您好,欢迎访问浙江省农业科学院 机构知识库!
浙江省农业科学院机构知识库

全部

  • 全部
  • 标题
  • 学者
  • 机构
  • 关键词

Effect of rain shelter and shading on plantlets growth and antioxidant contents in strawberry

文献类型: 外文期刊

作者: Miao, Lixiang 1 ; Zhang, Yuchao 1 ; Yang, Xiaofang 1 ; Jiang, Guihua 1 ;

作者机构: 1.Zhejiang Acad Agr Sci, Inst Hort, Hangzhou 310021, Zhejiang, Peoples R China

关键词: Anthracnose;antioxidant enzymes;rain shelter;strawberry;shade net

期刊名称:INDIAN JOURNAL OF HORTICULTURE ( 影响因子:0.163; 五年影响因子:0.229 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: In the present experiment, a susceptible strawberry Benihoppe was employed to note the effect of rain shelter and shading on plantlets growth and antioxidant system. In the shading treatments, the temperature ( 1: 00 pm) inside the greenhouse was reduced compared to the control. The plastic house covered with 60 and 70% shading nets could decrease the temperature by less than 1 degrees C compared with 80 and 90% shading nets, which could decrease it by 1.2 and 1.3 degrees C, respectively. Even in the cloudy dawn and dusk, shading net with 80% can maintain a light intensity of more than 10,000 lux and plantlets could grow healthy. The plantlets under shading environment grew longer than the control. The plantlets under 90% shading rate had the maximum height, i.e. 14.35% higher than the control. The anthracnose incidence and disease index were reduced under shade nets, while the average plantlet numbers per square metre increased. The maximum numbers were under those of 80 and 90% shading rate treatments. The disease incidence was minimum under 80% shading treatment. The shading treatment, altered the content of Chl and MDA, while SOD and POD activities, significantly in order to adapt to the low light environment. The 80% shading net was the most suitable shading measure.

  • 相关文献

[1]Effect of Shading and Rain-Shelter on Plantlet Growth and Antioxidant Systems in Strawberry (Fragaria x ananassa). Miao, L. M.,Zhang, Y. C.,Yang, X. F.,Jiang, G. H.. 2014

[2]RdreB1BI enhances drought tolerance by activating AQP-related genes in transgenic strawberry. Gu, Xianbin,Gao, Zhihong,Yan, Yichao,Qiao, Yushan,Gu, Xianbin,Chen, Yahua,Wang, Xiuyun,Gu, Xianbin. 2017

[3]Global analysis of lysine acetylation in strawberry leaves. Fang, Xianping,Chen, Wenyue,Ruan, Songlin,Ma, Huasheng,Zhao, Yun,Zhang, Hengmu,Yan, Chengqi,Jin, Liang,Cao, Lingling,Zhu, Jun,Cheng, Zhongyi. 2015

[4]Genomic identification, phylogeny, and expression analysis of MLO genes involved in susceptibility to powdery mildew in Fragaria vesca. Miao, L. X.,Zhang, Y. C.,Yang, X. F.,Zhang, H. Q.,Zhang, Z. F.,Wang, Y. Z.,Jiang, G. H.,Jiang, M.. 2016

[5]Dissipation of four fungicides on greenhouse strawberries and an assessment of their risks. Wang, Zhiwei,Cang, Tao,Qi, Peipei,Zhao, Xuepin,Xu, Hao,Wang, Xiangyun,Zhang, Hu,Wang, Xinquan.

[6]Technology of Anthracnose Control on Increasing Strawberry Plantlets. Jiang, G. H.,Miao, L. M.,Yang, X. F.,Zhang, Y. C.,Ren, H. Y.,Wang, H. R..

[7]Degradation of three fungicides following application on strawberry and a risk assessment of their toxicity under greenhouse conditions. Sun, Caixia,Cang, Tao,Wang, Zhiwei,Wang, Xinquan,Yu, Ruixian,Wang, Qiang,Zhao, Xueping.

[8]Analysis of Tebuconazole and Tetraconazole Enantiomers by Chiral HPLC-MS/MS and Application to Measure Enantioselective Degradation in Strawberries. Zhang, Hu,Wang, Minghua,Zhang, Hu,Qian, Mingrong,Wang, Xinquan,Wang, Xiangyun,Xu, Hao,Qi, Peipei,Wang, Qiang.

[9]Strawberry Breeding in Zhejiang of China. Jiang, G. H.,Zhang, Y. C.,Miao, L. X.,Yang, X. F..

[10]Studies on Stereoscopic Cultivation in Strawberry. Zhang, Y. C.,Miao, L. X.,Yang, X. F.,Jiang, G. H..

[11]Residue Analysis and Degradation Studies of Fenbuconazole and Myclobutanil in Strawberry by Chiral High-Performance Liquid Chromatography-Tandem Mass Spectrometry. Zhang, Hu,Wang, Xinquan,Qian, Mingrong,Wang, Xiangyun,Xu, Hao,Xu, Mingfei,Wang, Qiang.

[12]Colored light-quality selective plastic films affect anthocyanin content, enzyme activities, and the expression of flavonoid genes in strawberry (Fragaria x ananassa) fruit. Miao, Lixiang,Zhang, Yuchao,Yang, Xiaofang,Xiao, Jinping,Zhang, Huiqin,Zhang, Zuofa,Wang, Yuezhi,Jiang, Guihua.

[13]Responses of Antioxidant Enzymes to Chilling Stress in Tobacco Seedlings. Xu Sheng-chun,Hu Jin,Guan Ya-jing,Zhu Shui-jin,Li Yong-ping,Ma Wen-guang,Zheng Yun-ye,Xu Sheng-chun. 2010

[14]Effect of chitosan-based edible coating on antioxidants, antioxidant enzyme system, and postharvest fruit quality of strawberries (Fragaria x aranassa Duch.). Wang, Shiow Y.,Gao, Haiyan,Gao, Haiyan. 2013

[15]Effect of hypobaric storage on quality, antioxidant enzyme and antioxidant capability of the Chinese bayberry fruits. Chen, Hangjun,Gao, Haiyan,Long, Jie,Tao, Fei,Fang, Xiangjun,Yang, Hailong,Jiang, Yueming. 2013

[16]Relationship of ROS accumulation and superoxide dismutase isozymes in developing anther with floret fertility of rice under heat stress. Zhao, Qian,Zhou, Lujian,Liu, Jianchao,Du, Xiaoxia,Asad, Muhammad-Asad-Ullah,Pan, Gang,Cheng, Fangmin,Huang, Fudeng,Cheng, Fangmin. 2018

[17]Hydrogen Sulfide Alleviates Aluminum Toxicity via Decreasing Apoplast and Symplast Al Contents in Rice. Zhu, Chun Q.,Zhang, Jun H.,Zhu, Lian F.,Zhong, Chu,Bai, Zhi G.,Sajid, Hussain,Cao, Xiao C.,Jin, Qian Y.,Sun, Li M.,Abliz, Buhailiqem,Hu, Wen J.. 2018

[18]POLYAMINES PLAY A POSITIVE ROLE IN SALT TOLERANT MECHANISMS BY ACTIVATING ANTIOXIDANT ENZYMES IN ROOTS OF VEGETABLE SOYBEAN. Zhang, G. W.,Hu, Q. Z.,Xu, S. C.,Gong, Y. M..

[19]Maintaining Quality of Litchi Fruit with Acidified Calcium Sulfate. Wang, Chien Y.,Chen, Hangjun,Jin, Peng,Gao, Haiyan,Chen, Hangjun,Gao, Haiyan,Jin, Peng.

[20]Endogenous salicylic acid is required for promoting cadmium tolerance of Arabidopsis by modulating glutathione metabolisms. Guo, Bin,Liu, Chen,Li, Hua,Ding, Nengfei,Li, Ningyu,Lin, Yicheng,Fu, Qinglin,Guo, Bin,Liu, Chen,Li, Hua,Ding, Nengfei,Li, Ningyu,Lin, Yicheng,Fu, Qinglin,Yi, Keke.

作者其他论文 更多>>
置顶
购物车
反馈

© 京ICP备09089781号-29 主办单位:浙江省农业科学院

学术资源: 中国农业科学院 农业专业知识服务系统 农科联盟资源共建共享平台 中国农业科技文献与信息服务平台 中国农业期刊集成服务平台