Synergistic succession of the small mammal community and herbaceous vegetation after reconverting farmland to seasonally flooded wetlands in the Dongting Lake Region, China
文献类型: 外文期刊
第一作者: Zhang, Meiwen
作者: Zhang, Meiwen;Wang, Yong;Li, Bo;Feng, Zhiyong;Zhao, Yunlin;Xu, Zhenggang
作者机构:
关键词: Dongting Lake region; land reconversion; plant community; small mammal; synergistic succession
期刊名称:MAMMAL STUDY ( 影响因子:0.656; 五年影响因子:0.826 )
ISSN: 1343-4152
年卷期: 2018 年 43 卷 4 期
页码:
收录情况: SCI
摘要: We investigated the synergistic succession of the small mammal and herbaceous communities after farmland was reconverted to seasonally flooded wetlands in the Dongting Lake Region of China. The composition of small mammals and the herbaceous community was examined in four habitat types: F (farmland), S (where agriculture continued, but human habitation ceased), R (farmland reconverted back to seasonally flooded wetlands), and B (aboriginal seasonally flooded wetlands). Using various diversity indices, the data showed that the small mammal community changed in parallel with the succession of the herbaceous community. Compared to F, there was little change in S, whereas R noticeably changed. Microtus fortis inhabited R, because Carex spp. was the dominant plant species. R held a mixture dominant species from both F and B, demonstrating that R was in transition (intermediate stages of succession) from F to B. However, the status of the small mammal community in B changed in 2008-2010, due to the operation of the Three-Gorge Reservoir (TGR). In conclusion, our observations demonstrate that the succession of the small mammal community in habitats R and B are directly influenced by human activity in the region, with monitoring being required to continue documenting these changes.
分类号:
- 相关文献
作者其他论文 更多>>
-
Structural insights into the mechanism of phosphate recognition and transport by XPR1
作者:Zhang, Wenhui;Chen, Yanke;Guan, Zeyuan;Tang, Meng;Du, Zhangmeng;Zhang, Jie;Cheng, Meng;Zuo, Jiaqi;Liu, Yan;Wang, Qiang;Liu, Yanjun;Zhang, Delin;Yin, Ping;Ma, Ling;Liu, Zhu;Wang, Yong;Liu, Zhu
关键词:
-
miR-17-5p-Mediated RNA Activation Upregulates KPNA2 Expression and Inhibits High-Glucose-Induced Apoptosis of Sheep Granulosa Cells
作者:Wang, Yong;Tian, Feng;Li, Jiuyue;Liu, Yang;Liang, Jianyong;Gao, Yuan;Xue, Shuyuan;Yue, Sicong;Li, Ao
关键词:high glucose; granulosa cell;
miR-17-5p ;KPNA2 ; apoptosis -
Icariin-loaded chitosan/β-glycerophosphate thermosensitive hydrogel enhanced infection control and bone regeneration in canine with infectious bone defects
作者:Shao, Bing;Fu, Yang;Li, Bo;Huo, Siming;Du, Jiayu;Zhang, Xuliang;Li, Yanfei;Cao, Zheng;Song, Miao;Fu, Yang;Shao, Bing;Yin, Xin
关键词:Icariin; thermosensitive hydrogel; infection control; angiogenesis; bone regeneration
-
Adaptive divergence in reproductive seasonality and underlying physiological features fit Rattus norvegicus to live as opportunistic breeders
作者:Li, Xixuan;Li, Ning;Song, Ying;Wang, Dawei;Liu, Xiaohui;Yao, Dandan;Feng, Zhiyong;Wang, Dawei;Liu, Yu;Wang, Dawei;Liu, Xiaohui
关键词:adaptation; brown rat; gonadal development; photoperiod; temperature; testis
-
Inoculation of the Morchella importuna mycosphere with Pseudomonas chlororaphis alleviated a soil-borne disease caused by Paecilomyces penicillatus
作者:Yu, Yang;Kang, Xia;Liu, Tianhai;Wang, Yong;Tang, Jie;Peng, Weihong;Tan, Hao;Martin, Francis M.;Tan, Hao;Martin, Francis M.
关键词:Diversity; Disease suppression; Function;
Morchella importuna ; Mycosphere soil microbiota;Pseudomonas chlororaphis -
Arbuscular mycorrhizal fungi enhance drought resistance and alter microbial communities in maize rhizosphere soil
作者:Li, Juan;Chen, Guo;Yao, Mengyao;Liu, Zhigang;Li, Xiaorong;Yang, Yang;Cai, Darun;Tuerxun, Zumuremu;Li, Bo;Nie, Tengkun;Chen, Xunji;Zhou, Liuyan;Yang, Xinping
关键词:Maize seedling; AMF; Drought stress; Rhizosphere microbe; Soil function
-
Identification of Novel 58-5p and SREBF1 Interaction and Effects on Apoptosis of Ovine Ovarian Granulosa Cell
作者:Yang, Ruochen;Wang, Yong;Yue, Sicong;Liu, Yueqin;Zhang, Yingjie;Duan, Chunhui;Yang, Ruochen;Wang, Yong
关键词:ovine ovarian GCs; PRL; apoptosis; novel 58-5p; SREBF1
