在美国诱捕毛皮动物的最佳管理实践melhores practicas de manejo para atrapar animales de pelereria en los Estados Unidos在美国诱捕毛皮动物的最佳管理实践

IF 4.3 1区 生物学 Q1 ECOLOGY
H. Bryant White, Gordon R. Batcheller, Edward K. Boggess, Clifford L. Brown, Joseph W. Butfiloski, Thomas A. Decker, John D. Erb, Michael W. Fall, David A. Hamilton, Tim L. Hiller, George F. Hubert Jr., Matthew J. Lovallo, John F. Olson, Nathan M. Roberts
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Traps and regulated trapping programs provide personal or cultural rewards that can also support conservation, and can assist with advancing ecological knowledge through research, protecting endangered species, restoring populations or habitats, protecting personal property, and enhancing public health and safety. However, animal welfare and trap selectivity remain important topics for furbearer management in North America, as they have for more than a century. A related international challenge to modern furbearer management came with the Wild Fur Regulation by the European Union, which passed in 1991. This regulation prohibited use of foothold traps in many European countries and the importation of furs and manufactured fur products to Europe from countries that allowed use of foothold traps or trapping methods that did not meet internationally agreed-upon humane trapping standards. To address existing national concerns and requirements of the Wild Fur Regulation, the United States and European Union signed a non-binding bilateral understanding that included a commitment by the United States to evaluate trap performance and advance the use of improved traps through development of best management practices (BMPs) for trapping. Our testing followed internationally accepted restraining-trap standards for quantifying injuries and capture efficiency, and we established BMP pass-fail thresholds for these metrics. We also quantified furbearer selectivity, and qualitatively assessed practicality and user safety for each trap, yielding overall species-specific performance profiles for individual trap models. We present performance data for 84 models of restraining traps (6 cage traps, 68 foothold traps, 9 foot-encapsulating traps, and 1 power-activated footsnare) on 19 furbearing species, or 231 trap-species combinations. 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Average furbearer selectivity was high across all trap types we evaluated and was lowest for footsnares (88%) and highest for foot-encapsulating traps (99%). Mortality from trap-related injury in restraining traps we tested was very rare for furbearers (0.5% of animals). In over 230,000 trap-nights across a 21-year period, no individuals of a threatened or endangered species were captured. Of 9,589 total captures, 11% were non-furbearers, of which 83% were alive upon trap inspection; nearly all non-furbearer mortalities were birds, rabbits, or squirrels. Approximately 2% of total captures were feral or free-ranging dogs (<i>Canis familiaris</i>), of which none died or were deemed in need of veterinary care by either our technicians or the owners (if located). Similarly, 3% of total captures were feral or free-ranging cats (<i>Felis catus</i>); 2 were dead, and although locating potential owners was often impossible, none of the remaining cats were deemed in need of veterinary care by technicians or owners. Our results show that furbearer selectivity was high for all trap types evaluated, mortality or significant injury was very rare for domestic (or feral) animals, and the most potential for mortality or injury of non-furbearers was with smaller animals, a majority of which were squirrels and rabbits. Our results suggest that injury scores for a given trap-species combination are unlikely to vary significantly across states or regions of the United States, provided similar methods are employed. Our data also suggest that taxonomic affiliation and body-size groupings are correlated with injury scores, presumably through morphological, physiological, or behavioral adaptations or responses that influence injury potential during restraint; higher injury scores in foot-restraining trap types were more likely in smaller or more dexterous species, whereas injury scores were typically lowest for the felids we evaluated. For some species (e.g., American badger [<i>Taxidea taxus</i>], bobcat [<i>Lynx rufus</i>]), most restraining traps we tested met BMP standards, whereas few restraining traps we tested met standards for other species (e.g., muskrat [<i>Ondatra zibethicus</i>], striped skunk [<i>Mephitis mephitis</i>]). 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Our data also suggest that taxonomic affiliation and body-size groupings are correlated with injury scores, presumably through morphological, physiological, or behavioral adaptations or responses that influence injury potential during restraint; higher injury scores in foot-restraining trap types were more likely in smaller or more dexterous species, whereas injury scores were typically lowest for the felids we evaluated. For some species (e.g., American badger [<i>Taxidea taxus</i>], bobcat [<i>Lynx rufus</i>]), most restraining traps we tested met BMP standards, whereas few restraining traps we tested met standards for other species (e.g., muskrat [<i>Ondatra zibethicus</i>], striped skunk [<i>Mephitis mephitis</i>]). 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引用次数: 16

摘要

几千年来,人类为了各种目的使用野生毛皮动物。今天,公众可持续地利用毛皮商获取毛皮、皮革、骨头、腺体、肉或其他用途。在北美,当代的毛皮动物捕捞随着捕兽器技术和社会关切的发展而发展,现在受到高度管制,并与收获分析和人口监测更紧密地结合在一起。陷阱和规范的陷阱计划提供个人或文化奖励,也可以支持保护,并有助于通过研究提高生态知识,保护濒危物种,恢复种群或栖息地,保护个人财产,加强公共健康和安全。然而,一个多世纪以来,动物福利和陷阱的选择性仍然是北美毛皮商管理的重要课题。1991年,欧盟通过了《野生皮草条例》,这是现代皮草商管理面临的一个相关国际挑战。该法规禁止在许多欧洲国家使用立足点陷阱,禁止从允许使用立足点陷阱或不符合国际商定的人道陷阱标准的陷阱方法的国家进口毛皮和人造毛皮产品到欧洲。为了解决现有的国家关切和野生毛皮条例的要求,美国和欧盟签署了一项不具约束力的双边谅解,其中包括美国承诺评估陷阱的性能,并通过制定陷阱的最佳管理实践(BMPs)来促进改进陷阱的使用。我们的测试遵循国际公认的限制陷阱标准,用于量化伤害和捕获效率,并为这些指标建立了BMP通过-失败阈值。我们还量化了毛皮动物的选择性,并定性地评估了每个陷阱的实用性和用户安全性,得出了单个陷阱模型的整体物种特定性能概况。本文研究了84种抑制陷阱(6种笼型陷阱、68种落脚点陷阱、9种封脚陷阱和1种动力激活陷阱)对19种繁殖物种或231种陷阱组合的性能数据。我们对被捕猎者捕获的8566头毛皮动物进行了尸检。在测试的231个陷阱模型物种组合中,我们有足够的数据来评估173个组合,其中约59%符合BMP的所有标准。笼型诱捕器的平均伤害得分最低(常见伤害包括牙齿断裂),其他类型诱捕器之间的差异最小;除浣熊(Procyon lotor)外,不同物种的捕获模式基本相似,它们的封足陷阱比其他类型的封足陷阱效果更好。对于许多物种来说,垫颚式立足点陷阱比标准颚模型表现得更好,尽管通常与偏置或层压颚模型相似,有时甚至更差。我们测试的大多数陷阱都有很高的捕获效率;仅5例(3%)因效率差而不符合BMP标准。在我们评估的所有陷阱类型中,毛虫的平均选择性都很高,其中足部陷阱的选择性最低(88%),足部包裹陷阱的选择性最高(99%)。在我们测试的约束陷阱中,毛皮动物因陷阱相关伤害而死亡的情况非常罕见(占动物总数的0.5%)。在21年期间的23万多次陷阱夜中,没有捕获到任何受威胁或濒危物种的个体。在总共捕获的9,589只中,11%为非毛皮动物,其中83%在陷阱检查时仍存活;几乎所有死亡的非毛皮动物都是鸟类、兔子或松鼠。捕获的总数中约2%是野狗或自由放养的狗(Canis familiaris),其中没有死亡,也没有被我们的技术人员或主人(如果找到的话)认为需要兽医护理。同样,总捕获量的3%是野猫或自由放养的猫(猫);其中2只已经死亡,尽管找到潜在的主人往往是不可能的,但技术人员或主人都认为剩下的猫没有一只需要兽医照顾。结果表明,所有类型的诱捕器对毛皮动物的选择性都很高,家养(或野生)动物的死亡或严重伤害非常罕见,而非毛皮动物的死亡或伤害可能性最大的是较小的动物,其中大多数是松鼠和兔子。我们的研究结果表明,如果采用类似的方法,在美国各州或地区之间,给定陷阱-物种组合的伤害评分不太可能有显著差异。 我们的数据还表明,分类隶属关系和体型分组与损伤评分相关,可能是通过形态、生理或行为适应或反应来影响约束期间的损伤潜力;较高的伤害分数更可能出现在较小或更灵巧的物种中,而我们评估的动物的伤害分数通常最低。对于某些物种(例如,美洲獾[Taxidea taxus],山猫[Lynx rufus]),我们测试的大多数抑制陷阱符合BMP标准,而我们测试的抑制陷阱很少符合其他物种(例如,麝鼠[Ondatra zibethicus],条纹臭鼬[Mephitis Mephitis])的标准。将我们的结果与2015年在美国收集的关于捕兽器使用的调查信息进行比较表明,捕获的所有目标毛皮动物中约有75%是在符合bmp标准的捕兽器中捕获的,另有10%是在尚未对该物种进行测试的捕兽器中捕获的。未来的陷阱测试和开发应侧重于尚未在某个物种上测试过的常用陷阱,目前很少有通过的陷阱达到BMP标准的物种,以及根据物种的形态、生理和行为最可能减少陷阱伤害的陷阱模型和修改。推广工作应侧重于提高对BMP的普遍认识,劝阻对特定物种使用不符合BMP标准的陷阱,并就陷阱进行公众推广。约束(和其他)陷阱在近几十年来已经有了很大的发展,并为个人、保护和社会提供了许多好处。然而,继续解决社会问题仍然是现代规范的诱捕和毛皮动物管理的关键组成部分。公布的诱捕bmp定期在网上更新,可能包括额外批准的限制和杀戮陷阱,这些陷阱已被评估为加拿大测试的一部分。我们将定期更新我们提供的捕鲸器性能表和数据,并将其发布在鱼类和野生动物机构协会的网站上。2020年出版。这篇文章是美国政府的作品,在美国属于公有领域。Wiley期刊有限责任公司代表野生动物协会出版的野生动物专著。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Best Management Practices for Trapping Furbearers in the United States Mejores prácticas de manejo para atrapar animales de peletería en los Estados Unidos Meilleures pratiques de gestion pour le piégeage des animaux à fourrure aux États-Unis

Humans have used wild furbearers for various purposes for thousands of years. Today, furbearers are sustainably used by the public for their pelts, leather, bones, glands, meat, or other purposes. In North America, contemporary harvest of furbearers has evolved along with trap technologies and societal concerns, and is now highly regulated and more closely coupled with harvest analysis and population monitoring. Traps and regulated trapping programs provide personal or cultural rewards that can also support conservation, and can assist with advancing ecological knowledge through research, protecting endangered species, restoring populations or habitats, protecting personal property, and enhancing public health and safety. However, animal welfare and trap selectivity remain important topics for furbearer management in North America, as they have for more than a century. A related international challenge to modern furbearer management came with the Wild Fur Regulation by the European Union, which passed in 1991. This regulation prohibited use of foothold traps in many European countries and the importation of furs and manufactured fur products to Europe from countries that allowed use of foothold traps or trapping methods that did not meet internationally agreed-upon humane trapping standards. To address existing national concerns and requirements of the Wild Fur Regulation, the United States and European Union signed a non-binding bilateral understanding that included a commitment by the United States to evaluate trap performance and advance the use of improved traps through development of best management practices (BMPs) for trapping. Our testing followed internationally accepted restraining-trap standards for quantifying injuries and capture efficiency, and we established BMP pass-fail thresholds for these metrics. We also quantified furbearer selectivity, and qualitatively assessed practicality and user safety for each trap, yielding overall species-specific performance profiles for individual trap models. We present performance data for 84 models of restraining traps (6 cage traps, 68 foothold traps, 9 foot-encapsulating traps, and 1 power-activated footsnare) on 19 furbearing species, or 231 trap-species combinations. We conducted post-mortem examinations on 8,566 furbearers captured by trappers. Of the 231 trap model-species combinations tested, we had sufficient data to evaluate 173 combinations, of which about 59% met all BMP criteria. Pooling species, cage traps produced the lowest average injury score (common injuries included tooth breakage), with minimal differences across other trap types; species-specific patterns were generally similar, with the exception of raccoons (Procyon lotor) for which foot-encapsulating traps performed better than other foot-restraining trap types. Padded-jaw foothold traps performed better than standard-jaw models for many species, though often similar to and occasionally worse than offset- or laminated-jaw models. Most traps we tested had high capture efficiency; only 5 (3%) failed BMP standards strictly because of poor efficiency. Average furbearer selectivity was high across all trap types we evaluated and was lowest for footsnares (88%) and highest for foot-encapsulating traps (99%). Mortality from trap-related injury in restraining traps we tested was very rare for furbearers (0.5% of animals). In over 230,000 trap-nights across a 21-year period, no individuals of a threatened or endangered species were captured. Of 9,589 total captures, 11% were non-furbearers, of which 83% were alive upon trap inspection; nearly all non-furbearer mortalities were birds, rabbits, or squirrels. Approximately 2% of total captures were feral or free-ranging dogs (Canis familiaris), of which none died or were deemed in need of veterinary care by either our technicians or the owners (if located). Similarly, 3% of total captures were feral or free-ranging cats (Felis catus); 2 were dead, and although locating potential owners was often impossible, none of the remaining cats were deemed in need of veterinary care by technicians or owners. Our results show that furbearer selectivity was high for all trap types evaluated, mortality or significant injury was very rare for domestic (or feral) animals, and the most potential for mortality or injury of non-furbearers was with smaller animals, a majority of which were squirrels and rabbits. Our results suggest that injury scores for a given trap-species combination are unlikely to vary significantly across states or regions of the United States, provided similar methods are employed. Our data also suggest that taxonomic affiliation and body-size groupings are correlated with injury scores, presumably through morphological, physiological, or behavioral adaptations or responses that influence injury potential during restraint; higher injury scores in foot-restraining trap types were more likely in smaller or more dexterous species, whereas injury scores were typically lowest for the felids we evaluated. For some species (e.g., American badger [Taxidea taxus], bobcat [Lynx rufus]), most restraining traps we tested met BMP standards, whereas few restraining traps we tested met standards for other species (e.g., muskrat [Ondatra zibethicus], striped skunk [Mephitis mephitis]). Comparison of our results with survey information collected during 2015 on trap use in the United States indicates that approximately 75% of all target furbearers harvested were taken in BMP-compliant traps, with another 10% taken in traps yet to be tested on that species. Future trap testing and development should focus on commonly used traps not yet tested on a species, species for which few passing traps currently pass BMP criteria, and trap models and modifications most likely to minimize trap injuries given a species morphology, physiology, and behavior. Outreach efforts should focus on general BMP awareness, discouraging use of traps that fail BMP standards for a given species, and public outreach on trapping. Restraining (and other) traps have evolved substantially in recent decades and offer numerous benefits to individuals, conservation, and society. However, continuing to address societal concerns remains a critical component of modern regulated trapping and furbearer management. Published trapping BMPs are regularly updated online and may include additional approved restraining and killing traps that were evaluated as part of testing by Canada. We will periodically update the trap performance tables and figures we presented and make them available online at the Association of Fish and Wildlife Agencies website. Published 2020. This article is a U.S. Government work and is in the public domain in the USA. Wildlife Monographs published by Wiley Periodicals LLC on behalf of The Wildlife Society.

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来源期刊
Wildlife Monographs
Wildlife Monographs 生物-动物学
CiteScore
9.10
自引率
0.00%
发文量
3
审稿时长
>12 weeks
期刊介绍: Wildlife Monographs supplements The Journal of Wildlife Management with focused investigations in the area of the management and conservation of wildlife. Abstracting and Indexing Information Academic Search Alumni Edition (EBSCO Publishing) Agricultural & Environmental Science Database (ProQuest) Biological Science Database (ProQuest) CAB Abstracts® (CABI) Earth, Atmospheric & Aquatic Science Database (ProQuest) Global Health (CABI) Grasslands & Forage Abstracts (CABI) Helminthological Abstracts (CABI) Natural Science Collection (ProQuest) Poultry Abstracts (CABI) ProQuest Central (ProQuest) ProQuest Central K-543 Research Library (ProQuest) Research Library Prep (ProQuest) SciTech Premium Collection (ProQuest) Soils & Fertilizers Abstracts (CABI) Veterinary Bulletin (CABI)
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