Extensive protected area coverage and an updated global population estimate for the Endangered Madagascar Serpent-eagle Eutriorchis astur

IF 1.5 4区环境科学与生态学 Q3 BIODIVERSITY CONSERVATION

Bird Conservation International Pub Date : 2023-02-27 DOI:10.1017/S0959270922000508

L. Sutton, Armand Benjara, Lily-Arison Rene de Roland, R. Thorstrom, C. Mcclure

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Abstract

Summary Knowledge gaps regarding distribution, habitat associations, and population size for rare and threatened range-restricted taxa lead to uncertainty in directing conservation action. Quantifying range metrics and species–habitat associations using Species Distribution Models (SDMs) with remote-sensing habitat data can overcome these setbacks by establishing baseline estimates for biological parameters critical for conservation assessments. Area of Habitat (AOH) is a new range metric recently developed by the International Union for Conservation of Nature (IUCN) Red List. AOH seeks to quantify inferred habitat within a species’ range to inform extinction risk assessments. Here, we used SDMs correlating occurrences with remote-sensing covariates to calculate a first estimate of AOH for the Endangered Madagascar Serpent-eagle Eutriorchis astur, and then updated additional IUCN range metrics and the current global population estimate. From these baselines we then conducted a gap analysis assessing protected area coverage. Our continuous SDM had robust predictive performance (Continuous Boyce Index = 0.835) and when reclassified to a binary model estimated an AOH = 30,121 km2, 13% less than the current IUCN range map. We estimated a global population of 533 mature individuals derived from the Madagascar Serpent-eagle AOH metric, which was within current IUCN population estimates. The current protected area network covered 95% of AOH, with the binary model identifying three additional key habitat areas as new protected area designations to fully protect Madagascar Serpent-eagle habitat. Our results demonstrated that correlating presence-only occurrences with remote-sensing habitat covariates can fill knowledge gaps useful for informing conservation action. Applying this spatial information to conservation planning would ensure almost full protected area coverage for this endangered raptor. For tropical forest habitat specialists, we recommend that potential predictors derived from remote sensing, such as vegetation indices and biophysical measures, are considered as covariates, along with other variables including climate and topography.

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广泛的保护区覆盖范围和濒危马达加斯加蛇鹰Eutriorchis astur的最新全球人口估计

关于珍稀和受威胁范围限制类群的分布、栖息地关联和种群规模的知识差距导致指导保护行动的不确定性。通过建立对保护评估至关重要的生物参数的基线估计，利用物种分布模型(SDMs)和遥感栖息地数据对范围度量和物种-栖息地关联进行量化可以克服这些挫折。栖息地面积(Area of Habitat, AOH)是国际自然保护联盟(IUCN)最近制定的一个新的范围度量标准。AOH试图量化一个物种范围内的推断栖息地，为灭绝风险评估提供信息。在这里，我们使用SDMs将事件与遥感协变量相关联来计算濒危马达加斯加蛇鹰的AOH，然后更新其他IUCN范围指标和当前的全球种群估计值。根据这些基线，我们进行了差距分析，评估保护区的覆盖范围。我们的连续SDM具有稳健的预测性能(连续博伊斯指数= 0.835)，当重新分类为二元模型时，估计的AOH = 30,121 km2，比目前的IUCN范围图少13%。我们从马达加斯加蛇鹰的AOH度量中估计了全球533个成熟个体的种群，这在目前的IUCN种群估计范围内。目前的保护区网络覆盖了95%的AOH，二元模型确定了另外三个关键栖息地作为新的保护区，以充分保护马达加斯加蛇鹰的栖息地。我们的研究结果表明，将仅存在的事件与遥感栖息地协变量相关联可以填补知识空白，为保护行动提供有用的信息。将这些空间信息应用到保护规划中，将确保这种濒危猛禽几乎覆盖整个保护区。对于热带森林生境专家，我们建议将来自遥感的潜在预测因子，如植被指数和生物物理测量，与包括气候和地形在内的其他变量一起视为协变量。

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来源期刊

Bird Conservation International 生物-鸟类学

CiteScore

3.40

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： Bird Conservation International is a quarterly peer-reviewed journal that seeks to promote worldwide research and action for the conservation of birds and the habitats upon which they depend. The official journal of BirdLife International, it provides stimulating, international and up-to-date coverage of a broad range of conservation topics, using birds to illuminate wider issues of biodiversity, conservation and sustainable resource use. It publishes original papers and reviews, including targeted articles and recommendations by leading experts.