一个小城市区域建筑立面与鸟窗碰撞的相关关系

IF 2.6 2区 生物学 Q1 ORNITHOLOGY Condor Pub Date : 2019-12-30 DOI:10.1093/condor/duz065
Corey S. Riding, T. O’Connell, S. Loss
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引用次数: 20

摘要

城市化日益使鸟类暴露于多种直接人为死亡来源。与建筑物,特别是窗户的碰撞是鸟类死亡的主要原因,每年在美国造成3.65 - 9.88亿人死亡。窗户碰撞率的相关性已经在整个建筑物的尺度上以及与周围景观的关系上进行了研究,大多数研究只评估了所有鸟类的相关性,而没有考虑季节和物种特定的风险因素。在美国俄克拉何马州的斯蒂尔沃特,我们对16座建筑物进行了鸟类碰撞调查,以评估与建筑物结构、植被和土地覆盖相关的碰撞相关性。与过去的研究不同,我们关注的是单个建筑立面的规模,除了考虑总碰撞的相关因素外,我们还评估了不同季节和8种碰撞易发物种的相关因素。在大多数不同季节和物种中,一些与farade相关的特征,包括比例玻璃覆盖率、farade长度和farade高度,与总碰撞和碰撞呈正相关。凹形farade的总碰撞量也大于平坦、弯曲和门廊形farade。我们发现碰撞相关性在季节(例如,周围草坪覆盖在夏季和秋季重要,但在春季不重要)和物种(例如,周围不透水覆盖分别与彩鹀[Passerina ciris]和美洲知更鸟[Turdus migratorius]的碰撞呈正相关和负相关)之间存在差异。考虑到玻璃比例的重要性,减少碰撞的努力应继续集中在尽量减少和/或处理新建筑和现有建筑的玻璃表面。我们针对物种和季节的评估表明,对某些碰撞风险因素的管理可能并不对所有季节和物种都同样有效。未来的研究、政策和管理将整合所有鸟类种类和季节的碰撞风险信息,并在从建筑立面到周围景观的多个尺度上进行整合,将最有效地降低鸟类与窗户碰撞的总死亡率。
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Building façade-level correlates of bird–window collisions in a small urban area
ABSTRACT Urbanization increasingly exposes birds to multiple sources of direct anthropogenic mortality. Collisions with buildings, and windows in particular, are a top bird mortality source, annually causing 365–988 million fatalities in the United States. Correlates of window collision rates have been studied at the scale of entire buildings and in relation to the surrounding landscape, and most studies have only assessed correlates for all birds combined without considering season- and species-specific risk factors. In Stillwater, Oklahoma, USA, we conducted bird collision surveys at 16 buildings to assess building structural-, vegetation-, and land cover-related collision correlates. Unlike past studies, we focused at the scale of individual building façades, and in addition to considering correlates for total collisions, we assessed correlates for different seasons and separately for 8 collision-prone species. Several façade-related features, including proportional glass coverage, façade length, and façade height, were positively associated with total collisions and collisions for most separate seasons and species. Total collisions were also greater at alcove-shaped façades than flat, curved, and portico-shaped façades. We found that collision correlates varied among seasons (e.g., surrounding lawn cover important in summer and fall, but not spring) and among species (e.g., surrounding impervious cover positively and negatively related to collisions of Painted Bunting [Passerina ciris] and American Robin [Turdus migratorius], respectively). Given the importance of glass proportion, collision reduction efforts should continue to focus on minimizing and/or treating glass surfaces on new and existing buildings. Our species- and season-specific assessments indicate that management of some collision risk factors may not be equally effective for all seasons and species. Future research, policy, and management that integrates information about collision risk for all bird species and seasons, and at multiple scales from building façades to the surrounding landscape, will be most effective at reducing total mortality from bird–window collisions.
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来源期刊
Condor
Condor ORNITHOLOGY-
CiteScore
6.30
自引率
12.50%
发文量
46
审稿时长
6-12 weeks
期刊介绍: The Condor is the official publication of the Cooper Ornithological Society, a non-profit organization of over 2,000 professional and amateur ornithologists and one of the largest ornithological societies in the world. A quarterly international journal that publishes original research from all fields of avian biology, The Condor has been a highly respected forum in ornithology for more than 100 years. The journal is one of the top ranked ornithology publications. Types of paper published include feature articles (longer manuscripts) Short Communications (generally shorter papers or papers that deal with one primary finding), Commentaries (brief papers that comment on articles published previously in The Condor), and Book Reviews.
期刊最新文献
Thank you to the reviewers of the 2020 Condor, volume 122 Habitat ecology of Nearctic–Neotropical migratory landbirds on the nonbreeding grounds Conservation social science in Ornithological Applications Advancing scientific knowledge and conservation of birds through inclusion of conservation social sciences in the American Ornithological Society Mixed evidence for effects of stewardship on Least Tern reproductive success in coastal Mississippi
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