Sucrose accumulation and ROS signaling drive plastic mulching-induced leaf senescence in short-season cotton: A transcriptomic blueprint for yield management
文献类型: 外文期刊
作者: Qi, Jie 1 ; Zhang, Yanjun 2 ; Zhang, Dongmei 2 ; Xu, Shizhen 2 ; Li, Zhenhuai 2 ; Feng, Keyun 1 ; Dong, Hezhong 2 ;
作者机构: 1.Gansu Acad Agr Sci, Crop Res Inst, Lanzhou 730070, Gansu, Peoples R China
2.Shandong Acad Agr Sci, Inst Ind Crops, Jinan 250100, Shandong, Peoples R China
3.Shihezi Univ, Coll Agron, Shihezi 832000, Xinjiang, Peoples R China
4.Tarim Univ, Coll Agron, Alar 843300, Xinjiang, Peoples R China
关键词: Short-season cotton; Leaf senescence; RNA-Seq; Crop yield; Soluble sugars
期刊名称:INDUSTRIAL CROPS AND PRODUCTS ( 影响因子:6.2; 五年影响因子:6.2 )
ISSN: 0926-6690
年卷期: 2025 年 235 卷
页码:
收录情况: SCI
摘要: Plastic mulching is a widely adopted agronomic practice to enhance cotton productivity, particularly in fullseason cotton systems. However, its application in short-season cotton cultivation remains debated, as mulching paradoxically accelerates late-season leaf senescence without conferring yield benefits-a phenomenon whose molecular underpinnings are poorly understood. This study integrates field physiology and transcriptomics to unravel how plastic mulching disrupts leaf longevity and boll development in short-season cotton. Over two consecutive growing seasons (2019-2020) in the Yellow River Basin of China, mulched and nonmulched short-season cotton (Gossypium hirsutum cv. Lumian 532) plants were evaluated for yield dynamics, boll distribution, and senescence-linked physiological indicators such as soluble sugars (sucrose, glucose, and fructose) and hydrogen peroxide (H2O2) levels. Results demonstrated that mulching significantly increased earlyseason boll density by 45 % and mid-season boll weight by 7.3 %. However, it concurrently reduced late-season boll density and weight by 39 % and 6 %, respectively, resulting in no yield advantages under mulching. RNASeq analysis of functional leaves at the early boll-opening stage revealed 1387 differentially expressed genes (DEGs), with key enrichment in starch and sucrose metabolism and mitogen-activated protein kinase (MAPK) signaling pathways. Notably, mulching upregulated GhSUS (sucrose synthase) and GhINV (invertase), causing enhanced accumulation of sucrose by 35.4 %, glucose by 34.2 %, fructose by 44.3 %, and H2O2 by 12.4 %, which jointly promoted reactive oxygen species (ROS) production and premature leaf senescence. Collectively, these findings mechanistically link plastic mulching to a "sugar-ROS feedback loop" that accelerates leaf senescence in short-season cotton. The study provides empirical evidence against plastic mulching in short-season systems and supports non-mulched cultivation as a sustainable alternative.
- 相关文献
作者其他论文 更多>>
-
Integrated application of fertilization increased maize (Zea mays L.) yield by improving soil quality, particularly under limited water conditions in a semi-arid sandy area
作者:Wang, Ning;Zhang, Tonghui;Li, Yuqiang;Cong, Anqi;Lian, Jie;Wang, Ning;Cong, Anqi;Wang, Ning;Feng, Keyun
关键词:Semiarid areas; Organic fertilizer; Plant growth promoting rhizobacteria; Soil quality; Maize yield
-
GhADT5 enhances alkali stress tolerance in cotton by regulating phenylalanine-derived flavonoid biosynthesis and antioxidant defense
作者:Wang, Lidong;Zhang, Menghao;Meng, Junting;Liu, Mengyue;Meng, Yuan;Chen, Wenhua;Fan, Yapeng;Huang, Hui;Sun, Yuping;Yang, Zhining;Chen, Xiao;Wu, Fange;Song, Ruize;Wang, Shuai;Lu, Xuke;Chen, Xiugui;Zhao, Lanjie;Wang, Junjuan;Cui, Yupeng;Ye, Wuwei;Wang, Lidong;Chen, Qin;Ye, Wuwei;Nan, Hongyu;Wang, Ning;Feng, Keyun;Guang, Lijun;Zhou, Xue-Rong
关键词:Phenylalanine (phe); Flavonoid biosynthesis; Arogenate dehydratase (ADT);
GhADT5 ; Cotton (Gossypium Spp. ); Virus-induced gene silencing (VIGS); Cotton breeding -
Genome-wide identification of the cotton FAR gene family reveals GhFAR3 as a positive regulator of Verticillium dahliae resistance
作者:Cheng, Wenhan;Chen, Rui;Gao, Siqi;Xiong, Xianpeng;He, Zhaojie;Aini, Nurimanguli;Zhao, Zengqiang;Wang, Ning;Feng, Keyun
关键词:Cotton; Fatty acyl-CoA reductase; FAR3;
Verticillium dahliae ; Suberin -
GhDMT7-mediated DNA methylation dynamics enhance starch and sucrose metabolism pathways to confer salt tolerance in cotton
作者:Yang, Zhining;Lu, Xuke;Zhao, Kang;Fan, Yapeng;Zhang, Menghao;Wang, Lidong;Sun, Yuping;Chen, Xiao;Wang, Shuai;Chen, Xiugui;Wang, Junjuan;Zhao, Lanjie;Guo, Lixue;Ye, Wuwei;Yang, Zhining;Zhao, Kang;Gao, Wenwei;Nan, Hongyu;Feng, Keyun;Dai, Maohua;Zhu, Xiaopin;Wang, Xiaowei
关键词:DNA methylation;
GhDMT7 ; salinity stress; starch and sucrose metabolism; stress response -
Crop root system architecture in drought response
作者:Zhang, Yanjun;Peng, Yunling;Zhang, Yanjun;Peng, Yunling;Zhang, Yanjun;Wang, Xingrong;Zhang, Yanjun;Wang, Xingrong;Wu, Xi;Dai, Mingqiu;Wu, Xi;Dai, Mingqiu
关键词:Crop; Drought resistance; Root system architecture; Genetic improvement
-
Melatonin regulated through GhTDC5 enhances tryptophan decarboxylase against drought stress in cotton
作者:Yu, Xin;Chen, Xiugui;Yang, Zhining;Fan, Yapeng;Sun, Yuping;Zhang, Xinrui;Song, Ruize;Zhang, Menghao;Lan, Hao;Wu, Fange;Huang, Hui;Chen, Xiao;Wang, Lidong;Lu, Xuke;Wang, Shuai;Guo, Lixue;Wang, Junjuan;Zhao, Lanjie;Ye, Wuwei;Yu, Xin;Jiang, Jing;Wang, Ning;Feng, Keyun;Dai, Maohua
关键词:Melatonin;
TDC gene; Drought stress; Bioinformatics analysis; VIGS -
A telomere-to-telomere genome assembly of cotton provides insights into centromere evolution and short-season adaptation
作者:Hu, Guanjing;Wang, Zhenyu;Ji, Gaoxiang;Wang, Xingxing;Zhang, Xianliang;Yang, Zhaoen;Niu, Ruoyu;Zhang, Yuzhi;Duan, Lian;Zhao, Junjie;He, Shoupu;Zang, Xinshan;Ma, Xiongfeng;Hu, Guanjing;Tian, Zunzhe;Liu, Xuan;Niu, Ruoyu;Zhu, De;Duan, Lian;Ma, Xueyuan;Xiong, Xianpeng;Kong, Jiali;Zhao, Xianjia;Zhang, Ya;Wu, Zhiqiang;Pan, Weihua;Ma, Xiongfeng;Wang, Zhenyu;Ji, Gaoxiang;Wang, Xingxing;Zhang, Xianliang;Yang, Zhaoen;Liu, Xuan;Zhao, Junjie;He, Shoupu;Zang, Xinshan;Ma, Xiongfeng;Wang, Kai;Yu, Guangrun;Han, Jinlei;Zhang, Xianliang;Grover, Corrinne E.;Wendel, Jonathan F.;Su, Junji;Feng, Keyun
关键词:
