Species are disappearing worldwide with increasing rates through time, especially in the tropics. The human-induced impacts have a pivotal role in the discussion about the cause of these extinctions events. Although researchers are nearly unanimous about the current biodiversity crisis, there is still a debate about how these human-induced impacts affect biodiversity across different geographical scales. While our perception about landscape modification promoted by deforestation occurs at local scales, we treat the increase of greenhouse gas emissions and its consequences from a global perspective. This diffuse view about different processes but potential assembling properties illustrates the importance of combining small and broad scales to improve our conservation actions and decelerate extinction events. Here, we propose an integrated framework (Ecoland) combining landscape ecology and macroecology for niche modeling applications, aiming to disentangle the effects of human-induced impacts on biodiversity and guide conservation tasks at multiple scales. We demonstrated the EcoLand application using a dataset of fruit-feeding butterfly species occurrence from the Atlantic Forest. Our findings highlight the impact of the land-use modification on the number of butterfly species. Finally, we discuss the method implications, its limitations and perspectives, and how it the Ecoland can help us to design conservation strategies aiming at the maintenance of biodiversity and its related policy practices.
Ecoland: A multiscale niche modelling framework to improve predictions on biodiversity and conservation
Year: 2021
