Litcius/Paper detail

Identify priority protected areas for biodiversity conservation adapting to future climate and land cover changes

Ruixue Liu, Huilin Kong, Qixuan Wang, Yun Li

2025Ecological Indicators13 citationsDOIOpen Access PDF

Abstract

• An integrated modeling approach to identify PPAs was proposed. • Changes of PPAs were explored under the effects of climate and land cover changes. • The conservation value of PPAs will diminish in the future. • Climate and land cover changes will reduce the effectiveness of existing PAs. • Biodiversity conservation strategies to respond to future changes were suggested. Biodiversity, essential for sustainable development, faces threats from climate and land cover changes, which are the primary drivers of biodiversity loss. While previous studies have proposed approaches to identify priority protected areas (PPAs) for biodiversity conservation and simulated regional biodiversity responses to climate change or land cover change, however, they often fail to accurately identify PPAs and neglect the combined effects of climate and land cover changes on biodiversity. This study fills these gaps by proposing an integrated modeling approach with MaxEnt, InVEST, and Zonation to identify PPAs by prioritizing rare and endangered species, and exploring the spatial–temporal dynamics of these PPAs under the combined effects of climate and land cover changes from 2020 to 2050 by predicting land cover dynamics under the shared socioeconomic pathway (SSP) scenarios (SSP126, SSP245 and SSP585). Conservation gaps are revealed by spatial overlay analyses between these PPAs and existing protected areas. The spatial pattern of PPAs in Shenzhen is concentrated in the southeast with poor connectivity in the west. Primary PPAs are predominantly located in the southeast, secondary PPAs are mainly found on the periphery of the primary ones, and tertiary PPAs are scattered with limited connectivity across central, west, and northeast regions. From 2020 to 2050, biodiversity faces significant threats due to climate and land cover changes, resulting in a notable reduction in primary PPAs and increased habitat fragmentation within PPAs. In 2020, 70.19 % of the PPAs in Shenzhen were within existing PAs, with 89.66 % of primary PPAs covered. Conservation gaps are mainly in secondary and tertiary PPAs. Climate and land cover changes will diminish the effectiveness of existing PAs from 2020 to 2050. Spatial management suggestions for biodiversity conservation are proposed to mitigate challenges posed by climate and land cover changes.

Topics & Concepts

BiodiversityLand coverBiodiversity conservationEnvironmental resource managementClimate changeCover (algebra)GeographyLand useEnvironmental scienceAgroforestryEcologyBiologyEngineeringMechanical engineeringLand Use and Ecosystem ServicesConservation, Biodiversity, and Resource ManagementSpecies Distribution and Climate Change