Your search keyword '"Cardoso, Pedro"' showing total 13 results

1. Stachytarpheta meninii (Verbenaceae), a new micro‐endemic and threatened species from the Diamantina Plateau in Minas Gerais state, Brazil.

Author

Henrique Cardoso, Pedro, Rafael Gonzaga, Diego, and Trovó, Marcelo

Subjects

*ENDANGERED species, *VERBENACEAE, *SPECIES diversity, *SOLANACEAE, *TRICHOMES, *INFLORESCENCES

Abstract

Stachytarpheta is mainly distributed in Brazil, where the knowledge of species richness is still in progress. Here, we describe S. meninii, a new micro‐endemic species from the Diamantina Plateau, Espinhaço Range. It is a shrub that can reach up to 1.8 meters in height, with abundant pedicellate glandular trichomes, viscous, aromatic leaves, inflorescences with oblong‐triangular bracts, and blue corollas, with a tube that is barely exserted from the calyx. The new species has been recorded from two gatherings from the same locality in the municipality of Serro, Minas Gerais state, and can be considered Critically Endangered (CR). Illustrations and a distribution map are provided for the recognition of S. meninii, along with an identification key for species of the genus found in Diamantina Plateau. [ABSTRACT FROM AUTHOR]

Published

2024

2. Trends in habitat suitability and conservation status of aquatic spiders in Europe.

Author

Milano, Filippo, Cardoso, Pedro, Mammola, Stefano, Smith, Helen, and Isaia, Marco

Subjects

*HABITATS, *HABITAT conservation, *WETLANDS, *GENERAL circulation model, *ENDANGERED species, *WILDLIFE conservation, *SPECIES distribution

Abstract

Wetlands, one of the most biodiverse ecosystems in the world, are increasingly subjected to area loss and degradation due to land-use and climate changes. These factors impact their unique biodiversity, including numerous invertebrates that depend on them. Here we investigated the current and future habitat suitability of the aquatic spiders Argyroneta aquatica and Dolomedes plantarius. We evaluated future trends in their geographic range, aiming at assessing their extinction risk according to the International Union for Conservation of Nature (IUCN) Red List criteria, at both global and regional levels. We investigated present and future distribution ranges using species distribution models for two integrated emission scenarios (SSP1-2.6 and SSP5-8.5) and combining three general circulation models. These were combined with knowledge on species' dispersal limitation to account for the possibility that these species will not be able to move beyond the current range in the next decades. We found a significant future northern shift in the geographic range and a global reduction in habitat suitability for both species, corresponding to a loss of 28.9 % for A. aquatica and 38.1 % for D. plantarius in the next 10 years. The application of the IUCN criteria qualifies A. aquatica as Near Threatened and D. plantarius as Vulnerable. Regional assessments provided similar patterns of range reductions and population vulnerability across all European regions, particularly for Central-Eastern and Western Europe. Conversely, Northern Europe is expected to become a climatic refugium for both species. This work goes beyond the available studies on the conservation of these species by taking account their dispersal abilities in quantifying future trends in their habitat suitability using the most up to date knowledge. Conservation strategies should be directed towards limiting the impact of climatic and non-climatic stressors on wetlands, and towards implementing management plans and restoration programmes to increase habitat suitability and connectivity among wetland patches. [Display omitted] • Argyroneta aquatica and Dolomedes plantarius are charismatic species of wetlands subjected to habitat loss and degradation. • A future northern shift in geographic range and a global reduction in habitat suitability is forecasted for both species. • The predicted loss is 28.9 % for A. aquatica and 38.1 % for D. plantarius in the next 10 years. • The application of the IUCN criteria qualifies A. aquatica as Near Threatened and D. plantarius as Vulnerable. • Regional assessments provided similar patterns of range reductions and population vulnerability across all European regions. [ABSTRACT FROM AUTHOR]

Published

2022

3. Threatened and extinct island endemic birds of the world: Distribution, threats and functional diversity.

Author

Matthews, Thomas J., Wayman, Joseph P., Cardoso, Pedro, Sayol, Ferran, Hume, Julian P., Ulrich, Werner, Tobias, Joseph A., Soares, Filipa C., Thébaud, Christophe, Martin, Thomas E., and Triantis, Kostas A.

Subjects

*ENDEMIC birds, *BIRD populations, *BIRD conservation, *BIOLOGICAL extinction, *ENDANGERED species, *ISLANDS, *MARINE habitats

Abstract

Aim: The world's islands support disproportionate levels of endemic avian biodiversity despite suffering numerous extinctions. While intensive recent research has focused on island bird conservation or extinction, few global syntheses have considered these factors together from the perspective of morphological trait diversity. Here, we provide a global summary of the status and ecology of extant and extinct island birds, the threats they face and the implications of species loss for island functional diversity. Location: Global. Taxon: Birds. Methods: We provide a review of the literature on threatened and extinct island birds, with a particular focus on global studies that have incorporated functional diversity. Alongside this, we analyse IUCN Red List data in relation to distribution, threats and taxonomy. Using null models and functional hypervolumes, in combination with morphological trait data, we assess the functional diversity represented by threatened and extinct island endemic birds. Results and main conclusions: We find that almost half of all island endemic birds extant in 1500 CE are currently either extinct or threatened with extinction, with the majority of threatened extant species having declining population trends. We also found evidence of 66 island endemic subspecies extinctions. The primary threats to extant island endemic birds currently are agriculture, biological resource use, and invasive species. While there is overlap between the hotspots of threatened and extinct island endemics birds, there are some notable differences, including the Philippines and Indonesia, which support a substantial number of threatened species but have no recorded post‐1500 CE bird extinctions. Traits associated with threatened island endemic birds are large body mass, flightlessness, aquatic predator, omnivorous and vertivorous trophic niches, marine habitat affinity, and, paradoxically, higher dispersal ability. Critically, we find that threatened endemics (i) occupy distinct areas of beak morphospace, and (ii) represent substantial unique areas of the overall functional space of island endemics. We caution that the loss of threatened species may have severe effects on the ecological functions birds provide on islands. [ABSTRACT FROM AUTHOR]

Published

2022

4. Adapting the IUCN Red List criteria for invertebrates

Author

Cardoso, Pedro, Borges, Paulo A.V., Triantis, Kostas A., Ferrández, Miguel A., and Martín, José L.

Subjects

*ENDANGERED species, *INVERTEBRATES, *BIOLOGICAL extinction, *ARTHROPODA, *WILDLIFE conservation, *RISK assessment, *ANIMAL classification

Abstract

Abstract: The IUCN Red List is the most useful list of species that are at risk for extinction worldwide, as it relies on a number of objective criteria. Nevertheless, there is a taxonomic bias that excludes species with small body sizes, narrow distribution ranges and low dispersal abilities, which constitute the vast majority of the planet’s biota, particularly local endemics. By evaluating each IUCN criterion separately, we (i) identify the shortcomings for invertebrate applications, (ii) explain how risk categories may be wrongly applied due to inapplicable and/or misleading thresholds, (iii) suggest alternative ways of applying the existing criteria in a more realistic way and (iv) suggest possible new criteria that were not considered in the current evaluation framework but that could allow a more comprehensive and effective assessment of invertebrates. By adapting the criteria to rely more explicitly on the Area of Occupancy and the Extent of Occurrence, their respective trends and by using ecological modelling methods, the criteria’s applicability would be increased. The change in some thresholds or, eventually, the creation of sub-categories would further increase their adequacy. Additionally, co-extinction could be introduced as an explicit part of the classification process. As a case study, we evaluated 48 species of Azorean arthropods and Iberian spiders according to the current criteria. More than one-quarter (27%) of all evaluated species were classified as Critically Endangered, 19% as Endangered, 6% as Vulnerable and 8% as Least Concern. The remaining 40% did not have enough data to reach a classification. [Copyright &y& Elsevier]

Published

2011

5. Modelling the probability of meeting IUCN Red List criteria to support reassessments.

Author

Henry, Etienne G., Santini, Luca, Butchart, Stuart H. M., González‐Suárez, Manuela, Lucas, Pablo M., Benítez‐López, Ana, Mancini, Giordano, Jung, Martin, Cardoso, Pedro, Zizka, Alexander, Meyer, Carsten, Akçakaya, H. Reşit, Berryman, Alex J., Cazalis, Victor, and Di Marco, Moreno

Subjects

*ENDANGERED species, *BIOLOGICAL extinction, *REGRESSION analysis, *RISK assessment, *BIODIVERSITY conservation

Abstract

Comparative extinction risk analysis—which predicts species extinction risk from correlation with traits or geographical characteristics—has gained research attention as a promising tool to support extinction risk assessment in the IUCN Red List of Threatened Species. However, its uptake has been very limited so far, possibly because existing models only predict a species' Red List category, without indicating which Red List criteria may be triggered. This prevents such approaches to be integrated into Red List assessments. We overcome this implementation gap by developing models that predict the probability of species meeting individual Red List criteria. Using data on the world's birds, we evaluated the predictive performance of our criterion‐specific models and compared it with the typical criterion‐blind modelling approach. We compiled data on biological traits (e.g. range size, clutch size) and external drivers (e.g. change in canopy cover) often associated with extinction risk. For each specific criterion, we modelled the relationship between extinction risk predictors and species' Red List category under that criterion using ordinal regression models. We found criterion‐specific models were better at identifying threatened species compared to a criterion‐blind model (higher sensitivity), but less good at identifying not threatened species (lower specificity). As expected, different covariates were important for predicting extinction risk under different criteria. Change in annual temperature was important for criteria related to population trends, while high forest dependency was important for criteria related to restricted area of occupancy or small population size. Our criteria‐specific method can support Red List assessors by producing outputs that identify species likely to meet specific criteria, and which are the most important predictors. These species can then be prioritised for re‐evaluation. We expect this new approach to increase the uptake of extinction risk models in Red List assessments, bridging a long‐standing research‐implementation gap. [ABSTRACT FROM AUTHOR]

Published

2024

6. Prioritizing the reassessment of data‐deficient species on the IUCN Red List.

Author

Cazalis, Victor, Santini, Luca, Lucas, Pablo M., González‐Suárez, Manuela, Hoffmann, Michael, Benítez‐López, Ana, Pacifici, Michela, Schipper, Aafke M., Böhm, Monika, Zizka, Alexander, Clausnitzer, Viola, Meyer, Carsten, Jung, Martin, Butchart, Stuart H. M., Cardoso, Pedro, Mancini, Giordano, Akçakaya, H. Reşit, Young, Bruce E., Patoine, Guillaume, and Di Marco, Moreno

Subjects

*ODONATA, *ENDANGERED species, *BIOLOGICAL extinction, *SPECIES, *DAMSELFLIES, *PUBLISHED articles

Abstract

Despite being central to the implementation of conservation policies, the usefulness of the International Union for Conservation of Nature (IUCN) Red List of Threatened Species is hampered by the 14% of species classified as data‐deficient (DD) because information to evaluate these species' extinction risk was lacking when they were last assessed or because assessors did not appropriately account for uncertainty. Robust methods are needed to identify which DD species are more likely to be reclassified in one of the data‐sufficient IUCN Red List categories. We devised a reproducible method to help red‐list assessors prioritize reassessment of DD species and tested it with 6887 DD species of mammals, reptiles, amphibians, fishes, and Odonata (dragonflies and damselflies). For each DD species in these groups, we calculated its probability of being classified in a data‐sufficient category if reassessed today from covariates measuring available knowledge (e.g., number of occurrence records or published articles available), knowledge proxies (e.g., remoteness of the range), and species characteristics (e.g., nocturnality); calculated change in such probability since last assessment from the increase in available knowledge (e.g., new occurrence records); and determined whether the species might qualify as threatened based on recent rate of habitat loss determined from global land‐cover maps. We identified 1907 species with a probability of being reassessed in a data‐sufficient category of >0.5; 624 species for which this probability increased by >0.25 since last assessment; and 77 species that could be reassessed as near threatened or threatened based on habitat loss. Combining these 3 elements, our results provided a list of species likely to be data‐sufficient such that the comprehensiveness and representativeness of the IUCN Red List can be improved. [ABSTRACT FROM AUTHOR]

Published

2023

7. A roadmap for ladybird conservation and recovery.

Author

Soares, António O., Haelewaters, Danny, Ameixa, Olga M. C. C., Borges, Isabel, Brown, Peter M. J., Cardoso, Pedro, de Groot, Michiel D., Evans, Edward W., Grez, Audrey A., Hochkirch, Axel, Holecová, Milada, Honěk, Alois, Kulfan, Ján, Lillebø, Ana I., Martinková, Zdenka, Michaud, J. P., Nedvěd, Oldřich, Omkar, Roy, Helen E., and Saxena, Swati

Subjects

*LADYBUGS, *INSECT collection & preservation, *BIOLOGICAL invasions, *ENDANGERED species, *INTRODUCED species, *NATURAL landscaping

Abstract

Ladybirds (Coleoptera: Coccinellidae) provide services that are critical to food production, and they fulfill an ecological role as a food source for predators. The richness, abundance, and distribution of ladybirds, however, are compromised by many anthropogenic threats. Meanwhile, a lack of knowledge of the conservation status of most species and the factors driving their population dynamics hinders the development and implementation of conservation strategies for ladybirds. We conducted a review of the literature on the ecology, diversity, and conservation of ladybirds to identify their key ecological threats. Ladybird populations are most affected by climate factors, landscape composition, and biological invasions. We suggest mitigating actions for ladybird conservation and recovery. Short‐term actions include citizen science programs and education, protective measures for habitat recovery and threatened species, prevention of the introduction of non‐native species, and the maintenance and restoration of natural areas and landscape heterogeneity. Mid‐term actions involve the analysis of data from monitoring programs and insect collections to disentangle the effect of different threats to ladybird populations, understand habitat use by taxa on which there is limited knowledge, and quantify temporal trends of abundance, diversity, and biomass along a management‐intensity gradient. Long‐term actions include the development of a worldwide monitoring program based on standardized sampling to fill data gaps, increase explanatory power, streamline analyses, and facilitate global collaborations. Article impact statement: In light of major ecological threats, mitigating actions at different timescales are crucial for ladybird conservation and recovery. [ABSTRACT FROM AUTHOR]

Published

2023

8. Using Red List Indices to monitor extinction risk at national scales.

Author

Raimondo, Domitilla, Young, Bruce E., Brooks, Thomas M., Cardoso, Pedro, van der Colff, Dewidine, de Souza Dias, Braulio Ferreira, Vercillo, Ugo, de Souza, Estevão, Juslén, Aino, Hyvarinen, Esko, von Staden, Lize, Tolley, Krystal, and McGowan, Philip J.K.

Subjects

*ENDANGERED species, *POPULATION viability analysis, *BIOLOGICAL extinction, *BIODIVERSITY, *SPECIES

Abstract

The Red List Index (RLI) measures change in the aggregate extinction risk of species. It is a key indicator for tracking progress toward nine of the Aichi and many proposed post‐2020 Global Biodiversity Framework Targets. Here, we consider two formulations of the RLI used for reporting biodiversity trends at national scales. Disaggregated global RLIs measure changing national contributions to global extinction risk and are currently based on five taxonomic groups, while national RLIs measure changing national extinction risk and are based on taxonomic groups assessed multiple times in country. For 74% of nations, the disaggregated global RLI is currently based on three or fewer taxonomic groups. Meanwhile, national RLIs from selected pilot countries Finland, South Africa, and Brazil are computed from twelve, eight, and nine taxonomic groups, respectively. The national RLI and the disaggregated global RLI measure different aspects of biodiversity, in that the former detects national trends in populations of species for which each country is responsible while the latter provides standardized comparisons of nations' contributions to the global extinction risk of the same species groups. As governments commit to the post‐2020 Global Biodiversity Framework, we encourage them to monitor a standard set of taxonomic groups representing different biomes using both RLI formulations to ensure effective target tracking and accurate feedback on their conservation investments. [ABSTRACT FROM AUTHOR]

Published

2023

9. Bridging the research-implementation gap in IUCN Red List assessments.

Author

Cazalis, Victor, Di Marco, Moreno, Butchart, Stuart H.M., Akçakaya, H. Reşit, González-Suárez, Manuela, Meyer, Carsten, Clausnitzer, Viola, Böhm, Monika, Zizka, Alexander, Cardoso, Pedro, Schipper, Aafke M., Bachman, Steven P., Young, Bruce E., Hoffmann, Michael, Benítez-López, Ana, Lucas, Pablo M., Pettorelli, Nathalie, Patoine, Guillaume, Pacifici, Michela, and Jörger-Hickfang, Theresa

Subjects

*ENDANGERED species, *BIODIVERSITY conservation, *BIODIVERSITY monitoring, *WILDLIFE conservation, *DATA science, *BRIDGES, *POPULATION viability analysis

Abstract

The International Union for Conservation of Nature (IUCN) Red List of Threatened Species is central in biodiversity conservation, but insufficient resources hamper its long-term growth, updating, and consistency. Models or automated calculations can alleviate those challenges by providing standardised estimates required for assessments, or prioritising species for (re-)assessments. However, while numerous scientific papers have proposed such methods, few have been integrated into assessment practice, highlighting a critical research–implementation gap. We believe this gap can be bridged by fostering communication and collaboration between academic researchers and Red List practitioners, and by developing and maintaining user-friendly platforms to automate application of the methods. We propose that developing methods better encompassing Red List criteria, systems, and drivers is the next priority to support the Red List. The IUCN Red List of Threatened Species plays a central role in monitoring biodiversity and informing conservation actions. To best inform conservation, the Red List must be frequently updated, become more taxonomically and geographically representative, and be consistent within and among taxonomic groups, but this is hampered by limited resources. A variety of models and automated calculations has been proposed in the literature to support Red List assessments, for instance using citizen science or remote-sensing data to predict extinction risk. We highlight a major research–implementation gap in the application of these methods, which could be bridged by providing assessors with easy access to the most relevant tools, hands-on training, and strengthening communication. Further efforts are needed to develop relevant methods to prioritise assessments or better predict extinction risk. [ABSTRACT FROM AUTHOR]

Published

2022

10. Island hoppers: Integrative taxonomic revision of Hogna wolf spiders (Araneae, Lycosidae) endemic to the Madeira islands with description of a new species.

Author

Crespo, Luís C., Silva, Isamberto, Enguídanos, Alba, Cardoso, Pedro, and Arnedo, Miquel

Subjects

*WOLF spiders, *JUMPING spiders, *GLOBAL cooling, *TIME perception, *SPECIES

Abstract

Because of their ability for aerial dispersal using silk and preference for open habitats, many wolf spiders are formidable colonisers. Pioneering arachnologists were already aware of the large and colourful wolf spiders in the Madeira archipelago, currently included in the genus Hogna Simon, 1885. The origins were investigated and species boundaries of Madeiran Hogna examined by integrating target-gene and morphological information. A multi-locus phylogenetic analysis of a thorough sampling across wolf-spider diversity suggested a single origin of Madeiran endemics, albeit with low support. Divergence time estimation traced back their origin to the late Miocene, a time of major global cooling that drove the expansion of grasslands and the associated fauna. Morphological examination of types and newly collected material revealed a new species, hereby described as H. isambertoi Crespo, sp. nov. Additionally, H. blackwalli is revalidated and three new synonymies are proposed, namely H. biscoitoi Wunderlich, 1992, junior synonym of H. insularum Kulczynski, 1899, H. schmitzi Wunderlich, 1992, junior synonym of H. maderiana (Walckenaer, 1837), and Arctosa maderana Roewer, 1960 junior synonym of H. ferox (Lucas, 1838). Species delimitation analyses of mitochondrial and nuclear markers provided additional support for morphological delineations. The species pair H. insularum and H. maderiana, however, constituted an exception: the lack of exclusive haplotypes in the examined markers, along with the discovery of intermediate forms, pointed to hybridisation between these two species as reported in other congeneric species on islands. Finally, the conservation status of the species is discussed and candidates for immediate conservation efforts are identified. [ABSTRACT FROM AUTHOR]

Published

2022

11. Habitat filtering and inferred dispersal ability condition across- scale species turnover and rarity in Macaronesian island spider assemblages.

Author

Malumbres-Olarte, Jagoba, Rigal, François, Girardello, Marco, Cardoso, Pedro, Crespo, Luís Carlos, Amorim, Isabel R., Arnedo, Miquel, Boieiro, Mário, Carvalho, José Carlos, Carvalho, Rui, Gabriel, Rosalina, Lamelas-Lopez, Lucas, López, Heriberto, Paulo, Octávio S., Pereira, Fernando, Pérez-Delgado, Antonio J., Rego, Carla, Romeiras, Maria, Ros-Prieto, Alejandra, and Oromí, Pedro

Subjects

*HABITATS, *DISPERSAL (Ecology), *MULTIVARIATE analysis, *AIR warfare, *ENDANGERED species, *TROPICAL dry forests, *SPIDERS

Abstract

Aim: Habitat diversity has been linked to the diversity and structure of island communities, however, little is known about patterns and processes within habitats. Here we aim to determine the contributions of habitat type and inferred dispersal frequency to the differences in taxonomic structure between assemblages in the same island habitat. Location: The Macaronesian archipelagos (Azores, Madeira, the Canary Islands and Cabo Verde). Taxon: Spiders (Araneae). Methods: We established forest and dry habitat sites (each with five plots) on two islands per archipelago. We collected spiders using standardised sampling protocols. We tested the differences in beta diversity separately for each habitat and for each inferred category of ballooning (an aerial dispersal strategy) frequency across geographic scales through nested non-parametric permutational multivariate analyses of variance. We then tested whether ballooning and habitat influenced heterogeneity in species composition (dispersion in beta diversity) in the two habitat types. We analysed the effects of habitat and ballooning on species abundance distribution (SAD) and rarity by fitting Gambin models and evaluating the contribution of ballooning categories to SAD. Results: Communities of the same archipelago and habitat were taxonomically more similar, and beta diversity increased with geographic scale, being greater in dry habitats. There was greater species replacement among assemblages in dry habitats than in forests, with greater differences for rare ballooners. There were no differences in SAD between habitats although dry habitat sites seemed to harbour more species with low abundances (rare species) than forests. Main conclusions: Habitat type does not only condition the differences between spider assemblages of the same habitat but also the scale at which they occur. These differences may be determined by the heterogeneity in the physical structure of each habitat as well as how much this structure facilitates aerial dispersal (ballooning), and should be considered in theories/hypotheses on island community assembly as well as in conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2021

12. Methods for the assessment and conservation of threatened animal parasites.

Author

Kwak, Mackenzie L., Heath, Allen C.G., and Cardoso, Pedro

Subjects

*PARASITES, *WILDLIFE conservation, *ENDANGERED species, *NATURE conservation, *INTEGRAL functions, *CONSERVATION biology

Abstract

Animal parasites are species rich and ecologically diverse, some with complex life cycles and life histories and consequently many are vulnerable to extinction. While the conservation biology community is becoming cognisant of the plight of threatened parasites, coupled at times with potential host co-extinction, feasible criteria have not been developed to specifically assess their threat risk and methods to conserve them have also received limited attention. Methodologies and criteria are presented here to aid the assessment of the conservation status of threatened parasites in a way consistent with the criteria of the International Union for the Conservation of Nature (IUCN). Such assessments assist in prioritizing conservation efforts, a crucial task given parasites are integral to the functioning and survival of global ecosystems. • Animal parasites are ecologically important and highly vulnerable to extinction. • Available conservation rubrics are poorly suited for assessing animal parasites. • The first assessment framework designed for animal parasites is presented. • Widescale assessments of the conservation status of animal parasites can now occur. [ABSTRACT FROM AUTHOR]

Published

2020

13. Trait-based prediction of extinction risk across terrestrial taxa.

Author

Chichorro, Filipe, Urbano, Fernando, Teixeira, Dinarte, Väre, Henry, Pinto, Tiago, Brummitt, Neil, He, Xiaolan, Hochkirch, Axel, Hyvönen, Jaakko, Kaila, Lauri, Juslén, Aino, and Cardoso, Pedro

Subjects

*ENDANGERED species, *BIOLOGICAL extinction, *LIFE history theory, *BODY size, *ECOLOGICAL niche

Abstract

Species differ in their biological susceptibility to extinction, but the set of traits determining susceptibility varies across taxa. It is yet unclear which patterns are common to all taxa, and which are taxon-specific, with consequences to conservation practice. In this study we analysed the generality of trait-based prediction of extinction risk across terrestrial (including freshwater) vertebrates, invertebrates and plants at a global scale. For each group, we selected five representative taxa and within each group we explored whether risk can be related to any of 10 potential predictors. We then synthesized outcomes across taxa using a meta-analytic approach. High habitat specificity was a consistent predictor across vertebrates, invertebrates and plants, being a universal predictor of risk. Slow life-history traits – large relative offspring size, low fecundity, long generation length –, and narrow altitudinal range were also found to be good predictors across most taxa, but their universality needs to be supported with additional data. Poor dispersal ability was a common predictor of extinction risk among invertebrate and plant taxa, but not consistently among vertebrates. The remaining traits (body size, microhabitat verticality, trophic level, and diet breadth) were useful to predict extinction risk but only at lower taxonomical levels. Our study shows that despite the idiosyncrasies among taxa, universal susceptibility to extinction exists and several traits might influence extinction risk for most taxa. Informing conservation prioritization at lower taxonomic scales should however include taxon-specific trait-based predictors of extinction risk. [ABSTRACT FROM AUTHOR]

Published

2022