智利的入侵：来自气候生态位和物种分布模型的意外发现。

invasion in Chile: Surprises from climatic niche and species distribution models.

作者信息

Langdon Bárbara, Pauchard Aníbal, Bustamante Ramiro O

机构信息

Laboratorio de Ecología Geográfica, Facultad de Ciencias Universidad de Chile Santiago Chile.

Laboratorio de Invasiones Biológicas (LIB), Facultad de Ciencias Forestales Universidad de Concepción Concepción Chile.

出版信息

Ecol Evol. 2019 Jun 23;9(13):7562-7573. doi: 10.1002/ece3.5295. eCollection 2019 Jul.

DOI:10.1002/ece3.5295

PMID:31346422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6635919/

Abstract

AIM

Tree invasions are a threat to biodiversity conservation, and although it is hard to predict the future spread of invasive tree species, there are tools available which could allow some estimations. The magnitude of spatial spread (a proxy of invasiveness) can be predicted from species climatic requirement (climatic niche) and can be represented by species distribution models (SDMs). We aimed to assess whether conserves its niche in the new environment of south-central Chile, and also, to estimate the invasive stage of the species.

LOCATION

South-central area of Chile, between the O'Higgins (34°0″0'S) and Aysen Regions (47°0″0'S).

METHODS

We used a combination of global, native, and regional data to improve the estimation of the potential distribution of , which has been considered one of the most invasive species of the genus, being registered in at least 34 countries in all the Continents.

RESULTS

Our results show that does not conserve its niche in the study area, invading areas with climatic conditions different from those of the native range. It is also not at equilibrium with the environment. According to the global versus regional SDM comparisons, populations present in south-central Chile present different invasion stages. There are some stable populations, but there are other populations colonizing new areas, occupying unsuitable habitats and some of them are adapting to new climatic conditions. Climatic factors, such as precipitation seasonality, could be acting behind the expansion to new environments, and biotic factors or dispersal limitations could be preventing the species to colonize suitable areas.

MAIN CONCLUSIONS

The invasion process of is far from stabilizing, and management options should focus on prevention, avoiding, for example, the introduction of the species to Patagonia where the species has not spread yet. More research is needed to complement our results and enhance the development of effective management strategies.

摘要

目的

树木入侵对生物多样性保护构成威胁，尽管难以预测入侵树种未来的扩散情况，但有一些工具可用于进行某些估计。空间扩散程度（入侵性的一个指标）可根据物种的气候需求（气候生态位）进行预测，并可用物种分布模型（SDM）来表示。我们旨在评估[物种名称]在智利中南部新环境中是否保留其生态位，同时估计该物种的入侵阶段。

地点

智利中南部地区，介于奥希金斯（南纬34°0′0″）和艾森地区（南纬47°0′0″）之间。

方法

我们结合了全球、原生地和区域数据，以改进对[物种名称]潜在分布的估计，该物种被认为是该属中最具入侵性的物种之一，已在各大洲至少34个国家有记录。

结果

我们的结果表明，[物种名称]在研究区域内没有保留其生态位，侵入了气候条件与原生范围不同的地区。它也未与环境达到平衡。根据全球与区域SDM的比较，智利中南部的种群呈现出不同的入侵阶段。有一些稳定的种群，但也有其他种群正在开拓新区域，占据不适合的栖息地，其中一些正在适应新的气候条件。诸如降水季节性等气候因素可能是其向新环境扩张的背后原因，而生物因素或扩散限制可能阻止该物种在适宜区域定殖。

主要结论

[物种名称]的入侵过程远未稳定，管理措施应侧重于预防，例如避免将该物种引入尚未扩散的巴塔哥尼亚地区。需要更多研究来补充我们的结果，并加强有效管理策略的制定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/92dd/6635919/e797544d5d3b/ECE3-9-7562-g001.jpg

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智利的入侵：来自气候生态位和物种分布模型的意外发现。

invasion in Chile: Surprises from climatic niche and species distribution models.

作者信息

机构信息

出版信息

AIM

LOCATION

METHODS

RESULTS

MAIN CONCLUSIONS

目的

地点

方法

结果

主要结论

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