Strong Neutral Spatial Effects Shape Tree Species Distributions across Life Stages at Multiple Scales
文献类型: 外文期刊
作者: Hu, Yue-Hua 1 ; Lan, Guo-Yu 3 ; Sha, Li-Qing 1 ; Cao, Min 1 ; Tang, Yong 1 ; Li, Yi-De 2 ; Xu, Da-Ping 2 ;
作者机构: 1.Chinese Acad Sci, Key Lab Trop Forest Ecol, Xishuangbanna Trop Bot Garden, Mengla, Yunnan, Peoples R China
2.Chinese Acad Forestry, Res Inst Trop Forestry, Guangzhou, Guangdong, Peoples R China
3.Minist Agr, Danzhou Key Field Stn Observat & Res Trop Agr Res, Danzhou, Hainan, Peoples R China
4.Chinese Acad Trop Agr Sci, Rubber Res Inst, Danzhou, Hainan, Peoples R China
期刊名称:PLOS ONE ( 影响因子:3.24; 五年影响因子:3.788 )
ISSN: 1932-6203
年卷期: 2012 年 7 卷 5 期
页码:
收录情况: SCI
摘要: Traditionally, ecologists use lattice (regional summary) count data to simulate tree species distributions to explore species coexistence. However, no previous study has explicitly compared the difference between using lattice count and basal area data and analyzed species distributions at both individual species and community levels while simultaneously considering the combined scenarios of life stage and scale. In this study, we hypothesized that basal area data are more closely related to environmental variables than are count data because of strong environmental filtering effects. We also address the contribution of niche and the neutral (i.e., solely dependent on distance) factors to species distributions. Specifically, we separately modeled count data and basal area data while considering life stage and scale effects at the two levels with simultaneous autoregressive models and variation partitioning. A principal coordinates of neighbor matrix (PCNM) was used to model neutral spatial effects at the community level. The explained variations of species distribution data did not differ significantly between the two types of data at either the individual species level or the community level, indicating that the two types of data can be used nearly identically to model species distributions. Neutral spatial effects represented by spatial autoregressive parameters and the PCNM eigenfunctions drove species distributions on multiple scales, different life stages and individual species and community levels in this plot. We concluded that strong neutral spatial effects are the principal mechanisms underlying the species distributions and thus shape biodiversity spatial patterns.
- 相关文献
作者其他论文 更多>>
-
Mapping Chinese annual gross primary productivity with eddy covariance measurements and machine learning
作者:Zhu, Xian-Jin;Yu, Gui-Rui;Chen, Zhi;Zhang, Wei-Kang;Wang, Qiu-Feng;Zhao, Feng-Hua;Shi, Pei -Li;Wang, Hui-Min;Zhang, Yang-Jian;Zhu, Zhi-Lin;Yu, Gui-Rui;Chen, Zhi;Wang, Qiu-Feng;Zhu, Zhi-Lin;Han, Lang;Chen, Shi-Ping;Jia, Bing-Rui;Liu, Shao-Min;Yan, Jun-Hua;Tan, Jun-Lei;Zhang, Fa -Wei;Li, Ying-Nian;Zhang, Yi-Ping;Sha, Li-Qing;Zhu, Jiao-Jun;Wu, Jia-Bing;Zhao, Zhong-Hui;Hao, Yan-Bin;Zhang, Yu-Cui;Gu, Feng-Xue;Zhu, Zhi-Lin;Zhou, Li;Tang, Ya-Kun;Dong, Gang;He, Qi-Hua;Li, Xin-Hu;Li, Xin-Hu;Wang, Fei;Wei, Wen-Xue;Deng, Zheng-Miao;Zhang, Xi-Feng;Yu, Gui-Rui;Wang, Qiu-Feng
关键词:Carbon cycle; Climate change; Eddy covariance; Terrestrial ecosystem; Machine learning; Scale extension
-
Spatiotemporal Pattern of Ecosystem Respiration in China Estimated by Integration of Machine Learning With Ecological Understanding
作者:Han, Lang;Wang, Tie-Jun;Han, Lang;Wang, Tie-Jun;Han, Lang;Yu, Gui-Rui;Chen, Zhi;Zhang, Wei-Kang;Xu, Li;Wang, Hui-Min;Zhao, Feng-Hua;Shi, Pei-Li;Zhang, Yang-Jian;He, Yong-Tao;Zhu, Zhi-Lin;Yu, Gui-Rui;Chen, Zhi;Zhang, Wei-Kang;Xu, Li;Zhang, Yang-Jian;Zhu, Zhi-Lin;Chen, Zhi;Zhu, Xian-Jin;Chen, Shi-Ping;Jia, Bing-Rui;Liu, Shao-Min;Yan, Jun-Hua;Sun, Dan;Tan, Jun-Lei;Ji, Xi-Bin;Gao, Yan-Hong;Zhang, Fa-Wei;Li, Ying-Nian;Zhao, Liang;Zhang, Yi-Ping;Sha, Li-Qing;Song, Qing-Hai;Zhu, Jiao-Jun;Wu, Jia-Bing;Jiang, Zheng-De;Zhao, Zhong-Hui;Hao, Yan-Bin;Zhang, Yu-Cui;Jiang, Shi-Cheng;Gu, Feng-Xue;Wu, Zhi-Xiang;Li, Zhou;Tang, Ya-Kun;Dong, Gang;Wang, Jian-Lin;He, Qi-Hua;Liu, Xin-Wei;Li, Xin-Hu;Wang, Fei;Wei, Wen-Xue;Deng, Zheng-Miao;Du, Hu;Hao, Xiang-Xiang;Liu, Xiao-Li;Zhang, Xi-Feng;Mo, Xing-Guo
关键词:ecosystem respiration; eddy covariance; terrestrial ecosystem; machine learning; substrate; scale extension
-
On the ratio of intercellular to ambient CO2 (c(i)/c(a)) derived from ecosystem flux
作者:Tan, Zheng-Hong;Jatoi, Muhammad Tahir;Zhao, Jun-Fu;Yang, Lian-Yan;Wu, Zhi-Xiang;Lan, Guo-Yu;Yang, Chuang;Tao, Zhong-Liang;Chen, Bang-Qian;Jatoi, Muhammad Tahir;Hughes, Alice C.;Schaefer, Douglas;Song, Liang;Zeng, Jiye;Tian, Yao-Hua
关键词:Canopy conductance;Photosynthesis;Eddy covariance;Water vapor deficit;Ecosystem model
-
Size-Class Effect Contributes to Tree Species Assembly through Influencing Dispersal in Tropical Forests
作者:Hu, Yue-Hua;Kitching, Roger L.;Zhang, Jiao-Lin;Sha, Li-Qing;Cao, Min;Kitching, Roger L.;Lan, Guo-Yu
关键词:
-
Dominant species and dispersal limitation regulate tree species distributions in a 20-ha plot in Xishuangbanna, southwest China
作者:Hu, Yue-Hua;Sha, Li-Qing;Zhang, Jiao-Lin;Tang, Yong;Cao, Min;Hu, Yue-Hua;Blanchet, F. Guillaume;Lan, Guo-Yu
关键词:
-
Spatial Distribution and Interspecific Associations of Tree Species in a Tropical Seasonal Rain Forest of China
作者:Lan, Guoyu;Hu, Yuehua;Zhu, Hua;Cao, Min;Lan, Guoyu;Xie, Guishui;Getzin, Stephan;Wiegand, Thorsten
关键词:
-
Tree species diversity of a 20-ha plot in a tropical seasonal rainforest in Xishuangbanna, southwest China
作者:Lan, Guoyu;Zhu, Hua;Cao, Min;Lan, Guoyu
关键词:Diversity;Tropical seasonal rainforest;Xishuangbanna
