Finnish Natural History Museum, University of Helsinki, P.O. Box 17, Helsinki, FI-00014, Finland.
Department of Geosciences and Geography, University of Helsinki, Helsinki, FI-00014, Finland.
Conserv Biol. 2021 Feb;35(1):197-205. doi: 10.1111/cobi.13533. Epub 2020 Jul 14.
Biodiversity offsetting is the practice of using conservation actions, such as habitat restoration, management, or protection, to compensate for ecological losses caused by development activity, including construction projects. The typical goal of offsetting is no net loss (NNL), which means that all ecological losses are compensated for by commensurate offset gains. We focused on a conceptual and methodological exploration of net positive impact (NPI), an ambitious goal that implies commitment beyond NNL and that has recently received increasing attention from big business and environmental nongovernmental organizations. We identified 3 main ways NPI could be delivered: use of an additional NPI multiplier; use of slowly developing permanent offsets to deliver additional gains after NNL has first been reached during a shorter offset evaluation time interval; and the combination of permanent offsets with partially temporary losses. An important and novel variant of the last mechanism is the use of an alternate mitigation hierarchy so that gains from the traditional third step of the mitigation hierarchy (i.e., onsite rehabilitation) are no longer be counted toward reduced offset requirements. The outcome from these 3 factors is that for the same ecological damage, larger offsets will be required than previously, thereby improving offset success. As a corollary, we show that offsets are NNL only at 1 ephemeral point in time, before which they are net negative and after which they become either NPI or net negative impact, depending on whether permanent offsets are combined with partially temporary losses or if temporary offset gains are combined with partially permanent losses. To achieve NPI, offsets must be made permanent, and they must achieve NNL during an agreed-upon offset evaluation period. An additional NPI-multiplier and use of the modified mitigation hierarchy will deliver additional NPI gains. Achieving NPI is fully conditional on prior achievement of NNL, and NNL offsets have been frequently observed to fail due to inadequate policy requirements, poor planning, or incomplete implementation. Nevertheless, achieving NPI becomes straightforward if NNL can be credibly reached first.
生物多样性补偿是利用保护行动(如栖息地恢复、管理或保护)来补偿发展活动(包括建设项目)造成的生态损失的做法。补偿的典型目标是净零损失(NNL),这意味着所有的生态损失都将通过相应的补偿增益来弥补。我们专注于净正向影响(NPI)的概念和方法探索,这是一个雄心勃勃的目标,意味着承诺超越 NNL,最近已受到大企业和环境非政府组织的越来越多的关注。我们确定了实现 NPI 的 3 种主要方式:使用额外的 NPI 乘数;使用发展缓慢的永久性补偿来在较短的补偿评估时间间隔内首先达到 NNL 后提供额外收益;以及将永久性补偿与部分临时性损失相结合。最后一种机制的一个重要且新颖的变体是使用替代缓解层次结构,以便不再将传统缓解层次结构的第三步(即现场修复)的收益计入减少补偿要求。这 3 个因素的结果是,对于相同的生态破坏,需要更大的补偿,从而提高补偿的成功率。相应地,我们表明补偿在 NNL 只有在 1 个短暂的时间点,在此之前它们是净负的,在此之后它们要么是 NPI,要么是净负面影响,这取决于是否将永久性补偿与部分临时性损失相结合,或者是否将临时性补偿收益与部分永久性损失相结合。要实现 NPI,补偿必须是永久性的,并且必须在商定的补偿评估期内达到 NNL。使用额外的 NPI 乘数和修改后的缓解层次结构将带来额外的 NPI 收益。实现 NPI 完全取决于先前是否达到 NNL,并且由于政策要求不足、规划不佳或实施不完整,经常观察到 NNL 补偿失败。然而,如果首先能够可信地达到 NNL,实现 NPI 就变得简单了。
