Post-silking leaf senescence is delayed in low-N-tolerant maize cultivars under low N fertilization

Post-silking leaf senescence is delayed in low-N-tolerant maize cultivars under low N fertilization

A four-year field experiment was conducted with two cultivars and four N rate to investigate the spatio-temporal characteristics of leaf senescence in maize after silking and its response to N fertilizer rates on them, as well as to reveal the differences in post-silking chlorophyll degradation betw...

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Bibliographic Details
Main Authors: Gui Wei, Xinglong Wang, Yawei Wu, Fan Liu, Tianqiong Lan, Qinlin Liu, Chengcheng Lyu, Fanlei Kong, Jichao Yuan
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2025-02-01
Series:Crop Journal
Subjects:
Low-N-tolerant maize variety
Nitrogen fertilizer
Spatio-temporal characteristics
Chlorophyll degradation
Online Access:http://www.sciencedirect.com/science/article/pii/S2214514124002587
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Summary:A four-year field experiment was conducted with two cultivars and four N rate to investigate the spatio-temporal characteristics of leaf senescence in maize after silking and its response to N fertilizer rates on them, as well as to reveal the differences in post-silking chlorophyll degradation between low-N-tolerant cultivars. The results showed that the order of leaf senescence after silking in maize was lower leaf > upper leaf > ear leaf, leaf tip > middle > base. Increasing N fertilizer down-regulated the expression of ZmCLH2 and ZmPPH in the leaves at 10–30 d after silking, reducing CLH and PPH activities, thereby delaying the leaf senescence. These effects were more prominent in low-N-sensitive cultivar Xianyu 508 (XY508) than in low-N-tolerant cultivar Zhenghong 311 (ZH311), especially in the lower leaves and leaf tip. Under low N condition, leaf yellowing and chlorophyll degradation occurred later and slower in ZH311 than in XY508. This resulted in a higher post-silking dry matter accumulation and grain yield in ZH311, which may be one of the important physiological bases of low nitrogen tolerant cultivars. Future research should focus on developing low-N-tolerant maize cultivars with slower leaf senescence near the ear after silking.
ISSN:2214-5141

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