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Critical Reviews in Plant Sciences Volume 33, 2014 - Issue 2-3: Special Issue: Stress Biology of Specialty Crops
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Original Article

Plant Molecular and Genomic Responses to Stresses in Projected Future CO2 Environment

Guan-Qiao FengCollege of HorticultureNanjing Agricultural University, Nanjing, Jiangsu Province, 2100951, P. R. China;Department of Plant SciencesUniversity of Tennessee, Knoxville, USA, Tennessee37996, USA
,
Yi LiDepartment of Plant SciencesUniversity of Connecticut, Storrs, USA, Connecticut06023, USA
&
Zong-Ming (Max) ChengCollege of HorticultureNanjing Agricultural University, Nanjing, Jiangsu Province, 2100951, P. R. China;Department of Plant SciencesUniversity of Tennessee, Knoxville, USA, Tennessee37996, USACorrespondence[email protected] [email protected]
Pages 238-249 | Published online: 07 Mar 2014

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Fei Chen, Yue Hu, Alessandro Vannozzi, Kangcheng Wu, Hanyang Cai, Yuan Qin, Alison Mullis, Zhenguo Lin & Liangsheng Zhang. (2017) The WRKY Transcription Factor Family in Model Plants and Crops. Critical Reviews in Plant Sciences 36:5-6, pages 311-335.
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Zong-Ming (Max) Cheng. (2014) Introduction to the Special Issue: Stress Biology of Specialty Crops. Critical Reviews in Plant Sciences 33:2-3, pages 90-91.
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Swarnendu Roy, Rupam Kapoor & Piyush Mathur. (2023) Revisiting Changes in Growth, Physiology and Stress Responses of Plants under the Effect of Enhanced CO2 and Temperature. Plant And Cell Physiology.
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Saswati Ghosh, Sukamal Sarkar, Sourav Garai, Anirban Roy, Saikat Saha, Saikat Dey, Subhas Chandra Santra, Debojyoti Moulick, Mousumi Mondal & Koushik Brahmachari. 2023. Climate-Resilient Agriculture, Vol 2. Climate-Resilient Agriculture, Vol 2 1 34 .
Tae-Lim Kim, Hyemin Lim, Hoyong Chung, Karpagam Veerappan & Changyoung Oh. (2022) Elevated CO2 Alters the Physiological and Transcriptome Responses of Pinus densiflora to Long-Term CO2 Exposure. Plants 11:24, pages 3530.
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Ali A. S. Sayed, Mahesh Kumar, Renu Pandey, Sudhir Kumar & Madan Pal. (2022) Elevated CO2 exposure enhances P-uptake, plant biomass and grain yield in wheat genotypes. Plant Physiology Reports 27:4, pages 695-701.
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Jūratė Žaltauskaitė, Austra Dikšaitytė, Diana Miškelytė, Giedrė Kacienė, Gintarė Sujetovienė, Irena Januškaitienė & Romualdas Juknys. (2022) Effects of elevated CO2 concentration and temperature on the mixed-culture grown wild mustard (Sinapis arvensis L.) response to auxin herbicide. Environmental Science and Pollution Research 30:5, pages 13711-13725.
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Lei Yu, Haojie Dong, Zongdi Huang, Helena Korpelainen & Chunyang Li. (2021) Elevated CO2 causes different growth stimulation, water- and nitrogen-use efficiencies, and leaf ultrastructure responses in two conifer species under intra- and interspecific competition. Tree Physiology 41:11, pages 2082-2095.
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Theivanayagam Maharajan, Stanislaus Antony Ceasar, Thumadath Palayullaparambil Ajeesh Krishna & Savarimuthu Ignacimuthu. (2021) Management of phosphorus nutrient amid climate change for sustainable agriculture. Journal of Environmental Quality 50:6, pages 1303-1324.
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Swarnendu Roy & Piyush Mathur. (2021) Delineating the mechanisms of elevated CO2 mediated growth, stress tolerance and phytohormonal regulation in plants. Plant Cell Reports 40:8, pages 1345-1365.
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Rong Zhou, Xiaqing Yu, Junqin Wen, Nikolaj Bjerring Jensen, Thayna Mendanha dos Santos, Zhen Wu, Eva Rosenqvist & Carl-Otto Ottosen. (2020) Interactive effects of elevated CO2 concentration and combined heat and drought stress on tomato photosynthesis. BMC Plant Biology 20:1.
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Brígida Fernández de Simón, Miriam Sanz, David Sánchez-Gómez, Estrella Cadahía & Ismael Aranda. (2020) Rising [CO2] effect on leaf drought-induced metabolome in Pinus pinaster Aiton: Ontogenetic- and genotypic-specific response exhibit different metabolic strategies. Plant Physiology and Biochemistry 149, pages 201-216.
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Muhammad Asif, Seray Zora, Yasemin Ceylan, Raheela Rehman & Levent Ozturk. (2020) Nitrogen supply in combination of nitrate and ammonium enhances harnessing of elevated atmospheric CO2 through improved nitrogen and carbon metabolism in wheat (Triticum aestivum). Crop and Pasture Science 71:2, pages 101.
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Ismael Aranda, Estrella Cadahía & Brígida Fernández de Simón. (2020) Leaf ecophysiological and metabolic response in Quercus pyrenaica Willd seedlings to moderate drought under enriched CO2 atmosphere. Journal of Plant Physiology 244, pages 153083.
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Qingqing Cui, Yiman Li, Xinrui He, Shuhao Li, Xin Zhong, Binbin Liu, Dalong Zhang & Qingming Li. (2019) Physiological and iTRAQ based proteomics analyses reveal the mechanism of elevated CO2 concentration alleviating drought stress in cucumber (Cucumis sativus L.) seedlings. Plant Physiology and Biochemistry 143, pages 142-153.
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José C. Soares, Carla S. Santos, Susana M. P. Carvalho, Manuela M. Pintado & Marta W. Vasconcelos. (2019) Preserving the nutritional quality of crop plants under a changing climate: importance and strategies. Plant and Soil 443:1-2, pages 1-26.
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Austra Dikšaitytė, Akvilė Viršilė, Jūratė Žaltauskaitė, Irena Januškaitienė & Gintarė Juozapaitienė. (2019) Growth and photosynthetic responses in Brassica napus differ during stress and recovery periods when exposed to combined heat, drought and elevated CO2. Plant Physiology and Biochemistry 142, pages 59-72.
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Marta Bencke-Malato, Amanda Pereira De Souza, Marcelo Ribeiro-Alves, Jacqueline Flores Schmitz, Marcos Silveira Buckeridge & Marcio Alves-Ferreira. (2019) Short-term responses of soybean roots to individual and combinatorial effects of elevated [CO2] and water deficit. Plant Science 280, pages 283-296.
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Amitav Bhattacharya. 2019. Changing Climate and Resource Use Efficiency in Plants. Changing Climate and Resource Use Efficiency in Plants 241 305 .
Brígida Fernández de Simón, Estrella Cadahía & Ismael Aranda. (2018) Metabolic response to elevated CO2 levels in Pinus pinaster Aiton needles in an ontogenetic and genotypic-dependent way. Plant Physiology and Biochemistry 132, pages 202-212.
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Man Li, Yiman Li, Wendong Zhang, Shuhao Li, Yong Gao, Xizhen Ai, Dalong Zhang, Binbin Liu & Qingming Li. (2018) Metabolomics analysis reveals that elevated atmospheric CO2 alleviates drought stress in cucumber seedling leaves. Analytical Biochemistry 559, pages 71-85.
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Gaurav Zinta, Hamada AbdElgawad, Darin Peshev, James T Weedon, Wim Van den Ende, Ivan Nijs, Ivan A Janssens, Gerrit T S Beemster & Han Asard. (2018) Dynamics of metabolic responses to periods of combined heat and drought in Arabidopsis thaliana under ambient and elevated atmospheric CO2. Journal of Experimental Botany 69:8, pages 2159-2170.
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Xin Li, Golam Jalal Ahammed, Lan Zhang, Peng Yan, Liping Zhang & Wen-Yan Han. 2018. Stress Physiology of Tea in the Face of Climate Change. Stress Physiology of Tea in the Face of Climate Change 135 155 .
Esther Mitterbauer, Matthias Enders, Jürgen Bender, Martin Erbs, Antje Habekuß, Benjamin Kilian, Frank Ordon & Hans-Joachim Weigel. (2017) Growth response of 98 barley ( Hordeum vulgare L.) genotypes to elevated CO 2 and identification of related quantitative trait loci using genome-wide association studies . Plant Breeding 136:4, pages 483-497.
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Jian Jin, Yansheng Li, Xiaobing Liu, Guanghua Wang, Caixian Tang, Zhenhua Yu, Xiaojuan Wang & Stephen J. Herbert. (2017) Elevated CO2 alters distribution of nodal leaf area and enhances nitrogen uptake contributing to yield increase of soybean cultivars grown in Mollisols. PLOS ONE 12:5, pages e0176688.
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Giedrė Kacienė, Austra Dikšaitytė, Irena Januškaitienė, Diana Miškelytė, Jūratė Žaltauskaitė, Gintarė Sujetovienė, Sandra Sakalauskienė, Jurga Miliauskienė, Gintarė Juozapaitienė & Romualdas Juknys. (2017) Different Crop and Weed Performance under Single and Combined Effects of Elevated CO 2 and Temperature . Crop Science 57:2, pages 935-944.
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Hamada AbdElgawad, Gaurav Zinta, Gerrit T. S. Beemster, Ivan A. Janssens & Han Asard. (2016) Future Climate CO2 Levels Mitigate Stress Impact on Plants: Increased Defense or Decreased Challenge?. Frontiers in Plant Science 7.
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Hans R. Schultz. (2016) Global Climate Change, Sustainability, and Some Challenges for Grape and Wine Production. Journal of Wine Economics 11:1, pages 181-200.
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Hiroyuki Tobita, Kenichi Yazaki, Hisanori Harayama & Mitsutoshi Kitao. (2015) Responses of symbiotic N2 fixation in Alnus species to the projected elevated CO2 environment. Trees 30:2, pages 523-537.
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Biswapriya B. Misra & Sixue Chen. (2015) Advances in understanding CO2 responsive plant metabolomes in the era of climate change. Metabolomics 11:6, pages 1478-1491.
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H.R. Schultz & M. Hofmann. 2015. Grapevine in a Changing Environment. Grapevine in a Changing Environment 18 37 .
Jian Jin, Caixian Tang & Peter Sale. (2015) The impact of elevated carbon dioxide on the phosphorus nutrition of plants: a review. Annals of Botany 116:6, pages 987-999.
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Hamada AbdElgawad, Dirk De Vos, Gaurav Zinta, Malgorzata A. Domagalska, Gerrit T. S. Beemster & Han Asard. (2015) Grassland species differentially regulate proline concentrations under future climate conditions: an integrated biochemical and modelling approach. New Phytologist 208:2, pages 354-369.
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Sang-Mo Kang, Abdul Latif Khan, Muhammad Waqas, Young-Hyun You, Muhammad Hamayun, Gil-Jae Joo, Raheem Shahzad, Kyung-Sook Choi & In-Jung Lee. (2015) Gibberellin-producing Serratia nematodiphila PEJ1011 ameliorates low temperature stress in Capsicum annuum L.. European Journal of Soil Biology 68, pages 85-93.
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Renu Pandey, Gaurav Zinta, Hamada AbdElgawad, Altaf Ahmad, Vanita Jain & Ivan A. Janssens. (2015) Physiological and molecular alterations in plants exposed to high [CO2] under phosphorus stress. Biotechnology Advances 33:3-4, pages 303-316.
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