phytologist 108: 125148.
  • Raven JA, Johnston AM, Kübler J, Parsons R. 1994. The influence of natural and experimental high O2 concentrations on O2-evolving photolithotrophs. Biological Reviews 69: 6194.
  • Raven JA, MacFarlane JJ, Griffiths H. 1987. The application of stable isotope discrimination techniques. In: CrawfordRMM, ed. Plant life in aquatic and amphibious habitats. British ecological society special symposium. Oxford: Blackwell, 129149.
  • Renzaglia KS, Duff RJ, Nickreut DL, Garbary DJ. 2000. Vegetative and reproductive innovations of early land plants: implications for a unified phylogeny. Philosophical Transactions of the Royal Society of London B355: 769793.
  • Rice SK, Collins D, Anderson AM. 2001. Functional significance of variation in bryophyte canopy structure. American Journal of Botany 88: 15681576.
  • Richardson DHS. 1981. The biology of mosses. Oxford, UK: Blackwell Scientific Publications.
  • Roger DL, Wing SL, Beerling DJ, Jolley DW, Kock PL, Hickey LJ, Berner RA. 2001. Palaeobotanical evidence for near present day levels of atmospheric CO2 during part of the Tertiary. Science 292: 23102313.
  • Ryan PR, Delhaize E, Jones DL. 2001. Function and mechanism of organic anion exudation from plant roots. Annual Review of Plant Physiology and Plant Molecular Biology 52: 527560.
  • Sand-Jensen K, Frost-Christensen H. 1998. Photosynthesis of amphibious and obligately submerged plants in CO2-enriched lowland streams. Oecologia 117: 3139.
  • Sand-Jensen K, Frost-Christensen H. 1999. Plant growth and photosynthesis in the transition zone between land and stream. Aquatic Botany 63: 2335.
  • Sarafis V. 1971. A biological account of Polytrichum commune. New Zealand Journal of Botany 9: 711724.
  • Schroeder JI, Allen GJ, Hugouvieux V, Kwak JM, Waner D. 2001. Guard cell signal transduction. Annual Review of Plant Physiology and Plant Molecular Biology 52: 627658.
  • Sculthorpe CD. 1967. The biology of aquatic vascular plants. London, UK: Edward Arnold.
  • Sherwood-Pike MA, Gray J. 1985. Silurian fungal remains: probable records of the class Ascomycetes. Lethaia 18: 120.
  • Smith JAC. 1991. Ion transport and the transpiration stream. Botanica Acta 104: 416421.
  • Smith DK, Davison PG. 1993. Antheridia and sporophytes in Takakia ceratophyla (Mitt) Grolle: evidence for reclassification among the mosses. Journal of the Hattori Botanical Laboratory 73: 263271.
  • Tanner W, Beevers H. 2001. Transpiration, a prerequisite for long-distance transport of minerals in plants? Proceedings of the National Academy of Sciences, USA 98: 94439447.
  • Taylor WA. 1995. Spores in earliest land plants. Nature 373: 391392.
  • Taylor TN, Hass H, Kerp H. 1997. A cyanolichen from the Lower Devonian Rhynie Chert. American Journal of Botany 84: 9921004.
  • Trachtenberg S, Zamski E. 1978. Conduction of ionic solutes and assimilates in the leptome of Polytrichum juniperinum Willd. Journal of Experimental Botany 29: 719727.
  • Walter H, Stadelmann EJ. 1968. The physiological prerequisites for the transition of autotrophic plants from water to terrestrial life. Bioscience 18: 694701.
  • Wellman CH, Gray J. 2000. The microfossil record of early land plants. Philosophical Transactions of the Royal Society of London B 355: 717732.
  • Whitehouse HLK. 1952. Botany from the beginning. Thrift Books no. 90. London, UK: CA Watts.
  • Willmer C, Fricker M. 1996. Stomata, 2nd edn. London, UK: Chapman & Hall.
  • Winter K, Smith JAC, eds. 1996. Crassulacean acid metabolism. Biochemistry, ecophysiology and evolution. Berlin, Germany: Springer Verlag.
  • Wong SC, Cowan IR, Farquhar GD. 1979. Stomatal conductance correlates with photosynthetic capacity. Nature 282: 424426.
  • Woodward FI. 1987. Stomatal numbers are sensitive to CO2 increases from pre-industrial levels. Nature 327: 617618.
  • Woodward FI. 1998. Do plants really need stomata? Journal of Experimental Botany 49: 471480.
  • Van Zanten VO. 1974. The hygroscopic movements of the leaves of Dawsonia and some other Polytrichaceae. Bulletin de la Societié Botanique Français, Colloques Bryologiques 121: 6366.
  • Ziegler H. 1987. The evolution of stomata. In: ZieglerE, FarquharGD, CowanIR, eds. Stomatal function. CA, USA: Stanford University Press, 2957.