Zachary G MacDonald, Thomas Gillespie, H Bradley Shaffer
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However, many <i>O c ivallda</i> populations already occur at or near mountain summits, limiting their potential for elevational shifts. On 2 July 2022, we observed a previously unrecorded <i>O c ivallda</i> population at the summit of Mount Whitney (4421 m). Popular data repositories (eg GBIF and iNaturalist) confirmed that no other butterflies have been observed here. Mount Whitney is the highest mountain in the conterminous US, and all higher summits in Canada and Alaska are—at least for the moment—permanently snow- or glacier-covered, unsuitable for butterfly occupancy. This observation therefore marks what we believe is the highest extant butterfly population in North America. Of the 12 <i>O c ivallda</i> individuals observed during a one-hour survey, three were collected for whole-genome resequencing as part of the California Conservation Genomics Project (CCGP; https://www.ccgproject.org/). Two individuals are pictured, one from the summit of Mount Whitney (above) and the other from the summit of Mount Dana (3981 m; below), approximately 170 km to the northwest of Whitney. In light of this observation, alpine butterflies in the Sierra Nevada are clearly exhausting their potential for elevational shifts in the face of warming temperatures. Preventing extinction may require proactive conservation practices, such as translocation and even assisted migration. Detailed population genomic data, such as those produced by the CCGP, will help inform these efforts.</p>","PeriodicalId":171,"journal":{"name":"Frontiers in Ecology and the Environment","volume":"22 1","pages":""},"PeriodicalIF":10.0000,"publicationDate":"2024-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/fee.2707","citationCount":"0","resultStr":"{\"title\":\"The highest butterfly in North America\",\"authors\":\"Zachary G MacDonald, Thomas Gillespie, H Bradley Shaffer\",\"doi\":\"10.1002/fee.2707\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Despite the expansive old-growth forests of California's Sierra Nevada, its greatest diversity of butterflies is found in non-forested habitats, such as alpine meadows and fell-fields. These unique “sky island” habitats support a number of endemic butterflies, such as the Ivallda Arctic (<i>Oeneis chryxus ivallda</i>). Unlike other, more colorful butterflies in the region, the dark, cryptic coloration of <i>O c ivallda</i> is hypothesized to aid in both thermoregulation and camouflage in the relatively cool, rocky environments they inhabit. Faced with warming temperatures, some alpine butterfly populations may track their climatic niche and stay ahead of advancing treelines by moving up mountain slopes. However, many <i>O c ivallda</i> populations already occur at or near mountain summits, limiting their potential for elevational shifts. On 2 July 2022, we observed a previously unrecorded <i>O c ivallda</i> population at the summit of Mount Whitney (4421 m). Popular data repositories (eg GBIF and iNaturalist) confirmed that no other butterflies have been observed here. Mount Whitney is the highest mountain in the conterminous US, and all higher summits in Canada and Alaska are—at least for the moment—permanently snow- or glacier-covered, unsuitable for butterfly occupancy. 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引用次数: 0
摘要
尽管加利福尼亚内华达山脉拥有广袤的原始森林,但在非森林栖息地,如高山草甸和荒原上,蝴蝶的多样性却最为丰富。这些独特的 "天空之岛 "栖息地孕育了许多特有的蝴蝶,如北极伊瓦鲁达蝴蝶(Oeneis chryxus ivallda)。与该地区其他色彩更丰富的蝴蝶不同,据推测,O c ivallda 的深色隐蔽性有助于它们在相对凉爽的岩石环境中进行体温调节和伪装。面对气温升高,一些高山蝴蝶种群可能会追踪它们的气候利基,通过向山坡上移动来保持领先于前进的树线。然而,许多 O c ivallda 种群已经出现在山顶或山顶附近,限制了其海拔迁移的可能性。2022 年 7 月 2 日,我们在惠特尼山(海拔 4421 米)山顶观察到一个以前从未记录过的 O c ivallda 种群。流行的数据存储库(如 GBIF 和 iNaturalist)证实,在这里没有观察到其他蝴蝶。惠特尼山是美国本土最高的山峰,加拿大和阿拉斯加所有更高的山峰--至少目前--都被积雪或冰川永久覆盖,不适合蝴蝶栖息。因此,我们认为这是北美现存最高的蝴蝶种群。在一小时调查中观察到的 12 只 O c ivallda 中,有 3 只被收集起来进行全基因组重测序,这是加利福尼亚保护基因组学项目(CCGP; https://www.ccgproject.org/)的一部分。图中有两个个体,一个来自惠特尼山山顶(上图),另一个来自达纳山山顶(海拔 3981 米,下图),距惠特尼西北约 170 公里。从这一观察结果来看,内华达山脉的高山蝴蝶在气温变暖的情况下,显然已经耗尽了其海拔迁移的潜力。防止灭绝可能需要采取积极的保护措施,如迁移甚至辅助迁移。详细的种群基因组数据,如 CCGP 提供的数据,将有助于为这些工作提供信息。
Despite the expansive old-growth forests of California's Sierra Nevada, its greatest diversity of butterflies is found in non-forested habitats, such as alpine meadows and fell-fields. These unique “sky island” habitats support a number of endemic butterflies, such as the Ivallda Arctic (Oeneis chryxus ivallda). Unlike other, more colorful butterflies in the region, the dark, cryptic coloration of O c ivallda is hypothesized to aid in both thermoregulation and camouflage in the relatively cool, rocky environments they inhabit. Faced with warming temperatures, some alpine butterfly populations may track their climatic niche and stay ahead of advancing treelines by moving up mountain slopes. However, many O c ivallda populations already occur at or near mountain summits, limiting their potential for elevational shifts. On 2 July 2022, we observed a previously unrecorded O c ivallda population at the summit of Mount Whitney (4421 m). Popular data repositories (eg GBIF and iNaturalist) confirmed that no other butterflies have been observed here. Mount Whitney is the highest mountain in the conterminous US, and all higher summits in Canada and Alaska are—at least for the moment—permanently snow- or glacier-covered, unsuitable for butterfly occupancy. This observation therefore marks what we believe is the highest extant butterfly population in North America. Of the 12 O c ivallda individuals observed during a one-hour survey, three were collected for whole-genome resequencing as part of the California Conservation Genomics Project (CCGP; https://www.ccgproject.org/). Two individuals are pictured, one from the summit of Mount Whitney (above) and the other from the summit of Mount Dana (3981 m; below), approximately 170 km to the northwest of Whitney. In light of this observation, alpine butterflies in the Sierra Nevada are clearly exhausting their potential for elevational shifts in the face of warming temperatures. Preventing extinction may require proactive conservation practices, such as translocation and even assisted migration. Detailed population genomic data, such as those produced by the CCGP, will help inform these efforts.
期刊介绍:
Frontiers in Ecology and the Environment is a publication by the Ecological Society of America that focuses on the significance of ecology and environmental science in various aspects of research and problem-solving. The journal covers topics such as biodiversity conservation, ecosystem preservation, natural resource management, public policy, and other related areas.
The publication features a range of content, including peer-reviewed articles, editorials, commentaries, letters, and occasional special issues and topical series. It releases ten issues per year, excluding January and July. ESA members receive both print and electronic copies of the journal, while institutional subscriptions are also available.
Frontiers in Ecology and the Environment is highly regarded in the field, as indicated by its ranking in the 2021 Journal Citation Reports by Clarivate Analytics. The journal is ranked 4th out of 174 in ecology journals and 11th out of 279 in environmental sciences journals. Its impact factor for 2021 is reported as 13.789, which further demonstrates its influence and importance in the scientific community.