农科机构知识库联盟

Growth, lint yield and changes in physiological attributes of cotton under temporal waterlogging

文献类型：外文期刊

第一作者： Zhang, Yanjun

作者： Zhang, Yanjun;Chen, Yizhen;Dong, Hezhong;Zhang, Yanjun;Chen, Yizhen;Lu, Hequan;Kong, Xiangqiang;Dai, Jianlong;Li, Zhenhuai;Dong, Hezhong

作者机构：

关键词： Cotton;Temporal waterlogging;Yield and yield components;Physiological response;Gene expression

期刊名称：FIELD CROPS RESEARCH （影响因子：5.224；五年影响因子：6.19 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Cotton may suffer from waterlogging from seedling to boll-setting stage, but little is known of how it responds to temporal waterlogging. In this study, cotton was grown in a rain-shelter and subjected to 0 (control)-, 10-, 15- and 20-d waterlogging at squaring (WLS), flowering (WLF) and boll-setting (WLB) stages. The effects of timing (growth stage) and duration of waterlogging on the growth, yield and yield components as well as some physiological and molecular features of cotton were examined. The lint yield was significantly affected by timing and duration of waterlogging as well as their interaction. On average, the 10-, 15-, and 20-d waterlogging reduced lint yield by 53, 59 and 63% at squaring; 27, 37 and 55% at flowering, and 13, 15 and 24% at boll-setting. The more pronounced yield reduction under WLS than later waterlogging (under WLF and WLB) was attributed to greater reductions in biological yield, harvest index, and the resulting boll density and boll weight Variations in yield loss due to temporal waterlogging was associated with some physiological and molecular changes: a) the chlorophyll synthesis associated gene (GhLHCB) in the main-stem leaves was down-regulated under WLS to a larger extent, leading to lower leaf photosynthesis than that under WLF or WLB; b) cotton alcohol dehydrogenase (GhADH) and pyruvate decarboxylase (PDC) genes were better up-regulated, resulting to greater activity of lactate dehydrogenase (LDH), alcohol dehydrogenase (ADH) and PDC plus lower activity of SOD, POD and CAT and higher accumulation of malondialdehyde (MDA) and H2O2 under WLS than under WLF and WLB; c) more pronounced reductions in GA and IAA content were observed under WLS than WLF and WLB. Higher sensitivity to earlier waterlogging than later waterlogging in cotton was attributed to the greater reductions in biological yield and harvest index resulting from differences in physiological and molecular adjustments of the plants. (C) 2016 Elsevier B.V. All rights reserved.

分类号： S

相关文献

[1]Physiological and molecular adjustment of cotton to waterlogging at peak-flowering in relation to growth and yield. Zhang, Yanjun,Song, Xuezhen,Li, Zhenhuai,Lu, Hequan,Kong, Xiangqiang,Eneji, A. Egrinya,Dong, Hezhong,Zhang, Yanjun,Dong, Hezhong,Song, Xuezhen,Yang, Guozheng.

[2]Physiological changes and differential gene expression of tea plant under dehydration and rehydration conditions. Liu, Sheng-Chuan,Yao, Ming-Zhe,Ma, Chun-Lei,Jin, Ji-Qiang,Ma, Jian-Qiang,Li, Chun-Fang,Chen, Liang,Liu, Sheng-Chuan.

[3]Removal of early fruiting branches impacts leaf senescence and yield by altering the sink/source ratio of field-grown cotton. Chen, Yizhen,Dong, Hezhong,Chen, Yizhen,Kong, Xiangqiang,Dong, Hezhong,Kong, Xiangqiang,Dong, Hezhong. 2018

[4]Analysis of Differentially Expressed Genes in Genic Male Sterility Cotton (Gossypium hirsutum L.) Using cDNA-AFLP. Xiaoding Ma,Chaozhu Xing,Liping Guo,Yangcang Gong,Hailin Wang,Yunlei Zhao,Jianyong Wu. 2007

[5]Exogenous nitric oxide delays salt-induced leaf senescence in cotton (Gossypium hirsutum L.). Kong, Xiangqiang,Wang, Tao,Li, Weijiang,Tang, Wei,Zhang, Dongmei,Dong, Hezhong,Wang, Tao,Dong, Hezhong.

[6]Differential Gene Expression Between Hybrids and Their Parents During the Four Crucial Stages of Cotton Growth and Development. Zhao Yun-lei,Yu Shu-xun,Xing Chao-zhu,Fan Shu-li,Song Mei-zhen,Ye Wu-wei. 2009

[7]Isolation and expression profiling of GhNAC transcription factor genes in cotton (Gossypium hirsutum L.) during leaf senescence and in response to stresses. Syed Tariq Shah,Chaoyou Pang,Shuli Fan,Meizhen Song,Saima Arain,Shuxun Yu.

[8]Isolation and Characterization of an ERF Transcription Factor Gene from Cotton (Gossypium barbadense L.). Xianpeng Meng,Fuguang Li,Chuanliang Liu,Chaojun Zhang,Zhixia Wu,Yajuan Chen.

[9]Quantitative trait locus analysis of drought tolerance and yield in maize in China. Xiao, YN,Li, XH,George, ML,Li, MS,Zhang, SH,Zheng, YL.

[10]YIELD AND YIELD COMPONENTS OF HYBRID RICE AS INFLUENCED BY NITROGEN FERTILIZATION AT DIFFERENT ECO-SITES. Li, Ganghua,Wang, Shaohua,Tang, She,Ding, Yanfeng,Li, Ganghua,Zhang, Jun,Yang, Chongdang,Song, Yunpan,Liu, Zhenghui,Wang, Shaohua,Yang, Chongdang,Zheng, Chengyan. 2014

[11]The effect of nitrogen addition on seed yield and yield components of Leymus chinensis in Songnen Plain, China. Chen, J. S.,Zhu, R. F.,Zhang, Y. X.. 2013

[12]Effects of Dietary Vitamin C on the Physiological Responses and Disease Resistance to Ph Stress and Aeromonas Hydrophila Infection of Megalobrama Amblycephala. Liu, Bo,Wan, Jinjuan,Ge, Xianping,Xie, Jun,Liu, Bo,Ge, Xianping,Xie, Jun,Zhou, Qunlan,Miao, Linghong,Ren, Mingchun,Pan, Liangkun. 2016

[13]Water quality and physiological response of F-1 hybrid seabream (Pagrus major female x Acanthopagrus schlegelii male) to transport stress at different densities. Qiang, Jun,Yu, Juhua,Xu, Pao,Zhang, Zhiwei,Xu, Jin,Liu, Hailin,Zhang, Zhiyong. 2018

[14]The growth and antioxidant defense responses of wheat seedlings to omethoate stress. Liang, Yongchao,Zhang, Bo,Chu, Guixin,Wei, Changzhou,Ye, Jun,Li, Zhiqiang,Zhang, Bo.

[15]Physiological and biochemical responses in sunflower leaves infected by Sclerotinia sclerotiorum. Liu, Jia,Liu, Jia,Zhang, Yunhua,Meng, Qinglin,Shi, Fengmei,Ma, Ligong,Li, Yichu. 2017

[16]Effects of glyphosate-based herbicides on survival, development and growth of invasive snail (Pomacea canaliculata). Xu, Yanggui,Li, Adela Jing,Qin, Junhao,Li, Huashou,Xu, Yanggui,Li, Adela Jing,Qin, Junhao,Li, Huashou,Li, Kaibin,Li, Adela Jing. 2017

[17]Pretreatment with low-dose gamma irradiation enhances tolerance to the stress of cadmium and lead in Arabidopsis thaliana seedlings. Qi, Wencai,Wang, Lin,Xu, Hangbo,Jiao, Zhen,Zhang, Liang,Jin, Qingsheng.

[18]Effect of long-term administration of dietary beta-1,3-glucan on growth, physiological, and immune responses in Litopenaeus vannamei (Boone, 1931). Zhao, Hong-Xia,Wang, An-Li,Ye, Chao-Xia,Zhao, Hong-Xia,Cao, Jun-Ming,Huang, Yan-Hua,Lan, Han-Bing,Zhou, Ting-Ting,Li, Guo-Li,Du, Zhen-Yu.

[19]Swimming ability and physiological response to swimming fatigue in whiteleg shrimp, Litopenaeus vannamei. Zhang, Peidong,Zhang, Xiumei,Li, Jian,Huang, Guoqiang.

[20]A Root-Zone Soil Regime of Wheat: Physiological and Growth Responses to Furrow Irrigation in Raised Bed Planting in Northern China. Kong, Ling'an,Wang, Fahong,Feng, Bo,Li, Shengdong,Si, Jisheng,Zhang, Bin.

作者其他论文更多>>

Enhancing stand establishment and yield formation of cotton with multiple drip irrigation during emergence in saline fields of Southern Xinjiang

作者：Dai, Jianlong;Cui, Zhengpeng;Zhang, Yanjun;Zhan, Lijie;Nie, JunJun;Zhang, Dongmei;Xu, Shizhen;Sun, Lin;Dong, Hezhong;Cui, Jianqiang;Chen, Bing;Dong, Hezhong;Dong, Hezhong

关键词：Cotton; Dry sowing and wet emergence; Drip irrigation; Saline soil; Stand establishment; Yield formation
Deficit irrigation combined with a high planting density optimizes root and soil water-nitrogen distribution to enhance cotton productivity in arid regions

作者：Wu, Fengquan;Tang, Qiuxiang;Wu, Fengquan;Cui, Jianping;Tian, Liwen;Guo, Rensong;Wang, Liang;Zheng, Zipiao;Zhang, Na;Lin, Tao;Zhang, Yanjun

关键词：Root system; Soil water; Soil nitrate nitrogen; Water productivity
Insight into the effects of different ripeness levels on the quality and flavor chemistry of Noni fruit ( Morinda citrifolia L.) . )

作者：Chen, Xiaoai;Gu, Chunhe;Zhu, Kexue;Xu, Fei;Feng, Zhen;Zhang, Yanjun;Chen, Xiaoai;Gu, Chunhe;Zhu, Kexue;Xu, Fei;Feng, Zhen;Zhang, Yanjun;Chen, Xiaoai;Gu, Chunhe;Zhu, Kexue;Xu, Fei;Feng, Zhen;Zhang, Yanjun;Chen, Xiaoai;Gu, Chunhe;Zhu, Kexue;Xu, Fei;Feng, Zhen;Zhang, Yanjun

关键词：Noni fruit; Quality and flavor; Physicochemical analysis; Electronic nose; Electronic tongue; GC-MS
Genetic diversity and population structure in five Inner Mongolia cashmere goat populations using whole-genome genotyping

作者：Zhang, Tao;Wang, Zhiying;Li, Yaming;Zhou, Bohan;Liu, Yifan;Wang, Ruijun;Lv, Qi;Zhang, Yanjun;Su, Rui;Zhang, Tao;Wang, Zhiying;Li, Yaming;Zhou, Bohan;Liu, Yifan;Li, Jinquan;Wang, Ruijun;Lv, Qi;Zhang, Yanjun;Su, Rui;Wang, Zhiying;Li, Yaming;Zhou, Bohan;Liu, Yifan;Li, Jinquan;Wang, Ruijun;Lv, Qi;Zhang, Yanjun;Su, Rui;Li, Chun

关键词：Cashmere Goat; Genetic Diversity; Inner Mongolia Autonomous Region; Population Structure
Progress in Research and Prospects for Application of Precision Gene-Editing Technology Based on CRISPR-Cas9 in the Genetic Improvement of Sheep and Goats

作者：Lu, Zeyu;Mu, Qing;Liu, Junyang;Chen, Yu;Wang, Haoyuan;Zhang, Yanjun;Su, Rui;Wang, Ruijun;Wang, Zhiying;Lv, Qi;Liu, Zhihong;Zhao, Yanhong;Lu, Zeyu;Mu, Qing;Liu, Junyang;Chen, Yu;Wang, Haoyuan;Zhang, Yanjun;Su, Rui;Wang, Ruijun;Wang, Zhiying;Lv, Qi;Liu, Zhihong;Zhao, Yanhong;Lu, Zeyu;Mu, Qing;Liu, Junyang;Chen, Yu;Wang, Haoyuan;Zhang, Yanjun;Su, Rui;Wang, Ruijun;Wang, Zhiying;Lv, Qi;Liu, Zhihong;Zhao, Yanhong;Zhang, Lingtian;Liu, Jiasen;Li, Yunhua

关键词：precision gene editing; CRISPR-Cas9; livestock genetic breeding; cashmere goat; editing efficiency; fixed point integration
Genomic Inbreeding and Runs of Homozygosity Analysis of Cashmere Goat

作者：Zhao, Qian;Huang, Chang;Ye, Shaohui;Zhao, Qian;Huang, Chang;Chen, Qian;Su, Yingxiao;Ma, Yuehui;Zhao, Qianjun;Zhang, Yanjun;Wang, Ruijun;Su, Rui;Xu, Huijuan;Liu, Shucai

关键词：cashmere goat; runs of homozygosity; inbreeding coefficient; genetic diversity; selection signatures
Effects of N application methods on cotton yield and fertilizer N recovery efficiency in salinity fields with drip irrigation under mulch film using ¹⁵N tracing technique

作者：Luo, Zhen;Tang, Wei;Wang, Xiaowen;Lu, Hequan;Li, Chenyang;Liang, Jun;Kong, Xiangqiang;Wang, Xiaowen;Li, Chenyang;Kong, Xiangqiang

关键词：cotton; drip irrigation under mulch film; non-uniform salinity distribution; fertilizer N recovery efficiency; yield; GHNRT

Growth, lint yield and changes in physiological attributes of cotton under temporal waterlogging

作者其他论文 更多>>

Enhancing stand establishment and yield formation of cotton with multiple drip irrigation during emergence in saline fields of Southern Xinjiang

Deficit irrigation combined with a high planting density optimizes root and soil water-nitrogen distribution to enhance cotton productivity in arid regions

Insight into the effects of different ripeness levels on the quality and flavor chemistry of Noni fruit ( Morinda citrifolia L.) . )

Genetic diversity and population structure in five Inner Mongolia cashmere goat populations using whole-genome genotyping

Progress in Research and Prospects for Application of Precision Gene-Editing Technology Based on CRISPR-Cas9 in the Genetic Improvement of Sheep and Goats

Genomic Inbreeding and Runs of Homozygosity Analysis of Cashmere Goat

Effects of N application methods on cotton yield and fertilizer N recovery efficiency in salinity fields with drip irrigation under mulch film using 15N tracing technique

作者其他论文更多>>

Effects of N application methods on cotton yield and fertilizer N recovery efficiency in salinity fields with drip irrigation under mulch film using ¹⁵N tracing technique