Your search keyword '"Meiri, Shai"' showing total 5 results

1. Done but not dusted: Reflections on the first global reptile assessment and priorities for the second

Author

Meiri, Shai, Chapple, David G., Tolley, Krystal A., Mitchell, Nicola, Laniado, Timrat, Cox, Neil, Bowles, Phil, Young, Bruce E., Caetano, Gabriel, Geschke, Julia, Böhm, Monika, and Roll, Uri

Published

2023

2. Biases in the current knowledge of threat status in lizards, and bridging the ‘assessment gap’.

Author

Meiri, Shai and Chapple, David G.

Subjects

*LIZARDS, *WILDLIFE conservation, *BIOLOGICAL extinction, *TAXONOMY, *PREDICTION models, RISK factors

Abstract

Reptiles represent the world's most diverse group of terrestrial vertebrates (~ 10,300 recognized species). Knowledge of their conservation status, however, lags behind that of birds, mammals and amphibians. Only ~ 40% of the world's reptile species have had their conservation status assessed by the IUCN, and detailed analysis of extinction risk has been limited to a subset of 1500 species. Using lizards (Sauria and Amphisbaenia), the most diverse group of reptiles, we investigated whether biases in distribution, ecology, life-history and taxonomy exist in the species that have been assessed to date by the IUCN. Our results highlight that only 36% of the ~ 6300 described lizard species have had their conservation status assessed. Whilst data deficiency is a key concern in lizards (16% of assessed species), the large number of non-assessed species (~ 4000 species) represents a larger and more pressing issue. Accentuating this ‘assessment gap’ is the fact that biases exist in the subset of lizard species that have been assessed by the IUCN. Australia and Asia, as well as tropical areas in general, were the least assessed regions. Assessed lizard species were more likely to have larger body and clutch sizes, broader distributional and elevational ranges, occur at more northerly latitudes, and have a viviparous mode of reproduction. Some evidence suggests that they also tend to be diurnal, surface active, and with developed limbs. The level of assessment also differed significantly among lizard families and higher taxa. We recommend the implementation of an integrated approach to bridge the ‘assessment gap’ in lizards, involving regional and taxon-specific working groups associated with the IUCN's Global Reptile Assessment, predictive modelling, enhanced knowledge of lizard distribution and biology, and improved taxonomic methods. [ABSTRACT FROM AUTHOR]

Published

2016

3. Addressing knowledge gaps in reptile conservation.

Author

Tingley, Reid, Meiri, Shai, and Chapple, David G.

Subjects

*REPTILE conservation, *BIOLOGICAL extinction, *TAXONOMY, *MACROECOLOGY, *RETROSPECTIVE studies, RISK factors

Abstract

Reptiles are the most species-rich group of terrestrial vertebrates, yet we lack a comprehensive understanding of their extinction risk. Only 45% of described reptile species have been assessed by IUCN to date (4648 of 10,400 species); of these, 20% (945 species) are threatened with extinction, and 19% (867 species) are Data Deficient. The goal of this special issue is to improve our understanding of reptile conservation needs and extinction risk by (i) investigating patterns and drivers of extinction risk and data deficiency at a global scale; (ii) identifying and addressing taxonomic and regional gaps in our understanding of extinction risk and data deficiency; and (iii) drawing upon detailed case studies to highlight conservation approaches to mitigate extinction. By doing so, the special issue will guide future conservation efforts toward the taxa and regions in greatest need of assessment, and toward risks requiring immediate mitigation. We conclude with potential avenues for future research, including the need to address regional knowledge gaps, conduct macroecological and retrospective analyses of extinction risk, and implement targeted monitoring of conservation intervention outcomes. [ABSTRACT FROM AUTHOR]

Published

2016

4. Using Wikipedia page views to explore the cultural importance of global reptiles.

Author

Roll, Uri, Mittermeier, John C., Diaz, Gonzalo I., Novosolov, Maria, Feldman, Anat, Itescu, Yuval, Meiri, Shai, and Grenyer, Richard

Subjects

*REPTILES, *WILDLIFE conservation, *SOCIOCULTURAL factors, *ANIMAL species, *ENDANGERED species

Abstract

Modern conservation operates at the nexus of biological and social influences. While the importance of social and cultural factors is often mentioned, defining, measuring and comparing these factors remains a significant challenge. Here, we explore a novel method to quantify cultural interest in all extant reptile species using Wikipedia — a large, open-access online encyclopaedia. We analysed all page views of reptile species viewed during 2014 in all of Wikipedia's language editions. We compared species' page view numbers across languages and in relationship to their spatial distribution, phylogeny, threat status and various other biological attributes. We found that the three species with most page views are shared across major language editions, beyond these, page view ranks of species tend to be specific to particular language editions. Interest within a language is mostly focused on reptiles found in the regions where the language is spoken. Overall, interest is greater for reptiles that are venomous, endangered, widely distributed, larger and that have been described earlier. However, within individual reptile families not all the above factors predict page views. Most families contain at least one species in the top 5% of page views, but 29 families (with 1,450 species) have no ‘high interest species’ in them. Overall, our analyses elucidate novel patterns of human interests in nature over large geographical, cultural and taxonomic spectra using big-data techniques. Such approaches hold much promise for incorporating social perceptions in future conservation practices. [ABSTRACT FROM AUTHOR]

Published

2016

5. Geographic and taxonomic patterns of extinction risk in Australian squamates.

Author

Tingley, Reid, Macdonald, Stewart L., Mitchell, Nicola J., Woinarski, John C.Z., Meiri, Shai, Bowles, Phil, Cox, Neil A., Shea, Glenn M., Böhm, Monika, Chanson, Janice, Tognelli, Marcelo F., Harris, Jaclyn, Walke, Claire, Harrison, Natasha, Victor, Savannah, Woods, Calum, Amey, Andrew P., Bamford, Mike, Catt, Gareth, and Clemann, Nick

Subjects

*REPTILES, *REPTILE diversity, *ENDANGERED species, *SPECIES diversity, *BIOLOGICAL extinction, *PROTECTED areas

Abstract

Australia is a global hotspot of reptile diversity, hosting ~10% of the world's squamate (snake and lizard) species. Yet the conservation status of the Australian squamate fauna has not been assessed for >25 years; a period during which the described fauna has risen by ~40%. Here we provide the first comprehensive conservation assessment of Australian terrestrial squamates using IUCN Red List Categories and Criteria. Most (86.4%; n = 819/948) Australian squamates were categorised as Least Concern, 4.5% were Data Deficient, and 7.1% (range 6.8%–11.3%, depending on the treatment of Data Deficient species) were threatened (3.0% Vulnerable, 2.7% Endangered, 1.1% Critically Endangered). This level of threat is low relative to the global average (~18%). One species (Emoia nativitatis) was assessed as Extinct, and two species (Lepidodactylus listeri and Cryptoblepharus egeriae) are considered Extinct in the Wild: all three were endemic to Christmas Island. Most (75.1%) threat assessments were based on geographic range attributes, due to limited data on population trends or relevant proxies. Agriculture, fire, and invasive species were the threats that affected the most species, and there was substantial geographic variation in the number of species affected by each threat. Threatened species richness peaked on islands, in the Southern Alps, and across northern Australia. Data deficiency was greatest in northern Australia and in coastal Queensland. Approximately one-in-five threatened species were not represented in a single protected area. Our analyses shed light on the species, regions, and threats in most urgent need of conservation intervention. [ABSTRACT FROM AUTHOR]

Published

2019