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We conducted an analysis of global forest cover to reveal that 70% of remaining forest is within 1 km of the forest’s edge, subject to the degrading effects of fragmentation. A synthesis of fragmentation experiments spanning multiple biomes and scales, five continents, and 35 years demonstrates that habitat fragmentation reduces biodiversity by 13 to 75% and impairs key ecosystem functions by decreasing biomass and altering nutrient cycles. Effects are greatest in the smallest and most isolated fragments, and they magnify with the passage of time. These findings indicate an urgent need for conservation and restoration measures to improve landscape connectivity, which will reduce extinction rates and help maintain...
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Conclusions: Structurally complex landscapes support more species than simple landscapes, implying that habitat patches in complex landscapes receive a higher diversity of potential colonists from the overall species pool than do patches of the same size and quality in less complex landscapes. Thresholds/Learnings: Synopsis: Structurally complex landscapes support more species than simple landscapes, implying that habitat patches in complex landscapes receive a higher diversity of potential colonists from the overall species pool than do patches of the same size and quality in less complex landscapes. Movement across habitats is a common phenomenon in many species and the spillover of organisms from natural habitats...
Categories: Publication;
Types: Citation;
Tags: Global,
Natural cover amount,
Natural cover heterogeneity,
belowground-aboveground patterns,
beta diversity, All tags...
biodiversity,
biodiversity response,
configuration,
conservation management,
ecosystem functioning and services,
functional traits,
heterogeneity,
insurance hypothesis,
landscape composition and configuration,
landscape structure,
meso-regional,
multitrophic interactions,
resilience and stability,
spatial heterogeneity, Fewer tags
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