农科机构知识库联盟

Arbuscular mycorrhizal fungi diversity associated with two halophytes Lycium barbarum L. and Elaeagnus angustifolia L. in Ningxia, China

文献类型：外文期刊

第一作者： Liu, Hongguang

作者： Liu, Hongguang;Liu, Hongguang;Tang, Ming;Wang, Yajun

作者机构：

关键词： AMF community;diversity;spore identification;salinity;edaphic factor

期刊名称：ARCHIVES OF AGRONOMY AND SOIL SCIENCE （影响因子：3.092；五年影响因子：2.745 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： The Arbuscular mycorrhizal fungi (AMF) community in saline soils of Ningxia, China, was rarely reported. Soils in the rhizosphere of two important food plants, Lycium barbarum L. (Goji) and Elaeagnus angustifolia L. (Oleaster), were sampled from Ningxia (Goji from Huinong, HNGQ; Goji from Yinchuan, YCGQ; Oleaster from Yinchuan, YCSZ) to investigate the AMF community. Thirty-three AMF species from 11 genera were identified in total. The dominant family and genera were Glomeraceae, Acaulospora and Glomus, respectively. Septoglomus constrictum was the most abundant species. The AMF community composition of Goji was different from that of Oleaster (R=0.26, p<0.05), while the AMF community from Huinong differed from Yinchuan (R=1.0, p=0.01). These findings suggest a high AMF diversity in Ningxia saline soils and the effect of host plant identity on AMF community composition. Furthermore, the AMF diversity index positively correlated with available potassium (AK), available phosphorus (AP), available nitrogen (AN) and organic matter (OM), but negatively correlated with electric conductivity (EC). This result demonstrated that a high level of salinity might reduce soil fertility and AMF diversity. The saline area with high diversity of the AMF community in Ningxia is promising for screening AMF isolates for utilization in crop production.

分类号： S`S15`S3

相关文献

[1]Isolation, characterization and phylogenetic analysis of the resistance gene analogues (RGAs) in banana (Musa spp.). Pei, Xinwu,Li, Shengjun,Jiang, Ying,Zhang, Yongqiang,Wang, Zhixing,Jia, Shirong.

[2]Salinity of animal manure and potential risk of secondary soil salinization through successive manure application. Guo-Liang, Li,Shi-Hua, Tu,Gavin, Sulewski,Zhao-Huan, He. 2007

[3]Overexpression of an Apocynum venetum DEAD-Box Helicase Gene (AvDH1) in Cotton Confers Salinity Tolerance and Increases Yield in a Saline Field. Jie Chen,Sibao Wan,Huaihua Liu,Shuli Fan,Yujuan Zhang,Wei Wang,Minxuan Xia,Rui Yuan,Fenni Deng,Fafu Shen. 2016

[4]Effect of soil salinity, soil drought, and their combined action on the biochemical characteristics of cotton roots. Zhang, Lei,Chen, Binglin,Zhang, Guowei,Li, Jianliang,Wang, Youhua,Meng, Yali,Zhou, Zhiguo,Zhang, Lei. 2013

[5]The effect of temperature and salinity on survival and growth of Crangon uritai (Decapoda : Crangonidae) larvae reared in the laboratory. Li, Hui Yu,Hong, Sung Yun. 2007

[6]Simulating soil water and solute transport in a soil-wheat system using an improved genetic algorithm. Luo, Changshou,Sun, Sufen,Zhang, Junfeng,Zuo, Qiang,Li, Baoguo. 2008

[7]Na+/K+-ATPase alpha-subunit in swimming crab Portunus trituberculatus: molecular cloning, characterization, and expression under low salinity stress. Han, Xiaolin,Liu, Ping,Gao, Baoquan,Wang, Haofeng,Duan, Yafei,Xu, Wenfei,Chen, Ping,Han, Xiaolin. 2015

[8]Effect of genotype and exogenous application of glycinebetaine on antioxidant enzyme activity in native gels of 7-day-old salt-stressed tomato (Solanum lycopersicum) seedlings. Chen, Songbi,Heuer, Bruria. 2013

[9]The response of digestive enzyme activity in the mature Chinese mitten crab, Eriocheir sinensis (Decapoda: Brachyura), to gradual increase of salinity. Wang, Ruifang,Zhuang, Ping,Feng, Guangpeng,Zhang, Longzhen,Huang, Xiaorong,Zhao, Feng,Wang, Yu,Wang, Ruifang,Zhuang, Ping. 2013

[10]Localized ammonium and phosphorus fertilization can improve cotton lint yield by decreasing rhizosphere soil pH and salinity. Liu, Shenglin,Zhang, Shaomin,Li, Hongbo,Feng, Gu,Wang, Xin-Xin,Liu, Shenglin,Zhang, Shaomin,Li, Hongbo,Feng, Gu,Zhang, Shaomin,Maimaitiaili, Baidengsha,Liu, Shenglin,Rengel, Zed,Wang, Xin-Xin. 2018

[11]Expression of TERF1 in rice regulates expression of stress-responsive genes and enhances tolerance to drought and high-salinity. Gao, Shumei,Zhang, Haiwen,Tian, Yun,Li, Fang,Zhang, Zhijin,Chen, Xiaoliang,Huang, Rongfeng,Gao, Shumei,Zhang, Haiwen,Zhang, Zhijin,Huang, Rongfeng,Tian, Yun,Li, Fang,Lu, Xiangyang. 2008

[12]Hidden diversity for abiotic and biotic stress tolerances in the primary gene pool of rice revealed by a large backcross breeding program. Ali, AJ,Xu, JL,Ismail, AM,Fu, BY,Vijaykumar, CHM,Gao, YM,Domingo, J,Maghirang, R,Yu, SB,Gregorio, G,Yanaghihara, S,Cohen, M,Carmen, B,Mackill, D,Li, ZK. 2006

[13]Formation of Plant Communities of the Newly Created Wetland in Modern Yellow River Delta. Xiang, Jun,Wu, Geng,Wu, Yongquan,Han, Peng,Li, Maoteng,Yu, Longjiang,Xiang, Jun,Wang, Qingfang. 2010

[14]Effects of salinity on activities of H+ -ATPase, H+-PPase and membrane lipid composition in plasma membrane and tonoplast vesicles isolated from soybean (Glycine max L.) seedlings. Yu, BJ,Lam, HM,Shao, GH,Liu, YL. 2005

[15]Effects of temperature and salinity on the development of the amphipod crustacean Eogammarus sinensis. Xue Suyan,Xue Suyan,Fang Jianguang,Zhang Jihong,Jiang Zengjie,Mao Yuze,Zhao Fazhen,Xue Suyan,Fang Jianguang,Zhang Jihong,Jiang Zengjie,Mao Yuze,Zhao Fazhen. 2013

[16]Removal of K+, Na+, Ca2+, and Mg2+ from saline-alkaline water using the microalga Scenedesmus obliquus. Yao Zongli,Ying Chengqi,Lu Jianxue,Lai Qifang,Zhou Kai,Wang Hui,Yao Zongli,Chen Ling. 2013

[17]Analysis on the indicator species and ecological groups of pelagic ostracods in the East China Sea. Zhaoli, Xu. 2008

[18]Microbial Activities' Influence on Three Kinds of Metal Material Corrosion Behaviors. Li, Xia,Chen, Haiyan,Li, Huanyuan,Chen, Pimao,Qing, Chuangxing. 2017

[19]Ammonia and salinity tolerance of Penaeus monodon across eight breeding families. Chen, Jinsong,Zhou, Falin,Huang, Jianhua,Ma, Zhenhua,Jiang, Shigui,Qiu, Lihua,Chen, Jinsong,Qin, Jian G.. 2016

[20]Soil salinity prediction in the Lower Cheliff plain (Algeria) based on remote sensing and topographic feature analysis. Yahiaoui, Ibrahim,Douaoui, Abdelkader,Ziane, Ahmed,Yahiaoui, Ibrahim,Douaoui, Abdelkader,Zhang Qiang. 2015

作者其他论文更多>>

Impact of irrigation water volume and deep vertical rotating tillage depth on the development and feeding quality of Suaeda salsa under drip irrigation

作者：Xu, Yibin;Xu, Qiang;Zhang, Qian;Liu, Hongguang;Gong, Ping;Li, Pengfei;Dang, Yingsheng;Li, Yufang;Wang, Jingrun;Guo, Yong;Xu, Yibin;Xu, Qiang;Zhang, Qian;Liu, Hongguang;Gong, Ping;Li, Pengfei;Dang, Yingsheng;Li, Yufang;Wang, Jingrun;Guo, Yong;Wang, Gang;Wang, Tangang

关键词：Suaeda salsa; Deep vertical rotary tillage; Irrigation volume; Forage quality
Optimizing water-nitrogen management enhances productivity for peanut (Arachis hypogaea L.) with drip-irrigated under mulched in Northwest of China

作者：Dong, Jianshu;Liu, Hongguang;Dong, Jianshu;Shen, Xiaojun;Zhang, Xiaopei;Chen, Junwei;Li, Haiming;He, Jiaqi;Liu, Hongguang;Dong, Jianshu;Shen, Xiaojun;Chen, Junwei;Li, Haiming;Li, Qiang

关键词：Peanut kernel quality; Water-nitrogen interactions; AquaCrop model; Multi-objective programming
High-quality genome of black wolfberry (Lycium ruthenicum Murr.) provides insights into the genetics of anthocyanin biosynthesis regulation

作者：Xu, Yuhui;Luo, Qing;An, Wei;Zhao, Jian;Yin, Yue;He, Jun;Liang, Xiaojie;Wang, Yajun;Zhang, Xiyan;Shi, Zhigang;Duan, Linyuan;Qin, Xiaoya;Huang, Ting;Zhang, Bo;Wan, Ru;Li, Yanlong;Cao, Youlong;Zhao, Jianhua;Li, Haoxia;Shi, Tongwei;Chen, Yuchao;Guo, Shenghu;Tian, Weiwei;Zheng, Rui;Zheng, Rui;Liu, Hui;Shu, Sheng;Xiong, Aisheng

关键词：
Response of Chaetomium sp. to Nitrogen Input and Its Potential Role in Rhizosphere Enrichment of Lycium barbarum

作者：Wan, Ru;Liang, Xiaojie;Zhou, Xuan;Wang, Yajun;Shi, Zhigang;Li, Yuekun;Wang, Hezhen;Tian, Yehan

关键词：goji berry; fungal community; beneficial fungi; growth promotion; nitrogen cycle
Morphological, physiological, and transcriptomic insights into response the of Lycium barbarum L. ('Ningqi No.1') seedlings to low-nitrogen stress

作者：Wan, Ru;Hui, Tian;Yang, Libing;Wang, Xiao;Cao, Youlong;An, Wei;Zhang, Xiyan;Zhao, Jianhua;Wang, Yajun;Li, Yuekun;Shi, Zhigang;Wang, Hezhen

关键词：Low nitrogen; Wolfberry; RNA-Seq; Nitrogen metabolism; Phenylpropanoid metabolism
Impact of Different Rates of Nitrogen Supplementation on Soil Physicochemical Properties and Microbial Diversity in Goji Berry

作者：Liang, Xiaojie;Cui, Yanhong;Su, Shuchai;Liang, Xiaojie;An, Wei;Li, Yuekun;Wang, Yajun;Qin, Xiaoya

关键词：Goji berry production; Ningxia; China; differential nitrogen supplementation rates; 16S RNA gene and IT1 & IT2 region sequencing; soil physicochemical properties
Optimizing cotton yield and soil salinity management: Integrating brackish water leaching and freshwater drip irrigation with subsurface drainage

作者：Li, Dongwei;Zhao, Yulong;Zhou, Xinguo;Han, Qibiao;Yang, Yuhui;Liu, Hongguang;Li, Mingsi

关键词：Subsurface drainage; Brackish water; AquaCrop and Drainmod-S models; Soil salinity; Cotton yield

Arbuscular mycorrhizal fungi diversity associated with two halophytes Lycium barbarum L. and Elaeagnus angustifolia L. in Ningxia, China

作者其他论文 更多>>

Impact of irrigation water volume and deep vertical rotating tillage depth on the development and feeding quality of Suaeda salsa under drip irrigation

Optimizing water-nitrogen management enhances productivity for peanut (Arachis hypogaea L.) with drip-irrigated under mulched in Northwest of China

High-quality genome of black wolfberry (Lycium ruthenicum Murr.) provides insights into the genetics of anthocyanin biosynthesis regulation

Response of Chaetomium sp. to Nitrogen Input and Its Potential Role in Rhizosphere Enrichment of Lycium barbarum

Morphological, physiological, and transcriptomic insights into response the of Lycium barbarum L. ('Ningqi No.1') seedlings to low-nitrogen stress

Impact of Different Rates of Nitrogen Supplementation on Soil Physicochemical Properties and Microbial Diversity in Goji Berry

Optimizing cotton yield and soil salinity management: Integrating brackish water leaching and freshwater drip irrigation with subsurface drainage

作者其他论文更多>>