Hayes Mark A, Piaggio Antoinette J
Normandeau Associates Inc., Gainesville, Florida, United States of America.
National Wildlife Research Center, U.S. Department of Agriculture, Fort Collins, Colorado, United States of America.
PLoS One. 2018 Feb 21;13(2):e0192887. doi: 10.1371/journal.pone.0192887. eCollection 2018.
Common vampire bats (Desmodus rotundus) occur throughout much of South America to northern México. Vampire bats have not been documented in recent history in the United States, but have been documented within about 50 km of the U.S. state of Texas. Vampire bats feed regularly on the blood of mammals and can transmit rabies virus to native species and livestock, causing impacts on the health of prey. Thus cattle producers, wildlife management agencies, and other stakeholders have expressed concerns about whether vampire bats might spread into the southern United States. On the other hand, concerns about vampire-borne rabies can also result in wanton destruction at bat roosts in areas occupied by vampire bats, but also in areas not known to be occupied by this species. This can in turn negatively affect some bat roosts, populations, and species that are of conservation concern, including vampire bats. To better understand the current and possible future distribution of vampire bats in North America and help mitigate future cattle management problems, we used 7,094 vampire bat occurrence records from North America and species distribution modeling (SDM) to map the potential distribution of vampire bats in North America under current and future climate change scenarios. We analysed and mapped the potential distribution of this species using 5 approaches to species distribution modeling: logistic regression, multivariate adaptive regression splines, boosted regression trees, random forest, and maximum entropy. We then projected these models into 17 "worst-case" future climate scenarios for year 2070 to generate hypotheses about how the vampire bat distribution in North America might change in the future. Of the variables used in this analysis, minimum temperature of the coldest month had the highest variable importance using all 5 SDM approaches. These results suggest two potential near-future routes of vampire bat dispersal into the U.S., one via southern Texas, and a second into southern Florida. Some of our SDM models support the hypothesis that suitable habitat for vampire bats may currently exist in parts of the México-U.S. borderlands, including extreme southern portions of Texas, as well as in southern Florida. However, this analysis also suggests that extensive expansion into the south-eastern and south-western U.S. over the coming ~60 years appears unlikely.
普通吸血蝠(Desmodus rotundus)分布于南美洲大部分地区至墨西哥北部。吸血蝠在美国近代历史上并无记载,但在距离美国得克萨斯州约50公里范围内有相关记录。吸血蝠经常以哺乳动物的血液为食,并能将狂犬病病毒传播给本地物种和家畜,对猎物健康造成影响。因此,养牛户、野生动物管理机构及其他利益相关者对吸血蝠是否会扩散至美国南部表示担忧。另一方面,对吸血蝠传播狂犬病的担忧也可能导致在吸血蝠栖息地区以及未知是否有该物种栖息的地区肆意破坏蝙蝠栖息地。这进而可能对一些受保护的蝙蝠栖息地、种群和物种产生负面影响,包括吸血蝠。为了更好地了解吸血蝠目前及未来在北美的可能分布,并帮助缓解未来的养牛管理问题,我们利用来自北美的7094条吸血蝠出现记录和物种分布模型(SDM),绘制了当前及未来气候变化情景下吸血蝠在北美的潜在分布地图。我们使用5种物种分布建模方法分析并绘制了该物种的潜在分布:逻辑回归、多元自适应回归样条、增强回归树、随机森林和最大熵法。然后,我们将这些模型投射到2070年的17种“最坏情况”未来气候情景中,以推测北美吸血蝠分布在未来可能如何变化。在该分析所使用的变量中,使用所有5种SDM方法时,最冷月的最低温度变量重要性最高。这些结果表明吸血蝠近期可能有两条扩散至美国的途径,一条经由得克萨斯州南部,另一条进入佛罗里达州南部。我们的一些SDM模型支持这样的假设,即吸血蝠的适宜栖息地目前可能存在于墨西哥 - 美国边境地区的部分地方,包括得克萨斯州最南端以及佛罗里达州南部。然而,该分析也表明,在未来约60年内,吸血蝠大规模扩张至美国东南部和西南部的可能性似乎不大。
