Optimal harvesting in a changing climate

IF 1.2 4区 地球科学 Q4 ENVIRONMENTAL SCIENCES
Climate Research Pub Date : 2021-08-12 DOI:10.3354/CR01658
A. Lee, B. Sæther
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引用次数: 1

Abstract

Choosing the right harvesting strategy is crucial for sustainable utilization of biological resources but is challenging in real systems with fluctuating environments. This challenge is expected to become even greater with global warming, as environmental variability is predicted to increase. Additionally, harvesting strategies based on single-species models have been shown to carry a severe risk of species extinctions when species interactions are ignored, particularly in systems with more than one harvested species. As the climate continues to warm, we therefore need new reference points for harvesting in an ecosystem context with environmental fluctuations. In this paper, we discuss the development of harvesting strategies and suggest that a proportional threshold harvesting framework could be a useful starting point for developing such reference points and tackling the challenge of sustainable harvesting in the future.
气候变化下的最佳收获
选择正确的收获策略对生物资源的可持续利用至关重要,但在具有波动环境的实际系统中具有挑战性。随着全球变暖,预计这一挑战将变得更大,因为预计环境变异性将增加。此外,当忽略物种之间的相互作用时,基于单物种模型的收获策略会带来物种灭绝的严重风险,特别是在有多个收获物种的系统中。随着气候持续变暖,我们需要在环境波动的生态系统背景下进行采伐的新参考点。在本文中,我们讨论了采伐策略的发展,并建议比例阈值采伐框架可能是开发此类参考点和应对未来可持续采伐挑战的有用起点。
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
Climate Research
Climate Research 地学-环境科学
CiteScore
2.90
自引率
9.10%
发文量
25
审稿时长
3 months
期刊介绍: Basic and applied research devoted to all aspects of climate – past, present and future. Investigation of the reciprocal influences between climate and organisms (including climate effects on individuals, populations, ecological communities and entire ecosystems), as well as between climate and human societies. CR invites high-quality Research Articles, Reviews, Notes and Comments/Reply Comments (see Clim Res 20:187), CR SPECIALS and Opinion Pieces. For details see the Guidelines for Authors. Papers may be concerned with: -Interactions of climate with organisms, populations, ecosystems, and human societies -Short- and long-term changes in climatic elements, such as humidity and precipitation, temperature, wind velocity and storms, radiation, carbon dioxide, trace gases, ozone, UV radiation -Human reactions to climate change; health, morbidity and mortality; clothing and climate; indoor climate management -Climate effects on biotic diversity. Paleoecology, species abundance and extinction, natural resources and water levels -Historical case studies, including paleoecology and paleoclimatology -Analysis of extreme climatic events, their physicochemical properties and their time–space dynamics. Climatic hazards -Land-surface climatology. Soil degradation, deforestation, desertification -Assessment and implementation of adaptations and response options -Applications of climate models and modelled future climate scenarios. Methodology in model development and application
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