气候变化将增加欧洲园林植物的归化风险。

Climate change will increase the naturalization risk from garden plants in Europe.

作者信息

Dullinger Iwona, Wessely Johannes, Bossdorf Oliver, Dawson Wayne, Essl Franz, Gattringer Andreas, Klonner Günther, Kreft Holger, Kuttner Michael, Moser Dietmar, Pergl Jan, Pyšek Petr, Thuiller Wilfried, van Kleunen Mark, Weigelt Patrick, Winter Marten, Dullinger Stefan, Beaumont Linda

机构信息

Division of Conservation Biology, Vegetation- and Landscape Ecology, Department of Botany and Biodiversity Research University of Vienna Rennweg 14 Vienna 1030 Austria; Institute of Social Ecology, Faculty for Interdisciplinary Studies, Alps Adria University Schottenfeldgasse 29 Vienna 1070 Austria.

Division of Conservation Biology, Vegetation- and Landscape Ecology, Department of Botany and Biodiversity Research University of Vienna Rennweg 14 Vienna 1030 Austria.

出版信息

Glob Ecol Biogeogr. 2017 Jan;26(1):43-53. doi: 10.1111/geb.12512. Epub 2016 Aug 25.

DOI:10.1111/geb.12512

PMID:28111525

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5216452/

Abstract

AIM

Plant invasions often follow initial introduction with a considerable delay. The current non-native flora of a region may hence contain species that are not yet naturalized but may become so in the future, especially if climate change lifts limitations on species spread. In Europe, non-native garden plants represent a huge pool of potential future invaders. Here, we evaluate the naturalization risk from this species pool and how it may change under a warmer climate.

LOCATION

Europe.

METHODS

We selected all species naturalized anywhere in the world but not yet in Europe from the set of non-native European garden plants. For this subset of 783 species, we used species distribution models to assess their potential European ranges under different scenarios of climate change. Moreover, we defined geographical hotspots of naturalization risk from those species by combining projections of climatic suitability with maps of the area available for ornamental plant cultivation.

RESULTS

Under current climate, 165 species would already find suitable conditions in > 5% of Europe. Although climate change substantially increases the potential range of many species, there are also some that are predicted to lose climatically suitable area under a changing climate, particularly species native to boreal and Mediterranean biomes. Overall, hotspots of naturalization risk defined by climatic suitability alone, or by a combination of climatic suitability and appropriate land cover, are projected to increase by up to 102% or 64%, respectively.

MAIN CONCLUSIONS

Our results suggest that the risk of naturalization of European garden plants will increase with warming climate, and thus it is very likely that the risk of negative impacts from invasion by these plants will also grow. It is therefore crucial to increase awareness of the possibility of biological invasions among horticulturalists, particularly in the face of a warming climate.

摘要

目的

植物入侵往往在初次引入后有相当长的延迟期。因此，一个地区当前的非本地植物区系可能包含尚未归化但未来可能归化的物种，特别是如果气候变化消除了对物种传播的限制。在欧洲，非本地园林植物是未来潜在入侵物种的巨大来源。在此，我们评估来自这个物种库的归化风险以及在气候变暖情况下它可能如何变化。

地点

欧洲。

方法

我们从非本地欧洲园林植物集合中挑选出所有已在世界任何地方归化但尚未在欧洲归化的物种。对于这783个物种的子集，我们使用物种分布模型来评估它们在不同气候变化情景下在欧洲的潜在分布范围。此外，我们通过将气候适宜性预测与观赏植物种植可用区域地图相结合，确定了这些物种归化风险的地理热点地区。

结果

在当前气候条件下，165个物种在欧洲超过5%的地区已经能找到适宜的条件。尽管气候变化大幅扩大了许多物种的潜在分布范围，但也有一些物种预计在气候变化下会失去气候适宜的区域，特别是原产于北方和地中海生物群落的物种。总体而言，仅由气候适宜性定义的归化风险热点地区，或由气候适宜性与合适的土地覆盖相结合定义的归化风险热点地区，预计将分别增加多达102%或64%。

主要结论

我们的结果表明，欧洲园林植物的归化风险将随着气候变暖而增加，因此这些植物入侵造成负面影响的风险也很可能上升。因此，提高园艺工作者对生物入侵可能性的认识至关重要，尤其是在气候变暖的情况下。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e8a0/5216452/542b124172f0/GEB-26-43-g001.jpg

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气候变化将增加欧洲园林植物的归化风险。

Climate change will increase the naturalization risk from garden plants in Europe.

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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