Predicting near-future deforestation in West African Key Biodiversity Areas to inform conservation urgency
Predicting near-future deforestation in West African Key Biodiversity Areas to inform conservation urgency
Trew, B. T.; Edwards, F. A.; Buchanan, G. M.; Sanderson, F. J.
AbstractSite-based protection is a cornerstone of 21st century conservation and a core component of global biodiversity conservation targets. However, loss of tropical forests, the most biodiverse of habitats, is a major threat to such sites. Here, we predict near-future deforestation risk in 113 Key Biodiversity Areas (KBAs) - sites of objectively defined global conservation importance - in the Guinean Forest biodiversity hotspot and identify those factors associated with loss. We find that (i) KBAs in the Guinean Forests have lost over 265,000 hectares of forest cover over the past decade, with those in Cote d\'Ivoire experiencing the highest forest loss; (ii) future deforestation risk is highest among KBAs in Liberia and Cote d\'Ivoire (on average 10% predicted loss across KBAs), where some are predicted to lose over a fifth of remaining forest cover by 2033. Models indicate that deforestation is highly contagious, with historical forest loss effectively predicting further adjacent loss, and that forest fragmentation and ease of human access also increased the localised deforestation risk. Conversely, predicted forest loss was lower in sites under some form of conservation protection. Our methods to predict near-future hotspots of deforestation risk in KBAs are reproducible and therefore applicable to other biodiversity hotspots. In the Guinean forests, our results highlight where conservation interventions to mitigate forest loss should be urgently prioritised.