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Growth and Yield of CO2-Enriched Wheat Under Water-Limited Conditions
RM Gifford
6(3) pp.367 - 378
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Effects of elevated carbon dioxide, ozone and water availability on spring wheat growth and yield
Pleijel Håkan,
Gelang Johanna,
Sild Ebe,
Danielsson Helena,
Younis Suhaila,
Karlsson Per‐Erik,
Wallin Göran,
Skärby Lena, Selldén Gun
Physiologia Plantarum. 2000 108(1). p.61
Plant water relations at elevated CO2– implications for water‐limited environments
Wullschleger S. D.,
Tschaplinski T. J., Norby R. J.
Plant, Cell & Environment. 2002 25(2). p.319
Atmospheric CO2 concentration effects on rice water use and biomass production
Kumar Uttam,
Quick William Paul,
Barrios Marilou,
Sta Cruz Pompe C.,
Dingkuhn Michael, DaMatta Fábio M.
PLOS ONE. 2017 12(2). p.e0169706
Increasing water-use efficiency mediates effects of atmospheric carbon, sulfur, and nitrogen on growth variability of central European conifers
Treml Václav,
Tumajer Jan,
Jandová Kateřina,
Oulehle Filip,
Rydval Miloš,
Čada Vojtěch,
Treydte Kerstin,
Mašek Jiří,
Vondrovicová Lenka,
Lhotáková Zuzana, Svoboda Miroslav
Science of The Total Environment. 2022 838 p.156483
Interacting Effects of CO2and Nutrient Concentration
Patterson David T., Flint Elizabeth P.
Weed Science. 1982 30(4). p.389
Climate and Geo-Sciences (1989)
Contrasting effects of elevated CO2 and water deficit on two native herbs
FERRIS RACHEL, TAYLOR GAIL
New Phytologist. 1995 131(4). p.491
Advances in Agronomy Volume 39 (1986)
Elevated Carbon Dioxide and Soil Moisture on Early Growth Response of Soybean
Madhu M., Hatfield Jerry L.
Agricultural Sciences. 2015 06(02). p.263
Effects of elevated CO2 concentration on growth and water use efficiency of winter wheat under two soil water regimes
Qiao Yunzhou,
Zhang Huizhen,
Dong Baodi,
Shi Changhai,
Li Yuxin,
Zhai Hongmei, Liu Mengyu
Agricultural Water Management. 2010 97(11). p.1742
Trace Gas Emissions and Plants (2000)
Increasing CO2 accelerates root growth and enhances water acquisition during early stages of development in Larrea tridentata
Obrist D., Arnone III J. A.
New Phytologist. 2003 159(1). p.175
Effects of atmospheric CO2 enrichment on root: Shoot ratios of carrot, radish, cotton and soybean
Idso S.B.,
Kimball B.A., Mauney J.R.
Agriculture, Ecosystems & Environment. 1988 21(3-4). p.293
Effect of CO2 Enrichment on the Growth and Nutrient Uptake of Tomato Seedlings
LI Juan,
ZHOU Jian-Min,
DUAN Zeng-Qiang,
DU Chang-Wen, WANG Huo-Yan
Pedosphere. 2007 17(3). p.343
The Search for Global CO2 etc. ‘Greenhouse Effects’
Idso Sherwood B.
Environmental Conservation. 1985 12(1). p.29
Elevated [CO2] effects on crops: Advances in understanding acclimation, nitrogen dynamics and interactions with drought and other organisms
Tausz‐Posch S.,
Tausz M.,
Bourgault M., De Kok L. J.
Plant Biology. 2020 22(S1). p.38
The Close Relationship between Net Photosynthesis and Crop Yield
Zelitch Israel
BioScience. 1982 32(10). p.796
Application of temperature, water stress, CO2 in rice growth models
Cho Jaeil, Oki Taikan
Rice. 2012 5(1).
Effects of atmospheric CO2 concentration on wheat yield: review of results from experiments using various approaches to control CO2 concentration
Amthor Jeffrey S
Field Crops Research. 2001 73(1). p.1
Response of wheat restricted‐tillering and vigorous growth traits to variables of climate change
Dias de Oliveira Eduardo A.,
Siddique Kadambot H. M.,
Bramley Helen,
Stefanova Katia, Palta Jairo A.
Global Change Biology. 2015 21(2). p.857
Response of vegetation to rising carbon dioxide: Photosynthesis, biomass, and seed yield of soybean
Allen L. H.,
Boote K. J.,
Jones J. W.,
Jones P. H.,
Valle R. R.,
Acock B.,
Rogers H. H., Dahlman R. C.
Global Biogeochemical Cycles. 1987 1(1). p.1
Growth and yield responses of spring wheat to increasing carbon dioxide, ozone and physiological stresses: a statistical analysis of ‘ESPACE-wheat’ results
Bender J,
Hertstein U, Black C.R
European Journal of Agronomy. 1999 10(3-4). p.185
Carbon dioxide enrichment and water stress interaction on growth of two tomato cultivars
Paez Alejandra,
Hellmers H., Strain B. R.
The Journal of Agricultural Science. 1984 102(3). p.687
Yield gap of winter wheat in Europe and sensitivity of potential yield to climate factors
Ma S,
Churkina G,
Gessler A,
Wieland R, Bellocchi G
Climate Research. 2016 67(3). p.179
The ecological significance of increasing atmospheric carbon dioxide
Skiba Ute, Cresser Malcolm
Endeavour. 1988 12(3). p.143
Interaction of Carbon Dioxide Enrichment and Soil Moisture on Photosynthesis, Transpiration, and Water Use Efficiency of Soybean
Madhu Madegowda, Hatfield Jerry L.
Agricultural Sciences. 2014 05(05). p.410
Integration of photosynthetic acclimation to CO2at the whole‐plant level
WOLFE DAVID W.,
GIFFORD ROGER M.,
HILBERT DAVID, LUO YIQI.
Global Change Biology. 1998 4(8). p.879
Deficit irrigation provokes more pronounced responses of maize photosynthesis and water productivity to elevated CO 2
Li Xiaojie,
Kang Shaozhong,
Zhang Xiaotao,
Li Fusheng, Lu Hongna
Agricultural Water Management. 2018 195 p.71
(1996)
(1999)
Early vigour in wheat: Could it lead to more severe terminal drought stress under elevated atmospheric [CO2] and semi‐arid conditions?
Bourgault Maryse,
Webber Heidi A.,
Chenu Karine,
O’Leary Garry J.,
Gaiser Thomas,
Siebert Stefan,
Dreccer Fernanda,
Huth Neil,
Fitzgerald Glenn J.,
Tausz Michael, Ewert Frank
Global Change Biology. 2020 26(7). p.4079
Increasing atmospheric CO2: effects on crop yield, water use and climate
Kimball B.A., Idso S.B.
Agricultural Water Management. 1983 7(1-3). p.55
Leaf growth of hybrid poplar following exposure to elevated CO2
GARDNER SIMON D. L.,
TAYLOR GAIL, BOSAC CREANA
New Phytologist. 1995 131(1). p.81
Growth and yield responses of rice to carbon dioxide concentration
Baker J. T.,
Allen L. H., Boote K. J.
The Journal of Agricultural Science. 1990 115(3). p.313
LEAF DIFFUSIVE RESISTANCE AND WATER ECONOMY IN CARBON DIOXIDE‐ENRICHED RICE PLANTS
KHAN M. A. H., MADSEN A.
New Phytologist. 1986 104(2). p.215
Modelling forest growth and carbon storage in response to increasing
CO2 and temperature
Kirschbaum Miko U. F.
Tellus B: Chemical and Physical Meteorology. 1999 51(5). p.871
Climate Change and Global Food Security (2005)
Drought Stress Tolerance in Plants, Vol 1 (2016)
Crop water relations under different CO2 and irrigation: testing of ecosys with the free air CO2 enrichment (FACE) experiment
Grant R.F.,
Wall G.W.,
Kimball B.A.,
Frumau K.F.A.,
Pinter P.J.,
Hunsaker D.J., Lamorte R.L.
Agricultural and Forest Meteorology. 1999 95(1). p.27
Root to shoot ratio of crops as influenced by CO2
Rogers Hugo H.,
Prior Stephen A.,
Runion G. Brett, Mitchell Robert J.
Plant and Soil. 1995 187(2). p.229
Soybean growth response to water supply and atmospheric carbon dioxide enrichment
Prior Stephen A., Rogers Hugo H.
Journal of Plant Nutrition. 1995 18(4). p.617
Effects of season-long CO2 enrichment on cereals. I. Growth performance and yield
Weigel H.J.,
Manderscheid R.,
Jäger H.-J., Mejer G.J.
Agriculture, Ecosystems & Environment. 1994 48(3). p.231
Tree growth in carbon dioxide enriched air and its implications for global carbon cycling and maximum levels of atmospheric CO2
Idso Sherwood B., Kimball Bruce A.
Global Biogeochemical Cycles. 1993 7(3). p.537
Terrestrial carbon storage resulting from CO2 and nitrogen fertilization in temperate grasslands
THORNLEY J. H. M.,
FOWLER D., CANNELL M. G. R.
Plant, Cell & Environment. 1991 14(9). p.1007
DEVELOPMENTAL CHANGES IN ANATOMY, MORPHOLOGY AND BIOCHEMISTRY OF LAYIA PLATYGLOSSA EXPOSED TO ELEVATED CARBON DIOXIDE
Omer Lucy St., Horvath Steven M.
American Journal of Botany. 1984 71(5). p.693
Photosynthesis (1982)
Soybean growth and yield response to elevated carbon dioxide
Rogers Hugo H.,
Cure Jennifer D., Smith Joy M.
Agriculture, Ecosystems & Environment. 1986 16(2). p.113
The sensitivity of C3photosynthesis to increasing CO2concentration: a theoretical analysis of its dependence on temperature and background CO2concentration
KIRSCHBAUM M. U. F.
Plant, Cell & Environment. 1994 17(6). p.747
Ciba Foundation Symposium 175 ‐ Environmental Change and Human Health (2007)
Global Change and Mediterranean-Type Ecosystems (1995)
Sensing of atmospheric CO2 by plants
MOTT K. A.
Plant, Cell & Environment. 1990 13(7). p.731
Expanding the Production and Use of Cool Season Food Legumes (1994)
Terrestrial Biospheric Carbon Fluxes: (1993)
Global climate change: Modelling the potential responses of agro-ecosystems with special reference to crop protection
Goudriaan J., Zadoks J.C.
Environmental Pollution. 1995 87(2). p.215
Rooting depth explains [CO2] x drought interaction in Eucalyptus saligna
Duursma R. A.,
Barton C. V. M.,
Eamus D.,
Medlyn B. E.,
Ellsworth D. S.,
Forster M. A.,
Tissue D. T.,
Linder S., McMurtrie R. E.
Tree Physiology. 2011 31(9). p.922
Potential impacts of a CO2-induced climate change using the GISS scenario on agriculture in Quebec, Canada
Singh Bhawan, Stewart Robert B.
Agriculture, Ecosystems & Environment. 1991 35(4). p.327
Plant responses to atmospheric CO2 enrichment with emphasis on roots and the rhizosphere
Rogers Hugo H.,
Runion G.Brett, Krupa Sagar V.
Environmental Pollution. 1994 83(1-2). p.155
Interacting Stresses on Plants in a Changing Climate (1993)
Effects of climate change on productivity of cereals and legumes; model evaluation of observed year‐to‐year variability of the CO2 response
GRASHOFF CEES,
DIJKSTRA PAUL,
NONHEBEL SANDERINE,
SCHAPENDONK AD H.C.M., VAN DE GEIJN SIEBE C.
Global Change Biology. 1995 1(6). p.417
Impact of global megatrends on the spread of microscopic fungi in the Pannonian Biogeographical Region
Magyar Donát,
Tischner Zsófia,
Páldy Anna,
Kocsubé Sándor,
Dancsházy Zsuzsanna,
Halász Ágnes, Kredics László
Fungal Biology Reviews. 2021 37 p.71
Drought × CO2 interactions in trees: a test of the low‐intercellular CO2 concentration (Ci) mechanism
Kelly Jeff W. G.,
Duursma Remko A.,
Atwell Brian J.,
Tissue David T., Medlyn Belinda E.
New Phytologist. 2016 209(4). p.1600
Carbon Dioxide Concentration, Photosynthesis, and Dry Matter Production
Kramer Paul J.
BioScience. 1981 31(1). p.29
Photosynthesis (1982)
plant production and management under drought conditions (1983)
Responses of Rice Cultivars to the Elevated CO2
Uprety D.C.,
Dwivedi N.,
Jain V.,
Mohan R.,
Saxena D.C.,
Jolly M., Paswan G.
Biologia plantarum. 2003 46(1). p.35
Modeling the possible impact of increased CO2 and temperature on soil water balance, crop yield and soil erosion
Savabi M.Reza, Stockle Claudio O
Environmental Modelling & Software. 2001 16(7). p.631
Ecology in Agriculture (1997)
Physiological Plant Ecology IV (1983)
Water Relations of Plants and Soils (1995)
Photosynthesis: Photoreactions to Plant Productivity (1993)
Growth and yield responses of spring wheat (Triticum aestivum L. cv. Minaret) to elevated CO2 and water limitation
Schütz M, Fangmeier A
Environmental Pollution. 2001 114(2). p.187
A simulation study of the effect of soil water balance and water stress on winter wheat production under different climate change scenarios
Eitzinger J,
Štastná M,
Žalud Z, Dubrovský M
Agricultural Water Management. 2003 61(3). p.195
Earth's Rising Atmospheric Co2Concentration: Impacts on the Biosphere
Idso Craig D.
Energy & Environment. 2001 12(4). p.287
A simulation study for assessing yield optimization and potential for water reduction for summer-sown maize under different climate change scenarios
IQBAL M. A.,
EITZINGER J.,
FORMAYER H.,
HASSAN A., HENG L. K.
The Journal of Agricultural Science. 2011 149(2). p.129
Effects of elevated atmospheric CO2 on water relations of soya bean
Prior Stephen A.,
Rogers Hugo H.,
Sionit Nasser, Patterson Robert P.
Agriculture, Ecosystems & Environment. 1991 35(1). p.13
Sensitivity of productivity and deep drainage of wheat cropping systems in a Mediterranean environment to changes in CO2, temperature and precipitation
van Ittersum M.K.,
Howden S.M., Asseng S.
Agriculture, Ecosystems & Environment. 2003 97(1-3). p.255
Increasing drought and diminishing benefits of elevated carbon dioxide for soybean yields across the US Midwest
Jin Zhenong,
Ainsworth Elizabeth A.,
Leakey Andrew D. B., Lobell David B.
Global Change Biology. 2018 24(2).
Interactions between elevated CO2 concentration, nitrogen and water: effects on growth and water use of six perennial plant species
Arp W. J.,
Van Mierlo J. E. M.,
Berendse F., Snijders W.
Plant, Cell and Environment. 1998 21(1). p.1
Will elevated CO2 concentrations protect the yield of wheat from O3 damage?
MCKEE I. F.,
BULLIMORE J. F., LONG S. P.
Plant, Cell & Environment. 1997 20(1). p.77
Climate Change and Global Food Security (2005)
Modeling Interactions among Carbon Dioxide, Nitrogen, and Climate on Energy Exchange of Wheat in a Free Air Carbon Dioxide Experiment
Grant Robert F.,
Kimball Bruce A.,
Brooks Talbot J.,
Wall Gary W.,
Pinter Paul J.,
Hunsaker Doug J.,
Adamsen Floyd J.,
Lamorte Robert L.,
Leavitt Steven W.,
Thompson Thomas L., Matthias Allan D.
Agronomy Journal. 2001 93(3). p.638
Image 2.0 (1994)
Drought stress effects on wheat are mitigated by atmospheric CO2 enrichment
Manderscheid Remy, Weigel Hans-Joachim
Agronomy for Sustainable Development. 2007 27(2). p.79
Elevated atmospheric CO2 alleviates drought stress in wheat
Wall Gerard W.
Agriculture, Ecosystems & Environment. 2001 87(3). p.261
Potential effects of elevated CO2 and changes in temperature on tropical plants
HOGAN K. P.,
SMITH A. P., ZISKA L. H.
Plant, Cell & Environment. 1991 14(8). p.763
Simulation model for the effects of climate change on temperate grassland ecosystems
Hunt H.W.,
Trlica M.J.,
Redente E.F.,
Moore J.C.,
Detling J.K.,
Kittel T.G.F.,
Walter D.E.,
Fowler M.C.,
Klein D.A., Elliott E.T.
Ecological Modelling. 1991 53 p.205
Elevated CO2 accelerates net assimilation rate and enhance growth of dominant shrub species in a sand dune in central Inner Mongolia
Zheng Yuanrun,
Xie Zhixiao,
Rimmington Glyn M.,
Yu Yuanjiang,
Gao Yong,
Zhou Guangsheng,
An Ping,
Li Xiangjun,
Tsuji Wataru, Shimizu Hideyuki
Environmental and Experimental Botany. 2010 68(1). p.31
The influence of CO2 enrichment, phosphorus deficiency and water stress on the growth, conductance and water use of Pinus radiata D. Don
CONROY JANN P.,
KÜPPERS M.,
KÜPPERS B.,
VIRGONA J., BARLOW E. W. R.
Plant, Cell & Environment. 1988 11(2). p.91
Temporal profiles of pod production and pod set in soybean
Egli Dennis B., Bruening W.P.
European Journal of Agronomy. 2006 24(1). p.11
Carbon dioxide levels in the biosphere: Effects on plant productivity
Wittwer Sylvan H., Strain Boyd R.
Critical Reviews in Plant Sciences. 1985 2(3). p.171
CO2 and biosphere (1993)
Effects of Climate Change and Variability on Agricultural Production Systems (2002)
To what extent can rising [CO2] ameliorate plant drought stress?
De Kauwe Martin G.,
Medlyn Belinda E., Tissue David T.
New Phytologist. 2021 231(6). p.2118
CO2 and biosphere (1993)
Root hydraulic conductivity of Larrea tridentata and Helianthus annuus under elevated CO2
HUXMAN K. A.,
SMITH S. D., NEUMAN D. S.
Plant, Cell & Environment. 1999 22(3). p.325
Horticultural Reviews (1985)
Plant responses to carbon dioxide
Murray David R.
American Journal of Botany. 1995 82(5). p.690
Wheat in a Global Environment (2001)
Stoffbildung, CO2‐Gaswechsel, Kohlenhydrat‐ und Stickstoffgehalt von Winterweizen bei erhöhter CO2‐Konzentration und Trocken‐streß
Müller J.
Journal of Agronomy and Crop Science. 1993 171(4). p.217
Photosynthesis: Photoreactions to Plant Productivity (1993)
Modelling global change impacts on wheat cropping in south-east Queensland, Australia
Reyenga P.J.,
Howden S.M.,
Meinke H., McKeon G.M.
Environmental Modelling & Software. 1999 14(4). p.297
Plant Responses to High CO2 Concentration in the Atmosphere
Saralabai V.C.,
Vivekanandan M., Suresh Babu R.
Photosynthetica. 1997 33(1). p.7
Soil Air Permeability and Carbon Dioxide Flux Measurements from the Soil Surface
Nusier Osama K., Rousan Laith M.
Communications in Soil Science and Plant Analysis. 2008 39(9-10). p.1406
Effects of elevated CO2 concentration on growth, water use, yield and grain quality of wheat under two soil water levels
Wu Dong-Xiu,
Wang Gen-Xuan,
Bai Yong-Fei, Liao Jian-Xiong
Agriculture, Ecosystems & Environment. 2004 104(3). p.493
Effects of elevated CO2 concentration and different water conditions on winter wheat growth and water use
LIU Yue-Yan,
LIU Hui-Ling,
QIAO Yun-Zhou,
SHI Chang-Hai,
DONG Bao-Di,
LI Dong-Xiao,
SI Fu-Yan,
JIANG Jing-Wei,
ZHAI Hong-Mei, LIU Meng-Yu
Chinese Journal of Eco-Agriculture. 2013 21(11). p.1365
The effect of doubling atmospheric CO2 on streamflow: A simulation
Aston A.R.
Journal of Hydrology. 1984 67(1-4). p.273
Food security and climate change: on the potential to adapt global crop production by active selection to rising atmospheric carbon dioxide
Ziska Lewis H.,
Bunce James A.,
Shimono Hiroyuki,
Gealy David R.,
Baker Jeffrey T.,
Newton Paul C. D.,
Reynolds Matthew P.,
Jagadish Krishna S. V.,
Zhu Chunwu,
Howden Mark, Wilson Lloyd T.
Proceedings of the Royal Society B: Biological Sciences. 2012 279(1745). p.4097
Drought Tolerance in Wheat
Nezhadahmadi Arash,
Prodhan Zakaria Hossain, Faruq Golam
The Scientific World Journal. 2013 2013 p.1
Implications of Atmospheric and Climatic Change for Crop Yield and Water Use Efficiency
Polley H. Wayne
Crop Science. 2002 42(1). p.131
Growth of bean in high CO2: Effects on shoot mineral composition1
Porter Michael A., Grodzinski Bernard
Journal of Plant Nutrition. 1989 12(2). p.129
Interactive effects of CO2 enrichment and drought stress on gas exchange and water-use efficiency in Alnus firma
Liang N
Environmental and Experimental Botany. 1995 35(3). p.353
Genotypic variability in the response to elevated CO2 of wheat lines differing in adaptive traits
Bourgault Maryse,
Dreccer M. Fernanda,
James Andrew T., Chapman Scott C.
Functional Plant Biology. 2013 40(2). p.172
