Abstract
As a major source of global change, biological invasions have received increasing attention in past decades. Niche and range dynamics of alien invasive species provide essential evidence for understanding mechanisms underlying biological invasions. However, to our knowledge few relevant studies on mollusks have been reported. Here, from the perspective of climatic suitability, we investigated niche and range shifts of the Giant African Snail (Lissachatina fulica), one of the world’s most invasive mollusks. We observed that, compared with its native counterpart, this invasive snail could survive in environments with wider temperature ranges. The invasive snail showed a wider niche breadth and larger potential range than its native counterpart, and occupied different niche and range positions, indicating its high lability in terms of niche and range. This invasive Giant African Snail did not conform to the niche and range conservatism hypotheses, probably due to the influence of human introductions and niche releasing. Given that large shifts in range size can result from small niche expansions, making niche shifts a more important indicator for biological invasion assessments than range shifts. While most invasive species show low lability in niche space, highly labile niche was observed in the Giant African Snail, indicating that strategies to prevent biological invasions by this invasive mollusk should be prioritized. Our study, to certain extent, could further our understanding on the niche shifts and range dynamics between the invasive mollusks and their native counterparts.
Published Version
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