Effects of land‐use change on community diversity and composition are highly variable among functional groups

Graham, Stuart I.; Kinnaird, Margaret F.; O’Brien, Timothy G.; Vågen, Tor-Gunnar; Winowiecki, Leigh A.; Young, Truman P.; Young, Hillary S.

doi:10.1002/eap.1973

Cited by 24 publications

(17 citation statements)

References 73 publications

(163 reference statements)

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“…Despite the largely negative impact of anthropogenic land-use change for many plants and large animals, a mosaic of forest with pastoral and agricultural land can provide habitat for small-mammals and a diverse array of plant species [45]. The ability of plant species to cross the matrix varies by species and the make-up of the matrix (e.g., agriculture, towns, roads), which indicates that distance alone cannot determine which species are most affected by fragmentation and that modification of the matrix can reduce the extinction risk of species in fragments [46].…”

Section: Discussionmentioning

confidence: 99%

Tree Community Composition and Dispersal Syndrome Vary with Human Disturbance in Sacred Church Forests in Ethiopia

Woods

Mekonnen

Baez-Schon

et al. 2020

Forests

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Research Highlights: Variations in species composition across church forests in northern Ethiopia were driven more by variations in human disturbance and community forest management than forest size. The degree of human disturbance acted as an environmental filter that selected for weedy, exotic, and wind-dispersed species regardless of forest size. Background and Objectives: Forest fragmentation can profoundly influence the long-term persistence of forests on the landscape. Habitat fragmentation can increase edge effects and limit dispersal between forest patches. In the South Gondar Administrative Zone in northern Ethiopia, many of the remaining forests are small sacred church forests governed by the Ethiopian Orthodox Tewahido Church. Materials and Methods: We examined the drivers of woody plant species composition across 46 church forests in this region, including the influence of elevation, forest size, distance between forests, human disturbance, the presence of a wall, and the importance of local/individual community forest management at the Woreda level. We also examined how dispersal syndromes are influenced by increasing distance between forests and the extent of human disturbance within forests. Results: We found that elevational zone, distance between forests, the degree of human disturbance and Woreda had the greatest effect on species composition. Forest size and the presence of a wall were not significant drivers of species composition in these forests. Conclusions: We propose connecting forests through corridors or scattered trees to increase dispersal between forests, and greater on-the-ground protection efforts to restrict people and cattle from leaving the main trails within sacred forests.

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Section: Discussionmentioning

confidence: 99%

Tree Community Composition and Dispersal Syndrome Vary with Human Disturbance in Sacred Church Forests in Ethiopia

Woods

Mekonnen

Baez-Schon

et al. 2020

Forests

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“…Clearing intact ecosystems for agriculture, urbanization, and other land modifications (including development of forestry) drives the loss of large-and medium-bodied animals (that is, defaunation) while supporting the persistence or growth of populations of small-bodied animals [29][30][31][32] . Recent research has made it clear that loss of functional diversity (defined in Box 1) due to non-random patterns of defaunation has significant effects on zoonotic spillover risk 10,11,16,[33][34][35][36][37][38][39] .…”

Section: Anthropogenic Disturbance Biodiversity Change and Disease Spillover Land Conversion Agricultural Intensification And Urbanizatiomentioning

confidence: 99%

Human-mediated impacts on biodiversity and the consequences for zoonotic disease spillover

et al. 2021

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Human-mediated changes to natural ecosystems have consequences for both ecosystem and human health. Historically, efforts to preserve or restore 'biodiversity' can seem to be in opposition to human interests. However, the integration of biodiversity conservation and public health has gained significant traction in recent years, and new efforts to identify solutions that benefit both environmental and human health are ongoing. At the forefront of these efforts is an attempt to clarify ways in which biodiversity conservation can help reduce the risk of zoonotic spillover of pathogens from wild animals, sparking epidemics and pandemics in humans and livestock. However, our understanding of the mechanisms by which biodiversity change influences the spillover process is incomplete, limiting the application of integrated strategies aimed at achieving positive outcomes for both conservation and disease management. Here, we review the literature, considering a broad scope of biodiversity dimensions, to identify cases where zoonotic pathogen spillover is mechanistically linked to changes in biodiversity. By reframing the discussion around biodiversity and disease using mechanistic evidence -while encompassing multiple aspects of biodiversity including functional diversity, landscape diversity, phenological diversity, and interaction diversity -we work toward general principles that can guide future research and more effectively integrate the related goals of biodiversity conservation and spillover prevention. We conclude by summarizing how these principles could be used to integrate the goal of spillover prevention into ongoing biodiversity conservation initiatives. ll

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“…(2) Although the structure and composition of vegetation in the plantation forests were simpler than those in the primary and secondary forests, some shrubs and understorey vegetation were also present in the plantation forests, which can provide food resources and shelter. Meanwhile, small mammals can quickly adapt to environmental change (Graham et al, 2019).…”

Section: Taxonomic Functional and Phylogenetic Diversitymentioning

confidence: 99%

“…Therefore, different taxa may respond differently to forest conversion. Such an inconsistency may be caused by the higher adaptability of small mammals to forest conversion than birds (Graham et al, 2019). In addition, secondary forests with more plant species, including berry plant, can attract more bird species (Zhang et al, 2020).…”

Section: Taxonomic Functional and Phylogenetic Diversitymentioning

confidence: 99%

“…Numerous studies have demonstrated that primary forests play an indispensable role in the conservation of birds (Lindenmayer et al, 2015;Manuwal & Huff, 1987), plants (Kosulic et al, 2020), carabids (Elek et al, 2001;Magura et al, 2015), moths (Luque et al, 2007) and small mammals (Umetsu et al, 2007;Bogdziewicz et al, 2014;Rebelo et al, 2019) especially those that are forest-dependent or/and endemic. However, some studies have shown that the diversity of plants (Graham et al, 2019), small mammals (Suchomel et al 2012;Suchomel et al, 2014;Heer et al, 2015), and birds (Zhang et al, 2020) in secondary and plantation forests were equal to or even higher than that in primary forests, especially in heterogeneous landscape regions where secondary and plantation forests are distributed adjacent to primary forests (Bernard et al, 2009;Yang et al, 2015;Zhang et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Low impact of forest conversion on biodiversity: evidence from small mammals in contrasting forests of Mt. Liangshan, China

Wen

Zhang

et al. 2021

Preprint

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Secondary and plantation forests are the main alternative forests remaining after the deforestation of primary forests. Understanding the conservation value of secondary and plantation forests is important for resource utilization. To explore the impact of forest conversion on biodiversity, we compared multiple diversity metrics (taxonomic, phylogenetic and functional diversity) and community structures of small mammals in the primary, secondary and plantation forests on Mt. Liangshan, Sichuan Province, China. Seven field surveys were conducted to survey local small mammal assemblages between 2016 and 2020. We found that the taxonomic, phylogenetic and functional diversity metrics of small mammals in the three forest types were similar at the landscape scale, while all diversity metrics were lowest in the plantation forest and highest in the primary forests at the site scale. The community structure analysis showed that random processes were dominant across the three forest types, and there was no difference in small mammal community structures among the three forest types. Our results indicated that secondary and plantation forests in the nature reserves, adjacent to the primary forest and exposed to little human disturbance, also can provide important habitats for small mammals.

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Effects of land‐use change on community diversity and composition are highly variable among functional groups

Cited by 24 publications

References 73 publications

Tree Community Composition and Dispersal Syndrome Vary with Human Disturbance in Sacred Church Forests in Ethiopia

Tree Community Composition and Dispersal Syndrome Vary with Human Disturbance in Sacred Church Forests in Ethiopia

Human-mediated impacts on biodiversity and the consequences for zoonotic disease spillover

Low impact of forest conversion on biodiversity: evidence from small mammals in contrasting forests of Mt. Liangshan, China

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