Energetic sustainability in the Amazon region: Exploring impacts, environmental solutions, and rebound effect analysis

IF 4.7 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Environmental Development Pub Date : 2024-07-25 DOI:10.1016/j.envdev.2024.101043
Fábio de Oliveira Neves , Eduardo Gomes Salgado , Jean Marcel Sousa Lira
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Abstract

The Amazon, a vital global ecosystem, renowned for biodiversity and climate regulation, faces unprecedented challenges due to escalating non-renewable energy consumption. This article sheds light on climate change's implications, exploring the intricate interplay in Amazon sustainability. The focus is on comprehending the impacts and exploring potential solutions to mitigate adverse effects. The research spans from 2002 to 2022, covering countries such as Brazil, Bolivia, Colombia, Peru, Venezuela, and Ecuador. This broad geographic and temporal scope provides valuable insights into the dynamic changes occurring in the Amazon region over the years. Employing a robust methodological approach, double log regression analysis is utilized as a powerful tool for a precise examination of the complex relationships between energy consumption, environmental preservation, and sustainable development. The study incorporates various estimators, including Non-Renewable Energy (EnR), Forest Area (FA), Forest Income (FI), Endangered Mammals (EM), Endangered Birds (EB), Endangered Fish (EF), Endangered Plants (EP), Freshwater Capitation (FC), Greenhouse Gases (GHG), Socioeconomic Factors (SF), Water Availability (WA). This comprehensive list enhances clarity and transparency, ensuring a thorough understanding of the research methods. The study uncovers the wide-ranging impact of growing non-renewable energy demand on Amazon biodiversity, forests, and species vulnerability, driven by direct rebound effects. It highlights both the backfire and super conservation effects, emphasizing the need for strategic, holistic approaches to energy and environmental management. Navigating this balance, the research informs decisions for a sustainable Amazon future, fostering awareness and inspiring action toward environmental stewardship and global conservation.

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亚马逊地区的能源可持续性:探索影响、环境解决方案和反弹效应分析
亚马逊是一个重要的全球生态系统,以生物多样性和气候调节而闻名于世,但由于不可再生能源消耗不断增加,亚马逊面临着前所未有的挑战。本文揭示了气候变化的影响,探讨了亚马逊可持续发展中错综复杂的相互作用。重点在于理解气候变化的影响,并探索减轻不利影响的潜在解决方案。研究时间跨度从 2002 年到 2022 年,涵盖巴西、玻利维亚、哥伦比亚、秘鲁、委内瑞拉和厄瓜多尔等国家。这一广泛的地理和时间范围为了解亚马逊地区多年来发生的动态变化提供了宝贵的见解。采用稳健的方法论,双对数回归分析被用作精确检验能源消耗、环境保护和可持续发展之间复杂关系的有力工具。研究采用了多种估算指标,包括不可再生能源(EnR)、森林面积(FA)、森林收入(FI)、濒危哺乳动物(EM)、濒危鸟类(EB)、濒危鱼类(EF)、濒危植物(EP)、淡水资源量(FC)、温室气体(GHG)、社会经济因素(SF)、水资源可用性(WA)。这份全面的清单提高了清晰度和透明度,确保了对研究方法的透彻理解。该研究揭示了在直接反弹效应的驱动下,日益增长的不可再生能源需求对亚马逊生物多样性、森林和物种脆弱性的广泛影响。研究同时强调了反弹效应和超级保护效应,强调了对能源和环境管理采取战略性整体方法的必要性。通过这种平衡,研究为亚马逊未来的可持续发展提供了决策依据,提高了人们对环境管理和全球保护的认识,并激励人们采取行动。
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来源期刊
Environmental Development
Environmental Development Social Sciences-Geography, Planning and Development
CiteScore
8.40
自引率
1.90%
发文量
62
审稿时长
74 days
期刊介绍: Environmental Development provides a future oriented, pro-active, authoritative source of information and learning for researchers, postgraduate students, policymakers, and managers, and bridges the gap between fundamental research and the application in management and policy practices. It stimulates the exchange and coupling of traditional scientific knowledge on the environment, with the experiential knowledge among decision makers and other stakeholders and also connects natural sciences and social and behavioral sciences. Environmental Development includes and promotes scientific work from the non-western world, and also strengthens the collaboration between the developed and developing world. Further it links environmental research to broader issues of economic and social-cultural developments, and is intended to shorten the delays between research and publication, while ensuring thorough peer review. Environmental Development also creates a forum for transnational communication, discussion and global action. Environmental Development is open to a broad range of disciplines and authors. The journal welcomes, in particular, contributions from a younger generation of researchers, and papers expanding the frontiers of environmental sciences, pointing at new directions and innovative answers. All submissions to Environmental Development are reviewed using the general criteria of quality, originality, precision, importance of topic and insights, clarity of exposition, which are in keeping with the journal''s aims and scope.
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