Planning for the Restoration of Functional Connectivity in Brazil

Journal of Biogeography, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 20, 2025

ABSTRACT Aim Land use and land cover (LULC) change is the main driver of biodiversity loss, causing habitat loss fragmentation that hinders species movement negatively impacts populations. While fragments are structurally disconnected, functional connectivity can still occur depending on species' dispersal abilities. Incorporating landscape into restoration planning helps identify strategic areas significantly enhancing connectivity. Here, we present an unprecedented, nationwide continuous spatial layer representing each restorable pixel's contribution to connectivity, using Brazil as a case study. Location Brazil. Methods We performed dynamic pixel‐based analysis across Brazilian biome assess potential increases in Integral Index Connectivity (IIC) resulting from restoring pixel landscape. For that, defined hypothetical with medium, high very abilities calculated IIC for different natural LULC biome. Then, ran Results Our dataset represents relative landscape, considering all Since assessing contributions individual pixels overall most values expectedly low. However, highest show stand‐alone biome‐wide thus were interpreted priorities restoration. Notably, nested regions restoration, trend higher priority rankings (e.g., top 5% important regions) being surrounded by subsequent priorities. Main Conclusions study first evaluate impact efforts biomes. identified within biome, providing valuable information guide decision‐making policy implementation. The innovative used be replicated other regions, aiming make more efficient.

Language: Английский

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A framework for the construction of effective landscape ecological network with integrating hydrological connectivity: A case study in Dongjiang River Basin, China

Journal of Environmental Management, Journal Year: 2025, Volume and Issue: 376, P. 124509 - 124509

Published: Feb. 15, 2025

Language: Английский

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Urban planning for wildlife connectivity: A multispecies assessment of urban sprawl and SLOSS renaturalization strategies

Journal of Applied Ecology, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 14, 2025

Abstract Urban areas are under constant pressure to accommodate more people, leading an increase in built surface, further reducing and fragmenting wildlife habitat within around cities. Nonetheless, populations may persist by using a network of fragments, such as urban green areas, but only if functionally interconnected. Therefore, proactive approach considering prospective landscape connectivity changes, following proposed developments, potential mitigation strategies is needed. We predicted present‐day for six taxa, the Greater Toronto Area, changes across three future scenarios which include conversion agriculture developed land with (1) no strategies, (2) renaturalization single‐large (3) small widespread areas. used Omniscape identify shared movement corridors Graphab estimate importance each patch overall ( IIC k ), isolation degree patches (node degree) distribution stepping‐stone (betweenness centrality). validated our assessment through road mortality risk near corridors. Without developments will currently near‐isolated nearby stepping‐stones. There be shift remnant newly land, fragmentation key connecting peripheral inner‐city forested Mitigation renaturalized provided best outcome terms can compensate loss new developments. The validation analysis supported modelling revealed that was elevated roads intersecting This finding strongly indicates act barriers should explicitly addressed natural heritage or greenspace planning. Synthesis applications . Notably, smaller widely distributed serve practical effective management strategy balancing trade‐offs among economic costs, expansion conservation. To effectively support biodiversity conservation goals, 30 × target, these ideally connected larger infrastructure.

Language: Английский

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Rebalancing River Lateral Connectivity: An Interdisciplinary Focus for Research and Management

Wiley Interdisciplinary Reviews Water, Journal Year: 2024, Volume and Issue: 12(1)

Published: Dec. 26, 2024

ABSTRACT Lateral connectivity between rivers and terrestrial landscapes is critical for both river landscape health. Due to widespread anthropogenic degradation of riverscapes, management aiming connect floodplains, riparian zones, wetlands, putting a spotlight on lateral connectivity. However, there currently no consensus how conceptualize study in across disciplines. Here, we review riverscapes landscapes. We focus the natural sciences, considering hydrology, geomorphology, ecology biogeochemistry, but also consider social restoration emphasize importance bidirectional nature connectivity, operating into out channels balance these directions. The resulting “lateral balance” provides framework understand spatial temporal variability Anthropogenic impacts have swung enhancing transport materials through networks while suppressing fluxes from adjacent conclude that further research at interfaces aquatic components advance our conceptual understanding catchment systems. propose such should be framed within paradigm “rebalancing” explicitly recognizing bidirectionality laterally connecting processes, significance hydrologic, geomorphic, biologic functions they support, value society ecosystem services climate change resilience provide.

Language: Английский

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