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Elevated temperature and low nitrogen partially offset the yield, evapotranspiration, and water use efficiency of winter wheat under carbon dioxide enrichment

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  • Lenka, Narendra Kumar
  • Lenka, Sangeeta
  • Yashona, Dharmendra Singh
  • Jat, Dinesh

Abstract

Atmospheric carbon dioxide (CO2) concentration, temperature and nitrogen (N) are the key regulators of productivity and water use of plants under the changing climate. However, field scale studies on the interactive effect of the three above critical inputs are limited. Hence, this field study was conducted with three climate treatments (ambient (AC), elevated CO2 (eC, ~550 µmol mol−1) and co-elevation of both CO2 and temperature (eCeT, ~550 µmol mol−1 and temperature ~2 °C above ambient)) and four N treatments (0%, 50%, 100% and 150% of recommended N dose of 120 kg N ha−1). The experiment was carried out in open top field chambers to study the effects of climate and N application on grain yield, evapotranspiration (ET) and water use efficiency (WUE) in wheat crop. Crop ET was estimated by field water balance method and WUE by taking the ratio of grain yield to crop ET. Elevation of CO2 showed 9% yield gain over ambient (averaged across N levels), whereas, co-elevation of temperature reduced the yield gain to 4%. Further, N application significantly altered the level of CO2 response. Under CO2 enriched environment, the yield gain was 15% with N100 as compared to 2% and 4% under N0 and N50, respectively, indicating CO2 enrichment benefits in grain yield was N dependent. The three years’ pooled data showed significant effect of climate, N and their interaction on profile water storage, evapotranspiration and WUE. Elevation of CO2 alone or with co-elevation of temperature resulted in significant decline in crop ET by 4–11 mm and significant increase in profile soil moisture and WUE. The WUE improved significantly, by 12% under eC and by 4% under eCeT, respectively, with the increase, more attributed to gain in grain yield. Quantitative derivation from the three years’ field experimentation could establish that under elevated CO2 scenario (550 µmol mol−1), an additional 1 °C rise in temperature would result in enhanced crop ET by 5 mm and yield loss of about 4%. This study thus revealed that limited N and increased temperature would potentially restrict the CO2 mediated benefits in wheat yield and water use under the changing climate.

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  • Lenka, Narendra Kumar & Lenka, Sangeeta & Yashona, Dharmendra Singh & Jat, Dinesh, 2021. "Elevated temperature and low nitrogen partially offset the yield, evapotranspiration, and water use efficiency of winter wheat under carbon dioxide enrichment," Agricultural Water Management, Elsevier, vol. 250(C).
  • Handle: RePEc:eee:agiwat:v:250:y:2021:i:c:s0378377421001219
    DOI: 10.1016/j.agwat.2021.106856
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    References listed on IDEAS

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    1. Qiao, Yunzhou & Zhang, Huizhen & Dong, Baodi & Shi, Changhai & Li, Yuxin & Zhai, Hongmei & Liu, Mengyu, 2010. "Effects of elevated CO2 concentration on growth and water use efficiency of winter wheat under two soil water regimes," Agricultural Water Management, Elsevier, vol. 97(11), pages 1742-1748, November.
    2. Lenka, Narendra Kumar & Lenka, Sangeeta & Thakur, Jyoti Kumar & Yashona, Dharmendra Singh & Shukla, A.K. & Elanchezhian, R. & Singh, K.K. & Biswas, A.K. & Patra, A.K., 2020. "Carbon dioxide and temperature elevation effects on crop evapotranspiration and water use efficiency in soybean as affected by different nitrogen levels," Agricultural Water Management, Elsevier, vol. 230(C).
    3. César Terrer & Robert B. Jackson & I. Colin Prentice & Trevor F. Keenan & Christina Kaiser & Sara Vicca & Joshua B. Fisher & Peter B. Reich & Benjamin D. Stocker & Bruce A. Hungate & Josep Peñuelas & , 2019. "Nitrogen and phosphorus constrain the CO2 fertilization of global plant biomass," Nature Climate Change, Nature, vol. 9(9), pages 684-689, September.
    4. Li, Dongxiao & Liu, Huiling & Qiao, Yunzhou & Wang, Youning & Cai, Zhaoming & Dong, Baodi & Shi, Changhai & Liu, Yueyan & Li, Xia & Liu, Mengyu, 2013. "Effects of elevated CO2 on the growth, seed yield, and water use efficiency of soybean (Glycine max (L.) Merr.) under drought stress," Agricultural Water Management, Elsevier, vol. 129(C), pages 105-112.
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    Cited by:

    1. Bai, Jiaming & Li, Rui & Jiang, Yu & Zhang, Jiarui & Li, Dayong & Cai, Zelin & Zhang, Zhi, 2024. "Efficient agricultural water research under elevated global carbon dioxide concentration – Based on bibliometric analysis," Agricultural Water Management, Elsevier, vol. 299(C).
    2. Potopová, V. & Trnka, M. & Vizina, A. & Semerádová, D. & Balek, J. & Chawdhery, M.R.A. & Musiolková, M. & Pavlík, P. & Možný, M. & Štěpánek, P. & Clothier, B., 2022. "Projection of 21st century irrigation water requirements for sensitive agricultural crop commodities across the Czech Republic," Agricultural Water Management, Elsevier, vol. 262(C).

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