Carbohydrate Assimilation and Translocation Regulate Grain Yield Formation in Wheat Crops (<i>Triticum aestivum</i> L.) under Post-Flowering Waterlogging

Carbohydrate Assimilation and Translocation Regulate Grain Yield Formation in Wheat Crops (<i>Triticum aestivum</i> L.) under Post-Flowering Waterlogging

In a two-year field study, we quantified the impact of post-flowering soil waterlogging on carbon assimilation and grain yield formation in wheat crops. At anthesis, wheat cultivars YangMai 18 (YM18) and YanNong 19 (YN19) were waterlogged for different durations, i.e., 0 (W0), 3 (W3), 6 (W6) and 9 (...

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Auteurs principaux: Shangyu Ma, Panpan Gai, Yanyan Wang, Najeeb Ullah, Wenjing Zhang, Yonghui Fan, Yajing Shan, Zhenglai Huang, Xia Hu
Format: article
Langue:EN
Publié: MDPI AG 2021
Sujets:
wheat
waterlogging
carbon assimilation
photosynthetic characteristics
grain filling rate
yield
Agriculture
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Accès en ligne:https://doaj.org/article/f0ae1b90bd004c36beed299606f1dba9
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Résumé:In a two-year field study, we quantified the impact of post-flowering soil waterlogging on carbon assimilation and grain yield formation in wheat crops. At anthesis, wheat cultivars YangMai 18 (YM18) and YanNong 19 (YN19) were waterlogged for different durations, i.e., 0 (W0), 3 (W3), 6 (W6) and 9 (W9) days using artificial structures. Changes in leaf physiology, carbon assimilation and biomass production were quantified at 0, 7, 14, and 21 days after anthesis under all treatments. Short-term (W3) waterlogging had no significant effect on wheat crops but W6 and W9 significantly reduced the net photosynthetic rate (Pn), leaf SPAD value, and grain weight of the tested cultivars. Increasing waterlogging duration significantly increased dry matter accumulation in the spike-axis + glumes but reduced dry matter accumulation in grain. Further, the tested cultivars responded significantly variably to W6 and W9. Averaged across two years, YM 18 performed relatively superior to YN19 in response to long-term waterlogging. For example, at 14 days after anthesis, W9 plants of YM18 and YN19 experienced a 17.4% and 23.2% reduction in SPAD and 25.3% and 30.8% reduction in Pn, respectively, compared with their W0 plants. Consequently, YM18 suffered a relatively smaller grain yield loss (i.e., 16.0%) than YN19 (23.4%) under W9. Our study suggests that wheat cultivar YM18 could protect grain development from waterlogging injury by sustaining assimilates supplies to grain under waterlogged environments.

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