Implementing wildlife fences along highways at the appropriate spatial scale: A case study of reducing road mortality of Florida Key deer

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
M. Huijser, J. Begley
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引用次数: 4

Abstract

Florida Key deer mortality data (1966–2017) showed that about 75% of all reported deer mortalities were related to collisions with vehicles. In 2001–2002, the eastern section of US Hwy 1 on Big Pine Key (Florida, USA) was mitigated with a wildlife fence, 2 underpasses, and 4 deer guards. After mitigation, the number of reported Key deer road mortalities reduced substantially in the mitigated section, but this was negated by an increase in collisions along the unmitigated section of US Hwy 1 on Big Pine Key, both in absolute numbers and expressed as a percentage of the total deer population size. The data also showed that the increase in Key deer collisions along the unmitigated highway section on the island could not be explained through an increase in Key deer population size, or by a potential increase in traffic volume. The overall Key deer road mortality along US Hwy 1 was not reduced but was moved from the mitigated section to the nearby unmitigated section. Thus, there was no net benefit of the fence in reducing collisions. After mitigation, a significant hotspot of Key deer-vehicle collisions appeared at the western fence-end, and additional hotspots occurred further west along the unmitigated highway. Exploratory spatial analyses led us to reject the unmitigated highway section on Big Pine Key as a suitable control for a Before-After-Control-Impact (BACI) analysis into the effectiveness of the mitigation measures in reducing deer-vehicle collisions. Instead, we selected highway sections west and east of Big Pine Key as a control. The BACI analysis showed that the wildlife fence and associated mitigation measures were highly effective (95%) in reducing deer-vehicle collisions along the mitigated highway section. Nonetheless, in order to reduce the overall number of deer-vehicle collisions along US Hwy 1, the entire highway section on Big Pine Key would need to be mitigated. However, further mitigation is complicated because of the many buildings and access roads for businesses and residences. This case study illustrates that while fences and associated measures can be very effective in reducing collisions, wildlife fences that are too short may result in an increase in collisions in nearby unmitigated road sections, especially near fence-ends. Therefore it is important to carefully consider the appropriate spatial scale over which highway mitigation measures are implemented and evaluated.
Implementing在适当的空间尺度上沿高速公路的野生动物围栏:降低佛罗里达基鹿道路死亡率的案例研究
佛罗里达基鹿死亡率数据(1966年至2017年)显示,所有报告的鹿死亡率中约有75%与车辆碰撞有关。2001-2002年,美国1号高速公路东段的大松基(美国佛罗里达州)用野生动物围栏,2个地下通道和4个鹿警卫来缓解。经过缓解措施后,在缓解路段报告的Key deer道路死亡率大幅下降,但这被美国1号高速公路在大松礁岛上未缓解路段的碰撞增加所抵消,无论是绝对数字还是以鹿种群总数的百分比表示。数据还显示,岛上未缓解的高速公路路段上Key deer碰撞事件的增加不能通过Key deer种群规模的增加或交通量的潜在增加来解释。沿美国1号高速公路的主要路段总体死亡率没有降低,而是从缓解路段转移到附近的未缓解路段。因此,围栏在减少碰撞方面没有净收益。缓解后,重点鹿车碰撞热点出现在西部围栏端,沿未缓解公路向西进一步出现热点。探索性空间分析使我们拒绝将大松礁岛上未缓解的高速公路路段作为控制前后影响(BACI)分析的合适对照,以研究缓解措施在减少鹿与车辆碰撞方面的有效性。相反,我们选择了大松岛西部和东部的高速公路路段作为对照。BACI分析表明,野生动物围栏和相关的缓解措施在减少公路缓解路段的鹿车碰撞方面非常有效(95%)。尽管如此,为了减少美国1号高速公路上鹿与车辆碰撞的总数,大松岛的整个高速公路路段都需要减轻。然而,由于许多建筑物和通往商业和住宅的道路,进一步的缓解工作很复杂。本案例研究表明,虽然围栏和相关措施可以非常有效地减少碰撞,但太短的野生动物围栏可能导致附近未缓解路段的碰撞增加,特别是在围栏末端附近。因此,必须仔细考虑公路缓解措施实施和评估的适当空间尺度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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