References

Amthor JS (1989) Respiration and crop productivity. Springer, Berlin Heidelberg New York, 215 pp Arneth A, Kelliher FM, McSeveny TM, Byers JN (1999) Assessment of annual carbon dioxide exchange in a water-stressed Pinus radiata plantation: an analysis based on eddy covariance measurements and an integrated biophysical model. Global Change Biol 5:531-545 Arneth A, Lloyd J, Santrucova H, et al (2002) Response of central Siberian Scots pine to soil water deficit and long-term trends in atmospheric CO, concentration. Global Biogeochem Cycles 16:5-13 Bell TL, Pate JS, Dixon KW (1996) Relationship between fire response, morphology, root anatomy and starch distribution in south-west Australian Epacridaceae. Ann Bot 77:357-364

Biscoe PV, Scott RK, Monteith JL (1975) Barley and its environment. III. Carbon budget of the stand. J Appl Ecol 12:269-293

Bjorkman O (1971) Comparative photosynthetic CO, exchange in higher plants. In: Hatch MD, Osmond CB, Slatyer RO (eds) Photosynthesis and photorespiration. Wiley, New York, pp 18-34 Bjorkman O (1981) Responses to different quantum flux densities. Encycl Plant Physiol 12A:57-108 Bjorkman O, Demmig-Adams B (1994) Regulation of photo-synthetic light energy capture, conversion, and dissipation in leaves of higher plants. Ecological Studies 100. Springer, Berlin Heidelberg New York, pp 17-70 Chapin FS III, Schulze ED, Mooney HA (1990) The ecology and economics of storage in plants. Annu Rev Ecol Syst 21:423-447

Clayton WD (1981) Evolution and distribution of grasses.

Ann Mo Bot Gard 68:5-14 Cowan IR, Farquhar GD (1977) Stomatal function in relation to leaf metabolism and environment. In: Jennings JR (eds) Interaction of activity in the higher plant. Cambridge University Press, Cambridge, pp 471-505 dePury DGG, Farquhar GD (1999) A commentary on the use of a sun/shade model to scale from the leaf to a canopy. Agric For Met 95:257-260 Ehleringer JR, Cerling TE (2001) Photosynthetic pathways and climate. In: Schulze E-D, Heimann M, Harrison S, Holland E, Lloyd J, Prentice C, Schimel D (eds) Global biogeochemical cycles in the climate system. Academic Press, San Diego, 350 pp Ehleringer JR, Cerling TE, Helliker BR (1997) C4 photosynthesis, atmospheric C02, and climate. Oecologia 112:385-399

Ellenberg H (1978) Vegetation Mitteleuropas mit den Alpen.

Ulmer, Stuttgart, 981 pp Evans LT (1972) Evolutionary, adaptive and environmental aspects of the photosynthetic pathway. In: Hatch MD, Osmond CB, Slatyer RO (eds) Photosynthesis and photorespiration. Wiley, New York, pp 130-137 Evenari M, Shanan L, Tadmor N (1982) The Negev; the challenge of a desert. Harvard University Press, Cambridge, 437 pp

FAO (2000) Forest resources of Europe, CIS, North America, Australia, Japan and New Zealand. Main report. United Nations, New York, Geneva, 445 pp Farquahr G, Lloyd J (1993) Carbon and oxygen isotope effects in the exchange of carbon dioxide between terrestrial plants and the atmosphere. In: Ehleringer JR, Hall AE, Farquhar GD (eds) Stable isotopes and plant carbon-water relations. Academic Press, San Diego, pp 47-70 Farquhar GD, von Caemmerer S (1982) Modelling of photosynthetic response to environment. Encycl Plant Physiol 12B:549-587

Farquhar GD, Ehleringer JR, Hubick KT (1989) Carbon isotope discrimination and photosynthesis. Annu Rev Plant Physiol Plant Mol Biol 40:503-537 Farquhar GD, von Caemmerer S, Berry JA (1980) A biochemical model of photosynthetic CO, assimilation in leaves of C3 species. Planta 149:78-90 Fichtner K, Schulze E-D (1992) The effect of nitrogen nutrition on growth and biomass partitioning of annual plants originating from habitats of different nitrogen availability. Oecologia 92:236-241 Field C, Mooney HA (1986) The photosynthesis-nitrogen relationship in wild plants. In: Givnish TJ (ed) On the economy of plant form and function. Cambridge University Press, Cambridge, pp 25-56 Fritts HC, Vaganov EA, Sviderskaya IV, Shashkin AV (1991) Climatic variation and tree-ring structure in conifers: empirical and mechanistic models of tree-ring width, number of cells, cell size, cell-wall thickness and wood density. Climate Res 1:97-116 Fuchs M, Schulze E-D, Fuchs MI (1977) Spacial distribution of photosynthetic capacity and performance in a mountain spruce forest of northern Germany. II. Climatic control of carbon dioxide uptake. Oecologia 29:329-340 Gifford RM (1974) A comparison of potential photosynthesis, productivity and yield of plant species with differing photosynthetic metabolism. Aust J Plant Physiol 1:107117

Gillon J, Yakir D (2001) Influence of carbonic anhydrase activity in terrestrial vegetation on the 180 content of atmospheric CO,. Science 291:2584-2587 Harley PC, Tenhunen JD, Lange OL (1986) Use of an analytical model to study limitations on net photosynthesis in Arbutus unedo under field conditions. Oecologia 70: 393-401

Hattersley PW (1992) C4 photosynthetic pathway variation in grasses (Poaceae): its significance for arid and semiarid lands. In: Chapman G (ed) Desertified grasslands: their biology and management. Academic Press, London, pp 181-212

Heilmeier H, Schulze E-D, Whale DM (1986) Carbon and nitrogen partitioning in the biennial macrocarp Arctium tomentosum Mill. Oecologia 70:466-474 Heilmeier H, Erhart M, Schulze E-D (1997) Biomass allocation and water use under arid conditions. In: Bazzaz F, Grace J (eds) Plant resource allocation. Academic Press, San Diego, pp 93-112 Hollinger DY, Kelliher FM, Byers JN, Hunt JE, McSeveny TM, Weir PL (1994) Carbon dioxide exchange between an undisturbed old-growth temperate forest and the atmosphere. Ecology 75:134-150 Jarvis PG (1971) The estimation of resistances to carbon dioxide transfer. In: Sestak Z, Catsky J, Jarvis PG (eds) Plant photosynthetic production: manual of methods. Junk, Den Haag, pp 566-631 Jarvis PG (1976) The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philos Trans R Soc Lond B 273:593-610 Jones HG (1994) Plants and microclimate, 2nd edn. Cambridge University Press, Cambridge, 428 pp Jones HG (1999) Use of thermography for quantitative studies of spacial and temporal variation of stomatal conductance over leaf surfaces. Plant Cell Environ 22:1043-1055 Kaiser WM (1982) Correlation between changes in photo-synthetic activity and changes in total protoplast volume in leaf tissue from hygro-, meso- and xerophytes under osmotic stress. Planta 154:538-545 Kappen L, Lange OL, Schulze E-D, Evenari M, Buschhorn U (1976) Distributional pattern of water relations of Hammada scoparia (Pomel) Iljin in a desert environment. Oecologia 23:323-334 Kappen L, Lange OL, Schulze E-D, Evenari M, Buschhorn U (1972) Extreme water stress and photosynthetic activity of the desert plant Arteminsia herba-alba, Asso. Oecologia 10:177-182

Kirschbaum MUF, Farquhar GD (1984) Temperature dependence of whole-leaf photosynthesis in Eucalyptus pauci-flora Sieb. Ex Spreng. Aust J Plant Physiol 11:519-538 Küppers M (1985) Carbon relations and competition between woody species in a central European hedgerow. IV. Growth form and partitioning. Oecologia 66:343-352 Küppers M (1989) Ecological significance of aboveground architectural patterns in woody plants: a question of cost-benefit relationships. Trends Ecol Evol 4:375-379 LaMarche VC Jr, Graybill DA, Fritts HC, Rose MR (1984) Increasing atmospheric carbon dioxide: tree ring evidence for growth enhancement in natural vegetation. Science 252:1019-1021 Lange OL (1959) Untersuchungen über den Wärmehaushalt und die Hitzeresistenz mauretanischer Wüsten- und Savannenpflanzen. Flora 147:595-651 Lange OL (1965) Experimentell-ökologische Untersuchungen an Flechten der Negev-Wüste. I. C02-Gaswechsel von Ramalina maciformis (Del.) Bory unter kontrollierten Bedingungen im Laboratorium. Flora 158:324-359 Lange OL (1988) Ecophysiology of photosynthesis: performance of poikilohydric lichens and homoiohydric Mediterranean sclerophylls. The seventh Tansley lecture. J Ecol 76:914-937 Lange OL, Schulze E-D, Evenari M, Kappen L, Buschhorn U (1975 a) The temperature-related capacity of plants under desert conditions. II. Possible controlling mechanisms for the seasonal changes of the photosynthetic response to temperature. Oecologia 18:45-53 Lange OL, Schulze E-D, Kappen L, Evenari M, Buschhorn U (1975b) C02-exchange patterns under natural conditions of Caraluma negevensis, a CAM plant of the Negev Desert. Photosynthetica 9:318-326 Lange OL, Geiger IL, Schulze E-D (1977) Ecophysiological investigations on lichens of the Negev Desert. V. A model to simulate net photosynthesis and respiration of Ramnalina maciformis. Oecologia 28:247-259 Lange OL, Beyschlag W, Tenhunen JD (1987) Control of leaf carbon assimilation - input of chemical energy into ecosystems. Ecological Studies 61. Springer, Berlin Heidelberg New York, pp 148-163

Larcher W (1994) Ökophysiologie der Pflanzen. UTB, Eugen

Ulmer, Stuttgart, 394 pp Leuning R (1995) A critical appraisal of a combined stoma-tal-photosynthesis model for C3 plants. Plant Cell Environ 18:339-355

Leuning R, Dunin FX, Wang YP (1998) A two-leaf model for canopy conductance, photosynthesis and partitioning of available energy. II. Comparison with measurements. Agric Fort Met 91:113-125 Lloyd J, et al (1995 a) A simple calibrated model of Amazon rainforest productivity based on leaf biochemical properties. Plant Cell Environ 18:1129-1145 Lloyd J, et al. (1995b) Measuring and modelling whole-tree gas exchange. Aust J Plant Physiol 22:987-1000 Lloyd J, Kruijt B, Hollinger DY, Grace J, Francey RJ, Wong SC, Kelliher FM, Miranda AC, Fraquhar GD, Gash JHC, Vygodskaya NN, Wright IR, Miranda HS, Schulze ED (1996) Vegetation effects on the isotopic composition of atmospheric CO, at local and regional scales: theoretical aspects and a comparison between rain forest in Amazonia and a boreal forest in Siberia. Aust J Plant Physiol 23:377-399

Loreto F, Velikova V, Di Marco G (2001) Respiration in the light measured by 12C02 emission in 13C02 atmosphere in maize leaves. Aust J Plant Physiol 28:1103-1108 Lüttge U (1999) One morphotype, three physiotypes: sym-patric species of Clusia with obligate C3 photosynthesis, obligate CAM and C3-CAM intermediate behaviour. Plant Biol 1:138-148 Lüttge U, Kluge M, Bauer G (1988) Botanik. VCH, Weinheim, 577 pp

MacFadden BJ, Cerling TE (1996) Mammalian herbivore communities, ancient feeding ecology and carboisotopes: a 10-million-year sequence from the Neogene of Florida. J Vertebrate Paleontol 16:103-115 McCree KJ (1983) Carbon balance as a function of plant size in Sorghum plants. Crop Sei 20:82-93 Merino J, Field C, Mooney HA (1982) Construction and maintenance costs of Mediterranean-climate evergreen and deciduous leaves. I. Growth and C02 exchange analysis. Oecologia 53:208-213 Miflin B (2000) Crop improvement in the 21st century. J Exp Bot 51:1-8

Monsi M (1960) Dry-matter reproduction in plants. I. Schemata of dry-matter reproduction. Bot Mag 73:82-90 Morison JIL, Piedade MTF, Müller E, Long SP, Junk WJ, Jones MB (2000) Very high productivity of the C4 aquatic grass Echinochloa polystachia in the Amazon flood-plain confirmed by net ecosystem flux measurements. Oecologia 125:400-411 Mott KA, Gordon ZG, Berry JA (1993) Asymmetric stomatal closure for the two surfaces of Xynthium strumarium L. leaves at low humidity. Plant Cell Environ 16:25-34 Mott KA, Parkhust DF (1991) Stomatal response to humidity in air and helox. Plant Cell Environ 14:509-515 Orians GH, Solbrig OT (1977) A cost-income model of leaves and roots with special reference to arid and semiarid areas. Am Nat 111:677-690 Pearcy RW, Pfitsch WA (1994) The consequences of sun-flecks for photosynthesis and growth of forest under-story plants. Ecological Studies 100. Springer, Berlin Heidelberg New York, pp 343-357 Penning de Vries FWT (1975) Use of assimilates in higher plants. In: Cooper JP (ed) JGP 3: photosynthesis and productivity in different environments. Cambridge University Press, Cambridge, pp 459-480 Penning de Vries FWT (1983) Modelling of growth and productivity. Encycl Plant Physiol 12D:117-150

Penning de Vries FWT, Djitèye MA (1982) La productivité des pataurages Sahéliens: Une érude des sols, des végétations et de l'expoilation de cette resource naturelle. PU-DOC, Wageningen, 52 pp Penning de Vries FWT, van Laar HH, Chardon MC (1983) Bioenergetics of growth of seeds, fruits, and storage organs. In: Potential productivity of field crops under different environments. International Rice Institute, Los Ba-nos, Philippines, pp 37-59 Raschke K (1979) Movements of stomata. Encycl Plant

Physiol 7:383-441 Raven JA (1994) Photosynthesis in aquatic plants. Ecological Studies 100. Springer, Berlin Heidelberg New York, pp 299-318

Roden JS, Ehleringer JR (1999) Observations of hydrogen and oxygen isotopes in leaf water confirm the Craig-Gor-don model under wide-ranging conditions. Plant Physiol 12:1165-1173

Scarascia-Mugnozza G, Bauer GA, Persson H, Mateucci G, Marci A (2000) Tree biomass, growth and nitrogen pools. Ecological Studies 142. Springer, Berlin Heidelberg New York, pp 49-62 Schäfer C (1994) Controlling the effects of excessive light energy fluxes: dissipative mechanisms, repair processes, and long-term acclimation. In: Schulze E-D (ed) Flux control in biological systems. Academic Press, San Diego, pp 37-56

Scheible WR, Gonzâles-Fortes A, Lauerer M, Müller-Röber B, Caboche M, Stitt M (1997) Nitrate acts as a signal to induce organic acid metabolism and repress starch metabolism in tobacco. Plant Cell 9:783-798 Schulze E-D (1970) Der C02-Gaswechsel der Buche (Fagus silvatica L.) in Ahhängigkeit von den Klimafaktoren im Freiland. Flora 159:177-232 Schulze E-D (1982) Plant life forms and their carbon water and nutrient relations. Encycl Plant Physiol 12B:616-676 Schulze E-D, Chapin FS III (1987) Plant specialization to environments of different resource availability. Ecological Studies 61. Springer, Berlin Heidelberg New York, pp 120-148

Schulze E-D, Hall AL (1982) Stomatal responses, water loss and CO, assimilation rates of plants in contrasting environments. Encycl Plant Physiol 1213:181-230 Schulze E-D, Küppers M, Matyssek R (1987) The role of carbon balance and branching pattern in the growth of woody species. In: Givnish TJ (ed) On the economy of the plant form and function. Cambridge University Press, Cambridge, pp 585-602 Schulze W, Stitt M, Schulze E-D, Neuhaus HE, Fichtner K (1991) A quantification of the significance of assimilatory starch for growth of Arabidopsis thaliana L. Heynh. Plant Physiol 95:890-895 Schulze E-D, Kelliher FM, Körner C, Lloyd J, Lenning P (1994) Relationships among maximum stomatal conductance, ecosystem surface conductance, carbon assimilation and plant nitrogen nutrition: a global ecology scaling exercise. Annu Rev Ecol Syst 25:629-660

Schulze E-D, Schulze W, Kelliher FM, Vygodskaya NN, Ziegler W, Kobak KI, Koch H, Arneth A, Ksnetsova WA, So-gachev A, Issajev A, Bauer G, Hollinger DY (1995) Above ground biomass and nitrogen nutrition in a chronose-quence of pristine Dahurian Larix stands in eastern Siberia. Can J For Res 25:943-960 Schulze E-D, Ellis R, Schulze W, Trmborn P, Ziegler H (1996) Diversity, metabolic types and <513C carbon isotope ratios in the grass flora of Namibia in relation to growth form, precipitation and habitat conditions. Oeco-logia 106:352-369 Schulze E-D, Williams RJ, Farquhar GD, Schulze W, Lang-ridge J, Miller JM, Walker BH (1998) Carbon and nitrogen isotope discrimination and nitrogen nutrition of trees along a rainfall gradient in northern Australia. Aust J Plant Physiol 25:413-425 Shinozaki K, Yoda K, Hozumi K, Kira T (1964) A quantitative analysis of plant form - the pipe model theory. II. Further evidence of the theory and its application in forest ecology. Jpn J Ecol 14:133-139 Steinlein T, Heilmeier H, Schulze E-D (1993) Nitrogen and carbohydrate storage in biennials originating from habitats of different resource availability. Oecologia 93:374382

Stitt M, Schulze E-D (1994) Plant growth, storage, and resource allocation: from flux control in a metabolic chain to the whole plant level. In: Schulze E-D (ed) Flux control in biological systems. Academic Press, San Diego, pp 57-118

Strasburger E (1999) Lehrbuch der Botanik. G. Fischer,

Stuttgart, 1161 pp Tjoelker MG, Oleksyn J, Reich PB (2001) Modelling respiration of vegetation: evidence for a general temperature-dependent Q10. Global Change Biol 7:223-230 Troll W (1939) Vergleichende Morphologie der Höheren Pflanzen. Bd. 1: Vegetationsorgane. Verlag Gebrüder Bornträger, Berlin, 2005 pp Vareschi V (1980) Vegetationsökologie der Tropen. Ulmer,

Stuttgart, 293 pp Volkens G (1887) Die Flora der ägyptisch-arabischen Wüste auf Grundlage anatomisch-physiologischer Forschung. Gebrüder Bornträger, Berlin, 151 pp Von Caemmerer S, Evans JR, Hudson GS, Andrews TJ (1994) The kinetics of ribulose-l,5-bisphosphate carboxylase/oxygenase in vivo interfered from measurements of photosynthesis in leaves of transgenic tobacco. Planta 195:88-97 Warburg O (1913) Die Pflanzenwelt, Bd 1. Bibliographisches

Institut, Leipzig Wien West NE, Young JA (2000) Intermountain valleys and lower mountain slopes. In: Barbour MG, Billings WD (eds) North American terrestrial vegetation. Cambridge University Press, Cambridge, pp 255-284 Woodward GR (1976) Photosynthesis and expansion of leaves of soybean grown in two environments. Photo-synthetica 10:274-279

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