Biodiversity Conservation Strategies From No Net Loss to Net Gain. A Multidimensional Accounting Method

IF 7.3 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Earths Future Pub Date : 2024-10-07 DOI:10.1029/2024EF004652
Ningyu Yan, Gengyuan Liu, Sergio Ulgiati, Zhifeng Yang
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Abstract

Biodiversity credits are increasingly recognized as a potential instrument to incentivize and bolster efforts in biodiversity conservation. Nevertheless, their efficacy is impeded by a dearth of research. To mitigate these constraints, this study introduces a comprehensive and integrated framework for appraising biodiversity credits. Drawing upon the Emergy Accounting methodology, the framework encompasses four key perspectives: Emergy-based Ecosystem Potential (EEP), Emergy-based Ecosystem Network (EEN), Emergy-based “Species' to Human” contributions (ESH), and Emergy-based Species' Significance. Furthermore, this study scrutinizes the trajectory of biodiversity credits across 31 provinces spanning from 2000 to 2050, considering 220 distinct scenarios. The findings reveal that China has attained the no net loss (NNL) objective concerning conventional area-based conservation targets, with forest cover encompassing 27% of the total land area. However, biodiversity credits at the ecosystem level exhibit an escalating trend, with growth rates ranging from 0.73% to 1.0%, while credits at the species level depict a decremental trend, with an approximate growth rate of −0.21%. Under a scenario of moderate growth, projections for the year 2030 indicate that the EEP credit is poised to accrue approximately 4.76E + 20 solar emjoules (sej), the EEN credit is forecasted to accumulate around 1.03E + 21 sej, and the ESH credit is anticipated to decline by 1.46E + 23 sej within the context of the NNL paradigm. These outcomes underscore the necessity of delineating differentiated biodiversity goals, and furnish insights into the dynamics of supply and demand pertaining to biodiversity credits within the ambit of offsetting schemes across the nation.

Abstract Image

从无净损失到净收益的生物多样性保护战略。多维核算方法
人们日益认识到,生物多样性信用额是激励和支持生物多样性保护工作的潜在工具。然而,研究的匮乏阻碍了其功效的发挥。为了缓解这些制约因素,本研究引入了一个全面综合的生物多样性信用额度评估框架。该框架借鉴了新兴能源核算方法,包含四个关键视角:基于应急能量的生态系统潜力 (EEP)、基于应急能量的生态系统网络 (EEN)、基于应急能量的 "物种对人类 "贡献 (ESH) 以及基于应急能量的物种重要性。此外,本研究还对 2000 年至 2050 年期间 31 个省份的生物多样性信用轨迹进行了仔细研究,并考虑了 220 种不同的情景。研究结果表明,在传统的基于面积的保护目标方面,中国已经实现了无净损失(NNL)目标,森林覆盖率达到土地总面积的 27%。然而,生态系统层面的生物多样性积分呈上升趋势,增长率在 0.73% 到 1.0% 之间,而物种层面的积分呈下降趋势,增长率约为-0.21%。在适度增长的情况下,对 2030 年的预测表明,在无观测效应模式下,EEP 信用值将累积约 4.76E + 20 太阳辐射热量(sej),EEN 信用值预计将累积约 1.03E + 21 sej,ESH 信用值预计将下降 1.46E + 23 sej。这些结果表明,有必要划定不同的生物多样性目标,并深入了解全国抵消计划范围内生物多样性信用额度的供需动态。
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来源期刊
Earths Future
Earths Future ENVIRONMENTAL SCIENCESGEOSCIENCES, MULTIDI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
11.00
自引率
7.30%
发文量
260
审稿时长
16 weeks
期刊介绍: Earth’s Future: A transdisciplinary open access journal, Earth’s Future focuses on the state of the Earth and the prediction of the planet’s future. By publishing peer-reviewed articles as well as editorials, essays, reviews, and commentaries, this journal will be the preeminent scholarly resource on the Anthropocene. It will also help assess the risks and opportunities associated with environmental changes and challenges.
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