References

Ahmed FE, Hall AE, Madore MA (1993) Interactive effects of high temperature and elevated carbon dioxide concentration on cowpea [Vigna unguiculata (L.) Walp.]. Plant Cell Environ 16:835-842

Ainsworth EA, Long SP (2005) What have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy properties and plant production to rising CO2. New Phytol 165:351-372 Amthor JS (2001) Effects of atmospheric CO2 concentration on wheat yield: review of results from experiments using various approaches to control CO2 concentration. Field Crops Res 73:1-34 Arp WJ (1991) Effects of source-sink relations on photosynthetic acclimation to elevated CO2. Plant Cell Environ 14:869-875

Ambient Carbon Dioxide

Elevated Carbon Dioxide

Assmann SM (1999) The cellular basis of guard cell sensing of rising CO2. Plant Cell Environ 22:629-637

Badeck F-W, Bondeau A, Böttcher K, Doktor D, Lucht W, Schaber J, Sitch S (2004) Responses of spring phenology to climate change. New Phytol 162:295-309 Baker JT, Allen LH Jr (1993) Contrasting crop species responses to CO2 and temperature: rice, soybean and citrus. Vegetatio 104/105:239-260 Bazzaz FA (1990) The response of natural ecosystem to the rising global CO2 levels. Annu Rev Ecol Syst 21:167-196

Bazzaz F, Sombroek W, eds (1996) Global Climate Change and Agricultural Production. Food and Agriculture Organization of the United Nations, Rome, Italy and John Wiley & Sons, Chichester, England

Berntson GM, McConnaughay KDM, Bazzaz FA (1993) Elevated CO2 alters deployment of roots in "small" growth containers. Oecologia 94:558-564 Borjigidai A, Hikosaka K, Hirose T, Hasegawa T, Okada M, Kobayashi K (2006) Seasonal changes in temperature dependence of photosynthetic rate in rice under a free-air CO2 enrichment. Ann Bot 97:549-557

Bowes G (1993) Facing the inevitable: plants and increasing atmospheric CO2. Annu Rev Plant

Physiol Plant Mol Biol 44:309-332 Bray S, Reid DM (2002) The effect of salinity and CO2 enrichment on the growth and anatomy of the second trifoliate leaf of Phaseolus vulgaris. Can J Bot 80:349-359 Brouwer F, McCarl BA, eds (2006) Agriculture and Climate Beyond 2015: A New Perspective on

Future Land Use Patterns. Springer, Dordrecht, The Netherlands Bunce JA (2000) Responses of stomatal conductance to light, humidity and temperature in winter wheat and barley grown at three concentrations of carbon dioxide in the field. Glob Change Biol 6:371-382

Bunce JA, Ziska LH (1998) Decreased hydraulic conductance in plants at elevated carbon dioxide.

Plant Cell Environ 21:121-126 Cen Y-P, Sage RE (2005) The regulation of Rubisco activity in response to variation in temperature and atmospheric CO2 partial pressure in sweet potato. Plant Physiol 139:979-990 Challinor AJ, Wheeler TR, Craufurd PQ, Slingo JM (2005) Simulation of the impact of high temperature stress on annual crop yields. Agric For Met 135:180-189 Chiariello NR, Field CB, Mooney HA (1987) Midday wilting in a tropical pioneer tree. Func Ecol 1:3-11

Clifford SC, Stronach IM, Black CR, Singleton-Jones PR, Azam-Ali SN, Crout NMJ (2000) Effects of elevated CO2, drought and temperature on the water relations and gas exchange of groundnut (Arachis hypogaea) stands grown in controlled environment glasshouses. Physiol Plant 110:78-88

Conroy JP, Seneweera S, Basra AS, Rogers G, Nissen-Wooller B (1994) Influence of rising atmospheric CO2 concentrations and temperature on growth, yield and grain quality of cereal crops. Aust J Plant Physiol 21:741-758 Cowling SA, Sage RF (1998) Interactive effects of low atmospheric CO2 and elevated temperature on growth, photosynthesis and respiration in Phaseolus vulgaris. Plant Cell Environ 21:427-435

Crafts-Brandner SJ, Salvucci ME (2000) Rubisco activase constrains the photosynthetic potential of leaves at high temperature and CO2. Proc Natl Acad Sci USA 97:13430-13435 Cure JD, Acock B (1986) Crop responses to carbon dioxide doubling: a literature survey. Agric For Met 38:127-145

Dhakhwa GB, Campbell CL, LeDuc SK, Cooter EJ (1997) Maize growth: assessing the effect of global warming and CO2 fertilization with crop models. Agric For Met 87:253-272 Dhawan KR, Bassi PK, Spencer MS (1981) Effects of carbon dioxide on ethylene production and action in intact sunflower plants. Plant Physiol 68:831-834 Dodd IC, Davies WJ (2004) Hormones and the regulation of water balance. In: Davies PJ (ed) Plant Hormones: Biosynthesis, Signal Transduction, Action! 3rd ed. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 493-512

Drake BG, Azcon-Bieto J, Berry J, Bunce J, Dijkstra D, Farrar J, Gifford RM, Gonzalez-Meler MA, Koch G, Lambers H, Siedow J, Wullschleger S (1999) Does elevated atmospheric CO2 concentration inhibit mitochondrial respiration in green plants? Plant Cell Environ 22:649-659 Farquhar GD, von Caemmerer S, Berry JA (1980) A biochemical model of photosynthetic CO2

assimilation in leaves of C3 species. Planta 149:78-90 Farrar JF, Williams ML (1991) The effects of increased atmospheric carbon-dioxide and temperature on carbon partitioning, source-sink relations and respiration. Plant Cell Environ 14:819-830

Ferris R, Ellis RH, Wheeler TR, Hadley P (1998) Effect of high temperature stress at anthesis on grain yield and biomass of field-grown crops of wheat. Ann Bot 82:631-639 Finlayson SA, Reid DM (1994) Influence of CO2 on ACC oxidase activity from roots of sunflower

(Helianthus annuus) seedlings. Phytochemistry 35:847-851 Finlayson SA, Reid DM (1996) The effect of CO2 on ethylene evolution and elongation rate in roots of sunflower (Helianthus annuus) seedlings. Physiol Plant 98:875-881 Garcia RL, Long SP, Wall GW, Osborne CP, Kimball BA, Nie GY, Pinter PJ, Lamorte RL, Wechsung F (1998) Photosynthesis and conductance of spring-wheat leaves: field response to continuous free-air atmospheric CO2 enrichment. Plant Cell Environ 21:659-669 Gliessman SR (1998) Agroecology: Ecological Processes in Sustainable Agriculture. Sleeping

Bear Press, Chelsea, Michigan, USA Guy RD, Reid DM (1986) Photosynthesis and the influence of CO2-enrichment on 813C values in a C3 halophyte. Plant Cell Environ 9:65-72 Hakala K (1998) Growth and yield potential of spring wheat in a simulated changed climate with increased CO2 and higher temperature. Eur J Agron 9:41-52 Hällgren J-E, Strand M, Lundmark T (1991) Temperature stress. In: Raghavendra AS (ed) Physiology of Trees. John Wiley & Sons, Inc., New York, NY, USA, pp. 301-335 Hardy JT (2003) Climate Change: Causes, Effects, and Solutions. John Wiley & Sons Ltd, Chich-ester, England

Heagle AS (2003) Influence of elevated carbon dioxide on interactions between Frankliniella occi-

dentalis and Trifolium repens. Environ Entomol 32:421-424 Heineke D, Kauder F, Frommer W, Kühn C, Gillissen B, Ludewig F, Sonnewald U (1999) Application of transgenic plants in understanding responses to atmospheric change. Plant Cell Environ 22:623-628

Hoogenboom G, White JW, Messina CD (2004) From genome to crop: integration through simulation modeling. Field Crops Res 90:145-163 Idso SB, Kimball BA, Anderson MG, Mauney JR (1987) Effect of atmospheric CO2 enrichment on plant growth: the interactive role of air temperature. Agric Ecosys Environ 20:1-10 IPCC (2007) Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. In: Solomon S, Qin D, Manning M, Chen Z, Marquis M, Averyt KB, Tignor M and Miller HL (eds). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, pp. 996

Jablonski LM, Wang X, Curtis PS (2002) Plant reproduction under elevated CO2 conditions: a meta-analysis of reports on 79 crop and wild species. New Phytol 156:9-26 Khan NA (ed) (2006) Ethylene Action in Plants. Springer-Verlag, Berlin Heidelberg, Germany Kimball BA (1983) Carbon dioxide and agricultural yield: an assemblage and analysis of 430 prior observations. Agron J 75:779-788 Kimball BA, Kobayashi K, Bindi M (2002a) Responses of agricultural crops to free-air CO2 enrichment. Adv Agron 77:293-368 Kimball BA, Zhu J, Lei C, Kobayashi K, Bindi M (2002b) Responses of agricultural crops to free-air CO2 enrichment. Chin J App Ecol 13:1323-1338 Kirschbaum MUF (1994) The sensitivity of C3 photosynthesis to increasing CO2 concentration: a theoretical analysis of its dependence on temperature and background CO2 concentration. Plant Cell Environ 17:747-754

Körner C (2006) Significance of temperature in plant life. In: Morison JIL, Morecroft MD (eds)

Plant Growth and Climate Change. Blackwell Publishing Ltd, Oxford, UK, pp. 48-69 Krupa SV, Groth JV (1999) Global climate change and crop responses: uncertainties associated with the current methodologies. In: Agrawal SB, Agrawal M (eds) Environmental Pollution and Plant Responses. CRC Press, Boca Raton, Florida, USA, pp. 1-18 Lambers H, Chapin III FS, Pons TL (1998) Plant Physiological Ecology. Springer-Verlag, New York, NY, USA

Larcher W (2003) Physiological Plant Ecology. 4th ed. Springer-Verlag, Berlin Heidelberg Lawlor DW (1998) Plant responses to global change: temperature and drought stress. In: De Kok LJ, Stulen I (eds) Responses of Plant Metabolism to Air Pollution and Global Change. Back-huys Publishers, Leiden, The Netherlands, pp. 193-207 Lawlor DW (2005) Plant responses to climate change: impacts and adaptation. In: Omasa K, Nouchi I, De Kok LJ (eds) Plant Responses to Air Pollution and Global Change. SpringerVerlag, Tokyo, Japan, pp. 81-88 Lawlor DW, Mitchell RAC (2000) Crop ecosystem responses to climatic change: wheat. In: Reddy KR, Hodges HF (eds) Climate Change and Global Crop Productivity. CABI Publishing, Wallingford, UK, pp. 57-80 Lee-Ho E, Walton LJ, Reid DM, Yeung EC, Kurepin LV (2007) Effects of elevated carbon dioxide and sucrose concentrations on Arabidopsis thaliana root architecture and anatomy. Can J Bot 85:324-330

Lemmen DS, Warren FJ, eds (2004) Climate Change Impacts and Adaptation: A Canadian Perspective. Natural Resources Canada, Ottawa, Ontario, Canada Lenssen GM, Rozema J (1990) The effect of atmospheric CO2-enrichment and salinity on growth, photosynthesis and water relations of salt marsh species. In: Goudriaan J, Van Keulen H, Van Laar HH (eds) The Greenhouse Effect and Primary Productivity in European Agroecosystems. Pudoc, Wageningen, The Netherlands, pp. 64-67 Lobell DB, Field CB, Cahill KN, Bonfils C (2006) Impacts of future climate change on California perennial crop yields: model projections with climate and crop uncertainties. Agric For Met 141:208-218

Long SP (1991) Modification of the response of photosynthetic productivity to rising temperature by atmospheric CO2 concentration: has its importance been underestimated? Plant Cell Environ 14:729-739

Long SP, Ainsworth EA, Rogers A, Ort DR (2004) Rising atmospheric carbon dioxide: plants

FACE the future. Annu Rev Plant Biol 55:591-628 McConnaughay KDM, Berntson GM, Bazzaz FA (1993) Limitations to CO2-induced growth enhancement in pot studies. Oecologia 94:550-557 McKee IF, Woodward FI (1994) CO2 enrichment responses of wheat: interaction with temperature, nitrate and phosphate. New Phytol 127:447-453 Mitchell RAC, Black CR, Burkart S, Burke JI, Donnelly A, de Temmmerman L, Fangmeier A, Mulholland BJ, Theobald JC, van Oijen M (1999) Photosynthetic responses in spring wheat grown under elevated CO2 concentrations and stress conditions in the European, multiple-site experiment 'ESPACE-wheat'. Eur J Agron 10:205-214 Mitchell RAC, Lawlor DW, Mitchell VJ, Gibbard CL, White EM, Porter JR (1995) Effects of elevated CO2 concentration and increased temperature on winter wheat: test of ARCWHEAT1 simulation model. Plant Cell Environ 18:736-748 Mitchell RAC, Mitchell VJ, Driscoll SP, Franklin J, Lawlor DW (1993) Effects of increased CO2 concentration and temperature on growth and yield of winter wheat at two levels of nitrogen application. Plant Cell Environ 16:521-529 Moore BD, Cheng S-H, Sims D, Seemann JR (1999) The biochemical and molecular basis for photosynthetic acclimation to elevated atmospheric CO2. Plant Cell Environ 22:567-582 Morecroft MD, Paterson JS (2006) Effects of temperature and precipitation changes on plant communities. In: Morison JIL, Morecroft MD (eds) Plant Growth and Climate Change. Blackwell Publishing Ltd, Oxford, UK, pp. 146-164

Morison JIL (1998) Stomatal response to increased CO2 concentration. J Exp Bot 49:443-452 Morrison JIL, Gifford RM (1983) Stomatal sensitivity to carbon dioxide and humidity. Plant Physiol 71:789-796

Morison JIL, Lawlor DW (1999) Interactions between increasing CO2 concentration and temperature on plant growth. Plant Cell Environ 22:659-682 Nijs I, Ferris R, Blum H, Hendrey G, Impens I (1997) Stomatal regulation in a changing climate: a field study using free air temperature increase (FATI) and free air CO2 enrichment (FACE). Plant Cell Environ 20:1041-1050 Nilsen ET, Orcutt DM (1996) The Physiology of Plants Under Stress: Abiotic Factors. John Wiley

& Sons, Inc., New York, NY, USA Nobel PS (2005) Physicochemical and Environmental Plant Physiology. 3rd ed. Academic Press,

Inc., San Diego, California Norby RJ, Luo Y (2004) Evaluating ecosystem responses to rising atmospheric CO2 and global warming in multi-factor world. New Phytol 162:281-293 Nowak RS, Ellsworth DS, Smith SD (2004) Functional responses of plants to elevated atmospheric CO2 - do photosynthetic and productivity data from FACE experiments support early predictions? New Phytol 162:253-280 Peñuelas J, Llusia J (2003) BVOCs: plant defense against climate warming? Trends Plant Sci 8:105-109

Polley HW (2002) Implications of atmospheric and climatic change for crop yield and water use efficiency. Crop Sci 42:131-140 Polowick PL, Sawhney VK (1988) High temperature induced male and female sterility in canola

(Brassica napus L.). Ann Bot 62:83-86 Poorter H, Van Berkel Y, Baxter R, Den Hertog J, Dijkstra P, Gifford RM, Griffin KL, Roumet C, Roy J, Wong SC (1997) The effects of elevated CO2 on the chemical composition and construction costs of leaves of 27 C3 species. Plant Cell Environ 20:472-482 Porter JR, Gawith M (1999) Temperatures and the growth and development of wheat: a review. Eur J Agron 10:23-36

Prasad PVV, Allen LH Jr, Boote KJ (2005) Crop responses to elevated carbon dioxide and interaction with temperature: grain legumes. J Crop Imp 13:113-155 Prasad PVV, Boote KJ, Allen LH Jr, Thomas JMG (2002) Effects of elevated temperature and carbon dioxide on seed-set and yield of kidney bean (Phaseolus vulgaris L.). Glob Change Biol 8:710-721

Pritchard SG, Rogers HH (2000) Spatial and temporal deployment of crop roots in CO2-enriched environments. New Phytol 147:55-71 Pritchard SG, Rogers HH, Prior SA, Peterson CM (1999) Elevated CO2 and plant structure: a review. Glob. Change Biol 5:807-837 Qaderi MM, Kurepin LV, Reid DM (2006) Growth and physiological responses of canola (Brassica napus) to three components of global climate change: temperature, carbon dioxide and drought. Physiol Plant 128:710-721 Qaderi MM, Reid DM (2005) Growth and physiological responses of canola (Brassica napus) to

UV-B and CO2 under controlled environment conditions. Physiol Plant 125:247-259 Rawson HM (1992) Plant responses to temperature under conditions of elevated CO2. Aus J Bot 40:473-490

Reddy KR, Hodges HF, McKinion JM (1996) Food and agriculture in the 21st century: a cotton example. World Res Rev 8:80-97 Reddy KR, Kakani VG, Prasad PVV (2005) Crop responses to elevated carbon dioxide and interactions with temperature: cotton. J Crop Imp 13:157-191 Reekie EG, MacDougall G, Wong I, Hicklenton PR (1998) Effects of sink size on growth response to elevated atmospheric CO2 within the genus Brassica. Can J Bot 76:829-835 Robredo A, Perez-Lopez U, Sainz de la Maza H, Gonzalez-Moro B, Lacuesta M, Mena-Petite A, Muñoz-Rueda A (2007) Elevated CO2 alleviates the impact of drought on barley improving water status by lowering stomatal conductance and delaying its effects on photosynthesis. Environ Exp Bot 59:252-263

Rogers HH, Peterson CM, McCrimmon JN, Cure JD (1992) Response of plant roots to elevated atmospheric carbon dioxide. Plant Cell Environ 15:749-752 Rogers HH, Runion GB, Prior SA, Torbert HA (1999) Response of plants to elevated atmospheric CO2: root growth, mineral nutrition, and soil carbon. In: Luo Y, Mooney HA (eds) Carbon Dioxide and Environmental Stress. Academic Press, Inc., San Diego, California, USA, pp. 215244

Rolland F, Moore B, Sheen J (2002) Sugar sensing and signaling in plants. Plant Cell 14 (suppl): S185-S205

Rosenzweig C, Hillel D (1998) Climate Change and the Global Harvest: Potential Impacts of the

Greenhouse Effect on Agriculture. Oxford University Press, New York, NY, USA Seneweera S, Aben SK, Basra AS, Jones B, Conroy JP (2003) Involvement of ethylene in the morphological and developmental response of rice to elevated atmospheric CO2 concentrations. Plant Growth Regul 39:143-153 Shaw MR, Huxman TE, Lund CP (2005) Modern and future semi-arid and arid ecosystems. In: Ehleringer JR, Cerling TE, Dearing MD (eds) A History of Atmospheric CO2 and Its Effects on Plants, Animals, and Ecosystems. Springer Science + Business Media, Inc., New York, NY, USA, pp. 415-440

Sionit N, Strain BR, Flint EP (1987) Interaction of temperature and CO2 enrichment on soybean:

photosynthesis and seed yield. Can J Plant Sci 67:629-636 Sisler EC, Wood C (1988) Interaction of ethylene and CO2. Physiol Plant 73:440-444 Smith DM, Cusack S, Colman AW, Folland CK, Harris GR, Murphy JM (2007) Improved surface temperature prediction for the coming decade from a global climate model. Science 317: 796-799

Smith JJ, John P (1993) Activation of 1-aminocyclopropane-1-carboxylate oxidase by bicarbonate/carbon dioxide. Phytochemistry 32:1381-1386 Sovero M (1993) Rapeseed, a new oilseed crop for the United States. In: Janick J, Simon JE (eds)

New Crops. John Wiley & Sons, Inc., New York, USA, pp. 302-307 Stitt M, Krapp A (1999) The interaction between elevated carbon dioxide and nitrogen nutrition:

the physiological and molecular background. Plant Cell Environ 22:583-621 Stulen I, Den Hertog J (1993) Root growth and functioning under atmospheric CO2 enrichment.

Vegetatio 104/105:99-116 Taiz L, Zeiger E (2002) Plant Physiology. 3rd ed. Sinauer Associates, Inc., Sunderland, Massachusetts

Taylor G, Tricker PJ, Graham LE, Tallis MJ, Rae AM, Trewin H, Street NR (2006) The potential of genomics and genetics to understand plant responses to elevated atmospheric (CO2). In: Nosberger J, Long SP, Norby RJ, Stitt M, Hendry GR, Blum H (eds) Managed Ecosystems and CO2: Case Studies, Processes, and Perspectives. Springer-Verlag, Berlin Heidelberg, Germany, pp. 351-371

Thomas JMG, Boote KJ, Allen LH Jr, Gallo-Meagher M, Davis JM (2003) Elevated temperature and carbon dioxide effects on soybean seed composition and transcript abundance. Crop Sci 43:1548-1557

Torbert HA, Prior SA, Rogers HH, Runion GB (2004) Elevated atmospheric CO2 effects on N

fertilization in grain sorghum and soybean. Field Crops Res 88:57-67 Trnka M, Dubrovsky M, Semeradova D, Zalud Z (2004) Projections of uncertainties in climate change scenarios into expected winter wheat yields. Theor Appl Climatol 77:229-249 Tuba Z, Raschi A, Lanini GM, Nagy Z, Helyes L, Vodnik D, di Toppi LS (2003) Plant response to elevated carbon dioxide. In: di Toppi LS, Pawlik-Skowronska B (eds) Abiotic Stresses in Plants. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 157-204 Vu JCV (2005) Acclimation of peanut (Arachis hypogaea L.) leaf photosynthesis to elevated growth CO2 and temperature. Environ Exp Bot 53:85-95 Vu JCV, Allen LH Jr, Boote KJ, Bowes G (1997) Effects of elevated CO2 and temperature on photosynthesis and Rubisco in rice and soybean. Plant Cell Environ 20:68-76 Wheeler TR, Craufurd PQ, Ellis RH, Porter JR, Prasad PVV (2000) Temperature variability and the yield of annual crops. Agric Ecosys Environ 82:159-167

Wheeler TR, Morison JIL, Ellis RH, Hadley P (1994) The effects of CO2, temperature and their interaction on the growth and yield of carrot (Daucus carota L.). Plant Cell Environ 17:12751284

White JW, McMaster GS, Edmeades GO (2004) Genomics and crop response to global change:

what have we learned? Field Crops Res 90:165-169 Williams M, Robertson EJ, Leech RM, Harwood JL (1998) The effects of elevated atmospheric CO2 on lipid metabolism in leaves from mature wheat (Triticum aestivum cv. Hereward) plants. Plant Cell Environ 21:927-936 Williams M, Shewry PR, Harwood JL (1994) The influence of the 'greenhouse effect' on wheat

(Triticum aestivum L.) grain lipids. J Exp Bot 45:1379-1385 Wilson KB, Bunce JA (1997) Effects of carbon dioxide concentration on the interactive effects of temperature and water vapour on stomatal conductance in soybean. Plant Cell Environ 20:230238

Wittwer SH (1995) Food, Climate, and Carbon Dioxide: The Global Environment and World Food

Production. CRC Press, Boca Raton, Florida, USA Woodrow L, Grodzinski B (1993) Ethylene exchange in Lycopersicon esculentum Mill. leaves during short- and long-term exposures to CO2. J Exp Bot 44:471-480 Woodrow L, Thompson RG, Grodzinski B (1988) Effects of ethylene on photosynthesis and partitioning in tomato, Lycopersicon esculentum Mill. J Exp Bot 39:667-684 Woodward FI (1987) Stomatal numbers are sensitive to increases in CO2 from pre-industrial levels. Nature 327:617-618

Woodward FI (2002) Potential impacts of global elevated CO2 concentrations on plants. Curr Opin Plant Biol 5:207-211

Woodward FI, Kelly CK (1995) The influence of CO2 concentration on stomatal density. New Phytol 131:311-327

Young LW, Wilen RW, Bonham-Smith PC (2004) High temperature stress of Brassica napus during flowering reduces micro- and megagametophyte fertility, induces fruit abortion, and disrupts seed production. J Exp Bot 55:485-495 Yu YB, Adams DO, Yang SF (1980) Inhibition of ethylene production by 2,4-dinitrophenol and high temperature. Plant Physiol 66:286-290 Ziska LH, Bunce JA (2006) Plant responses to rising atmospheric carbon dioxide. In: Morison JIL, Morecroft MD (eds) Plant Growth and Climate Change. Blackwell Publishing Ltd, Oxford, UK, pp. 17-47

Ziska LH, Manalo PA, Ordonez RA (1996) Intraspecific variation in the response of rice (Oryza sativa L.) to increased CO2 and temperature: growth and yield response of 17 cultivars. J Exp Bot 47:1353-1359

Ziska LH, Morris CF, Goins EW (2004) Quantitative and qualitative evaluation of selected wheat varieties released since 1903 to increasing atmospheric carbon dioxide: can yield sensitivity to carbon dioxide be a factor in wheat performance? Glob. Change Biol 10:1810-1819

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