Snow leopards or solar parks? Reconciling wildlife conservation and green energy development in the high Himalaya

IF 4.9 1区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Biological Conservation Pub Date : 2024-09-24 DOI:10.1016/j.biocon.2024.110793

Jenis Patel , Munib Khanyari , Rumaan Malhotra , Udayan Rao Pawar , Ajay Bijoor , Deepshikha Sharma , Kulbhushansingh Suryawanshi

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引用次数: 0

Abstract

Harnessing green energy from sources like the sun is important to meet increasing global energy demands while reducing dependence on fossil fuel and mitigating climate change. However, the potential negative effects of green energy, especially concerning local biodiversity, are frequently overlooked. We use a case study from Trans-Himalayan India to discuss how green energy development, in our case proposed large-scale solar parks containing 13 solar sites, can be reconciled with wildlife conservation. We use detection-non-detection data for snow leopards with bioclimatic covariates using single-season single-species occupancy model to build a habitat suitability model. We prioritise development scenarios, to ensure the aim of snow leopard conservation, by operationalizing the step-wise (avoid>minimise>remediate>offset) Mitigation Hierarchy (MH). All of the 13 proposed solar plant sites fall within areas of high snow leopard suitability (>0.5). Applying the sequential MH framework, to “avoid” any impact would require either complete halt of all construction of the solar parks, or identifying alternative sites where the suitability for snow leopards is lower. However, collaborative planning is needed to fully implement this framework such that both objectives - solar energy generation and snow leopard conservation - can be optimally decided. We acknowledge that such decisions need integration of local people's perspective, which needs further elucidation. We advocate for a nuanced, data-driven, approach to reconcile conservation aims with development.

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雪豹还是太阳能公园？喜马拉雅高原野生动物保护与绿色能源开发之间的协调

利用太阳等绿色能源对于满足全球日益增长的能源需求，同时减少对化石燃料的依赖和减缓气候变化非常重要。然而，绿色能源的潜在负面影响，尤其是对当地生物多样性的影响，却经常被忽视。我们以印度跨喜马拉雅山地区的一个案例为研究对象，讨论绿色能源开发（在我们的案例中，拟建的大型太阳能公园包含 13 个太阳能发电站）如何与野生动植物保护相协调。我们利用雪豹的探测-非探测数据和生物气候协变量，使用单季单物种占用模型建立了栖息地适宜性模型。我们通过实施阶梯式（避免>最小化>补救>抵消）减缓层次结构（MH）来确定开发方案的优先次序，以确保实现保护雪豹的目标。拟议的 13 个太阳能发电厂厂址均位于雪豹适宜度较高的区域（>0.5）内。应用顺序缓解等级 (MH) 框架，要 "避免 "任何影响，要么完全停止所有太阳能园区的建设，要么确定雪豹适宜度较低的替代地点。然而，要全面实施这一框架，就必须进行合作规划，从而以最佳方式决定太阳能发电和雪豹保护这两个目标。我们承认，这种决策需要结合当地人的观点，这一点需要进一步阐明。我们主张采用细致入微、数据驱动的方法来协调保护目标与发展之间的关系。

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

Biological Conservation 环境科学-环境科学

CiteScore

10.20

自引率

3.40%

发文量

295

审稿时长

61 days

期刊介绍： Biological Conservation is an international leading journal in the discipline of conservation biology. The journal publishes articles spanning a diverse range of fields that contribute to the biological, sociological, and economic dimensions of conservation and natural resource management. The primary aim of Biological Conservation is the publication of high-quality papers that advance the science and practice of conservation, or which demonstrate the application of conservation principles for natural resource management and policy. Therefore it will be of interest to a broad international readership.