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Ahmed FE, Hall AE, and 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 and 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 Ainsworth EA, Rogers A, Nelson R, and Long SP (2004) Testing the "source-sink" hypothesis of down-regulation of photosynthesis in elevated (CO2) in the field with single gene substitutions in Glycine max. Agric. For. Meteorol. 122: 85 - 94 Allen DJ, Mckee IF, Farage PK, and Baker NR (1997) Analysis of limitations to CO2 assimilation on exposure of leaves of two Brassica napus cultivars to UV-B. Plant Cell Environ. 20: 633 - 640

Alves AAC and Setter TL (2004) Response of cassava leaf area expansion to water deficit:

Cell proliferation, cell expansion and delayed development. Ann. Bot. 94: 605 - 613 Baker JT (2004) Yield responses of southern U.S. rice cultivars to CO2 and temperature. Agric.

For. Meteorol. 122: 129 - 137 Bakheit BR (2008) Variability and correlations in grain sorghum genotypes (Sorghum bicolor (L.) Moench) under drought conditions at different stages of growth. J. Agron. Crop Sci. 165:355 - 360

Balakumar T, Vincent VHB, and Paliwal K (1993) On the interaction of UV-B radiation (280 nm - 315 nm) with water stress in crop plants. Physiol. Plant. 87: 217 - 222

Ballare CL, Scopel AL, Stapleton AE, and Yanovsky MJ (1996) Solar ultraviolet-B radiation affects seedling emergence, DNA integrity, plant morphology, growth rate, and attractiveness to herbivore insects in Datura ferox. Plant Physiol. 112: 161 - 170 Barbagallo RP, Oxborough K, Pallett KE, and Baker NR (2003) Rapid, noninvasive screening for perturbations of metabolism and plant growth using chlorophyll fluorescence imaging. Plant Physiol. 132: 485

Basal H, Bebeli P, Smith CW, and Thaxton P (2003) Root growth parameters of converted race stocks of upland cotton and two BC2F2 populations. Crop Sci. 43: 1983 - 1988 Beerling DJ, Terry AC, Mitchell PL, Callaghan TV, Jones DG, and Lee JA (2001) Time to chill: effects of simulated global change on leaf ice nucleation temperature and subarctic vegetation. Am. J. Bot. 88: 628 - 633 Berry J and Bjorkman O (1980) Photosynthetic response and adaptation to temperature in higher plants. Ann. Rev. Plant Physiol. 31: 491 - 543 Blum A, Klueva N, and Nguyen HT (2001) Wheat cellular thermotolerance is related to yield under heat stress. Euphytica 117: 117 - 123 Boote KJ, Allen Jr LH, Prasad PVV, Baker JT, Gesch RW, Synder AM, Pan D, and Thomas JMG (2005) Elevated temperature and CO2 impacts on pollination, reproductive growth and yield of several globally important crops. J. Agric. Meteorol. 60: 469 - 474 Bota J, Flexas J, and Medrano H (2001) Genetic variability of photosynthesis and water use in

Balearic grapevine cultivars. Ann. Appl. Biol. 138: 353 - 361 Brodribb T (1996) Dynamics of changing intercellular CO2 concentration (Ci) during drought and determination of minimum functional Ci. Plant Physiol. 111: 179 - 185 Caldwell CR, Britz SJ, and Mirecki RM (2005) Effect of temperature, elevated carbon dioxide, and drought during seed development on the isoflavone content of dwarf soybean (Glycine max (L.) Merrill) grown in controlled environments. J. Agric. Food Chem. 53: 1125 — 1129 Caldwell MM, Teramura AH, and Tevini M (1989) The changing solar ultraviolet climate and the ecological consequences for higher plants. Trends Ecol. Evol. 4: 363 — 367 Caldwell MM, Flint SD, and Searles PS (1994) Spectral balance and UV-B sensitivity of soybean: a field experiment. Plant Cell Environ. 17: 267 — 276 Caldwell MM, Teramura AH, Tevini M, Bornman JF, Björn LO, and Kulandaivelu G (1998) Effects of increased solar ultraviolet radiation on terrestrial ecosystems. J. Photochem. Photobiol. B: Biol. 46: 40 - 52 Caldwell MM, Ballare CL, Bornman JF, Flint SD, Bjorn LO, Teramura AH, Kulandaivelu G, and Tevini M (2003) Terrestrial ecosystems, increased solar ultraviolet radiation and interactions with other climate change factors. Photochem. Photobiol. Sci. 2: 29 — 38 Caldwell MM, Bornman JF, Ballare CL, Flint SD, and Kulandaivelu G (2007) Terrestrial ecosystems, increased solar ultraviolet radiation, and interactions with other climate change factors. Photochem. Photobiol. Sci. 6: 252 — 266 Cheikh N, Miller PW, and Kishore G (2000) Role of biotechnology in crop productivity in a changing environment. In: Reddy KR, Hodges HF (eds) Climate Change and Global Crop Productivity. CAP International, Oxon, UK, pp.425 — 436 Chiulele RM and Agenbag GA (2004) Plant water relations and proline accumulation on two cowpea (Vigna unguiculata (L.) Walp.) cultivars as a response to water stress. S. Afr. J. Plant and Soil 21: 109 - 113

Christensen JH, Hewitson B, Busuioc A, Chen A, Gao X, Held I, Jones R, Kolli RK, Kwon WT, Laprise R, Rueda VM, Mearns L, Menendez CG, Raisanen J, Rinke A, Sarr A and Whetton P. (2007) Regional climate projections. In: Solomon S, Qin D, Manning M, Marquis M, Averyt K, Tignor MMB, Miller HL and Chen Z (eds) Climate Change 2007: Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, UK, pp.847 — 940 Ciais P, Reichstein M, Viovy N, Granier A, Ogee J, Allard V, Aubinet M, Buchmann N, Bernhofer C, Carrara A, Chevallier F, De Noblet N, Friend AD, Friedlingstein P, Grunwald T, Heinesch B, Keronen P, Knohl A, Krinner G, Loustau D, Manca G, Matteucci G, Miglietta F, Ourcival JM, Papale D, Pilegaard K, Rambal S, Seufert G, Soussana JF, Sanz MJ, Schulze ED, Vesala T, and Valentini R (2005) Europe-wide reduction in primary productivity caused by the heat and drought in 2003. Nature 437: 529 — 533 Clavel D, Drame NK, Roy-Macauley H, Braconnier S, and Laffray D (2005) Analysis of early responses to drought associated with field drought adaptation in four Sahelian groundnut (Arachis hypogaea L.) cultivars. Environ. Exp. Bot. 54: 219 — 230 Condon AG, Richards RA, Rebetzke GJ, and Farquhar GD (2002) Improving intrinsic water-use efficiency and crop yield. Crop Sci. 42: 122 —131 Costa ES, Bressan-Smith R, Oliveira JG, and Campostrini E (2003) Chlorophyll a fluorescence analysis in response to excitation irradiance in bean plants (Phaseolus vulgaris L. and Vigna unguiculata L. Walp) submitted to high temperature stress. Photosynthetica 41: 77 - 82

Costa JW, Hasenfratz-Sauder MP, Pham-Thi AT, Lima MDS, Dizengremel P, Jolivet Y, and de Melo DF (2004) Identification in Vigna unguiculata (L.) Walp. of two cDNAs encoding mitochondrial alternative oxidase orthologous to soybean alternative oxidase genes 2a and 2b. Plant Sci. 167: 233 - 239 Craufurd PQ and Peacock JM (1993) Effect of heat and drought stress on sorghum. Exp. Agr. 29: 77 - 86

Craufurd PQ, Flower DJ, and Peacock JM (1993) Effect of heat and drought stress on sorghum.

I. Panicle development and leaf appearance. Exp. Agr. 29: 61 — 76 Craufurd PQ, Prasad PVV, Kakani VG, Wheeler TR, and Nigam SN (2003) Heat tolerance in groundnut. Field Crop Res. 80: 63 — 77 Cutforth HW, McGinn SM, McPhee KE, and Miller PR (2007) Adaptation of pulse crops to the changing climate of the Northern Great Plains. Agron. J. 99: 1684 — 1699 Dai Q, Peng S, Chavez AQ, and Vergara BS (1994) Intraspecific response of 188 rice cultivars to enhanced UV-B radiation. Environ. Exp. Bot. 34: 433 — 442 Dales RE, Cakmak S, Judek S, Dann T, Coates F, Brook JR, and Burnett RT (2004) Influence of outdoor aeroallergens on hospitalization for asthma in Canada. J. Allergy Clin. Immunol. 113:303 - 306

Drennen PM, Smith M, Goldsworthy D, and van Staten J (1993) The occurrence of trahaolose in the leaves of the desiccation-tolerant angiosperm Myronthamnus flabellifoliius Welw. J. Plant Physiol. 142: 493 - 496 Easterling WE, Aggarwal PK, Batima P, Brander KM, Erda L, Howden SM, Kirilenko A, Morton J, Soussana JF, Schmidhuber J, and Tubiello FN (2007) Food, fibre and forest products. In: Parry ML, Canziani OF, Palutikof JP, van der Linden PJ, Hanson CE (eds) Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, UK, pp.273 — 313 Edwards GE and Baker NR (1993) Can CO2 assimilation in maize leaves be predicted accurately from chlorophyll fluorescence analysis? Photosynthesis Res. 37: 89 — 102 Emberlin J, Detandt M, Gehrig R, Jaeger S, Nolard N, and Rantio-Lehtimaki A (2002) Responses in the start of Betula (birch) pollen seasons to recent changes in spring temperatures across Europe. Int. J. Biometeorol. 47: 113 —115 Ensminger PA (1993) Control of development in plants and fungi by far-UV radiation. Physiol. Plant. 88: 501 - 508

FAO (2004) The state of food and agriculture 2003 — 2004. Agricultural Biotechnology: Meeting the Needs of the Poor, Food and Agriculture Organization of the United Nations, Rome, Italy, p.208

Fiscus EL and Booker FL (1995) Is increased UV-B a threat to crop photosynthesis and productivity? Photosyn. Res. 43: 81 — 92 Flexas J, Bota J, Escalona JM, Sampol B, and Medrano H (2002) Effects of drought on photosynthesis in grapevines under field conditions: An evaluation of stomatal and mesophyll limitations. Funct. Plant Biol. 29: 461 — 471 Foulkes MJ, Scott RK, and Bradley RS (2002) The ability of wheat cultivars to withstand drought in UK conditions: Formation of grain yield. J. Agr. Sci. 138: 153 —169 Fourtouni A, Manetas Y, and Christias C (1998) Effects of UV-B radiation on growth, pigmentation and spore production in the phytopathogenic fungus Alternaria solani. Can. J. Bot. 76: 2093 - 2099

Gao W, Zheng Y, Slusser JR, Heisler GM, Grant RH, Xu J, and He D (2004) Effects of supplementary ultraviolet-B radiation on maize yield and qualities: A field experiment. Photochem. Photobiol. 80: 127 - 131 Genty B, Briantais JM, and Baker NR (1990) Relative quantum efficiencies of the two photosystems of leaves in photorespiratory and not photorespiratory conditions. Plant Physiol. Biochem. 28: 1 - 10 Gifford RM (2004) The CO2 fertilizing effect does it occur in the real world? New Phytol. 163: 221 - 225

Giorgi R, Meehl GA, Kattneberg A, Grassl H, Mitchell JFB, Stouffer RJ, Tokioka T, Weaver AJ, and Wigley TML (1998) Simulation of regional climate change with global coupled climate models and regional modeling techniques. In: Watson RT, Zinyowera MC, Moss RH (eds) The Regional Impacts of Climate Change: An Assessment of Vulnerability. Cambridge University Press, New York, NY, pp.427 — 437 Gobron N, Pinty B, Melin F, Taberner M, Verstraete MM, Belward A, Lavergne T, and Widlowski JL (2005) The state of vegetation in Europe following the 2003 drought. Int. J. Remote Sens. 26: 2013 - 2020 Gross Y and Kigel J (1994) Differential sensitivity to high temperature of stages in the reproductive development in common bean (Phaseolus vulgaris L.). Field Crops Res. 36: 201 - 212

Gunn A (1998) The determination of larval phase coloration in the African armyworm Spodoptera exempta and its consequences for thermoregulation and protection from UV light. Entomol. Exp. Appl. 86: 125 - 133 Haldimann P and Feller U (2005) Growth at moderately elevated temperature alters the physiological response of the photosynthetic apparatus to heat stress in pea (Pisum sativum L.) leaves. Plant Cell Environ. 28: 302 - 317 Hall AE (2001) Crop response to environment. CRC Press, New York, NY, p.248 Hall AE (2004a) Breeding for adaptation to drought and heat in cowpea. Eur. J. Agron. 21: 447 - 454

Hall AE (2004b) Comparative ecophysiology of cowpea, common bean, and peanut. In: Henry TN, Abraham B (eds) Physiology and Biotechnology Integration for Plant Breeding. Marcel Dekker, New York, NY, pp.271 - 385 Hall AE and Allen LH (1993) Designing cultivars for climatic conditions of the next century. In: Buxton DR, Shibles R, Forsberg RA, Blad BL, Asay KH, Paulsen GM, Wilson RF (eds) International Crop Science I. Madison: Crop Sciences Society of America, WI, pp.291-297 Hall AE and Ziska LH (2000) Crop breeding strategies for the 21st century. In: Reddy KR, Hodges HF (eds) Climate Change and Global Crop Productivity. CAB International, Oxon, UK, pp.407 - 423

Harborne JB (1988) The flavanoids. Advances in research since 1980. Chapman and Hall, New York, NY, p.676

He J, Huang LK, and Whitecross MI (1994) Chloroplast ultrastructure changes in Pisum sativum associated with supplementary ultraviolet (UV-B) radiation. Plant Cell Envrion. 17: 771 - 775

Hidema J and Kumagai T (2006) Sensitivity of rice to ultraviolet-B radiation. Ann. Bot. 97: 933 - 942

Hidema J, Zhang WH, Yamamoto M, Sato T, and Kumagai T (2005) Changes in grain size and grain storage protein of rice (Oryza sativa L.) in response to elevated UV-B radiation under outdoor conditions. J. Radiation Res. 46: 143 —149 Hofmann R, Campbell B, Fountain D, Jordan BR, Greer DH, Hunt D, and Hunt C (2001) Multivariate analysis of intraspecific responses to UV-B radiation in white clover (Trifolium repense L.). Plant Cell Environ. 24: 917 - 927 Holton MK, Lindroth RL, and Nordheim EV (2003) Foliar quality influence tree-herbivore-parasitoid interactions: Effects of elevated CO2, O3, and plant genotype. Oecologia 137: 233 - 244

Houghton JT, Ding Y, Griggs DJ, Noguer M, van der Linden PJ, Dai X, Maskell K, and Johnson CA (2001) Climate Change 2001: The Scientific Basis. Contribution of Working Group to Third Assessment Report to the Intergovernmental Panel on Climate Change (IPCC). Cambridge University Press, Cambridge, UK, p.892 Hubbard KG and Wu H (2005) Modification of a crop-specific drought index for simulating corn yield in wet years. Agron. J. 97: 1478 — 1484 Hunt JE and McNeil DL (1998) Nitrogen status affects UV-B sensitivity of cucumber. Aust. J. Plant Physiol. 25: 79 - 86

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. Cambridge University Press, Cambridge, UK and New York, NY, p.996 Ismail AM and Hall AE (1997) Chilling tolerance during emergence of cowpea associated with a dehydrin and slow electrolyte leakage. Crop Sci. 37: 1270 Ismail AM and Hall AE (1998) Positive and potential negative effects of heat-tolerance genes in cowpea. Crop Sci. 38: 381 - 390 Ismail AM and Hall AE (1999) Reproductive-stage heat tolerance, leaf membrane thermostability and plant morphology in cowpea. Crop Sci. 39: 1762 — 1768 Izaguirre MM, Scopel AL, Baldwin IT, and Ballare CL (2003) Convergent responses to stress: Solar ultraviolet-B radiation and Manduca sexta herbivory elicit overlapping transcriptional responses in field-grown plants of Nicotiana longiflora. Plant Physiol. 132: 1755 — 1767 Izaguirre MM, Mazza CA, Svotos A, Baldwin IT, and Ballare CL (2007) Solar ultraviolet-B radiation and insect herbivory trigger partially overlapping phenolic responses in Nicotiana attenuate and Nicotiana longiflora. Ann. Bot. 99: 103 — 109 Jablonski LM, Wang X, and 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 Jagtap V, Bhargava S, Streb P, and Feierabend J (1998) Comparative effect of water, heat and light stresses on photosynthetic reactions in Sorghum bicolor (L.) Moench. J. Exp. Bot. 49: 1715 -1721

Jansen MAK (2002) Ultraviolet-B radiation effects on plants: Induction or morphogenic responses. Physiol. Plant. 116: 423 — 429 Jian Y and Huang B (2001) Drought and heat stress injury to two cool-season turf grass in relation to antioxidant and lipid peroxidation. Crop Sci. 41: 436 — 442 Kakani VG, Prasad PVV, Craufurd PQ, and Wheeler TR (2002) Response of in vitro pollen germination and pollen tube growth of groundnut (Arachis hypogaea L.) genotypes to temperature. Plant Cell Environ. 25: 1651 —1661 Kakani VG, Reddy KR, Zhao D, and Sailaja K (2003a) Field crop responses to ultraviolet-B

radiation: A review. Agric. For. Meteorol. 120:191 — 218 Kakani VG, Reddy KR, Zhao D, and Mohammed AR (2003b) Ultraviolet-B radiation effects on cotton (Gossypium hirsutum L.) morphology and anatomy. Ann. Bot. 817 — 826 Kakani VG, Reddy KR, Koti S, Wallace TP, Prasad PVV, Reddy VR, and Zhao D (2005) Differences in in vitro pollen germination and pollen tube growth of cotton cultivars in response to high temperature. Ann. Bot. 96: 59 — 67 Kaspar TC, Pulido DJ, Fenton TE, Colvin TS, Karlen DL, Jaynes DB, and Meek DW (2004) Relationship of corn and soybean yield to soil and terrain properties. Agron. J. 96: 700 - 709

Keller M, Rogiers SY, and Schulz HR (2003) Nitrogen and ultraviolet radiation modifies grapevines susceptibility to powdery mildew. Vitis 42: 87 — 94 Kimball BA, Kobayashi K, and Bindi M (2002) Responses of agricultural crops to free-air

CO2 enrichment. Adv. Agron. 77: 293 - 368 Kishor PBK, Hong Z, Miao G, Hu C, and Verma D (1995) Over expression of A'-pyrroline-5-carboxylase synthase increases proline production and confers osmotolerance in transgenic plants. J. Plant Physiol. 108: 1387 - 1394

Koti S, Reddy KR, Kakani VG, Zhao D, and Reddy VR (2004) Soybean (Glycine max) pollen germination characteristics flower and pollen morphology in response to enhanced ultraviolet-B radiation. Ann. Bot. 94: 855 - 864 Koti S, Reddy KR, Reddy VR, Kakani VG, and Zhao DL (2005) Interactive effects of carbon dioxide, temperature, and ultraviolet-B radiation on soybean (Glycine max L.) flower and pollen morphology, pollen production, germination, and tube lengths. J. Exp. Bot. 56: 725 - 736

Koti S, Reddy KR, Kakani VG, Zhao D, and Gao W (2007) Effects of carbon dioxide, temperature and ultraviolet-B radiation and their interactions on soybean (Glycine max L.) growth and development. Environ. Exp. Bot. 60: 1 —10 Krupa SV (1998) Elevated UV-B radiation and crop. In: Krupa SV, Kickert RN, Jäger HJ (eds) Elevated Ultraviolet (UV)-B Radiation and Agriculture. Springer-Verlag, Heidelberg and Landes Bioscience, Georgetown, TX, pp.105 — 131 Kulandaivelu G and Nedunchezhian N (1993) Synergistic effects of ultraviolet-B enhanced radiation and growth temperature on ribulose 1, 5-bisphosphate carboxylase and 14CO2 fixation in Vigna sinensis L. Photosynthetica 29: 377 — 383 LaDeau SL and Clark JS (2006) Pollen production by Pinus taeda growing in elevated CO2.

Funct. Ecol. 10: 1365 -1371 Lavola A, Tiitto RJ, Roininen H, and Aphalo P (1998) Host-plant preference of an insect herbivore mediated by UV-B and CO2 in relation to plant secondary metabolites. Biochem. Syst. Ecol. 26: 1 - 12

Liang X, Xu M, Gao W, Reddy KR, Kunkel K, and Schmoldt DL (2008) Physical modeling of U.S. cotton yields and climate stresses during 1979 — 2005. J. Geo. Res., Atmospheres (in press)

Lindroth RL, Hofmann RW, Campell BD, McNabb WC, and Hunt DY (2000) Population differences in Trifolium repens L-response to ultraviolet-B radiation: Foliar chemistry and consequences for two lepidopteran herbivores. Oecologia 122: 20 — 28 Lingakumar K, Amudha P, and Kulandaivelu G (1999) Exclusion of solar UV-B (280 nm — 315 nm) radiation on vegetative growth and photosynthetic activities in Vigna unguiculata L. Plant Sci. 148: 97 - 103 Lobell DB and Asner GP (2003) Climate and management contributions to recent trends in

U.S. agricultural yields. Science 299: 1032 Lobell DB, Burke MB, Tebaldi C, Mastrandrea MD, Falcon WP, and Naylor RL (2008) Prioritizing climate change adaptation needs for food security in 2030. Science 319: 607 - 610

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

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

Plants FACE the future. Annu. Rev. Plant Biol. 55: 591 - 628 Long SP, Ainsworth EA, Leakey ADB, and Morgan PB (2005) Global food insecurity. Treatment of major food crops with elevated carbon dioxide or ozone under large-scale fully open-air conditions suggests recent models may have overestimated future yields. Philos. Trans. R. Soc. Lond., Ser. B: Biol. Sci. 360: 2011 - 2020

Long SP, Ainsworth EA, Leakey ADB, Nosberger J, and Ort DR (2006) Food for thought: Lower-than-expected crop yield stimulation with rising CO2 concentrations. Science 312: 1918 -1921

Longenberger PS, Smith CW, Thaxton PS, and McMichael BL (2006) Development of a screening method for drought tolerance in cotton seedlings. Crop Science 46: 2104 — 2110 Lopez FB, Setter TL, and McDavid CR (1987) Carbon dioxide and light responses of photosynthesis in cowpea and pigeonpea during water deficit and recovery. Plant Physiol. 85: 990 - 995

Lu Z, Percy RG, Qualset CO, and Zeiger E (1998) Stomatal conductance predicts yields in irrigated pima cotton and bread wheat grown at high temperatures. J. Exp. Bot. 49: 453 — 460 Mark U and Tevini M (1997) Effects of solar ultraviolet-B radiation, temperature and CO2 on growth and physiology of sunflower and maize seedlings. Plant Ecol. 128: 224 — 234 Martineau JR, Williams JH, and Specht JE (1979) Tolerance in soybean. II. Evaluation of segregating populations for membrane thermostability. Crop Sci. 19: 79 — 81 Matsui T, Namuco OS, Ziska LH, and Horie T (1997) Effects of high temperature and CO2

concentration on spikelet sterility of indica rice. Field Crop. Res. 51: 213 — 219 Maxwell K and Johnson GN (2000) Chlorophyll fluorescence: A practical guide. J. Exp. Bot. 51: 659 - 668

Mazza CA, Zavala J, Scopel AL, and Ballare CL (1999) Perception of solar UVB radiation by phytophagous insects: Behavioral responses and ecosystem implications. Proc. Natl. Acad. Sci. USA. 96: 980 - 985 Mazza CA, Boccalandro HE, Giordano CV, Battista D, Scopel AL, and Ballare CL (2000) Functional significance and induction by solar radiation of ultraviolet—absorbing sunscreens in field-grown soybean crops. Plant Physiol. 122: 117 —125 Mazza CA, Izaguirre MM, Zavala J, Scopel AL, and Ballare CL (2002) Insect perception of ambient ultraviolet-B radiation. Ecol. Lett. 5: 722 — 726 McCloud ES, Berenbaum MR, and Tuveson RW (1992) Furanocoumarin content and phototoxicity of rough lemon (Citrus jambhiri) foliage exposed to enhanced ultraviolet-B (UVB) radiation. J. Chem. Ecol. 18: 1125 - 1137 McKenzie RL, Bjorn LO, Bais A, and Ilyasd M (2003) Changes in biologically active ultraviolet radiation reaching the Earth's surface. Photochem. Photobiol. Sci. 2: 5 — 15 McKenzie RL, Aucamp PJ, Bais AF, Björn LO, and Ilyas M (2007) Changes in biologically active ultraviolet radiation reaching the Earth's surface. Photochem. Photobiol. Sci. 6: 218 - 231

Medrano H, Escalona JM, Bota J, Gulias J, and Flexas J (2002) Regulation of photosynthesis of C3 plants in response to progressive drought: Stomatal conductance as a reference parameter. Ann. Bot. 89: 895 - 905 Meehl TGA and Tebaldi C (2004) More intense, more frequent, and longer lasting heat waves in the 21st century. Science 305: 994 - 997 Mittler R (2006) Abiotic stress, the field environment and stress combination. Trends Plant Sci. 11: 15 -19

Mohan JE, Ziska LH, Thomas RB, Sicher RC, George K, Clark JS, and Schlesinger WH (2006) Biomass and toxicity responses of poison ivy (Toxicodendron radicans) to elevated atmospheric CO2. Proc. Natl. Acad. Sci.103: 9086 -9089

Musil CF, Björn LO, Scourfield MWJ, and Bodeker GE (2002) How substantial are ultraviolet-B supplementation inaccuracies in experimental square-wave delivery systems? Environ. Exp. Bot. 47: 25 - 38 National Climate Data Center. Nedunchezhian N and Kulandaivelu G (1996) Effect of ultraviolet-B enhanced radiation and temperature on growth and photochemical activities in Vigna unguiculata. Biol. Plant. 38: 205 - 214

Olszyk D, Dai QJ, Teng P, Leung H, Luo Y, and Peng SB (1996) UV-B effects on crops:

Response of irrigated rice ecosystem. J. Plant Physiol. 148: 26 — 34 Patel NR, Mehta AN, and Shekh AM (2001) Canopy temperature and water stress quantification in rainfed pigeonpea (Cajanus cajan (L.) Millsp.). Agric. For. Meteorol. 109: 223 — 232 Paul ND, Rasanayagam S, Moody SA, Hatcher PE, and Ayres PG (1997) The role of interactions between trophic levels in determining the effects of UV-B on terrestrial ecosystems. Plant Ecol. 128: 296 - 308

Prasad PVV, Craufurd PQ, and Summerfield RJ (1999) Sensitivity of peanuts to timing of heat stress during reproductive development. Crop Sci. 39: 1352 — 1357 Prasad PVV, Boote KJ, Allen Jr LH, and Thomas JMG (2002) Effects of elevated temperature and carbon dioxide on seed-set and yield of kidney bean (Phaseolus vulgaris L.). Global Change Biol. 8: 710 -721 Prasad PVV, Boote KJ, Allen Jr LH, and Thomas JMG (2003a) Super-optimal temperatures are detrimental to reproductive processes and yield of peanut under both ambient and elevated carbon dioxide. Global Change Biol. 9: 1775 —1787 Prasad PVV, Kakani VG, and Reddy KR (2003b) Plants and environment: Ozone depletion. In: Thomas B, Murthy DJ, Murray BG (eds) Encyclopedia of Applied Plant Sciences. Elsevier, London, UK, pp.749 -756 Prasad PVV, Allen LH, and Boote KJ (2005) Crop responses to elevated carbon dioxide and interaction with temperature: Grain legumes. In: Tuba Z (ed) Ecological Responses and Adaptations of Crops to Rising Carbon Dioxide. Harworth Press, USA, pp.113 — 155 Prasad PVV, Boote KJ, and Allen Jr. LH (2006a) Adverse high temperature effects on pollen viability, seed-set, seed yield and harvest index of grain sorghum (Sorghum bicolor (L.) Moench) are more severe at elevated carbon dioxide due to higher tissue temperatures. Agric. Forest Meteorol. 139: 237 -251 Prasad PVV, Boote KJ, Allen Jr LH, Sheehy JE, and Thomas JMG (2006b) Species, ecotype and cultivar differences in spikelet fertility and harvest index of rice in response to high temperature stress. Field Crop Res. 95: 398 — 411 Prasad PVV, Pisipati SR, Mutava RN, and Tuinstra MR (2008) Sensitivity of grain sorghum to high temperature stress during reproductive development. Crop Sci. 48: 1911 —1917 Prasad PVV, Staggenborg SA, and Ristic Z (2009) Impacts of drought and/or heat stress on physiological, developmental, growth and yield processes of crop plants. In: Ahuja LH, Reddy VR, Saseendran SA and Yu Q (eds) Responses of Crops to Limited Water: Understanding and Modeling Water Stress Effects on Plant Growth Processes. Advances in Agricultural Modeling Series 1. ASA-CSSA, Madison, WI. pp.301 - 355

Premkumar A and Kulandaivelu G (1996) Influence of ultraviolet-B enhanced solar radiation on growth and photosynthesis of potassium deficient cowpea seedlings. Photosynthetica 32: 521 - 528

Randall HC and Sinclair TR (1988) Sensitivity of soybean leaf development to water deficits.

Plant Cell Environ 11: 835 - 839 Randeniya LK, Vohralik PF, and Plumb IC (2002) Stratospheric ozone depletion at northern and mid latitudes in the 21st century: The importance of future concentrations of greenhouse gases nitrous oxide and methane. Geophys. Res. Lett. 29: 101 —104 Raviv M and Antignus Y (2004) UV radiation effects on pathogens and insect pests of greenhouse-

grown crops. Photochem. Photobiol. 79: 219 — 226 Reddy KR and Hodges HF (2000) Climate Change and Global Crop Productivity. CAB

International, Oxon, UK, p.448 Reddy KR and Zhao D (2005) Interactive effects of elevated CO2 and potassium deficiency on photosynthesis, growth and biomass partitioning of cotton. Field Crop Res. 94: 201 — 213 Reddy KR and Kakani VG (2007) Screening Capsicum species of different origins for high temperature tolerance by in vitro pollen germination and pollen tube length. Sci. Hortic. 112:130 -135

Reddy KR, Hodges HF, and McKinion JM (1997a) Crop modeling and applications: A cotton example. Adv. Agron. 59: 225 - 290 Reddy KR, Hodges HF, and McKinion JM (1997b) A comparison of scenarios for the effect of global climate change on cotton growth and yield. Aust. J. Plant Physiol. 24: 707 — 713 Reddy KR, Read JJ, Baker JT, McKinion JM, Tarpley L, Hodges HF, and Reddy VR (2001) Soil-Plant-Atmosphere-Research (SPAR) facility—A tool for plant research and modeling. Biotronics 30: 27 - 50

Reddy KR, Kakani VG, McKinion JM, and Baker DN (2002) Applications of a cotton simulation model, GOSSYM, for crop management, economic and policy decisions. In: Ahuja LR, Ma L and Howell TA (eds) Agricultural System Models in Field Research and Technology Transfer. CRC Press, LLC, Boca Raton, FL, pp.33 - 73 Reddy KR, Kakani VG, Zhao D, Mohammed AR, and Gao W (2003) Cotton responses to ultraviolet-B radiation: Experimentation and algorithm development. Agric. For. Meteorol. 120:249 - 265

Reddy KR, Kakani VG, Zhao D, Koti S, and Gao W (2004) Interactive effects of ultraviolet-B radiation and temperature on cotton physiology, growth, development and hyperspectral reflectance. Photochem. Photobiol. 79: 416 — 427 Reddy KR, Koti S, Kakani VG, Zhao D, and Gao W (2005) Genotypic variation of soybean and cotton crops in their response to UV-B radiation for vegetative growth and physiology. In: Bernhard G, Slusser JR, Herman JR, Gao W (eds) Ultraviolet Ground- and Space-based Measurements, Models, and Effects. Proc. SPIE, pp.156 — 168 Reddy KR, Kakani VG, and Hodges HF (2009) Exploring the use of environmental productivity index concept for crop production and modeling. In: Ahuja LH, Reddy VR, Saseendran SA and Yu Q (eds) Recent Advances in Understanding and Modeling of Water Stress Effects on Plant Growth Processes, Crop Science Society of America, Madison, WI. pp.387 — 410

Ristic ZR, Bukovnik U, Momcilovic I, Fu JM, and Prasad PVV (2008) Heat-induced accumulation of chloroplast protein synthesis elongation factor, EF-Tu, in winter wheat. J. Plant Physiol. 165: 192 - 202 Rizhsky L, Liang H, Shuman J, Shulaev V, Davletova S, and Mittler R (2004) When defense pathways collide. The response of Arabidopsis to a combination of drought and heat stress. Plant Physiol. 134: 1683 -1696 Rogers CA, Wayne PM, Macklin EA, Muilenberg ML, Wagner CJ, Epstein PR, and Bazzaz FA (2006) Interaction of the onset of spring and elevated atmospheric CO2 on ragweed (Ambrosia artemisiifolia L.) pollen production. Environ. Health Perspect. 114: 865 — 869 Rosenfield JE, Douglass AR, and Considine DB (2002) The impact of increasing carbon dioxide on ozone recovery. J. Geophys. Res. 107: 4049 Rotem J and Aust HJ (1991) The effect of ultraviolet and solar radiation and temperature on survival of fungal propagules. J. Phytopathol. 133: 76 — 84 Rozema J, van de Staaij J, Björn LO, and Caldwell M (1997) UV-B as an environmental factor in plant life: Stress and regulation. Trends Ecol. Evol. 12: 22 — 28 Runeckles VC and Krupa SV (1994) The impact of UV-B radiation and ozone on terrestrial vegetation. Environ. Pollut. 83: 191 — 213 Saile-Mark M and Tevini M (1997) Effects of solar UV-B radiation on growth, flowering and yield of central and southern European bush bean cultivars (Phaseolus vulgaris L.). Plant Ecol. 128: 115 - 125

Salem MA, Kakani VG, Koti S, and Reddy KR (2007) Pollen-based screening of soybean genotypes for high temperatures. Crop Sci. 47: 219 — 231 Sancar A (1994) Structure and function of DNA photolyase. Biochemistry 33: 2 — 9 Savin R and Nicolas ME (1996) Effect of short episodes of drought and high temperature on grain growth and starch accumulation of two malting barley cultivars. Aust. J. Plant Physiol. 23: 201 - 210

Searles PS, Flint SD, and Caldwell MM (2001) A meta-analysis of plant field studies simulating stratospheric ozone depletion. Oecologia 127: 1 — 10 Sinclair TR and Purcell LC (2005) Is a physiological perspective relevant in a 'genocentric'

age? J. Exp. Bot. 56: 2777 - 2782 Sinclair TR, N'Diaye O, and Briggs RH (1990) Growth and yield of field-grown soybean in response to enhanced exposure to ultraviolet-B radiation. J. Environ. Qual. 19: 478 — 481 Singh BB and Sharma B (1996) Restructuring cowpea for higher yield. Indian J. Genet. Plant Breed. 56: 389 - 405

Singh SK (2008) Developing screening tools for abiotic stresses using cowpea (Vigna unguiculata

(L.) Walp.) as a model crop. Ph.D. Dissertation, Mississippi State University, MS Singh SK, Surabhi GK, Gao W, and Reddy KR (2008a) Assessing genotypic variability of cowpea (Vigna unguiculata (L.) Walp.) to current and projected ultraviolet-B radiation. J. Photochem. Photobiol. B: Biology 93: 71 - 81 Singh SK, Kakani VG, Brand D, Baldwin B, and Reddy KR (2008b) Assessment of cold and heat tolerance of winter-grown canola (Brassica napus L.) cultivars by pollen-based parameters. J. Agron. Crop Sci. 194: 225 — 236

Soler R, Bezemer TM, Van der Putten WH, Vet LEM, and Harvey JA (2005) Root herbivore effects on above-ground herbivore, parasitoid and hyperparasitoid performance via changes in plant quality. J. Anim. Ecol. 74: 1121 - 1130 Souza RP, Machado EC, Silva JAB, Lagöa AMMA, and Silveira JAG (2004) Photosynthetic gas exchange, chlorophyll fluorescence and some associated metabolic changes in cowpea (Vigna unguiculata) during water stress and recovery. Environ. Exp. Bot. 51: 45 — 56 Sullivan JH and Teramura AH (1990) Field study of the interaction between solar ultraviolet-B radiation and drought on photosynthesis and growth in soybean. Plant Physiol. 92: 141 —146 Tardieu F, Reymond M, Hamard P, Granier C, and Muller B (2000) Spatial distribution of expansion rate, cell division rate and cell size in maize leaves: A synthesis of the effects of soil water status, evaporative demand and temperature. J. Exp. Bot. 51: 1505 — 1514 Tegelberg R, Julkunen-Tiitto R, Vartiainen M, Paunonen R, Rousi M, and Kellomäki S (2008) Exposures to elevated CO2, elevated temperature and enhanced UV-B radiation modify activities of polyphenol oxidase and guaiacol peroxidase and concentrations of chlorophylls, polyamines and soluble proteins in the leaves of Betula pendula seedlings. Environ. Exp. Bot. 62: 308 - 315

Teramura AH (1983) Effects of ultraviolet-B radiation on the growth and yield of crop plants.

Physiol. Plant. 58: 415 -427 Teramura AH and Sullivan JH (1994) Effects of UV-B radiation on photosynthesis and growth of terrestrial plants. Photosynthesis Res. 39: 463 — 437 Thiaw S and Hall AE (2004) Comparison of selection for either leaf-electrolyte-leakage or pod set in enhancing heat tolerance and grain yield of cowpea. Field Crops Res. 86: 239 — 253 Total Ozone Mapping Spectrometer (TOMS) (2009) Atmosphere Chemistry and Dyna mics Brach (Online). Available at http://toms. gsfc.nasa. gov/ery_uv/euv_v8. html (verified 3 June 2009)

Torabinejad J, Caldwell MM, Flint SD, Durham S (1998) Susceptibility of pollen to UV-B

radiation assay of 34 taxa. Am. J. Bot. 85: 360 — 369 Tubiello FN, Amthor JS, Boote KJ, Donatelli M, Easterling W, Fischer G, Gifford RM, Howden M, Reilly J, and Rosenzweig C (2007) Crop response to elevated CO2 and world food supply: A comment on "Food for Thought..." by Long et al., Science 312: 1918 — 1921, 2006. Eur. J. Agron. 26: 215 - 223 U.N. Population Division (2008) Webpage U.S. Census Bureau, (2008) U.S. and World Population Clocks—POPClocks. Upadhyaya HD (2005) Variability for drought resistance related traits in the mini core collection of peanut. Crop Sci. 45: 1432 -1440 Vu CV, Allen LH, and Garrard LA (1982) Effects of UV-B radiation (280 nm - 320 nm) on photosynthetic constituents and processes in expanding leaves of soybean (Glycine max (L.) Merr.). Environ. Exp. Bot. 22: 465 - 473 Vu CV, Allen LH, and Garrard LA (1984) Effect of UV-B radiation (280 nm - 320 nm) on ribulose-1, 5-bisphosphate carboxylase in pea and soybean. Environ. Exp. Bot. 24: 131 — 143 Walton GH, Si P, and Bowde B (1999) Environmental impact on canola yield and oil. In: Wratten N, Salisbury PA (eds) Proceedings of the 10th International Rapeseed Congress (CD-ROM). The Regional Institute Ltd, Canberra, Australia

Wan S, Yuan T, Bowdish S, Wallace L, Russell SD, and Luo Y (2002) Response of an allergenic species Ambrosia psilostachya (Asteraceae), to experimental warming and clipping: Implications for public health. Am. J. Bot. 89: 1843 -1846 Warrag MOA and Hall AE (1983) Reproductive responses of cowpea to heat stress: Genotypic differences in tolerance to heat at flowering. Crop Sci. 23: 1088 — 1092 Warrag MOA and Hall AE (1984) Reproductive responses of cowpea (Vigna unguiculata (L.)

Walp.) to heat stress. II. Responses to night air temperature. Field Crops Res. 8: 17 — 33 Wentworth M, Murchie EH, Gray JE, Villegas D, Pastenes C, Pinto M, and Horton P (2006) Differential adaptation of two varieties of common bean to abiotic stress: II. Acclimation of photosynthesis. J. Exp. Bot. 57: 699 — 709 Westgate ME (1994) Water status and development of the maize endosperm and embryo during drought. Crop Sci. 34: 76 — 83 Williams JH and Boote KJ (1995) Physiology and modeling predicting the unpredictable legume. In: Patte HE, Stalker HT (eds) Advances in peanut science. APRES, Stillwater, OK, pp.301 - 335

WMO (2007) Scientific Assessment of Ozone Depletion: 2006. Global Ozone Research and

Monitoring Project 50. Geneva, Switzerland Xiao G, Liu W, Xu Q, Sun Z, and Wang J (2005) Effects of temperature increase and elevated CO2 concentration, with supplemental irrigation, on the yield of rain-fed spring wheat in a semiarid region of China. Agric. Water Manage. 74: 243 — 255 Yuan L, Yanqun Z, Haiyan C, Jianjun C, Jilong Y, and Zhide H (2000) Intraspecific responses in crop growth and yield of 20 wheat cultivars to enhanced ultraviolet-B radiation under field conditions. Field Crops Res. 67: 25 — 33 Zavala JA, Scopel AL, and Ballare CL (2001) Effect of ambient UV-B radiation on soybean crops: Impact on leaf herbivory by Anticarsia gemmatalis. Plant Ecol. 156: 121 — 130 Zhao D, Reddy KR, Kakani VG, Reed J, and Sullivan J (2003) Growth and physiological responses of cotton (Gossypium hirsutum L.) to elevated carbon dioxide and ultraviolet-B radiation under controlled environment conditions. Plant Cell Environ. 26: 771 — 782 Ziska LH (2003) Evaluation of yield loss in field sorghum from a C3 and C4 weed with increasing CO2. Weed Sci. 51: 914 - 918 Ziska LH and Caulfield FA (2000) Rising CO2 and pollen production of common ragweed, a known allergy-inducing species: Implications for public health. Aust. J. Plant Physiol. 27: 893 - 898

Ziska LH and George K (2004) Rising carbon dioxide and invasive, noxious plants: Potential threats and consequences. World Resource Rev. 16: 427 — 447 Ziska LH, Gebhand DE, Frenz DA, Faulkner S, Singer BD, and Straka JG (2003) Cities as harbingers of climate change: Common ragweed, urbanization, and public health. J. Allergy Cli. Immunol. 111: 290 - 295 Ziska LH, Epstein PR, and Rogers CR (2008) Climate change, aerobiology, and public health in the northeastern United States. Mitig. Adapt. Glob. Change 13: 607 — 613 Zoltan T (2005) Is the long-term elevated air CO2 environment beneficial for plants, crops and vegetation? In: Tuba Z (ed) Ecological Responses and Adaptations of Crops to Rising Atmospheric Carbon Dioxide. Haworth Press, Inc., New York, NY, pp.1 — 6

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