文献类型: 外文期刊
作者: Zou, Chunlei 1 ; Sang, Limin 1 ; Gai, Zhijia 2 ; Wang, Yubong 1 ; Li, Caifeng 1 ;
作者机构: 1.Northeast Agr Univ, Coll Agron, Harbin, Heilongjiang, Peoples R China
2.Heilongjiang Acad Agr Sci, Jiamusi Branch, Jiamusi, Heilongjiang, Peoples R China
关键词: Sugar beet;Alkaline;Osmotic adjustment;Antioxidase
期刊名称:SUGAR TECH ( 影响因子:1.591; 五年影响因子:1.688 )
ISSN: 0972-1525
年卷期: 2018 年 20 卷 2 期
页码:
收录情况: SCI
摘要: To explore the morphological and physiological responses of sugar beet to alkaline soils, four levels of alkaline (NaHCO3 + Na2CO3) concentration, including 0.0% (designated as A(0.0%), control), 0.5% (designated as A(0.5%)), 0.7% (designated as A(0.7%)), and 0.9% (designated as A(0.9%)), were applied to sugar beet cultivars KWS0143 and Beta464 in a pot experiment in 2015 and 2016. The growth indexes, osmolyte content, and antioxidase activity of both cultivars were measured. Alkaline stress significantly decreased the emergence rate of both cultivars. Dry matter weight per plant and leaf chlorophyll content first increased but then decreased with increasing alkaline concentration at different stages in both years. The content of leaf osmolytes and the activity of antioxidases were enhanced at A(0.5%) and A(0.7%) but inhibited at A(0.9%). These findings suggested that sugar beet adapted well to alkaline soil stress by osmotic adjustment and antioxidation and that its growth increased when stress was relatively low (A(0.5%) and A(0.7%)) at different stages. Moreover, proline content, CAT activity, and APX activity of KWS0143 under the same treatment were higher than those of Beta464. Our results confirmed that sugarbeet variety KWS0143 was showing tolerant behaviour to alkalinity.
- 相关文献
作者其他论文 更多>>
-
Cadmium contamination impairs alkaline tolerance in sugar beet by inhibiting carbon fixation and tryptophan metabolism
作者:Ye, Shuo;Zhou, Xinrui;Tang, Fawei;Qu, Ruixin;Wang, Zhiwei;Hu, Xu;Liu, Yang;Li, Donglin;Liu, Lei;Gai, Zhijia;Li, Xiangnan;Liu, Lei;Zhang, Pengfei;Yang, Kepan;Yang, Kepan
关键词:Alkaline; Cadmium; Carbohydrate metabolism; Combined stresses; Melatonin
-
Proline-Nitrogen Metabolic Coordination Mediates Cold Priming-Induced Freezing Tolerance in Maize
作者:Gai, Zhijia;Zhang, Na;Liu, Jingqi;Cai, Lijun;Yang, Xu;Ding, Junjie;Liu, Lei;Zhang, Ao;Zhang, Yifei;Zhang, Pengfei
关键词:photosynthesis; proline metabolism; antioxidant enzyme; GDH/ICDH; osmoregulation; ROS
-
Identification and function analysis of drought-responsive miRNAs in sorghum (Sorghum bicolor)
作者:Ma, Junming;Liu, Zhuojun;Guo, Zihao;Wang, Xinyu;Zou, Chunlei;Zhang, Chunlai;Gai, Zhijia
关键词:GO term; Non-coding RNA; Stress tolerance; Target gene; Water-deficiency
-
Alkaline stress suppresses soybean waterlogging tolerance by exacerbating energy expenditure and ROS accumulation
作者:Liu, Tianhao;Zhang, Peng;Li, Shuxin;Liu, Lei;Li, Zhilong;Wang, Zhiwei;Ye, Shuo;Liu, Lei;Gai, Zhijia;Wang, Ziyang;Yang, Kepan;Yang, Kepan
关键词:Waterlogging; Saline-alkali; Combined stress; Reactive oxygen species; Anaerobic respiration
-
Jasmonic Acid Signaling Pathway Mediates Decabromodiphenyl Ethane (DBDPE) Tolerance by Modulating Photosynthesis and Oxidative Stress in Sugar Beet: Insights from Integrative Physiological and Multiomics Analyses
作者:Zhang, Pengfei;Wang, Xuerui;Wang, Yubo;Gu, Wanrong;Liu, Lei;Meng, Yao;Gai, Zhijia;Wang, Cong;Zhang, Shengwei
关键词:decabromodiphenyl ethane; toxicity; tolerance; jasmonic acid signaling; sugar beet; multiomics
-
Preventive effect of Cleome spinosa against cucumber Fusarium wilt and improvement on cucumber growth and physiology
作者:Zhang, Xingzhe;Meng, Xianghai;Wang, Baicheng;Yang, Bing;Zhang, Xingzhe;Liu, Dong;Zhang, Yanju;Jiao, Xiaodan;Wang, Zhen;Li, Jiwen;Sa, Rina;Zou, Chunlei
关键词:Cucumber; Fusarium wilt; Cleome spinosa; Disease resistance; ATPase
-
Genome-wide characterization of drought-responsive long non-coding RNAs in sorghum (Sorghum bicolor)
作者:Zou, Chunlei;Zhao, Shanshan;Yang, Bohui;Chai, Wenting;Zhu, Lixun;Zhang, Chunlai;Gai, Zhijia
关键词:Drought; Sorghum; Long non-coding RNA (lncRNA); Target gene; Flavonoid biosynthesis; Abiotic stress resistance
