Exogenous melatonin alleviates drought stress in cotton by enhancing root cortical activity and metabolic adaptation
文献类型: 外文期刊
第一作者: Zhang, Haitao
作者: Zhang, Haitao;Guo, Congcong;Sun, Hongchun;Zhu, Lingxiao;Zhang, Ke;Zhang, Yongjiang;Li, Cundong;Liu, Liantao;Guo, Congcong;Wang, Zhanbiao
作者机构:
关键词: cotton; drought; melatonin; living cortical area; root metabolism; root absorption
期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:4.8; 五年影响因子:5.7 )
ISSN: 1664-462X
年卷期: 2025 年 16 卷
页码:
收录情况: SCI
摘要: Introduction The root cortex plays a critical role in water uptake and metabolic activity, directly influencing root functionality. However, despite melatonin's known role in plant stress tolerance, its mechanisms in modulating root cortical anatomy and metabolic adaptation under drought remain unclear. This study examines the impact of exogenous melatonin on the root cortex of cotton under drought stress, focusing on its relationship with water uptake and drought resilience.Methods Cotton plants (cv. Lumian 532) were subjected to drought stress (8% PEG 6000) with foliar application of melatonin (100 mu mol/L) to evaluate its effects on root cortical integrity and water uptake.Results The results demonstrated that melatonin application significantly increased living cortical area (LCA) and cortical thickness of roots under drought stress, and the effect was more obvious near the middle segment of the root (13 cm from the root tip). Melatonin also enhanced osmotic regulation, increased respiratory enzyme activity, and improved specific root length uptake rates for water and key nutrients. Furthermore, melatonin promoted root and above-ground growth, as evidenced by increases in root length, plant height, stem diameter, and leaf area. Notably, LCA positively correlated with osmotic substance accumulation, root respiration, and absorption capacity under drought conditions.Discussion In conclusion, exogenous melatonin synergistically enhances drought resistance by maintaining cortical integrity, improving water absorption efficiency, and activating respiratory metabolism, thereby enhancing cotton growth and drought resistance. These findings underscore melatonin as a promising regulator for enhancing drought resistance.
分类号:
- 相关文献
作者其他论文 更多>>
-
Soil Inversion with Subsoiling Increases Cotton Yield Through Improving Soil Properties and Root Growth
作者:Li, Pengcheng;Feng, Weina;Dong, Helin;Zheng, Cangsong;Sun, Miao;Shao, Jingjing;Zhang, Zhenggui;Pan, Zhanlei;Wang, Jian;Sun, Guilan;Li, Junhong;Zhang, Yaopeng;Zhao, Wenqi;Zhai, Menghua;Wang, Zhanbiao;Li, Pengcheng;Feng, Weina;Dong, Helin;Zhang, Zhenggui;Pan, Zhanlei;Wang, Jian;Sun, Guilan;Li, Junhong;Zhang, Yaopeng;Zhao, Wenqi;Zhai, Menghua;Wang, Zhanbiao;Wang, Shulin
关键词:soil inversion with subsoiling; soil nutrients; residual effect; cotton yield
-
Natural acidic deep eutectic solvent-mediated microwave-assisted simultaneous hydrodistillation, hydrolysis, and extraction for obtaining essential oils, gallic acid and ellagic acid from Liquidambar formosana leaves and fruits
作者:Zhang, Ke;Gao, Hongfei;Yang, Yang;Ping, Yifan;Yang, Lei;Tian, Hao;Gu, Huiyan
关键词:Natural deep eutectic solvent; Liquidambar formosana; Essential oils; Microwave simultaneous hydrodistillation; Hydrolysis; And extraction
-
Unveiling the Role of GhP5CS1 in Cotton Salt Stress Tolerance: A Comprehensive Genomic and Functional Analysis of P5CS Genes
作者:Fang, Hui;Gao, Xin;Wu, Yunhao;Zhang, Ke;Wu, Ying;Li, Junyi;Qian, Dongmei;Li, Ruochen;Gu, Haijing;Mehari, Teame Gereziher;Wang, Baohua;Mehari, Teame Gereziher;Shen, Xinlian
关键词:cotton genomics;
P5CS gene family;GhP5CS1 function; salt stress; proline; virus-induced gene silencing (VIGS) -
Increasing exposure of cotton growing areas to compound drought and heat events in a warming climate
作者:Liu, Shengli;Zhang, Wei;Shi, Tongtong;Li, Tong;Wang, Zhanbiao;Ma, Xiongfeng;Liu, Shengli;Li, Tong;Wang, Zhanbiao;Ma, Xiongfeng;Li, Hui;Zhou, Guanyin;Wang, Zhanbiao;Ma, Xiongfeng
关键词:Compound extreme events; Climate change; Cotton; Exposure; Probabilistic response
-
Climate normals shape regional disparities of cotton yield failures compared to dominant impacts from climate extremes
作者:Liu, Shengli;Shi, Tongtong;Li, Tong;You, Xinru;Wang, Zhanbiao;Ma, Xiongfeng;Liu, Shengli;Li, Tong;Dai, Shuai;Wang, Wenkui;Wang, Zhanbiao;Ma, Xiongfeng;Dai, Shuai;Wang, Zhanbiao;Ma, Xiongfeng
关键词:Spatial compounds; Cotton yield failure; Climate change; Cotton breeding
-
Tracing the carbon footprint of cotton garments from seed to garment: Evidence from an empirical study of multiple sites in China
作者:Wang, Shuchen;Huang, Weibin;Zhang, Zhenggui;Wang, Zhanbiao;Zhao, Wenqi;Zhang, Zhenggui;Wang, Zhanbiao;Chong, Chenxi;Guo, Simeng;Wang, Yuhan;Zhang, Yaopeng;Pan, Zhanlei;Wang, Jian;Li, Xin;Zhang, Zhenggui;Wang, Zhanbiao
关键词:Carbon footprint; Cotton textile; Sustainable production; Environmental impact; Life cycle assessment
-
Tomato TGase positively regulates thermotolerance by inducing polyamine to activate autophagy
作者:Zhong, Min;Cui, Qingshen;Yang, Yan;Zhang, Ke;Liu, Xiaoying;Pang, Guan;Yang, Lifei;Guo, Shirong;Sun, Jin;Wang, Yu;Zhong, Min;Yang, Yan
关键词:
ATG ; heat stress;Solanum lycopersicum ; spermidine; transglutaminases
