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Sink Strength May Be the Key to Growth and Nitrogen Responses in N-Deficient Wheat at Elevated CO2
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Brooks Matthew D., Szeto Ronnia C.
Plant, Cell & Environment. 2024
Photosynthesis and conductance of spring wheat ears: field response to free‐air CO2 enrichment and limitations in water and nitrogen supply
Wechsung F.,
Garcia R. L.,
Wall G. W.,
Kartschall T.,
Kimball B. A.,
Michaelis P.,
Jr P. J. Pinter,
Wechsung G.,
Grossman‐Clarke S.,
Lamorte R. L.,
Adamsen F. J.,
Leavitt S. W.,
Thompson T. L.,
Matthias A. D., Brooks T. J.
Plant, Cell & Environment. 2000 23(9). p.917
Plant Nutrition for Sustainable Food Production and Environment (1997)
CO2 enrichment increased leaf initiation and photosynthesis in Doritaenopsis Queen Beer ‘Mantefon’ orchids
Yun Do Lee,
Kim Hyun Jin, Kim Yoon Jin
Horticulture, Environment, and Biotechnology. 2018 59(2). p.159
Growth, photosynthetic acclimation and yield quality in legumes under climate change simulations: An updated survey
Irigoyen J.J.,
Goicoechea N.,
Antolín M.C.,
Pascual I.,
Sánchez-Díaz M.,
Aguirreolea J., Morales F.
Plant Science. 2014 226 p.22
Do slow‐growing species and nutrient‐stressed plants respond relatively strongly to elevated CO2?
POORTER HENDRIK
Global Change Biology. 1998 4(6). p.693
The nitrate and ammonium nitrate supply have a major influence on the response of photosynthesis, carbon metabolism, nitrogen metabolism and growth to elevated carbon dioxide in tobacco
Geiger M.,
Haake V.,
Ludewig F.,
Sonnewald U., Stitt M.
Plant, Cell & Environment. 1999 22(10). p.1177
Green root cultures for enhanced production of camptothecin in Pyrenacantha volubilis Hook.
Sasidharan Hima,
Chembrakuniyil Midhu, Krishnan Satheeshkumar
Journal of Biotechnology. 2022 360 p.62
Seagrass (Posidonia oceanica) seedlings in a high-CO2 world: from physiology to herbivory
Hernán Gema,
Ramajo Laura,
Basso Lorena,
Delgado Antonio,
Terrados Jorge,
Duarte Carlos M., Tomas Fiona
Scientific Reports. 2016 6(1).
Effects of atmospheric CO2 enrichment on plant constituents related to animal and human health
Idso Sherwood B., Idso Keith E.
Environmental and Experimental Botany. 2001 45(2). p.179
Photosynthetic response of Quercus ilex L. plants grown on compost and exposed to increasing photon flux densities and elevated CO2
Arena C.,
Vitale L., De Santo A. Virzo
Photosynthetica. 2005 43(4). p.615
Effects of Climate Change and Variability on Agricultural Production Systems (2002)
Genome-wide transcriptomic analysis of the effects of sub-ambient atmospheric oxygen and elevated atmospheric carbon dioxide levels on gametophytes of the moss, Physcomitrella patens
Shinde Suhas,
Behpouri Ali,
McElwain Jennifer C., Ng Carl K.-Y.
Journal of Experimental Botany. 2015 66(13). p.4001
CO2Enrichment on Biomass Accumulation and Nitrogen Nutrition of Spring Wheat Under Different Soil Nitrogen and Water Status
Li Fusheng,
Kang Shaozhong, Zhang Jianhua
Journal of Plant Nutrition. 2003 26(4). p.769
Effects of free-air CO2 enrichment (FACE) on the uptake and utilization of N, P and K in Vigna radiata
Li Ping,
Han Xue,
Zong Yuzheng,
Li Hongying,
Lin Erda,
Han Yuanhuai, Hao Xingyu
Agriculture, Ecosystems & Environment. 2015 202 p.120
Effect of elevated atmospheric CO2 and vegetation type on microbiota associated with decomposing straw
Frederiksen Helle B.,
Rønn Regin, Christensen Søren
Global Change Biology. 2001 7(3). p.313
Considering sink strength to model crop production under elevated atmospheric CO2
Vanuytrecht Eline,
Raes Dirk, Willems Patrick
Agricultural and Forest Meteorology. 2011 151(12). p.1753
A meta‐analysis of elevated [CO2] effects on soybean (Glycine max) physiology, growth and yield
Ainsworth Elizabeth A.,
Davey Phillip A.,
Bernacchi Carl J.,
Dermody Orla C.,
Heaton Emily A.,
Moore David J.,
Morgan Patrick B.,
Naidu Shawna L.,
Yoo Ra Hyung‐shim,
Zhu Xin‐guang,
Curtis Peter S., Long Stephen P.
Global Change Biology. 2002 8(8). p.695
Effects of elevated carbon dioxide concentration on nitrous oxide emissions and nitrogen dynamics in a winter-wheat cropping system in northern China
Li Yingchun,
Lin Erda,
Han Xue,
Peng Zhengping,
Wang Wen,
Hao Xingyu, Ju Hui
Mitigation and Adaptation Strategies for Global Change. 2015 20(7). p.1027
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
Elevated carbon dioxide increases nitrate uptake and nitrate reductase activity when tobacco is growing on nitrate, but increases ammonium uptake and inhibits nitrate reductase activity when tobacco is growing on ammonium nitrate
Matt P.,
Geiger M.,
Walch‐Liu P.,
Engels C.,
Krapp A., Stitt M.
Plant, Cell & Environment. 2001 24(11). p.1119
Photosynthetic responses in spring wheat grown under elevated CO2 concentrations and stress conditions in the European, multiple-site experiment ‘ESPACE-wheat’
Mitchell R.A.C.,
Black C.R.,
Burkart S.,
Burke J.I.,
Donnelly A.,
de Temmmerman L.,
Fangmeier A.,
Mulholland B.J.,
Theobald J.C., van Oijen M.
European Journal of Agronomy. 1999 10(3-4). p.205
Effects of elevated CO2 concentrations on photosynthesis, growth and reproduction of branches of the tropical canopy tree species, Luehea seemannii Tr. & Planch.
LOVELOCK C. E.,
VIRGO A.,
POPP M., WINTER K.
Plant, Cell & Environment. 1999 22(1). p.49
Global change impacts on native pastures in south-east Queensland, Australia
Howden S.M.,
McKeon G.M.,
Walker L.,
Carter J.O.,
Conroy J.P.,
Day K.A.,
Hall W.B.,
Ash A.J., Ghannoum O.
Environmental Modelling & Software. 1999 14(4). p.307
Photosynthetic Acclimation in Rice Leaves to Free-air CO2 Enrichment Related to Both Ribulose-1,5-bisphosphate Carboxylation Limitation and Ribulose-1,5-bisphosphate Regeneration Limitation
Chen Gen-Yun,
Yong Zhen-Hua,
Liao Yi,
Zhang Dao-Yun,
Chen Yue,
Zhang Hai-Bo,
Chen Juan,
Zhu Jian-Guo, Xu Da-Quan
Plant and Cell Physiology. 2005 46(7). p.1036
Nitrogen demand and the recovery of 15N-labelled fertilizer in wheat grown under elevated carbon dioxide in southern Australia
Lam Shu Kee,
Chen Deli,
Norton Rob, Armstrong Roger
Nutrient Cycling in Agroecosystems. 2012 92(2). p.133
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
Protecting cotton crops under elevated CO2 from waterlogging by managing ethylene
Najeeb Ullah,
Tan Daniel K. Y.,
Bange Michael P., Atwell Brian J.
Functional Plant Biology. 2018 45(3). p.340
Agroecosystems in a Changing Climate (2006)
Enhanced leaf elongation rates of wheat at elevated CO2: is it related to carbon and nitrogen dynamics within the growing leaf blade?
Seneweera Saman P., Conroy Jann P.
Environmental and Experimental Botany. 2005 54(2). p.174
Managed Ecosystems and CO2 (2006)
Carbon and nitrogen partitioning of wheat and field pea grown with two nitrogen levels under elevated CO2
Butterly Clayton R.,
Armstrong Roger,
Chen Deli, Tang Caixian
Plant and Soil. 2015 391(1-2). p.367
Effect of elevated CO2, temperature and drought on dry matter partitioning and photosynthesis before and after cutting of nodulated alfalfa
Erice Gorka,
Irigoyen Juan J.,
Pérez Pilar,
Martínez-Carrasco Rafael, Sánchez-Díaz Manuel
Plant Science. 2006 170(6). p.1059
Transcriptional reprogramming and stimulation of leaf respiration by elevated CO2 concentration is diminished, but not eliminated, under limiting nitrogen supply
MARKELZ R. J. CODY,
LAI LISA X.,
VOSSELER LAUREN N., LEAKEY ANDREW D. B.
Plant, Cell & Environment. 2014 37(4). p.886
Effect of Elevated CO2 Concentration and Nitrogen Application on Translocation of Dry Matter and Nitrogen Restored before Anthesis in Winter Wheat
XU Yu-Bin,
SHEN Yu-Fang, LI Shi-Qing
ACTA AGRONOMICA SINICA. 2011 37(8). p.1465
Does nitrogen supply affect the response of wheat (Triticum aestivum cv. Hanno) to the combination of elevated CO2 and O3?
Cardoso‐Vilhena João, Barnes Jeremy
Journal of Experimental Botany. 2001 52(362). p.1901
The Role of Sink Strength and Nitrogen Availability in the Down-Regulation of Photosynthetic Capacity in Field-Grown Nicotiana tabacum L. at Elevated CO2 Concentration
Ruiz-Vera Ursula M.,
De Souza Amanda P.,
Long Stephen P., Ort Donald R.
Frontiers in Plant Science. 2017 8
Rubisco is a small fraction of total protein in marine phytoplankton
Losh Jenna L.,
Young Jodi N., Morel François M. M.
New Phytologist. 2013 198(1). p.52
A meta‐analysis of responses of C3 plants to atmospheric CO2: dose–response curves for 85 traits ranging from the molecular to the whole‐plant level
Poorter Hendrik,
Knopf Oliver,
Wright Ian J.,
Temme Andries A.,
Hogewoning Sander W.,
Graf Alexander,
Cernusak Lucas A., Pons Thijs L.
New Phytologist. 2022 233(4). p.1560
Growth, nitrogen uptake, and metabolism in two semiarid shrubs grown at ambient and elevated atmospheric CO2 concentrations: effects of nitrogen supply and source
Causin Humberto Fabio,
Tremmel David C.,
Rufty Thomas W., Reynolds James F.
American Journal of Botany. 2004 91(4). p.565
Allocation of Secondary Metabolites, Photosynthetic Capacity, and Antioxidant Activity of Kacip Fatimah (Labisia pumilaBenth) in Response toCO2and Light Intensity
Ibrahim Mohd Hafiz,
Jaafar Hawa Z. E.,
Karimi Ehsan, Ghasemzadeh Ali
The Scientific World Journal. 2014 2014 p.1
Mitochondrial and peroxisomal NAD+ uptake are important for improved photosynthesis and seed yield under elevated CO2 concentrations
Feitosa‐Araujo Elias,
da Fonseca‐Pereira Paula,
Pena Mateus Miranda,
Lana‐Costa Jaciara,
Coelho Daniel Gomes,
de Oliveira Silva Franklin Magnum,
Medeiros David Barbosa,
Linka Nicole,
Araújo Wagner L.,
Weber Andreas P. M.,
Fernie Alisdair R., Nunes‐Nesi Adriano
The Plant Journal. 2022 111(3). p.713
Crop Adaptation to Climate Change (2011)
Differential CO2 effect on primary carbon metabolism of flag leaves in durum wheat (Triticum durum Desf.)
Aranjuelo Iker,
Erice Gorka,
Sanz‐Sáez Alvaro,
Abadie Cyril,
Gilard Françoise,
Gil‐Quintana Erena,
Avice Jean‐Christophe,
Staudinger Christiana,
Wienkoop Stefanie,
Araus Jose L.,
Bourguignon Jacques,
Irigoyen Juan J., Tcherkez Guillaume
Plant, Cell & Environment. 2015 38(12). p.2780
Handbook of Plant and Crop Physiology (2001)
Plant responses to elevated CO2 concentration at different scales: leaf, whole plant, canopy, and population
Hikosaka Kouki,
Onoda Yusuke,
Kinugasa Toshihiko,
Nagashima Hisae,
Anten Niels PR, Hirose Tadaki
Ecological Research. 2005 20(3). p.243
Impact of Elevated Carbon Dioxide on Primary, Secondary Metabolites and Antioxidant Responses of Eleais guineensis Jacq. (Oil Palm) Seedlings
Ibrahim Mohd Hafiz, Jaafar Hawa Z.E.
Molecules. 2012 17(5). p.5195
Climate Change and Crop Stress (2022)
Interactions between increasing CO2 concentration and temperature on plant growth
MORISON J. I. L., LAWLOR D. W.
Plant, Cell & Environment. 1999 22(6). p.659
Yield and nitrogen accumulation and partitioning in winter wheat under elevated CO2: A 3-year free-air CO2 enrichment experiment
Han Xue,
Hao Xingyu,
Lam Shu Kee,
Wang Heran,
Li Yingchun,
Wheeler Tim,
Ju Hui, Lin Erda
Agriculture, Ecosystems & Environment. 2015 209 p.132
The impact of nitrogen supply on the potential response of a noxious, invasive weed, Canada thistle (Cirsium arvense) to recent increases in atmospheric carbon dioxide
Ziska Lewis H.
Physiologia Plantarum. 2003 119(1). p.105
Influence of CO2 and sucrose on photosynthesis and transpiration of Actinidia deliciosa explants cultured in vitro
Arigita Luis,
González Aida, Tamés Ricardo Sánchez
Physiologia Plantarum. 2002 115(1). p.166
Increased C availability at elevated carbon dioxide concentration improves N assimilation in a legume
ROGERS ALISTAIR,
GIBON YVES,
STITT MARK,
MORGAN PATRICK B.,
BERNACCHI CARL J.,
ORT DONALD R., LONG STEPHEN P.
Plant, Cell & Environment. 2006 29(8). p.1651
Plant-Environment Interactions (2000)
Does elevated atmospheric carbon dioxide concentration increase wheat nitrogen demand and recovery of nitrogen applied at stem elongation?
Lam Shu Kee,
Han Xue,
Lin Erda,
Norton Rob, Chen Deli
Agriculture, Ecosystems & Environment. 2012 155 p.142
Nitrate supply and plant development influence nitrogen uptake and allocation under elevated CO2 in durum wheat grown hydroponically
Vicente Rubén,
Pérez Pilar,
Martínez-Carrasco Rafael,
Gutiérrez Elena, Morcuende Rosa
Acta Physiologiae Plantarum. 2015 37(6).
Photosynthetic acclimation to elevated CO2 in Phaseolus vulgaris L. is altered by growth response to nitrogen supply
Jifon John L., Wolfe David W.
Global Change Biology. 2002 8(10). p.1018
Elevated CO2 and nitrogen availability have interactive effects on canopy carbon gain in rice
Anten N. P. R.,
Hirose T.,
Onoda Y.,
Kinugasa T.,
Kim H. Y.,
Okada M., Kobayashi K.
New Phytologist. 2004 161(2). p.459
Effects of elevated CO2on plant growth and nutrient partitioning of rice (Oryza sativaL.) at rapid tillering and physiological maturity
Seneweera Saman
Journal of Plant Interactions. 2011 6(1). p.35
Seasonal Changes in Temperature Dependence of Photosynthetic Rate in Rice Under a Free-air CO2 Enrichment
BORJIGIDAI ALMAZ,
HIKOSAKA KOUKI,
HIROSE TADAKI,
HASEGAWA TOSHIHIRO,
OKADA MASUMI, KOBAYASHI KAZUHIKO
Annals of Botany. 2006 97(4). p.549
Climate of the Southeast United States (2013)
New insights into the cellular mechanisms of plant growth at elevated atmospheric carbon dioxide concentrations
Gamage Dananjali,
Thompson Michael,
Sutherland Mark,
Hirotsu Naoki,
Makino Amane, Seneweera Saman
Plant, Cell & Environment. 2018 41(6). p.1233
Impact of climatic and other environmental changes on food production and population health in the coming decades
McMichael A. J.
Proceedings of the Nutrition Society. 2001 60(2). p.195
Salinity and sea level mediate elevated CO2 effects on C3–C4 plant interactions and tissue nitrogen in a Chesapeake Bay tidal wetland
ERICKSON JOHN E.,
MEGONIGAL J. PATRICK,
PERESTA GARY, DRAKE BERT G.
Global Change Biology. 2007 13(1). p.202
Interaction of CO2 enrichment and drought on growth, water use, and yield of broad bean (Vicia faba)
Wu Dong-Xiu, Wang Gen-Xuan
Environmental and Experimental Botany. 2000 43(2). p.131
The interaction between elevated carbon dioxide and nitrogen nutrition: the physiological and molecular background
STITT M., KRAPP A.
Plant, Cell & Environment. 1999 22(6). p.583
Changes in leaf photosynthesis of transgenic rice with silenced OsBP-73 gene
Chen Y., Xu D. Q.
Photosynthetica. 2007 45(3).
The influence of nitrogen and phosphorous status on glyphosate hormesis in Lemna minor and Hordeum vulgare
Cedergreen Nina,
Hansen Natascha K.K., Arentoft Birgitte W.
European Journal of Agronomy. 2016 73 p.107
Responses of Fruit Trees to Global Climate Change (2015)
Crop Physiology (2015)
Effect of elevated CO2, temperature and drought on photosynthesis of nodulated alfalfa during a cutting regrowth cycle
Erice Gorka,
Irigoyen Juan J.,
Pérez Pilar,
Martínez‐Carrasco Rafael, Sánchez‐Díaz Manuel
Physiologia Plantarum. 2006 126(3). p.458
Leaf nitrogen concentration of wheat subjected to elevated [CO2] and either water or N deficits
Sinclair T.R,
Pinter Jr P.J,
Kimball B.A,
Adamsen F.J,
LaMorte R.L,
Wall G.W,
Hunsaker D.J,
Adam N,
Brooks T.J,
Garcia R.L,
Thompson T,
Leavitt S, Matthias A
Agriculture, Ecosystems & Environment. 2000 79(1). p.53
Gas exchange and carbon metabolism in two Prosopis species (Fabaceae) from semiarid habitats: effects of elevated CO2, N supply, and N source
Causin Humberto F.,
Rufty Thomas W., Reynolds James F.
American Journal of Botany. 2006 93(5). p.716
Interactive Effects of Carbon Dioxide and Nitrogen Nutrition on Cotton Growth, Development, Yield, and Fiber Quality
Reddy K. Raja,
Koti Sailaja,
Davidonis Gayle H., Reddy Vangimalla Ramakrishna
Agronomy Journal. 2004 96(4). p.1148
Elevated CO2 affects plant responses to variation in boron availability
Mishra Sasmita,
Heckathorn Scott A., Frantz Jonathan M.
Plant and Soil. 2012 350(1-2). p.117
Isotope discrimination and photosynthesis of vegetation growing in the Bossoleto CO2 spring
Miglietta F.,
Raschi A.,
Körner C., Vaccari F.P.
Chemosphere. 1998 36(4-5). p.771
Effects of elevated CO2, nitrogen supply and tropospheric ozone on spring wheat—II. Nutrients (N, P, K, S, Ca, Mg, Fe, Mn, Zn)
Fangmeier A.,
Grüters U.,
Högy P.,
Vermehren B., Jäger H.-J.
Environmental Pollution. 1997 96(1). p.43
Photosynthesis, plant growth and N allocation in transgenic rice plants with decreased Rubisco under CO2 enrichment
Makino Amane,
Nakano Hiromi,
Mae Tadahiko,
Shimada Takiko, Yamamoto Naoki
Journal of Experimental Botany. 2000 51(suppl_1). p.383
Crop Physiology (2009)
Responses to atmospheric CO2 concentrations in crop simulation models: a review of current simple and semicomplex representations and options for model development
Vanuytrecht Eline, Thorburn Peter J.
Global Change Biology. 2017 23(5). p.1806
Simulation of growth, water and nitrogen uptake of a wheat crop using the SPASS model
Wang Enli, Engel Thomas
Environmental Modelling & Software. 2002 17(4). p.387
Testing the “source–sink” hypothesis of down-regulation of photosynthesis in elevated [CO2] in the field with single gene substitutions in Glycine max
Ainsworth Elizabeth A,
Rogers Alistair,
Nelson Randall, Long Stephen P
Agricultural and Forest Meteorology. 2004 122(1-2). p.85
A new explanation of the N concentration decrease in tissues of rice (Oryza sativa L.) exposed to elevated atmospheric pCO2
Pang Jing,
Zhu Jian-Guo,
Xie Zu-Bin,
Liu Gang,
Zhang Ya-Li,
Chen Gai-Ping,
Zeng Qing, Cheng Lei
Environmental and Experimental Botany. 2006 57(1-2). p.98
Climate change and crop production: contributions, impacts, and adaptations
Smith Donald L., Almaraz Juan J.
Canadian Journal of Plant Pathology. 2004 26(3). p.253
How light competition between plants affects their response to climate change
van Loon Marloes P.,
Schieving Feike,
Rietkerk Max,
Dekker Stefan C.,
Sterck Frank, Anten Niels P. R.
New Phytologist. 2014 203(4). p.1253
Effects of elevated CO2 and nitrogen on wheat growth and photosynthesis
Pal M.,
Rao L. S.,
Jain V.,
Srivastava A. C.,
Pandey R.,
Raj A., Singh K. P.
Biologia plantarum. 2005 49(3). p.467
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
Effects of elevated CO2 and nitrogen application on photosynthetic area and gain-leaf ratio of winter wheat
XU Yu-Bin,
SHEN Yu-Fang, LI Shi-Qing
Chinese Journal of Eco-Agriculture. 2013 21(9). p.1049
Is there scope for improving balance between RuBP‐regeneration and carboxylation capacities in wheat at elevated CO2?
Mitchell R.A.C.,
Theobald J.C.,
Parry M.A.J., Lawlor D.W.
Journal of Experimental Botany. 2000 51(suppl_1). p.391
Understanding Climate Change Impacts on Crop Productivity and Water Balance (2018)
Effects of elevated CO2 and O3 on tuber quality in potato (Solanum tuberosum L.)
Donnelly Alison,
Lawson Tracy,
Craigon Jim,
Black Colin R.,
Colls Jeremy J., Landon Geoff
Agriculture, Ecosystems & Environment. 2001 87(3). p.273
Response of Rice top(CO2) Enrichment
Seneweera S.,
Makino A.,
Mae T., Basra A. S.
Journal of Crop Improvement. 2005 13(1-2). p.31
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
Are contents of Rubisco, soluble protein and nitrogen in flag leaves of rice controlled by the same genetics?
Ishimaru Ken,
Kobayashi Noriko,
Ono Kiyomi,
Yano Masahiro, Ohsugi Ryu
Journal of Experimental Botany. 2001 52(362). p.1827
Effect of CO2 enrichment on non‐structural carbohydrates in leaves, stems and ears of spring wheat
Sild E.,
Younis S.,
Pleijel H., Selldén G.
Physiologia Plantarum. 1999 107(1). p.60
