日本松茸和美洲松茸保护策略效果比较:政策实施后评价

Q2 Social Sciences
Nathanial Gronewold
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引用次数: 0

摘要

德克萨斯州东南部/阿尔伯塔省北部和日本东北部是两种极其相似的鹤的栖息地,它们有着相似的保护历史。北美的鸣鹤,特别是阿兰萨斯-伍德野牛(AWB)迁徙群,和北海道的丹顶鹤都在1952年被推到了灭绝的边缘,分别只有21只和33只存活。这两个物种都是由国家政府主导的重点修复工作的对象。虽然两国政府在其项目的历史上都依赖于各种各样的保护方法,但美国鱼类和野生动物管理局(FWS)主要侧重于栖息地管理,而日本环境省(MoE)及其前身则主要依赖于通过长期的冬季人工喂养计划进行直接的种群管理战略。这两个相似物种的恢复历史为比较和对比两种主要的濒危物种管理方法的相对效果提供了独特的机会:栖息地管理与通过人工饲养的直接种群管理。对这两个案例研究的初步审查表明,在瘦肉可得期人工喂养导致日本整体种群恢复速度更快,丹顶鹤种群数量的增长速度比本研究回顾的68年期间的AWB呼鸣鹤种群增长速度约为11%至26%。今天,日本的丹顶鹤数量是北美AWB鸣鹤数量的三倍多:根据丹顶鹤保护协会(RCCC)的数据,到2020年,日本的丹顶鹤数量将达到1900只,而根据FWS的数据,截至2019年,日本的丹顶鹤数量为506只。这些结果表明,日本环保主义者可能已经发现了一种确保濒危物种种群更快恢复的方法:在饲料供应最少的时候持续长期人工喂养。进一步的教训可以从这两个物种如何应对目前正在进行的变化中得出。还有很多未知之处。需要进一步的研究来消除可能解释这些人口增长结果的其他变量。但政策实施后的早期评估指出,日本的人工喂养运动是历史上数量恢复差异的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative Conservation Strategy Efficacy for Grus japonensis and Grus americana: A Post-Policy Implementation Assessment
Abstract Southeastern Texas/northern Alberta and northeastern Japan are homes to populations of two extremely similar species of cranes with similar conservation histories. The whooping crane of North America, specifically the Aransas–Wood Buffalo (AWB) migratory flock, and the red-crowned crane of Hokkaido were both pushed to the brink of extinction with surviving populations numbering 21 and 33 individuals, respectively, in 1952. Both species have been subjects of focused rehabilitation efforts led by national governments. While both governments relied on a variety of conservation methods throughout their programs’ histories, the U.S. Fish & Wildlife Service (FWS) focuses mainly on habitat management, while in Japan the Ministry of the Environment (MoE) and its predecessors lean most heavily on a direct population management strategy via a long-standing winter artificial feeding program. The recovery histories of these two similar species provide a unique opportunity for comparing and contrasting the relative efficacy of two primary endangered species management approaches: habitat management versus direct population management through artificial feeding. An initial review of these two case studies reveals indications that artificial feeding in periods of lean food availability resulted in much faster overall population recovery in Japan, with the red-crowned crane population expanding at a rate approximately 11% to 26% faster than the AWB whooping crane population over a 68-year period reviewed in this study. Today Japan’s red-crowned crane population is more than triple the size of North America’s AWB whooping crane population: 1,900 red-crowned cranes by 2020 according to the Red-Crowned Crane Conservancy (RCCC), versus 506 AWB whooping cranes as of 2019 per FWS. These results suggest Japanese conservationists may have uncovered a method for ensuring faster population recovery in an endangered species: sustained long-term artificial feeding during times of least forage availability. Further lessons can be drawn from how these two species respond to changes currently underway in both programs. Much remains unknown. Additional research is necessary to eliminate other variables that could explain these population growth outcomes. But an early post-policy implementation assessment points to the artificial feeding campaign in Japan as the reason for the differences in historical population recovery.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
14
期刊介绍: Drawing upon the findings from island biogeography studies, Norman Myers estimates that we are losing between 50-200 species per day, a rate 120,000 times greater than the background rate during prehistoric times. Worse still, the rate is accelerating rapidly. By the year 2000, we may have lost over one million species, counting back from three centuries ago when this trend began. By the middle of the next century, as many as one half of all species may face extinction. Moreover, our rapid destruction of critical ecosystems, such as tropical coral reefs, wetlands, estuaries, and rainforests may seriously impair species" regeneration, a process that has taken several million years after mass extinctions in the past.
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