Ecological niche shifts affect the potential invasive risk of Phytolacca americana (Phytolaccaceae) in China

Background Predicting the potential habitat of Phytolacca americana, a high-risk invasive species, can help provide a scientific basis for its quarantine and control strategies. Using the optimized MaxEnt model, we applied the latest climate data, CMIP6, to predict the distribution of potential risk...

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Bibliographic Details
Published in:Ecological processes 2023-12, Vol.12 (1), p.1-14, Article 1
Main Authors: Xu, Yifeng, Ye, Xingzhuang, Yang, Qianyue, Weng, Huiying, Liu, Yipeng, Ahmad, Sagheer, Zhang, Guofang, Huang, Qiuliang, Zhang, Tianyu, Liu, Bao
Format: Article
Language:English
Subjects:
Climate
Climate change
Climate prediction
Climatic conditions
Climatic data
Coastal zone
Earth and Environmental Science
Ecological distribution
Ecological niches
Environment
Environmental effects
Habitats
Introduced species
Invasive plants
Invasive species
Invasiveness
MaxEnt
Niches
Optimization
Phytolacca americana
Precipitation
Risk
Temperature differences
Temperature gradients
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Summary:Background Predicting the potential habitat of Phytolacca americana, a high-risk invasive species, can help provide a scientific basis for its quarantine and control strategies. Using the optimized MaxEnt model, we applied the latest climate data, CMIP6, to predict the distribution of potential risk zones and their change patterns for P . americana under current and future (SSP126, SSP245, SSP585) climate conditions, followed by invasion potential analysis. Results The predictions of MaxEnt model based on R language optimization were highly accurate. A significantly high area of 0.8703 was observed for working characteristic curve (AUC value) of subject and the kappa value was 0.8074. Under the current climate conditions, the risk zones for P. americana were mainly distributed in Sichuan, Chongqing, Guizhou, Hunan, and Guangxi provinces. The contribution rate of each climatic factor of P . americana was calculated using the jackknife test. The four factors with the highest contribution rate included minimum temperature of coldest month (bio6, 51.4%), the monthly mean diurnal temperature difference (bio2, 27.9%), precipitation of the driest quarter (bio17, 4.9%), and the warmest seasonal precipitation (bio12, 4.3%). Conclusion Under future climatic conditions, the change in the habitat pattern of P . americana generally showed a migration toward the Yangtze River Delta region and the southeastern coastal region of China. This migration exhibited an expansion trend, highlighting the strong future invasiveness of the species. Based on the predictions, targeted prevention and control strategies for areas with significant changes in P . americana were developed. Therefore, this study emphasizes the need of an integrated approach to effectively prevent the further spread of invasive plants.
ISSN:2192-1709
2192-1709
DOI:10.1186/s13717-022-00414-9