A simple modeling approach to elucidate the main transport processes and predict invasive spread: River-mediated invasion of Ageratina adenophora in China
文献类型: 外文期刊
第一作者: Nathan, Ran
作者: Nathan, Ran;Wang, Rui;Wan, Fang-Hao;Zhu, Min
作者机构:
期刊名称:WATER RESOURCES RESEARCH ( 影响因子:5.24; 五年影响因子:6.006 )
ISSN: 0043-1397
年卷期: 2014 年 50 卷 12 期
页码:
收录情况: SCI
摘要: A constantly increasing number of alien species invade novel environments and cause enormous damage to both biodiversity and economics worldwide. This global problem is calling for better understanding of the different mechanisms driving invasive spread, hence quantification of a range of dispersal vectors. Yet, methods for elucidating the mechanisms underlying large-scale invasive spread from empirical patterns have not yet been developed. Here we propose a new computationally efficient method to quantify the contribution of different dispersal vectors to the spread rate of invasive plants. Using data collected over 30 years regarding the invasive species Ageratina adenophora since its detection at the Sichuan province, we explored its spread by wind and animals, rivers, and roads into 153 subcounties in the Sichuan, Chongqingshi, and Hubei provinces of China. We found that rivers are the most plausible vector for the rapid invasion of this species in the study area. Model explorations revealed robustness to changes in key assumptions and configuration. Future predictions of this ongoing invasion process project that the species will quickly spread along the Yangtze River and colonize large areas within a few years. Further model developments would provide a much needed tool to mechanistically and realistically describe large-scale invasive spread, providing insights into the underlying mechanisms and an ability to predict future spatial invasive dynamics.
分类号:
- 相关文献
作者其他论文 更多>>
-
Transcriptional Activator UvXlnR Is Required for Conidiation and Pathogenicity of Rice False Smut Fungus Ustilaginoidea virens
作者:Yan, Jiali;Wang, Rui;Wu, Mengyao;Cai, Minzheng;Qu, Jinsong;Xie, Jiatao;Yin, Weixiao;Yan, Jiali;Wang, Rui;Wu, Mengyao;Cai, Minzheng;Qu, Jinsong;Xie, Jiatao;Yin, Weixiao;Luo, Chaoxi;Liu, Lianmeng
关键词:extracellular xylanase; pathogenicity; transcription factors; Ustilaginoidea virens; XlnR
-
A Study of Growth and Yield of Four Peanut Varieties with Rhizobia Inoculation under Field Conditions
作者:Ding, Bin;Feng, Mengshi;Wang, Rui;Chang, Lei;Jiang, Ying;Xie, Jixian;Tian, Da
关键词:Arachis hypogaea L.; rhizobia agent; root nodules; yield
-
A Scalable and Robust Chloroplast Genotyping Solution: Development and Application of SNP and InDel Markers in the Maize Chloroplast Genome
作者:Wang, Rui;Yang, Yang;Tian, Hongli;Yi, Hongmei;Xu, Liwen;Ge, Jianrong;Zhao, Yikun;Wang, Lu;Wang, Fengge;Lv, Yuanda;Zhou, Shiliang
关键词:chloroplast; SNP; InDel; high throughput; genotyping; maize
-
Trends and Directions in Oats Research under Drought and Salt Stresses: A Bibliometric Analysis (1993-2023)
作者:Huang, Haiyan;Wang, Xiangtao;Li, Junqin;Yang, Yuting;Wang, Rui;Zhou, Zijun;Wang, Puchang;Gao, Yang;Zhang, Yujun
关键词:oats; adversity stresses; bibliometric; R; VOSviewer; Citespace
-
The complete chloroplast genome sequence of an invasive plant, Tragopogon dubius Scopoli (asteraceae)
作者:Huang, Yue;Li, Jiamei;Huang, Yue;Cao, Jingjing;Zhao, Mengxin;Guo, Jianying;Wang, Rui;Wang, Rui;Li, Jiamei
关键词:Tragopogon dubius; complete chloroplast genome; phylogenetic analysis
-
Performance of Moringa Oil as an Effective Bioplasticizer on Static and Dynamic Mechanical Properties of Natural Rubber Vulcanizates
作者:Jarnthong, Methakarn;Li, Yongzhen;Yu, Heping;Wang, Rui;Wang, Yueqiong;Liu, Hongchao;Liao, Lusheng;Peng, Zheng;Lopattananon, Natinee;Peng, Zheng
关键词:Moringa oil; Natural rubber; Bioplasticizer; Static properties; Dynamic mechanical properties; Vulcanizates
-
Genome-wide identification and expression analysis of the cryptochromes reveal the CsCRY1 role under low-light-stress in cucumber
作者:Cao, Haishun;Wang, Rui;Zhao, Junhong;Shi, Liangliang;Wu, Tingquan;Zhang, Changyuan;Huang, Yuan
关键词:cryptochromes; cucumber; low-light-stress; photoreceptors; alternative splicing
