Consequences of underexplored variation in biodiversity indices used for land‐use prioritization

Crawford, Christopher L.; Estes, Lyndon; Searchinger, Timothy D.; Wilcove, David S.

doi:10.1002/eap.2396

Cited by 3 publications

(1 citation statement)

References 48 publications

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“…To compare the spatial similarity between maps of projected climate change impacts, we used a weighted version of the Jaccard similarity index 29 . The Jaccard index is a measure of the proportion of shared elements between two maps, and the weighted version allows for the comparison of two maps with values along a continuous gradient 61 . We compared maps for the predicted overlap between current and future values in TEWL, ADR, and Tair in pairs.…”

Section: Discussionmentioning

confidence: 99%

Global patterns of climate change impacts on desert bird communities

Conradie

Crawford

et al. 2023

Nat Commun

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The world’s warm deserts are predicted to experience disproportionately large temperature increases due to climate change, yet the impacts on global desert biodiversity remain poorly understood. Because species in warm deserts live close to their physiological limits, additional warming may induce local extinctions. Here, we combine climate change projections with biophysical models and species distributions to predict physiological impacts of climate change on desert birds globally. Our results show heterogeneous impacts between and within warm deserts. Moreover, spatial patterns of physiological impacts do not simply mirror air temperature changes. Climate change refugia, defined as warm desert areas with high avian diversity and low predicted physiological impacts, are predicted to persist in varying extents in different desert realms. Only a small proportion (<20%) of refugia fall within existing protected areas. Our analysis highlights the need to increase protection of refugial areas within the world’s warm deserts to protect species from climate change.

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Section: Discussionmentioning

confidence: 99%

Global patterns of climate change impacts on desert bird communities

Conradie

Crawford

et al. 2023

Nat Commun

Self Cite

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Changing determinants of international conservation funding committed to major deforestation regions in South America

Qin,

Pratzer,

Meyfroidt

et al. 2023

Biological Conservation

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The Kunming-Montreal Global Biodiversity Framework needs headline indicators that can actually monitor forest integrity

Pillay,

Watson,

Goetz

et al. 2024

Environ. Res.: Ecology

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Intact native forests under negligible large-scale human pressures (i.e. high-integrity forests) are critical for biodiversity conservation. However, high-integrity forests are declining worldwide due to deforestation and forest degradation. Recognizing the importance of high-integrity ecosystems (including forests), the Kunming-Montreal Global Biodiversity Framework (GBF) has directly included the maintenance and restoration of ecosystem integrity, in addition to ecosystem extent, in its goals and targets. Yet, the headline indicators identified to help nations monitor forest ecosystems and their integrity can currently track changes only in (1) forest cover or extent, and (2) the risk of ecosystem collapse using the IUCN Red List of Ecosystems (RLE). These headline indicators are unlikely to facilitate the monitoring of forest integrity for two reasons. First, focusing on forest cover not only misses the impacts of anthropogenic degradation on forests but can also fail to detect the effect of positive management actions in enhancing forest integrity. Second, the risk of ecosystem collapse as measured by the ordinal RLE index (from Least Concern to Critically Endangered) makes it unlikely that changes to the continuum of forest integrity over space and time would be reported by nations. Importantly, forest ecosystems in many biodiverse African and Asian nations remain unassessed with the RLE. As such, many nations will likely resort to monitoring forest cover alone and therefore inadequately report progress against forest integrity goals and targets. We concur that monitoring changes in forest cover and the risk of ecosystem collapse are indeed vital aspects of conservation monitoring. Yet, they are insufficient for the specific purpose of tracking progress against crucial ecosystem integrity components of the GBF’s goals. We discuss the pitfalls of merely monitoring forest cover, a likely outcome with the current headline indicators. Augmenting forest cover monitoring with indicators that capture change in absolute area along the continuum of forest integrity would help monitor progress toward achieving area-based targets related to both integrity and extent of global forests.

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Consequences of underexplored variation in biodiversity indices used for land‐use prioritization

Cited by 3 publications

References 48 publications

Global patterns of climate change impacts on desert bird communities

Global patterns of climate change impacts on desert bird communities

Changing determinants of international conservation funding committed to major deforestation regions in South America

The Kunming-Montreal Global Biodiversity Framework needs headline indicators that can actually monitor forest integrity

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