Using comparative extinction risk analysis to prioritize the IUCN Red List reassessments of amphibians

IF 5.2 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Pablo Miguel Lucas, Moreno Di Marco, Victor Cazalis, Jennifer Luedtke, Kelsey Neam, Mary H. Brown, Penny F. Langhammer, Giordano Mancini, Luca Santini
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Abstract

Assessing the extinction risk of species based on the International Union for Conservation of Nature (IUCN) Red List (RL) is key to guiding conservation policies and reducing biodiversity loss. This process is resource demanding, however, and requires continuous updating, which becomes increasingly difficult as new species are added to the RL. Automatic methods, such as comparative analyses used to predict species RL category, can be an efficient alternative to keep assessments up to date. Using amphibians as a study group, we predicted which species are more likely to change their RL category and thus should be prioritized for reassessment. We used species biological traits, environmental variables, and proxies of climate and land-use change as predictors of RL category. We produced an ensemble prediction of IUCN RL category for each species by combining 4 different model algorithms: cumulative link models, phylogenetic generalized least squares, random forests, and neural networks. By comparing RL categories with the ensemble prediction and accounting for uncertainty among model algorithms, we identified species that should be prioritized for future reassessment based on the mismatch between predicted and observed values. The most important predicting variables across models were species’ range size and spatial configuration of the range, biological traits, climate change, and land-use change. We compared our proposed prioritization index and the predicted RL changes with independent IUCN RL reassessments and found high performance of both the prioritization and the predicted directionality of changes in RL categories. Ensemble modeling of RL category is a promising tool for prioritizing species for reassessment while accounting for models’ uncertainty. This approach is broadly applicable to all taxa on the IUCN RL and to regional and national assessments and may improve allocation of the limited human and economic resources available to maintain an up-to-date IUCN RL.

利用比较灭绝风险分析来确定世界自然保护联盟(IUCN)红色名录中两栖动物重新评估的优先次序。
根据世界自然保护联盟(IUCN)红色名录(RL)评估物种灭绝风险是指导保护政策和减少生物多样性损失的关键。然而,这一过程需要大量资源,而且需要不断更新,而随着新物种不断加入红色名录,更新变得越来越困难。自动方法,如用于预测物种《名录》类别的比较分析,可以有效地替代更新评估。以两栖动物为研究对象,我们预测了哪些物种更有可能改变其 RL 类别,因此应优先进行重新评估。我们利用物种的生物特征、环境变量以及气候和土地利用变化的代用指标作为 RL 类别的预测因子。我们结合了四种不同的模型算法:累积联系模型、系统发育广义最小二乘法、随机森林和神经网络,对每个物种的 IUCN RL 类别进行了集合预测。通过比较 RL 类别与集合预测值,并考虑模型算法之间的不确定性,我们根据预测值与观测值之间的不匹配程度,确定了未来应优先进行重新评估的物种。各模型中最重要的预测变量是物种的分布区大小和分布区的空间配置、生物特征、气候变化和土地利用变化。我们将提出的优先级指数和预测的RL变化与独立的世界自然保护联盟RL重新评估进行了比较,发现优先级指数和预测的RL类别变化方向性都有很高的性能。RL类别的集合建模是一种很有前途的工具,可以在考虑模型的不确定性的同时确定物种重评的优先次序。这种方法广泛适用于世界自然保护联盟区域名录中的所有分类群以及区域和国家评估,并可改善有限的人力和经济资源的分配,以维护最新的世界自然保护联盟区域名录。
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来源期刊
Conservation Biology
Conservation Biology 环境科学-环境科学
CiteScore
12.70
自引率
3.20%
发文量
175
审稿时长
2 months
期刊介绍: Conservation Biology welcomes submissions that address the science and practice of conserving Earth's biological diversity. We encourage submissions that emphasize issues germane to any of Earth''s ecosystems or geographic regions and that apply diverse approaches to analyses and problem solving. Nevertheless, manuscripts with relevance to conservation that transcend the particular ecosystem, species, or situation described will be prioritized for publication.
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