Protected areas and the neglected contribution of Indigenous Peoples and local communities: Struggles for environmental justice in the Caatinga dry forest

Despite evidence about the contribution of Indigenous Peoples and local communities (IPLCs) to conservation, prevailing strategies still seek their separation from nature, often triggering conflicts. Current pledges to expand global protected area coverage suggest a need for the critical analysis of governance quality and the way conservation interacts with the well-being of IPLCs. We present the case of Catimbau National Park in the Caatinga dry forest of northeast Brazil, where we explored connections between the well-being of IPLCs and landscape through different values, practices and institutions, and perceptions of how environmentally just the park's governance has been. The well-being of IPLCs is inextricably connected with the Caatinga landscape, through multiple place-based relational values that, although differing between Indigenous and non-indigenous inhabitants, have in both cases developed over generations. Although often framed as degraders, IPLCs exhibit a strong motivation to conserve, reflected through local institutions including forest gardens, sustainable use regulations, restoration activities and prevention of external encroachment. The strict form of protected area implemented at Catimbau, instead of a locally led or sustainable use reserve, explicitly targeted the resettlement of IPLCs and livelihood reorientation. These imposed objectives have clashed with a way of life in this peopled landscape and precluded local stewardship on a larger scale. Long-term conflict arose through governance deficiencies which sparked multidimensional injustices. These include not only the misrecognition of local values and customary institutions but also the lack of procedures for consent or decision-making influence, plus distributional harms including tenure insecurity and denied development assistance. Development and conservation strategies must reject narratives about poor, resource-dependent rural communities and embrace the opportunities that local knowledge and institutions bring for effective conservation. As conservation efforts are expanded post-2020, the people of the Caatinga and beyond must be recognised as embedded and a key part of any solution. In strict protected areas like Catimbau, where social conflict constrains their ability to function, seeking legal changes in governance type can be onerous. However, we describe other local-level actions to build relationships and agency that may foster transitions towards better governance, and just treatment of IPLCs. A free Plain Language Summary can be found within the Supporting Information of this article

The relative importance of forest cover and patch-level drivers for phyllostomid bat communities in the Amazonian Savannas

Context: Analyze the multiple dimensions of biodiversity under a local and landscape lens in natural habitats, such as Amazonian savannas, is fundamental for the conservation of species and ecosystems. Objectives: We aim to explore how landscape forest cover and patch-level variables affect the patterns of species abundance, functional traits, and taxonomic, functional and phylogenetic α-diversity of Phyllostomid bats in forest patches of the Savannas of Amapá, in both the wet and dry seasons. Methods: We used mist nets to survey bats in 26 forest patches. We also quantified forest cover in buffers of 500, 1000, 1500, 2000 and 2500 m around each patch, and tree height, basal area, canopy cover, and vegetation clutter in the understorey at the patch level. We used hierarchical partitioning to relate the different indices with our predictor variables. Results: Taxonomic, functional and phylogenetic diversity in the wet season increased with the proportion of forest cover in the 2500 m buffer. Vegetation clutter was negatively related to taxonomic and functional diversity in the wet season. In the dry season, average tree height positively affected taxonomic and functional diversity. Patch-level variables were more important than forest cover in explaining the average functional traits in both seasons. Conclusion: We found seasonal variation in the relationships between components of bat diversity and different drivers. Since both forest cover in the landscape and patch-level variables are important for Phyllostomid bat diversity, conservation plans should consider forest conservation at the landscape level and maintenance of forest patch qualityOpen Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. Part of the data used in this study was supported by Neotropical Grassland Conservancy (01098803-5), National Geographic Society (EC59186R-19 and NGS-83254R-20), Bat Conservation International (2434131) and Ruford Foundation (25585-1

Island biodiversity in peril: Anticipating a loss of mammals' functional diversity with future species extinctions

Islands are biodiversity hotspots that host unique assemblages. However, a substantial proportion of island species are threatened and their long-term survival is uncertain. Identifying and preserving vulnerable species has become a priority, but it is also essential to combine this information with other facets of biodiversity like functional diversity, to understand how future extinctions might affect ecosystem stability and functioning. Focusing on mammals, we (i) assessed how much functional space would be lost if threatened species go extinct, (ii) determined the minimum number of extinctions that would cause a significant functional loss, (iii) identified the characteristics (e.g., biotic, climatic, geographic, or orographic) of the islands most vulnerable to future changes in the functional space, and (iv) quantified how much of that potential functional loss would be offset by introduced species. Using trait information for 1474 mammal species occurring in 318 islands worldwide, we built trait probability density functions to quantify changes in functional richness and functional redundancy in each island if the mammals categorized by IUCN as threatened disappeared. We found that the extinction of threatened mammals would reduce the functional space in 63% of the assessed islands, although these extinctions in general would cause a reduction of less than 15% of their overall functional space. Also, on most islands, the extinction of just a few species would be sufficient to cause a significant loss of functional diversity. The potential functional loss would be higher on small, isolated, and/or species-rich islands, and, in general, the functional space lost would not be offset by introduced species. Our results show that the preservation of native species and their ecological roles remains crucial for maintaining the current functioning of island ecosystems. Therefore, conservation measures considering functional diversity are imperative to safeguard the unique functional roles of threatened mammal species on island

Seasonal variation and host sex affect bat–bat fly interaction networks in the Amazonian savannahs

Bats are the second-most diverse group of mammals in the world, and bat flies are their main parasites. However, significant knowledge gaps remain regarding these antagonistic interactions, especially since diverse factors such as seasonality and host sex can affect their network structures. Here, we explore the influence of such factors by comparing species richness and composition of bat flies on host bats, as well as specialization and modularity of bat–bat fly interaction networks between seasons and adult host sexes. We captured bats and collected their ectoparasitic flies at 10 sampling sites in the savannahs of Amapá State, northeastern region of the Brazilian Amazon. Despite female bats being more parasitized and recording greater bat fly species richness in the wet season, neither relationship was statistically significant. The pooled network could be divided into 15 compartments with 54 links, and all subnetworks comprised >12 compartments. The total number of links ranged from 27 to 48 (for the dry and wet seasons, respectively), and female and male subnetworks had 44 and 41 links, respectively. Connectance values were very low for the pooled network and for all subnetworks. Our results revealed higher bat fly species richness and abundance in the wet season, whereas specialization and modularity were higher in the dry season. Moreover, the subnetwork for female bats displayed higher specialization and modularity than the male subnetwork. Therefore, both seasonality and host sex contribute in different ways to bat–bat fly network structure. Future studies should consider these factors when evaluating bat–bat fly interaction networksP.M. was supported by a master’s scholarship and currently, is supported by doctoral scholarships from Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES), Brazil (process number 88887.662021/2022- 00). B.S.X. was supported by doctoral scholarships from CAPES, Brazil. W.D.C. was supported by post-doctoral funding (PNPD/CAPES) until early 2020. Currently, W.D.C. is supported by “Ayudas Maria Zambrano” (CA3/ RSUE/2021-00197), funded by the Spanish Ministry of Universities. G.L.U. was supported by Paraiba State Research Foundation (FAPESQ) under a doctoral scholarship from Grant No. 518/18 and by PDPG-Amazônia Legal (process number 88887.834037/2023-00). G.G. was supported by CNPq (process number 306216/2018) and Universidade Federal de Mato Grosso do Sul. J.J.T. received a research productivity scholarship from CNPq (process number 316281/2021-22

Elevation drives taxonomic, functional and phylogenetic β-diversity of phyllostomid bats in the Amazon biome

Aim: We evaluated the relative importance of geographical and environment variables for taxonomic, phylogenetic and functional β-diversity of phyllostomid bats along the entire Amazon biome and specifically in the lowlands. Location: Amazon biome. Taxon: Chiroptera. Methods: We carried out a bibliographic review and compiled a wide and unprecedented database of 106 phyllostomid bat species at 102 sites throughout the Amazon biome. For all possible pairs of sites in both datasets, we estimated the Jaccard pairwise dissimilarity, that is, β-diversity, considering its three dimensions—taxonomic, phylogenetic and functional—for its two components—turnover (substitution of species) and differences in species richness. The association between dissimilarity measurements and geographical and environment variables was assessed using multiple regressions on distance matrices (MRM). Results: We found that turnover and differences in species richness had similar contributions to the taxonomic β-diversity. However, for phylogenetic and functional β-diversity, lineages and functions richness differences contribute slightly more than turnover for total β-diversity. In the lowlands, species, lineages and functions richness differences were slightly higher than turnover for all diversity dimensions. When accounting for all the sites, elevation was the main predictor of phyllostomid bats' taxonomic, phylogenetic and functional turnover. For lowland sites, ecoregions was the main (but relatively weak) predictor associated with all β-diversity dimensions. Main conclusions: Analysis of filtering sites according to elevation revealed that species in the Amazonian lowlands are taxonomically and phylogenetically different from species in the Andes, and present taxonomic, phylogenetic and functional redundancy between assemblages. When accounting for the whole range of distribution of bats, results showed the predominant effect of elevation over other geographical and environmental predictors. This indicates that the diversity of good dispersers such as bats is more affected by specialisation along environment and climatic gradients than by geographical barriers throughout the Amazon biomeBat Conservation International; Coordenação de Aperfeiçoamento de Pessoal de Nível Superior; National Geographic Society; Neotropical Grassland Conservancy; Rufford Foundatio

Biodiversity, threats and conservation challenges in the Cerrado of Amapá, an Amazonian savanna

An Amazonian savanna in northern Brazil known as the Cerrado of Amapá is under imminent threat from poor land-use planning, the expansion of large-scale agriculture and other anthropogenic pressures. These savannas house a rich and unique flora and fauna, including endemic plants and animals. However, the area remains under-sampled for most taxa, and better sampling may uncover new species. We estimate that only ∼9.16% of these habitats have any kind of protection, and legislative changes threaten to further weaken or remove this protection. Here we present the status of knowledge concerning the biodiversity of the Cerrado of Amapá, its conservation status, and the main threats to the conservation of this Amazonian savanna. To secure the future of these unique and imperilled habitats, we suggest urgent expansion of protected areas, as well as measures that would promote less-damaging land uses to support the local population. Copyright © 2017 Karen Mustin et al

Deforestation control in the Brazilian Amazon: A conservation struggle being lost as agreements and regulations are subverted and bypassed

Despite efforts to reduce deforestation in the Brazilian Amazon, there has been an up-turn in clearing rates since 2012. These increases are in part due to failures in deforestation control. Soybean planters, cattle ranchers, and timber merchants find ways to circumvent agreements and legislation. Here we explain some of the key problems with the implementation of the principal agreements and Brazilian laws that should be keeping clearing rates under control. To combat increased clearing in the Amazon, we suggest an urgent need to strengthen Brazilian environmental agencies, improve technologies used to monitor the effectiveness of clearing-reduction programmes, better integrate agrarian and environmental policies and integrate environmental enforcement across federal, state and municipal governments, as well as improve transparency along global supply chains and raise awareness among consumers to put market pressure on producers to avoid new deforestation. © 2019 Associação Brasileira de Ciência Ecológica e Conservaçã

Global review and guidelines to avoid opportunistic predation of birds and bats in mist nets

Abstract Mist nets are one of the most widely used techniques in the study of birds and bats worldwide. However, a number of risks are involved, including opportunistic predation. Given this potential cost, here we: (1) review the global literature to understand the factors that might contribute to predation risk for birds and bats captured in mist nets; (2) review existing guidelines for best practice use of mist nets; and (3) based on our reviews, recommend new guidelines for the use of mist nets to minimize the risk of opportunistic predation. Based on keyword in English, Spanish, Portuguese, and French, and using Google Scholar, Scopus, SciElo, and Web of Science, we found 48 articles reporting opportunistic predation. In the included articles, 178 predation events, involving 52 predator and 84 prey species, were reported. In most of the reports, the mist nets were placed at ground level, the bats and birds were preyed on from the shelf closest to the ground, the mist‐net checks occurred at intervals of 1 h or 30 min and the most common predators were arboreal and scansorial species (primates and marsupials). Despite the occurrences of predation in 13 countries, guidelines for best practice mist‐net use were found in only three, despite extensive searches and contact with key people in each country. Based on the existing guidelines and our results, we recommend that mist nets be fixed with the lowest shelf at least 50 cm above ground level and be checked at 15‐min intervals; when predators are observed near mist nets, the nets either be constantly observed, closed, or relocated; suppressed the vegetation around the mist nets; captured animals be removed from the mist nets as soon as possible, and more than one researcher/technician should be in the field at all times