SEARCH

SEARCH BY CITATION

Cited in:

CrossRef

This article has been cited by:

  1. 1
    Håkan Pleijel, Petra Högy, CO2 dose–response functions for wheat grain, protein and mineral yield based on FACE and open-top chamber experiments, Environmental Pollution, 2015, 198, 70

    CrossRef

  2. 2
    Zhaozhong Feng, Tobias Rütting, Håkan Pleijel, Göran Wallin, Peter B. Reich, Claudia I. Kammann, Paul C.D. Newton, Kazuhiko Kobayashi, Yunjian Luo, Johan Uddling, Constraints to nitrogen acquisition of terrestrial plants under elevated CO2, Global Change Biology, 2015, 21, 8
  3. 3
    Chen Dong, Lingzhi Shao, Yuming Fu, Minjuan Wang, Beizhen Xie, Juan Yu, Hong Liu, Evaluation of wheat growth, morphological characteristics, biomass yield and quality in Lunar Palace-1, plant factory, green house and field systems, Acta Astronautica, 2015, 111, 102

    CrossRef

  4. 4
    Peter Buchner, Michael Tausz, Rebecca Ford, Audrey Leo, Glenn J. Fitzgerald, Malcolm J. Hawkesford, Sabine Tausz-Posch, Expression patterns of C- and N-metabolism related genes in wheat are changed during senescence under elevated CO2 in dry-land agriculture, Plant Science, 2015, 236, 239

    CrossRef

  5. 5
    Yaohui Shi, Guangsheng Zhou, Yanling Jiang, Hui Wang, Zhenzhu Xu, Jian Song, Interactive effects of elevated CO2 and precipitation change on leaf nitrogen of dominant Stipa L. species, Ecology and Evolution, 2015, 5, 14
  6. 6
    Malin C. Broberg, Zhaozhong Feng, Yue Xin, Håkan Pleijel, Ozone effects on wheat grain quality – A summary, Environmental Pollution, 2015, 197, 203

    CrossRef

  7. 7
    Arnold J. Bloom, Photorespiration and nitrate assimilation: a major intersection between plant carbon and nitrogen, Photosynthesis Research, 2015, 123, 2, 117

    CrossRef

  8. 8
    M. Havé, L. Leitao, M. Bagard, J.-F. Castell, A. Repellin, Protein carbonylation during natural leaf senescence in winter wheat, as probed by fluorescein-5-thiosemicarbazide, Plant Biology, 2015, 17, 4
  9. 9
    R. Vicente, P. Perez, R. Martinez-Carrasco, B. Usadel, S. Kostadinova, R. Morcuende, Quantitative RT-PCR Platform to Measure Transcript Levels of C and N Metabolism-Related Genes in Durum Wheat: Transcript Profiles in Elevated [CO2] and High Temperature at Different Levels of N Supply, Plant and Cell Physiology, 2015,

    CrossRef

  10. 10
    Xianzhong Wang, Daniel R. Taub, Leanne M. Jablonski, Reproductive allocation in plants as affected by elevated carbon dioxide and other environmental changes: a synthesis using meta-analysis and graphical vector analysis, Oecologia, 2015, 177, 4, 1075

    CrossRef

  11. 11
    John W. Patrick, Kim Colyvas, Crop yield components – photoassimilate supply- or utilisation limited-organ development?, Functional Plant Biology, 2014, 41, 9, 893

    CrossRef

  12. 12
    A. K. Mishra, S. B. Agrawal, Cultivar Specific Response of CO2 Fertilization on Two Tropical Mung Bean (Vigna radiata L.) Cultivars: ROS Generation, Antioxidant Status, Physiology, Growth, Yield and Seed Quality, Journal of Agronomy and Crop Science, 2014, 200, 4
  13. 13
    A. Morgounov, A. Abugalieva, S. Martynov, Effect of Climate Change and Variety on Long-term Variation of Grain Yield and Quality in Winter Wheat in Kazakhstan, Cereal Research Communications, 2014, 42, 1, 163

    CrossRef

  14. 14
    Yunxia Wang, Qiling Song, Michael Frei, Zaisheng Shao, Lianxin Yang, Effects of elevated ozone, carbon dioxide, and the combination of both on the grain quality of Chinese hybrid rice, Environmental Pollution, 2014, 189, 9

    CrossRef

  15. 15
    Xingyu Hao, Ji Gao, Xue Han, Zhanyun Ma, Andrew Merchant, Hui Ju, Ping Li, Wanshen Yang, Zhiqiang Gao, Erda Lin, Effects of open-air elevated atmospheric CO2 concentration on yield quality of soybean (Glycine max (L.) Merr), Agriculture, Ecosystems & Environment, 2014, 192, 80

    CrossRef

  16. 16
    Nimesha Fernando, Joe Panozzo, Michael Tausz, Robert M. Norton, Nathan Neumann, Glenn J. Fitzgerald, Saman Seneweera, Elevated CO2 alters grain quality of two bread wheat cultivars grown under different environmental conditions, Agriculture, Ecosystems & Environment, 2014, 185, 24

    CrossRef

  17. 17
    Sumita Kumari, Madhoolika Agrawal, Growth, yield and quality attributes of a tropical potato variety (Solanum tuberosum L. cv Kufri chandramukhi) under ambient and elevated carbon dioxide and ozone and their interactions, Ecotoxicology and Environmental Safety, 2014, 101, 146

    CrossRef

  18. 18
    Page Kyle, Christoph Müller, Katherine Calvin, Allison Thomson, Meeting the radiative forcing targets of the representative concentration pathways in a world with agricultural climate impacts, Earth's Future, 2014, 2, 2
  19. 19
    Arnold J. Bloom, Martin Burger, Bruce A. Kimball, Paul J. Pinter, Jr, Nitrate assimilation is inhibited by elevated CO2 in field-grown wheat, Nature Climate Change, 2014, 4, 6, 477

    CrossRef

  20. 20
    Lina Wang, Xiaoyu Yang, Zhonghai Ren, Xiufeng Wang, Regulation of Photoassimilate Distribution between Source and Sink Organs of Crops through Light Environment Control in Greenhouses, Agricultural Sciences, 2014, 05, 04, 250

    CrossRef

  21. 21
    Madan Pal, Ashish K. Chaturvedi, Sunil K. Pandey, Rajiv N. Bahuguna, Sangeeta Khetarpal, Anjali Anand, Rising atmospheric CO2 may affect oil quality and seed yield of sunflower (Helianthus annus L.), Acta Physiologiae Plantarum, 2014, 36, 11, 2853

    CrossRef

  22. 22
    Amit Kumar Mishra, Richa Rai, S.B. Agrawal, Differential response of dwarf and tall tropical wheat cultivars to elevated ozone with and without carbon dioxide enrichment: Growth, yield and grain quality, Field Crops Research, 2013, 145, 21

    CrossRef

  23. 23
    Liang Wang, Zhaozhong Feng, Jan K. Schjoerring, Effects of elevated atmospheric CO2 on physiology and yield of wheat (Triticum aestivum L.): A meta-analytic test of current hypotheses, Agriculture, Ecosystems & Environment, 2013, 178, 57

    CrossRef

  24. 24
    Yingchun Li, Erda Lin, Xue Han, Zhengping Peng, Wen Wang, Xingyu Hao, Hui Ju, Effects of elevated carbon dioxide concentration on nitrous oxide emissions and nitrogen dynamics in a winter-wheat cropping system in northern China, Mitigation and Adaptation Strategies for Global Change, 2013,

    CrossRef

  25. 25
    Feixiang Zheng, Xiaoke Wang, Weiwei Zhang, Peiqiang Hou, Fei Lu, Keming Du, Zhongfu Sun, Effects of elevated O3 exposure on nutrient elements and quality of winter wheat and rice grain in Yangtze River Delta, China, Environmental Pollution, 2013, 179, 19

    CrossRef

  26. 26
    X. Yin, Improving ecophysiological simulation models to predict the impact of elevated atmospheric CO2 concentration on crop productivity, Annals of Botany, 2013, 112, 3, 465

    CrossRef

  27. 27
    Håkan Pleijel, Effects of ozone on zinc and cadmium accumulation in wheat – dose–response functions and relationship with protein, grain yield, and harvest index, Ecology and Evolution, 2012, 2, 12
  28. 28
    Shu K. Lam, Deli Chen, Rob Norton, Roger Armstrong, Arvin R. Mosier, Nitrogen dynamics in grain crop and legume pasture systems under elevated atmospheric carbon dioxide concentration: A meta-analysis, Global Change Biology, 2012, 18, 9
  29. 29
    Stephen P. Long, Virtual Special Issue on food security – greater than anticipated impacts of near-term global atmospheric change on rice and wheat, Global Change Biology, 2012, 18, 5