Google Search Baidu Search
(多个关键字请用"空格"格开)
您当前的位置:首页 > 科研成果 > 论文
论文

Drivers of soil bacterial community structure and diversity in tropical agroforestry systems 

 
论文编号:
作者: Liu CG
刊物名称: Agriculture, Ecosystems & Environment
所属学科:
论文题目英文: Drivers of soil bacterial community structure and diversity in tropical agroforestry systems
年: Jun 2019
卷: 278
期:
页: 24-34
联系作者: Liu CG
收录类别:
影响因子: 3.541
参与作者:
备注:
摘要:

Agroforestry systems (AFSs) are considered sustainable forms of land management, but their impact on soil microbial biodiversity remains poorly understood. Here, we compared the structure and diversity of bacterial communities in rubber-based AFSs in tropical China that had different management types and stand ages: 10-year-old rubber mono- (YR) and intercropping (YRF), and 22-year-old rubber mono- (MR) and intercropping (MRF). Stand age had a stronger effect on bacterial communities than management type or season. Compared to the corresponding monocultures, YRF maintained bacterial diversity despite experiencing a decrease in abundance, especially at soil depths of 0–5 and 5–30cm, whereas MRF enhanced bacterial diversity with a consistent abundance. Bacterial communities in AFSs exhibited obvious horizon-specific seasonal variations due to spatial and temporal heterogeneity in edaphic factors.?Acidobacteria, Proteobacteria and Actinobacteria were the most dominant bacterial phyla in tropical AFSs in China, while Kitasatospora, Streptomyces, Nitrospira, Bacillus and Pseudomonas were the key genera. Soil pH, available phosphorus and dissolved organic nitrogen emerged as the major drivers of these bacterial community patterns. These findings indicate that the establishment of rubber-based AFSs, particularly those in mature stands, is a promising management practice for alleviating the adverse effects of rubber monoculture on bacterial biodiversity, including severe acidification and nutrient depletion. Our study highlights the importance of considering multiple effects when investigating bacterial communities in AFSs under climate change scenarios.

论文下载: 下载地址
   

关闭窗口

返回首页

数字标本.png
东南亚中心2.jpg
前往中国植物园联盟网站
W020160606696316538360.jpg
屏幕快照 2018-07-04 09.56.59.png