气候变化和能源危机促使欧盟环境法出现了前所未有的倒退

IF 7.7 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Conservation Letters Pub Date : 2023-05-25 DOI:10.1111/conl.12958
C. Javier Durá-Alema?, Marcos Moleón, Juan M. Pérez-García, David Serrano, José A. Sánchez-Zapata
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This emerging regressive environmental regulatory paradigm has been reinforced by the European Council Regulation, 2022/2577 (<span>2022</span>), which establishes a framework to accelerate the development of renewable energies by reducing administrative procedures and establishing the—risky—presumption that renewable energy installations are of overriding public interest and contribute to public health and safety. This will immediately allow such projects to benefit from a simplified assessment of the specific exemptions provided in the relevant EU environmental legislation. 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Overall, the new facilities for energy production need a wide transmission and distribution system whose adverse effects on biodiversity have been widely described (Sánchez-Zapata et al., <span>2016</span>). Thus, the amendments to the relevant EU Directive open the door to a disproportionate deterioration of species and ecosystems and are, in fact, an example of unjustified regression. We support this statement given that no compelling technical or scientific evidence demonstrates that the benefit to other public interests outweighs the ecological damage, nor other potential alternative options have been exhausted. Therefore, we encourage all actors involved, from scientists to environmental managers, policymakers and civil society, to establish an evidence-based dialogue on where and how renewable energies should be deployed. 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These impacts can erode the viability of entire populations of threatened species, as shown by bird mortality in wind farms (Carrete et al., <span>2009</span>) and habitat loss caused by solar plants in low-cost marginal soils of high ecological value (Palacín et al., <span>2023</span>). Furthermore, new hydropower developments alter the continuity and connectivity of European rivers (Wagner et al., <span>2019</span>), such as pumped hydropower systems needed to store the energy produced by wind and solar facilities (Gurung et al., <span>2016</span>). Marine ecosystems may also be widely impacted: offshore renewable energy installations that are poorly designed may cause multiple detriments, from habitat loss and collisions to noise and electromagnetic fields (Inger et al., <span>2009</span>). 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引用次数: 1

摘要

有大量证据表明,人为引起的气候变化已经对自然和人类造成了广泛的不利影响(IPCC, 2022)。向可再生能源生产模式过渡对于减少化石燃料的使用和温室气体排放至关重要(Gielen et al., 2019)。不幸的是,可再生能源生产也不能免于不利的生物多样性影响(Serrano et al., 2020)。在此,我们敦促,考虑推广可再生能源会导致令人担忧的环境法倒退,这可能严重损害生物多样性的保护。欧盟应对气候变化和生物多样性退化的战略得到了广泛的国际认可,表明经济政策和资源消耗可能与保护自然遗产相协调。为了防止全球环境法进展的倒退,2012年里约+20峰会提出了不倒退原则:如果这意味着在以前实现的环境保护水平方面倒退,则不应修改法规(Prieur, 2019)。然而,欧盟最近的气候和能源政策损害了生物多样性保护立法。作为促进欧盟可再生能源基础设施的REPowerEU计划的一部分,最近提出的通过指令2022/0160/EU (COD)修改指令2018/2001/EU的提案就是一个很好的例子。这项新规定旨在在确定可再生能源部署的“首选”领域后,加快许可发放程序,包括缩短处理档案的最后期限,简化或取消专门的环境影响评估,以及减少环境管理部门的控制。欧洲理事会第2022/2577(2022)号条例加强了这种正在出现的倒退环境监管范式,该条例建立了一个框架,通过减少行政程序和建立风险假设,即可再生能源设施优先于公共利益并有助于公共健康和安全,从而加速可再生能源的发展。这将使此类项目立即受益于对有关欧盟环境立法中规定的具体豁免的简化评估。此外,欧洲理事会条例不需要转化为每个成员国的立法,而是直接具有约束力。指令2018/2001/EU修正案将在欧盟法律之间产生重大的法律不确定性和内部冲突,因为它在实践中意味着修改更统一的欧盟法律,如关于保护自然栖息地和野生动植物的指令92/43/EEC、关于保护野生鸟类的指令2009/147/EC和关于环境影响评估的指令2011/92/UE。重要的是,理事会为修正理事会指令而通过的法律依据是《欧洲联盟运作条约》第122条,该条的目的是在某些产品特别是能源领域的产品供应遇到严重困难时采取紧急措施,而不是修正环境指令,因为欧洲联盟为这些指令制定了包括欧洲议会参加的议定书。代表公民的民主机构。这项新的修正案确立了几项避免损害生物多样性的措施。然而,虽然可再生能源的安装正在加速,但对其影响和如何避免这些影响的认识却没有以同样的速度发展(Serrano等人,2020年),特别是在协同效应和累积效应以及缓解机制和生物多样性抵消以保证不造成生物多样性和生态系统服务净损失的真正有效性方面。例如,目前在几个欧洲国家使用的估计风力涡轮机碰撞导致的允许死亡率的方法可能严重低估了脆弱鸟类种群的种群损失(Schippers等人,2020),对风电场进行的风险评估研究表明,预测死亡人数的能力很弱(Ferrer等人,2012)。在Natura 2000网络和其他指定用于生物多样性保护的保护区之外,放松可再生能源开发的环境法规的后果也存在很大的不确定性(Pérez-García等人,2022)。因此,我们预计可再生设施的扩张会对不同的分类群产生不利影响,特别是对鸟类和蝙蝠,但也会对其他不太知名的类群,如昆虫(Voigt, 2021)。这些影响会侵蚀整个受威胁物种种群的生存能力,如风电场中的鸟类死亡(Carrete等人,2009)和太阳能发电厂在高生态价值的低成本边际土壤中造成的栖息地丧失(Palacín等人,2023)。此外,新的水电开发改变了欧洲河流的连续性和连通性(Wagner等)。 , 2019),例如需要存储风能和太阳能设施产生的能量的抽水发电系统(Gurung et al., 2016)。海洋生态系统也可能受到广泛影响:设计不良的海上可再生能源装置可能造成多种损害,从栖息地丧失和碰撞到噪音和电磁场(Inger et al., 2009)。总的来说,新的能源生产设施需要一个广泛的传输和分配系统,其对生物多样性的不利影响已被广泛描述(Sánchez-Zapata等人,2016)。因此,对有关欧盟指令的修正为物种和生态系统的不成比例的恶化打开了大门,实际上是不合理退化的一个例子。我们支持这一声明,因为没有令人信服的技术或科学证据表明,其他公共利益的好处超过了生态破坏,也没有用尽其他潜在的替代方案。因此,我们鼓励从科学家到环境管理者、政策制定者和民间社会的所有参与者,就可再生能源的部署地点和方式建立基于证据的对话。例如,需要作出更多努力,明确地列出基础设施可以免于定期环境影响评估的情况。矛盾的是,虽然气候公约和生物多样性公约同时诞生,但前者可能危及大规模的生物多样性保护。此外,最近的卫生、经济和能源危机给这一情景增添了新的挫折,主要因乌克兰战争而加剧(例如,Morales等人,2022年)。欧盟环境立法范式的快速转变倾向于在地方、州和欧盟层面制度化,随之而来的是法律不确定性和合法不信任的风险。最近的欧盟2030年生物多样性战略得出结论,“保护和恢复生物多样性是保持地球上人类生活质量和连续性的唯一途径”(EU Commission 2020, COM/2020,/380)。在我们赞扬这种精神的同时,我们认为紧迫性不应掩盖重要性。应对气候变化的斗争不能成为生物多样性丧失的驱动因素。要实现这一目标,迫切需要制定规范,以保障环境立法的不倒退原则。所有作者都对本文的思想、写作和编辑做出了贡献。作者声明无利益冲突。
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Climate change and energy crisis drive an unprecedented EU environmental law regression

Evidence indicating that human-induced climate change has caused widespread adverse impacts on nature and people is overwhelming (IPCC, 2022). Transitioning to a renewable energy production model is essential to reduce fossil fuel use and greenhouse gas emissions (Gielen et al., 2019). Unfortunately, renewable energy production is not exempt from adverse biodiversity impacts (Serrano et al., 2020). Here, we urge that considering the promotion of renewable energy leads to a worrying environmental law regression, which could severely compromise biodiversity protection.

The European Union's strategies against climate change and biodiversity degradation have gained wide international recognition, showing that economic policies and resource consumption may be in tune with protecting the natural heritage. To prevent backtracking on the worldwide progress in environmental laws, the Rio+20 Summit in 2012 coined the non-regression principle: the regulation should not be revised if this means going backwards concerning the levels of environmental protection achieved previously (Prieur, 2019). However, the recent EU climate and energy policies have compromised biodiversity protective legislation.

The recently presented proposal to amend Directive 2018/2001/EU by Directive 2022/0160/EU (COD), as part of the REPowerEU plan to foster the EU's renewable energy infrastructure, is a good example. This new regulation seeks to expedite permit-granting procedures after identifying “go-to” areas for renewable energy deployment, including shorter deadlines to deal with dossiers, simplifying or suppressing dedicated environmental impact assessments, and reduced controls by environmental administrations. This emerging regressive environmental regulatory paradigm has been reinforced by the European Council Regulation, 2022/2577 (2022), which establishes a framework to accelerate the development of renewable energies by reducing administrative procedures and establishing the—risky—presumption that renewable energy installations are of overriding public interest and contribute to public health and safety. This will immediately allow such projects to benefit from a simplified assessment of the specific exemptions provided in the relevant EU environmental legislation. Moreover, the European Council Regulations do not require transposition into the legislation of each Member State but are directly binding.

The Directive 2018/2001/EU amendment would create significant legal uncertainty and internal conflicts between EU laws, as it implies in practice amending more consolidated EU laws, such as Directive 92/43/EEC on the conservation of natural habitats and of wild fauna and flora, Directive 2009/147/EC on conservation of wild birds and Directive 2011/92/UE on environmental impact assessment. Importantly, the legal basis that the Council adopted to amend Council Directives is Article 122 of the Treaty on the Functioning of the European Union (TFUE), which is designed to adopt emergency measures in the face of severe difficulties in the supply of certain products, especially in the field of energy, and not to amend environmental Directives for which the TFEU establishes protocols that include the participation of the European Parliament, the body of democratic representation of citizens.

This new amendment establishes several measures to avoid harming biodiversity. However, while the installation of renewables is accelerating, the knowledge of their impacts and how to avoid them has not progressed at the same speed (Serrano et al., 2020), particularly concerning synergistic and cumulative effects and the real effectiveness of mitigation mechanisms and biodiversity offsets to guarantee no net loss of biodiversity and ecosystem services. For example, methods to estimate allowable mortality resulting from wind turbine collisions currently used in several European countries may severely underestimate population losses in vulnerable bird populations (Schippers et al., 2020), and risk assessment studies conducted on wind farms have shown a weak ability to predict the number of fatalities (Ferrer et al., 2012). There are also significant uncertainties about the consequences of relaxing environmental regulations for renewable energy development outside the Natura 2000 network and other protected areas designated for biodiversity conservation (Pérez-García et al., 2022).

Therefore, we expect detrimental effects on different taxa due to the expansion of renewable facilities, particularly on birds and bats, but also on other less-known groups, such as insects (Voigt, 2021). These impacts can erode the viability of entire populations of threatened species, as shown by bird mortality in wind farms (Carrete et al., 2009) and habitat loss caused by solar plants in low-cost marginal soils of high ecological value (Palacín et al., 2023). Furthermore, new hydropower developments alter the continuity and connectivity of European rivers (Wagner et al., 2019), such as pumped hydropower systems needed to store the energy produced by wind and solar facilities (Gurung et al., 2016). Marine ecosystems may also be widely impacted: offshore renewable energy installations that are poorly designed may cause multiple detriments, from habitat loss and collisions to noise and electromagnetic fields (Inger et al., 2009). Overall, the new facilities for energy production need a wide transmission and distribution system whose adverse effects on biodiversity have been widely described (Sánchez-Zapata et al., 2016). Thus, the amendments to the relevant EU Directive open the door to a disproportionate deterioration of species and ecosystems and are, in fact, an example of unjustified regression. We support this statement given that no compelling technical or scientific evidence demonstrates that the benefit to other public interests outweighs the ecological damage, nor other potential alternative options have been exhausted. Therefore, we encourage all actors involved, from scientists to environmental managers, policymakers and civil society, to establish an evidence-based dialogue on where and how renewable energies should be deployed. For example, more efforts are needed to unambiguously set out the cases in which infrastructures could be exempted from regular environmental impact assessments.

Paradoxically, although climate and biodiversity conventions were born together, the former might jeopardize large-scale biodiversity conservation. Furthermore, recent sanitary, economic, and energy crises add a new setback to this scenario, primarily exacerbated by the war in Ukraine (e.g., Morales et al., 2022). The rapid shift in the EU environmental legislation paradigm tends to become institutionalized at the local, state, and EU levels, with the added consequent risk of legal uncertainty and legitimate mistrust. The recent EU Biodiversity Strategy for 2030 concludes that “protecting and restoring biodiversity is the only way to preserve the quality and continuity of human life on Earth” (EU Commission 2020, COM/2020,/380). While we applaud this spirit, we think the urgency should not overshadow what is important. The fight against climate change cannot become a driver of biodiversity loss. Achieving this goal will require urgent norms to safeguard the non-regression principle of environmental legislation.

All authors contributed to the ideas, writing, and editing of this paper.

The authors declare no conflict of interest.

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来源期刊
Conservation Letters
Conservation Letters BIODIVERSITY CONSERVATION-
CiteScore
13.50
自引率
2.40%
发文量
70
审稿时长
>12 weeks
期刊介绍: Conservation Letters is a reputable scientific journal that is devoted to the publication of both empirical and theoretical research that has important implications for the conservation of biological diversity. The journal warmly invites submissions from various disciplines within the biological and social sciences, with a particular interest in interdisciplinary work. The primary aim is to advance both pragmatic conservation objectives and scientific knowledge. Manuscripts are subject to a rapid communication schedule, therefore they should address current and relevant topics. Research articles should effectively communicate the significance of their findings in relation to conservation policy and practice.
期刊最新文献
How Do We Identify Anthropogenic Allee Effects in the Wildlife Trade? Issue Information Moving beyond simplistic representations of land use in conservation Identifying Pareto-efficient eradication strategies for invasive populations Genetic variation and hybridization determine the outcomes of conservation reintroductions
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