Cindy C.P. Cosset scite author profile

Selective logging is the most prevalent land-use change in the tropics. Despite the resulting degradation of forest structure, selectively logged forests still harbor a substantial amount of biodiversity leading to suggestions that their protection is the next best alternative to conserving primary, old-growth forests. Restoring carbon stocks under Reducing Emissions from Deforestation and Forest Degradation (REDD+) schemes is a potential method for obtaining funding to protect logged forests, via enrichment planting and liberation cutting of vines. This study investigates the impacts of restoring logged forests in Borneo on avian phylogenetic diversity, the total evolutionary history shared across all species within a community, and on functional diversity, with important implications for the protection of evolutionarily unique species and the provision of many ecosystem services. Overall and understorey avifaunal communities were studied using point count and mist netting surveys, respectively. Restoration caused a significant loss in phylogenetic diversity and MPD (mean pairwise distance) leaving an overall bird community of less total evolutionary history and more closely related species compared to unlogged forests, while the understorey bird community had MNTD (mean nearest taxon distance) that returned toward the lower levels found in a primary forest, indicating more closely related species pairs. The overall bird community experienced a significant loss of functional strategies and species with more specialized traits in restored forests compared to that of unlogged forests, which led to functional clustering in the community. Restoration also led to a reduction in functional richness and thus niches occupied in the understorey bird community compared to unlogged forests. While there are additional benefits of restoration for forest regeneration, carbon sequestration, future timber harvests, and potentially reduced threat of forest conversion, this must be weighed against the apparent loss of phylogenetic and functional diversity from unlogged forest levels, making the biodiversity-friendliness of carbon sequestration schemes questionable under future REDD+ agreements. To reduce perverse biodiversity outcomes, it is important to focus restoration only on the most degraded areas or at reduced intensity where breaks between regimes are incorporated.

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Sparing land for secondary forest regeneration protects more tropical biodiversity than land sharing in cattle farming landscapes

Edwards

Massam

Cosset

et al. 2021

Current Biology

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Impacts of selective logging on avian phylogenetic and functional diversity in the Amazon

Mestre

Cosset

Nienow

et al. 2020

Animal Conservation

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Selective logging is the most extensive land use threatening tropical forests worldwide, making our understanding of its impacts on biodiversity vital for the conservation of these hyperdiverse ecosystems. We investigated the effects of selective logging on the phylogenetic and functional diversity (FD) of Amazonian forest avifauna. We sampled the overall and the understorey bird community using point counts and mist-netting, respectively, in logged and unlogged forests. The overall bird community showed significantly lower phylogenetic diversity (PD) and FD in logged than unlogged forests, but significantly higher standard effect size (ses) of PD, ses mean pairwise distance (MPD), mean nearest taxon distance (MNTD), ses functional MPD (sesfMPD) and functional MNTD (fMNTD) in logged sites. Evolutionary distinctiveness, sesMPD, sesFD, fMNTD and sesfMNTD of understorey birds were significantly higher in logged forests. Higher logging intensity affected some metrics negatively and others positively, although the relatively small changes in phylogenetic and FD suggest limited overall effects from logging at lower intensity. In combination, selective logging brings deleterious effects for some components of phylogenetic and FD of the overall Amazonian bird community. Nonetheless, selectively logged forests retain important avian diversity, underscoring their high conservation value. Relatively, low impacts of selective logging may be due to the reduced-impact logging (RIL) techniques used, high connectivity with well-preserved unlogged forests or focus on short-term logging impacts. Because even low-intensity RIL causes some losses in evolutionary history and functional traits, an optimal approach for conserving phylogenetic and FD requires incorporating some land-sparing logging to protect more old-growth patches within the logged matrix. Animal Conservation.

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Impacts of tropical forest disturbance on species vital rates

Cosset

Gilroy

Edwards

2018

Conservation Biology

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Tropical forests are experiencing enormous threats from deforestation and habitat degradation. Much knowledge of the impacts of these land-use changes on tropical species comes from studies examining patterns of richness and abundance. Demographic vital rates (survival, reproduction, and movement) can also be affected by land-use change in a way that increases species vulnerability to extirpation, but in many cases these impacts may not be manifested in short-term changes in abundance or species richness. We conducted a literature review to assess current knowledge and research effort concerning how land-use change affects species vital rates in tropical forest vertebrates. We found a general paucity of empirical research on demography across taxa and regions, with some biases toward mammals and birds and land-use transitions, including fragmentation and agriculture. There is also considerable between-species variation in demographic responses to land-use change, which could reflect trait-based differences in species sensitivity, complex context dependencies (e.g., between-region variation), or inconsistency in methods used in studies. Efforts to improve understanding of anthropogenic impacts on species demography are underway, but there is a need for increased research effort to fill knowledge gaps in understudied tropical regions and taxa. The lack of information on demographic impacts of anthropogenic disturbance makes it difficult to draw definite conclusions about the magnitude of threats to tropical ecosystems under anthropogenic pressures. Thus, determining conservation priorities and improving conservation effectiveness remains a challenge.

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Selective logging reduces body size in omnivorous and frugivorous tropical forest birds

Messina

Tomassi

Cosset

et al. 2021

Biological Conservation

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Cindy C.P. Cosset

The effects of restoring logged tropical forests on avian phylogenetic and functional diversity

Sparing land for secondary forest regeneration protects more tropical biodiversity than land sharing in cattle farming landscapes

Impacts of selective logging on avian phylogenetic and functional diversity in the Amazon

Impacts of tropical forest disturbance on species vital rates

Selective logging reduces body size in omnivorous and frugivorous tropical forest birds

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