Your search keyword '"Meiri, Shai"' showing total 48 results

1. Stressed reptiles pay the metabolic price of war.

Author

Dubiner S, Vardi R, Meiri S, and Levin E

Subjects

Animals, Stress, Physiological, Energy Metabolism, Reptiles physiology

Published

2024

2. ReptTraits: a comprehensive dataset of ecological traits in reptiles.

Author

Oskyrko O, Mi C, Meiri S, and Du W

Subjects

Animals, Biological Evolution, Phenotype, Ecosystem, Reptiles physiology

Abstract

Trait datasets are increasingly being used in studies investigating eco-evolutionary theory and global conservation initiatives. Reptiles are emerging as a key group for studying these questions because their traits are crucial for understanding the ability of animals to cope with environmental changes and their contributions to ecosystem processes. We collected data from earlier databases, and the primary literature to create an up-to-date dataset of reptilian traits, encompassing 40 traits from 12060 species of reptiles (Archelosauria: Crocodylia and Testudines, Rhynchocephalia, and Squamata: Amphisbaenia, Sauria, and Serpentes). The data were gathered from 1288 sources published between 1820 and 2023. The dataset includes morphological, physiological, behavioral, and life history traits, as well as information on the availability of genetic data, IUCN Red List assessments, and population trends., (© 2024. The Author(s).)

Published

2024

3. A global reptile assessment highlights shared conservation needs of tetrapods.

Author

Cox N, Young BE, Bowles P, Fernandez M, Marin J, Rapacciuolo G, Böhm M, Brooks TM, Hedges SB, Hilton-Taylor C, Hoffmann M, Jenkins RKB, Tognelli MF, Alexander GJ, Allison A, Ananjeva NB, Auliya M, Avila LJ, Chapple DG, Cisneros-Heredia DF, Cogger HG, Colli GR, de Silva A, Eisemberg CC, Els J, Fong G A, Grant TD, Hitchmough RA, Iskandar DT, Kidera N, Martins M, Meiri S, Mitchell NJ, Molur S, Nogueira CC, Ortiz JC, Penner J, Rhodin AGJ, Rivas GA, Rödel MO, Roll U, Sanders KL, Santos-Barrera G, Shea GM, Spawls S, Stuart BL, Tolley KA, Trape JF, Vidal MA, Wagner P, Wallace BP, and Xie Y

Subjects

Alligators and Crocodiles, Amphibians, Animals, Biodiversity, Birds, Mammals, Phylogeny, Risk Assessment, Turtles, Conservation of Natural Resources, Extinction, Biological, Reptiles classification

Abstract

Comprehensive assessments of species' extinction risks have documented the extinction crisis 1 and underpinned strategies for reducing those risks 2 . Global assessments reveal that, among tetrapods, 40.7% of amphibians, 25.4% of mammals and 13.6% of birds are threatened with extinction 3 . Because global assessments have been lacking, reptiles have been omitted from conservation-prioritization analyses that encompass other tetrapods 4-7 . Reptiles are unusually diverse in arid regions, suggesting that they may have different conservation needs 6 . Here we provide a comprehensive extinction-risk assessment of reptiles and show that at least 1,829 out of 10,196 species (21.1%) are threatened-confirming a previous extrapolation 8 and representing 15.6 billion years of phylogenetic diversity. Reptiles are threatened by the same major factors that threaten other tetrapods-agriculture, logging, urban development and invasive species-although the threat posed by climate change remains uncertain. Reptiles inhabiting forests, where these threats are strongest, are more threatened than those in arid habitats, contrary to our prediction. Birds, mammals and amphibians are unexpectedly good surrogates for the conservation of reptiles, although threatened reptiles with the smallest ranges tend to be isolated from other threatened tetrapods. Although some reptiles-including most species of crocodiles and turtles-require urgent, targeted action to prevent extinctions, efforts to protect other tetrapods, such as habitat preservation and control of trade and invasive species, will probably also benefit many reptiles., (© 2022. The Author(s).)

Published

2022

4. Global priorities for conservation of reptilian phylogenetic diversity in the face of human impacts.

Author

Gumbs R, Gray CL, Böhm M, Hoffmann M, Grenyer R, Jetz W, Meiri S, Roll U, Owen NR, and Rosindell J

Subjects

Animal Distribution, Animals, Endangered Species, Extinction, Biological, Humans, Risk, Species Specificity, Vertebrates, Biodiversity, Conservation of Natural Resources, Phylogeny, Reptiles classification

Abstract

Phylogenetic diversity measures are increasingly used in conservation planning to represent aspects of biodiversity beyond that captured by species richness. Here we develop two new metrics that combine phylogenetic diversity and the extent of human pressure across the spatial distribution of species - one metric valuing regions and another prioritising species. We evaluate these metrics for reptiles, which have been largely neglected in previous studies, and contrast these results with equivalent calculations for all terrestrial vertebrate groups. We find that regions under high human pressure coincide with the most irreplaceable areas of reptilian diversity, and more than expected by chance. The highest priority reptile species score far above the top mammal and bird species, and reptiles include a disproportionate number of species with insufficient extinction risk data. Data Deficient species are, in terms of our species-level metric, comparable to Critically Endangered species and therefore may require urgent conservation attention.

Published

2020

5. A global catalog of primary reptile type specimens.

Author

Uetz P, Cherikh S, Shea G, Ineich I, Campbell PD, Doronin IV, Rosado J, Wynn A, Tighe KA, McDiarmid R, Lee JL, Köhler G, Ellis R, Doughty P, Raxworthy CJ, Scheinberg L, Resetar A, Sabaj M, Schneider G, Franzen M, Glaw F, Böhme W, Schweiger S, Gemel R, Couper P, Amey A, Dondorp E, Ofer G, Meiri S, and Wallach V

Subjects

Animals, Databases, Factual, Reptiles

Abstract

We present information on primary type specimens for 13,282 species and subspecies of reptiles compiled in the Reptile Database, that is, holotypes, neotypes, lectotypes, and syntypes. These represent 99.4% of all 13,361 currently recognized taxa (11,050 species and 2311 subspecies). Type specimens of 653 taxa (4.9%) are either lost or not located, were never designated, or we did not find any information about them. 51 species are based on iconotypes. To map all types to physical collections we have consolidated all synonymous and ambiguous collection acronyms into an unambiguous list of 364 collections holding these primary types. The 10 largest collections possess more than 50% of all (primary) reptile types, the 36 largest collections possess more than 10,000 types and the largest 73 collections possess over 90% of all types. Of the 364 collections, 107 hold type specimens of only 1 species or subspecies. Dozens of types are still in private collections. In order to increase their utility, we recommend that the description of type specimens be supplemented with data from high-resolution images and CT-scans, and clear links to tissue samples and DNA sequence data (when available). We request members of the herpetological community provide us with any missing type information to complete the list.

Published

2019

6. The global distribution of tetrapods reveals a need for targeted reptile conservation.

Author

Roll U, Feldman A, Novosolov M, Allison A, Bauer AM, Bernard R, Böhm M, Castro-Herrera F, Chirio L, Collen B, Colli GR, Dabool L, Das I, Doan TM, Grismer LL, Hoogmoed M, Itescu Y, Kraus F, LeBreton M, Lewin A, Martins M, Maza E, Meirte D, Nagy ZT, de C Nogueira C, Pauwels OSG, Pincheira-Donoso D, Powney GD, Sindaco R, Tallowin OJS, Torres-Carvajal O, Trape JF, Vidan E, Uetz P, Wagner P, Wang Y, Orme CDL, Grenyer R, and Meiri S

Subjects

Animals, Animal Distribution, Biodiversity, Conservation of Natural Resources, Reptiles

Abstract

The distributions of amphibians, birds and mammals have underpinned global and local conservation priorities, and have been fundamental to our understanding of the determinants of global biodiversity. In contrast, the global distributions of reptiles, representing a third of terrestrial vertebrate diversity, have been unavailable. This prevented the incorporation of reptiles into conservation planning and biased our understanding of the underlying processes governing global vertebrate biodiversity. Here, we present and analyse the global distribution of 10,064 reptile species (99% of extant terrestrial species). We show that richness patterns of the other three tetrapod classes are good spatial surrogates for species richness of all reptiles combined and of snakes, but characterize diversity patterns of lizards and turtles poorly. Hotspots of total and endemic lizard richness overlap very little with those of other taxa. Moreover, existing protected areas, sites of biodiversity significance and global conservation schemes represent birds and mammals better than reptiles. We show that additional conservation actions are needed to effectively protect reptiles, particularly lizards and turtles. Adding reptile knowledge to a global complementarity conservation priority scheme identifies many locations that consequently become important. Notably, investing resources in some of the world's arid, grassland and savannah habitats might be necessary to represent all terrestrial vertebrates efficiently.

Published

2017

7. Global taxonomic diversity of living reptiles.

Author

Pincheira-Donoso D, Bauer AM, Meiri S, and Uetz P

Subjects

Animals, Phylogeny, Species Specificity, Biodiversity, Internationality, Reptiles classification

Abstract

Reptiles are one of the most ecologically and evolutionarily remarkable groups of living organisms, having successfully colonized most of the planet, including the oceans and some of the harshest and more environmentally unstable ecosystems on earth. Here, based on a complete dataset of all the world's diversity of living reptiles, we analyse lineage taxonomic richness both within and among clades, at different levels of the phylogenetic hierarchy. We also analyse the historical tendencies in the descriptions of new reptile species from Linnaeus to March 2012. Although (non-avian) reptiles are the second most species-rich group of amniotes after birds, most of their diversity (96.3%) is concentrated in squamates (59% lizards, 35% snakes, and 2% amphisbaenians). In strong contrast, turtles (3.4%), crocodilians (0.3%), and tuataras (0.01%) are far less diverse. In terms of species discoveries, most turtles and crocodilians were described early, while descriptions of lizards, snakes and amphisbaenians are multimodal with respect to time. Lizard descriptions, in particular, have reached unprecedented levels during the last decade. Finally, despite such remarkably asymmetric distributions of reptile taxonomic diversity among groups, we found that the distributions of lineage richness are consistently right-skewed, with most clades (monophyletic families and genera) containing few lineages (monophyletic genera and species, respectively), while only a few have radiated greatly (notably the families Colubridae and Scincidae, and the lizard genera Anolis and Liolaemus). Therefore, such consistency in the frequency distribution of richness among clades and among phylogenetic levels suggests that the nature of reptile biodiversity is fundamentally fractal (i.e., it is scale invariant). We then compared current reptile diversity with the global reptile diversity and taxonomy known in 1980. Despite substantial differences in the taxonomies (relative to 2012), the patterns of lineage richness remain qualitatively identical, hence reinforcing our conclusions about the fractal nature of reptile biodiversity.

Published

2013

8. Reptilian all the way?

Author

Meiri S and Raia P

Subjects

Animals, Energy Metabolism, Extinction, Biological, Adaptation, Physiological, Bone Development, Reproduction, Reptiles physiology, Ruminants physiology

Published

2010

9. SquamBase—A database of squamate (Reptilia: Squamata) traits.

Author

Meiri, Shai

Subjects

*DATABASES, *REPTILES, *SQUAMATA, *HOLOCENE Epoch, *LIFE history theory

Abstract

Motivation: I present a database that contains information on multiple key traits for all 11,744 recognised species of squamates worldwide. The database encompasses key traits and a reasonably comprehensive picture of available public knowledge. I present comprehensive description of the sources and rationale leading to the assignment of each particular trait state for each species. I hope the dataset can serve the scientific community, promote research and understanding of the group, comparisons with other taxa, and assessment of conservation needs. Furthermore, gaps in our knowledge of squamate traits become readily apparent and will hopefully lead to further study and even better knowledge. Main types of variables contained: Morphological, ecological, life history, geographical and conservation‐related traits. Spatial location: Global. Time period: Late Holocene to recent. Major taxa and level of measurement: Squamata, species. Software format: xlsx. [ABSTRACT FROM AUTHOR]

Published

2024

10. Artificial cover objects as a tool for the survey and conservation of herpetofauna.

Author

Liberman, Yan-Ronen, Ben-Ami, Frida, and Meiri, Shai

Subjects

HERPETOFAUNA, REPTILE surveys, ANIMAL mortality, LABOR costs, REPTILES, TWENTY-first century, AMPHIBIANS

Abstract

Artificial cover objects, made of various materials, have been used for decades for reptile and amphibian surveys, as well as in habitat restoration programs. Their low cost and maintenance demands make them a cost effective and efficient survey method. Since flipping covers does not require special skills, and covers can be uniform in size and material, they can be used as a standardized survey method to negate observer biases. We surveyed the literature in search of studies describing the use of artificial cover objects in situ as part of surveys or habitat restoration efforts of reptiles and amphibians in the twenty-first century. We found 490 studies conducted in 31 countries. Our results show that artificial cover objects are an effective method to sample reptiles and amphibians in terms of both labor and cost. Overall, artificial cover objects used in the studies we surveyed enabled the detection of 357 species belonging to 47 families. Only one study reported animal mortality caused by artificial covers and it also suggested a way to prevent it. No other studies reported direct or indirect injuries or deaths caused by artificial covers. We discuss the efficacy of artificial cover objects in surveying for reptiles and amphibians, and examine their effectiveness when used as part of habitat restoration programs. [ABSTRACT FROM AUTHOR]

Published

2024

11. Inferring the extinction risk of Data Deficient and Not Evaluated Australian squamates.

Author

Wotherspoon, Lucy, de Oliveira Caetano, Gabriel Henrique, Roll, Uri, Meiri, Shai, Pili, Arman, Tingley, Reid, and Chapple, David G.

Subjects

ENDANGERED species, MACHINE learning, SQUAMATA, REPTILES

Abstract

The world is facing a biodiversity crisis, and species are in danger of slipping towards extinction before having their conservation status formally determined. Australian squamates (snakes and lizards) form a highly diverse (over 1000 species) fauna, with 12% being either Data Deficient or Not Evaluated. We examined attributes of Australian squamates categorized as Data Deficient or Not Evaluated and compared key traits that are linked with threatened categories via univariate and multivariate models. We further used the machine learning model of Caetano et al. (2022, PloS Biology, 20, e3001544) to predict the putative extinction risk categories for Data Deficient and Not Evaluated Australian squamate species based on an analysis of reptiles globally. We found that Data Deficient Australian squamates are often lacking information on their drivers of threat and distribution, but not intrinsic traits or uncertain taxonomy. Data Deficient, Not Evaluated and threatened species often possess similar traits, including having small range sizes, being insular endemics and recently described, indicating that they may require some similar conservation management. Meanwhile, Not Evaluated species exhibit certain unique traits relative to evaluated species. We predicted 21% of Data Deficient and Not Evaluated species are threatened which is three times greater than currently assessed species (7%). This may indicate that a larger proportion of poorly known squamate species are more likely to be threatened than previously thought. Overall, our findings provide an important resource for the conservation management of Australian squamates by highlighting key traits and missing data, as well as providing a list of Data Deficient and Not Evaluated species that should be prioritized for research. [ABSTRACT FROM AUTHOR]

Published

2024

12. Lizard richness in mainland China is more strongly correlated with energy and climatic stability than with diversification rates.

Author

Liang, Tao and Meiri, Shai

Subjects

*LIZARDS, *STRUCTURAL equation modeling, *LAST Glacial Maximum, *SPECIES diversity, *SQUAMATA, *CLIMATE change, COLD regions

Abstract

Aim: Contemporary environmental, historical and evolutionary factors are increasingly used to decipher the drivers of spatial patterns of species richness. Evidence of such correlations for Chinese reptiles is scarce and poorly understood. We therefore explored the validity of the environmental capacity, historical climatic stability and diversification rates hypotheses on Chinese lizard richness. Location: Mainland China. Taxon: Squamata: Sauria. Methods: We mapped the distribution ranges of all 237 lizards in mainland China using a combination of different datasets. We used current environmental conditions (ambient energy, environmental productivity, and habitat heterogeneity), historical climate stability indices (long term: since ~3.3 Ma and short term: since the last glacial maximum) and mean tip diversification rates, to test whether current environmental conditions, historical climate change and diversification rates drive contemporary richness patterns of lizards in China. We applied piecewise structural equation models (pSEM) to jointly evaluate our hypotheses, considering direct and indirect effects. Results: Chinese lizards showed strong latitudinal diversity gradients. We found consistent support for contemporary climatic and environmental factors relationships with richness. Richness was also positively correlated with short‐term climatic stability, but less so with long‐term stability. Diversification rates were seldom found to be positively correlated with lizard richness. Main Conclusions: Our results support the environmental capacity and historical climate hypotheses, which link high richness to highly productive warm and stable regions (and low richness to cold and unstable regions). We conclude that post‐speciation dispersal and short‐term climatic oscillations quickly swamp the long‐term signal of diversification rates and climatic fluctuations, creating strong current climate–richness associations. [ABSTRACT FROM AUTHOR]

Published

2024

13. Squamate metabolic rates decrease in winter beyond the effect of temperature.

Author

Dubiner, Shahar, Jamison, Simon, Meiri, Shai, and Levin, Eran

Subjects

TEMPERATURE effect, WINTER, METABOLIC regulation, BODY size, LOW temperatures, HIGH temperatures

Abstract

The reptilian form of hibernation (brumation) is much less studied than its mammalian and insect equivalents. Hibernation and brumation share some basic features but may differ in others. Evidence for hypometabolism in brumating reptiles beyond the effect of temperature is sporadic and often ignored.We calculated the standard metabolic rates (SMR, oxygen uptake during inactivity), in winter and/or summer, of 156 individuals representing 59 species of Israeli squamates across all 17 local families. For 32 species, we measured the same individuals during both seasons. We measured gas exchange continuously in a dark metabolic chamber, under the average January high and low temperatures (20°C and 12°C), during daytime and nighttime. We examined how SMR changes with season, biome, body size, temperature and time of day, using phylogenetic mixed models.Metabolic rates increased at sunrise in the diurnal species, despite no light or other external cues, while in nocturnal species the metabolic rates did not increase. Cathemeral species shifted from a diurnal‐like diel pattern in winter to a nocturnal‐like pattern in summer. Regardless of season, Mediterranean species SMRs were 30% higher than similar‐sized desert species. Summer SMR of all species together scaled with body size with an exponent of 0.84 but dropped to 0.71 during brumation. Individuals measured during both seasons decreased their SMR between summer and winter by a 47%, on average, at 20°C and by 70% at 12°C. Q10 was 1.75 times higher in winter than in summer, possibly indicating an active suppression of metabolic processes under cold temperatures.Our results challenge the commonly held perception that squamate physiology is mainly shaped by temperature, with little role for intrinsic metabolic regulation. The patterns we describe indicate that seasonal, diel and geographic factors can trigger remarkable shifts in metabolism across squamate species. [ABSTRACT FROM AUTHOR]

Published

2023

14. Foraging mode affects extinction risk of snakes and lizards, but in different ways.

Author

Baeckens, Simon, Meiri, Shai, and Shine, Richard

Subjects

*ENDANGERED species, *LIZARDS, *SNAKES, *REPTILES, *BIOLOGICAL extinction, *DATA analysis, *SPECIES, *DEMOGRAPHIC change, *ANIMAL mechanics

Abstract

What factors render a species more vulnerable to extinction? In reptiles, foraging mode is a fundamental ecological dimension: some species actively search for immobile prey, whereas others ambush mobile prey. Foraging mode is linked to diet, morphology, movement ecology, and reproductive output, and hence plausibly might affect vulnerability to threatening processes. Our analyses of data on 1543 taxa revealed links between foraging mode and (IUCN) conservation status, but in opposite directions in the two main squamate groups. Ambush‐foraging snakes were more threatened and with declining populations than were active searchers, whereas lizards showed the reverse pattern. This divergence may be linked to differing consequences of foraging mode for feeding rates and reproductive frequency in snakes versus lizards. Our findings underscore the need for taxon‐specific conservation management, particularly in groups such as reptiles that have been neglected in global conservation prioritization. [ABSTRACT FROM AUTHOR]

Published

2023

15. Global bioregions of reptiles confirm the consistency of bioregionalization processes across vertebrate clades.

Author

Falaschi, Mattia, Marta, Silvio, Lo Parrino, Elia, Roll, Uri, Meiri, Shai, and Ficetola, Gentile Francesco

Subjects

VERTEBRATES, REPTILES, RESEMBLANCE (Philosophy), HIERARCHICAL clustering (Cluster analysis), AMPHIBIANS, REGRESSION analysis

Abstract

Aim: The identification of biogeographical zones has been fundamental in broadscale biodiversity analyses over the last 150 years. If processes underlying bioregionalization, such as climatic differences, tectonics and physical barriers, are consistent across vertebrate clades, we expect that groups with more similar ecological characteristics would show more similar bioregions. Lack of data has so far hampered the delineation of global bioregions for reptiles. Therefore, we integrated comprehensive geographic distribution and phylogenetic data of lepidosaurian reptiles to delineate global reptile bioregions, compare determinants of biogeographical boundaries across terrestrial vertebrates and test whether clades showing similar responses to environmental factors also show more similar bioregions. Location: Global. Time Period: Present. Major Taxa Studied: Reptiles, amphibians, birds, mammals. Methods: For reptiles, we used phylogenetic beta diversity to quantify changes in community composition, and hierarchical clustering to identify biogeographic 'realms' and 'regions'. Then, we assessed the determinants of biogeographical boundaries using spatially explicit regression models, testing the effect of climatic factors, physical barriers and tectonics. Bioregions of reptiles were compared to those of other vertebrate clades by testing the overall similarity of the spatial structure of bioregions, and the match of the position of biogeographical boundaries. Results: For reptiles, we identified 24 evolutionarily unique regions, nested within 14 realms. Biogeographical boundaries of reptiles were related to both climatic factors and past tectonic movements. Bioregions were very consistent across vertebrate clades. Bioregions of reptiles and mammals showed the highest similarity, followed by reptiles/birds and mammals/birds while amphibian bioregions were less similar to those of the other clades. Main Conclusions: The overall high similarity among bioregions suggests that bioregionalization was affected by similar underlying processes across terrestrial vertebrates. Nevertheless, clades with different eco‐physiological characteristics respond somewhat differently to the same environmental factors, resulting in similar but not identical regionalizations across vertebrate clades. [ABSTRACT FROM AUTHOR]

Published

2023

16. A database of the morphology, ecology and literature of the world's limb‐reduced skinks.

Author

Camaiti, Marco, Evans, Alistair R., Hipsley, Christy A., Hutchinson, Mark N., Meiri, Shai, Anderson, Rodolfo O., Slavenko, Alex, and Chapple, David G.

Subjects

SKINKS, LITERATURE, MORPHOLOGY, SQUAMATA, REPTILES

Abstract

Aim: Limb‐reduced squamates are a convenient model system to investigate macroevolutionary trends in morphology. Here, we provide morphological, ecological and literature data on all known species of limb‐reduced skinks (Scincidae) and their relatives, representing one of the most diverse and widely distributed groups of limb‐reduced squamates. Location: Global. Taxon: Skinks (Reptilia, Squamata: Scincidae). Limb‐reduced forms. Methods: Morphological data were sourced from the primary literature, spanning a period of over 150 years. Linear body measurements were averaged across all values in the literature, preserving proportionality to body length. For digits and presacral vertebrae, we used maximum recorded counts. Ecological and biogeographical data were sourced from habitat assessments in the primary literature, online databases and field guides. Literature data were sorted according to type of study. To exemplify the applicability of the database, we used Markov‐chain ordered models to estimate the evolutionary frequency of limb reduction and loss in skinks. Results: We find evidence of limb reduction and loss in a total of 394 species worldwide, representing ~23% of all skink species, and ~30% of genera. The distribution of limb‐reduced and limbless forms differs from that of fully limbed forms, as they are present in all biogeographic realms with the almost complete exclusion of the Americas. We estimate that limb reduction evolved more than 50 times in skinks, and that loss of at least one limb pair evolved at least 24 times. Main conclusions The dataset captures a broad spectrum of morphological and ecological variation in a large, globally distributed taxonomic group. It establishes a widely applicable definition of limb reduction based on limb proportions as a reference for future studies. Such an extensive collection of morphological and ecological data can pave the way for investigations of dramatic morphological transitions and their ecological drivers at a global and local scale. [ABSTRACT FROM AUTHOR]

Published

2022

17. Automated assessment reveals that the extinction risk of reptiles is widely underestimated across space and phylogeny.

Author

Caetano, Gabriel Henrique de Oliveira, Chapple, David G., Grenyer, Richard, Raz, Tal, Rosenblatt, Jonathan, Tingley, Reid, Böhm, Monika, Meiri, Shai, and Roll, Uri

Subjects

ENDANGERED species, BIOLOGICAL extinction, MACHINE learning, PHYLOGENY, REPTILES, DECISION making, RISK assessment, SPECIES

Abstract

The Red List of Threatened Species, published by the International Union for Conservation of Nature (IUCN), is a crucial tool for conservation decision-making. However, despite substantial effort, numerous species remain unassessed or have insufficient data available to be assigned a Red List extinction risk category. Moreover, the Red Listing process is subject to various sources of uncertainty and bias. The development of robust automated assessment methods could serve as an efficient and highly useful tool to accelerate the assessment process and offer provisional assessments. Here, we aimed to (1) present a machine learning–based automated extinction risk assessment method that can be used on less known species; (2) offer provisional assessments for all reptiles—the only major tetrapod group without a comprehensive Red List assessment; and (3) evaluate potential effects of human decision biases on the outcome of assessments. We use the method presented here to assess 4,369 reptile species that are currently unassessed or classified as Data Deficient by the IUCN. The models used in our predictions were 90% accurate in classifying species as threatened/nonthreatened, and 84% accurate in predicting specific extinction risk categories. Unassessed and Data Deficient reptiles were considerably more likely to be threatened than assessed species, adding to mounting evidence that these species warrant more conservation attention. The overall proportion of threatened species greatly increased when we included our provisional assessments. Assessor identities strongly affected prediction outcomes, suggesting that assessor effects need to be carefully considered in extinction risk assessments. Regions and taxa we identified as likely to be more threatened should be given increased attention in new assessments and conservation planning. Lastly, the method we present here can be easily implemented to help bridge the assessment gap for other less known taxa. The Red List of Threatened Species, published by the IUCN, is a crucial tool for conservation decision making, but is subject to various sources of uncertainty and bias. Modelling the threat status of all global reptiles identifies increased threat to many groups of reptiles across many regions of the world, beyond those currently recognized; moreover, it highlights the effects of the IUCN assessment procedure on eventual threat categories. [ABSTRACT FROM AUTHOR]

Published

2022

18. Taxonomic revision of the Tropiocolotes nattereri (Squamata, Gekkonidae) species complex, with the description of a new species from Israel, Jordan and Saudi Arabia.

Author

Ribeiro‐Júnior, Marco Antônio, Tamar, Karin, Maza, Erez, Flecks, Morris, Wagner, Philipp, Shacham, Boaz, Calvo, Marta, Geniez, Philippe, Crochet, Pierre‐André, Koch, Claudia, and Meiri, Shai

Subjects

SQUAMATA, GECKOS, SPECIES, SPECIES diversity

Abstract

We examined the taxonomy of the minute desert geckos of the Tropiocolotes nattereri species complex using the largest morphological sampling, and the first molecular assessment of intraspecific diversity within this complex. We examined variation in mitochondrial and nuclear markers (12S, ND2, c‐mos and MC1R) of 30 samples and analyzed the external morphology of 202 specimens, from across the entire distribution range of the complex from Egypt, Israel, Jordan and Saudi Arabia. We recognize two species under the name T. nattereri. We thus hereby describe a new species, T. yomtovi sp. n., and we redefine and redescribe T. nattereri, for which we designate a neotype. The species diversity in the genus Tropiocolotes increases to 15. [ABSTRACT FROM AUTHOR]

Published

2022

19. A worldwide and annotated database of evaporative water loss rates in squamate reptiles.

Author

Le Galliard, Jean‐François, Chabaud, Chloé, de Andrade, Denis Otávio Vieira, Brischoux, François, Carretero, Miguel A., Dupoué, Andréaz, Gavira, Rodrigo S. B., Lourdais, Olivier, Sannolo, Marco, Van Dooren, Tom J. M., and Meiri, Shai

Subjects

SQUAMATA, ANIMAL species, REPTILES, CLIMATE change, PHYSIOLOGICAL adaptation, DATABASES, SNAKE venom

Abstract

Motivation: The understanding of physiological adaptations, of evolutionary radiations and of ecological responses to global change urges for global, comprehensive databases of the functional traits of extant organisms. The ability to maintain an adequate water balance is a critical functional property influencing the resilience of animal species to climate variation. In terrestrial or semi‐terrestrial organisms, total water loss includes a significant contribution from evaporative water loss (EWL). The analysis of geographic and phylogenetic variation in EWL rates must however account for differences in methods and potential confounding factors, which influence standard measures of whole‐organism water loss. We compiled the global and standardized SquamEWL database of total, respiratory and cutaneous EWL for 325 species and subspecies of squamate reptiles (793 samples and 2,536 estimates) from across the globe. An extensive set of companion data and annotations associated with the EWL measurements of potential value for future investigation, including metabolic rate data, is provided. We present preliminary descriptive statistics for the compiled data, discuss gaps and biases, and identify promising avenues to update, expand and explore this database. Main types of variables contained: Standard water loss rates, geographic data, metabolic rates. Spatial location: Global. Time period: Data were obtained from extant species and were collected between 1945 and 2020. Major taxa: Reptilia, Squamata including lizards, snakes and amphisbaenians. Level of measurements: Individual samples of animals from the same species, locality, age class and sex category. Software format: csv. [ABSTRACT FROM AUTHOR]

Published

2021

20. Correlates of extinction risk in Australian squamate reptiles.

Author

Senior, Anna F., Böhm, Monika, Johnstone, Christopher P., McGee, Matthew D., Meiri, Shai, Chapple, David G., Tingley, Reid, and Byrne, Margaret

Subjects

ENDANGERED species, SQUAMATA, BIOLOGICAL extinction, BAYESIAN field theory, BODY size, REPTILES

Abstract

Aim: Identification of particular traits that predispose species to elevated extinction risk is an important component of proactive conservation. We capitalise on a recent strategic extinction risk assessment of all Australian squamate reptiles to identify intrinsic life history traits and extrinsic threats that correlate with extinction risk. We further assess whether extinction risk correlates differ between species impacted by different threatening processes (habitat loss vs. invasive species). Location: Australia. Taxon: Squamate reptiles. Methods: We used the IUCN Red List data for Australian squamates, and publicly available datasets for 14 intrinsic and extrinsic traits. We used phylogenetically controlled Bayesian inference to test hypotheses regarding relationships between extinction risk and species traits, environment, and threat measures. Results: We found that intrinsic characteristics (habitat specialisation, small range size and large body size), as well as extrinsic factors (high human footprint, accessibility from human population centres, cold temperatures and high rainfall), predispose a species to extinction. Similar predictors were important in threat‐specific analyses, although relationships were generally more uncertain. Conclusions: Our results largely accord with those of global and regional studies of extinction risk in reptiles and of terrestrial vertebrates more broadly. Our findings illustrate that there is no single pathway to extinction among Australian squamates. [ABSTRACT FROM AUTHOR]

Published

2021

21. Uncovering hidden species diversity of alopoglossid lizards in Amazonia, with the description of three new species of Alopoglossus (Squamata: Gymnophthalmoidae).

Author

Ribeiro‐Júnior, Marco Antônio, Sánchez‐Martínez, Paola María, Moraes, Leandro João Carneiro de Lima, Oliveira, Uécson Suendel Costa de, Carvalho, Vinícius Tadeu de, Pavan, Dante, Choueri, Erik Henrique de Lacerda, Werneck, Fernanda P., and Meiri, Shai

Subjects

SPECIES diversity, BIOLOGICAL classification, SQUAMATA, LIZARDS, SPECIES, COLUBRIDAE

Abstract

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Published

2021

22. Environmental correlates of morphological diversity in Australian geckos.

Author

Norris, Jesca, Tingley, Reid, Meiri, Shai, Chapple, David G., and Sandel, Brody

Subjects

GECKOS, CLIMATE change, SQUAMATA, ECOLOGICAL niche, REPTILES, HINDLIMB, BODY size

Abstract

Aim: Climatic variation has long been regarded as a primary source of morphological variation. However, there is mixed support for the adherence of reptiles to ecogeographical hypotheses, such as Bergmann's rule (body size decreases with temperature) and Allen's rule (limb length increases with temperature). We quantified body and limb morphology among the diverse Australian gecko fauna (4 families, 30 genera, 226 of the 231 described species) to investigate environmental correlates of morphological variation in this radiation. Location: Australia. Major taxa studied: Geckos (Squamata: Gekkota; the families Gekkonidae, Carphodactylidae, Diplodactylidae and Pygopodidae). Methods: We measured 20 external features of ethanol‐preserved museum specimens. We investigated whether principal component axes of morphology were correlated with three key environmental variables, and the microhabitat occupied by each species. Results: Morphology varied greatly among Australian gecko families and genera, although there was a strong phylogenetic signal in morphology. After accounting for phylogeny, morphology was correlated with a species' microhabitat use. Saxicolous species and species with variable microhabitat requirements (i.e., generalists) had larger body dimensions than terrestrial species. Saxicolous species also had longer proportional forelimbs and hindlimbs than terrestrial species. Main conclusions: Our results highlight the importance of phylogeny and microhabitat use in shaping the morphology of Australian geckos. We find little evidence that Australian geckos adhere to Bergmann's rule or Allen's rule, suggesting that these ecogeographical hypotheses provide limited insight into the adaptive potential of lizard species to altered environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2021

23. Identifying factors that boost species discoveries of global reptiles.

Author

Guedes, Jhonny J M, Feio, Renato N, Meiri, Shai, and Moura, Mario R

Subjects

REPTILES, SPECIES, TIME management

Abstract

Most species remain unknown to science and might go extinct before we recognize their existence. Although specimens belonging to many of these unknown taxa may already be housed in scientific collections, they can remain 'shelved' for years bearing the wrong name or without a formal name. We investigate factors underlying variation in time lag between collection and description dates for 2356 reptile species described worldwide between 1992 and 2017. We modelled the time to description using biological and sociological variables in a time-to-event analysis. Time lag between collection and description varied from zero to 155 years (median = 5). More than one-quarter of species involved specimens 'shelved' for 12 years or more. The time lag was shorter when the collector of the holotype – specimen serving as the name-bearer of the species – was an author of the description, while taxonomic revisions uncovered species with longer time lags. Unknown species collected by non-taxonomists and 'shelved' in scientific collections remained incorrectly identified for a much longer time. Taxonomic revisions are crucial to reverse this trend and improve benefits of the collecting performed by non-taxonomists. Our findings reveal the kinds of preserved reptile specimens that most likely represent unknown species in scientific collections. [ABSTRACT FROM AUTHOR]

Published

2020

24. The global diversity and distribution of lizard clutch sizes.

Author

Meiri, Shai, Avila, Luciano, Bauer, Aaron M., Chapple, David G., Das, Indraneil, Doan, Tiffany M., Doughty, Paul, Ellis, Ryan, Grismer, Lee, Kraus, Fred, Morando, Mariana, Oliver, Paul, Pincheira‐Donoso, Daniel, Ribeiro‐Junior, Marco Antonio, Shea, Glenn, Torres‐Carvajal, Omar, Slavenko, Alex, Roll, Uri, and McGill, Brian

Subjects

*LIZARDS, *REPTILES, *SQUAMATA, *SPATIAL variation, *MAGNITUDE (Mathematics), *HENS

Abstract

Aim: Clutch size is a key life‐history trait. In lizards, it ranges over two orders of magnitude. The global drivers of spatial and phylogenetic variation in clutch have been extensively studied in birds, but such tests in other organisms are lacking. To test the generality of latitudinal gradients in clutch size, and their putative drivers, we present the first global‐scale analysis of clutch sizes across lizard taxa. Location: Global. Time period: Recent. Major taxa studied: Lizards (Reptilia, Squamata, Sauria). Methods: We analysed clutch‐size data for over 3,900 lizard species, using phylogenetic generalized least‐square regression to study the relationships between clutch sizes and environmental (temperature, precipitation, seasonality, primary productivity, insularity) and ecological factors (body mass, insularity, activity times, and microhabitat use). Results: Larger clutches are laid at higher latitudes and in more productive and seasonal environments. Insular taxa lay smaller clutches on average. Temperature and precipitation per se are unrelated to clutch sizes. In Africa, patterns differ from those on other continents. Lineages laying small fixed clutches are restricted to low latitudes. Main conclusions: We suggest that the constraint imposed by a short activity season, coupled with abundant resources, is the main driver of large‐clutch evolution at high latitudes and in highly seasonal regions. We hypothesize that such conditions – which are unsuitable for species constrained to laying multiple small clutches – may limit the distribution of fixed‐clutch taxa. [ABSTRACT FROM AUTHOR]

Published

2020

25. Reptile responses to anthropogenic habitat modification: A global meta‐analysis.

Author

Doherty, Tim S., Balouch, Sara, Bell, Kristian, Burns, Thomas J., Feldman, Anat, Fist, Charles, Garvey, Timothy F., Jessop, Tim S., Meiri, Shai, Driscoll, Don A., and McGill, Brian

Subjects

HABITAT modification, REPTILES, BODY size, SUSTAINABLE development, META-analysis, SQUAMATA, DATA logging

Abstract

Aim: The aim was to determine how reptile populations respond to anthropogenic habitat modification and determine whether species traits and environmental factors influence such responses. Location: Global. Time period: 1981–2018. Major taxa studied: Squamata. Methods: We compiled a database of 56 studies reporting how habitat modification affects reptile abundance and calculated standardized mean differences in abundance (Hedges' g). We used Bayesian meta‐analytical models to test whether responses to habitat modification depended on body size, clutch size, reproductive mode, habitat specialization, range size, disturbance type, vegetation type, temperature and precipitation. Results: Based on 815 effect sizes from 376 species, we found an overall negative effect of habitat modification on reptile abundance (mean Hedges' g = −0.43, 95% credible intervals = −0.61 to −0.26). Reptile abundance was, on average, one‐third lower in modified compared with unmodified habitats. Small range sizes and small clutch sizes were associated with more negative responses to habitat modification, although the responses were weak and the credible intervals overlapped zero. We detected no effects of body size, habitat specialization, reproductive mode (egg‐laying or live‐bearing), temperature or precipitation. Some families exhibited more negative responses than others, although overall there was no phylogenetic signal in the data. Mining had the most negative impacts on reptile abundance, followed by agriculture, grazing, plantations and patch size reduction, whereas the mean effect of logging was neutral. Main conclusions: Habitat modification is a key cause of reptile population declines, although there is variability in responses both within and between species, families and vegetation types. The effect of disturbance type appeared to be related to the intensity of habitat modification. Ongoing development of environmentally sustainable practices that ameliorate anthropogenic impacts is urgently needed to prevent declines in reptile populations. [ABSTRACT FROM AUTHOR]

Published

2020

26. Alternative pathways to diversity across ecologically distinct lizard radiations.

Author

Skeels, Alexander, Esquerré, Damien, Cardillo, Marcel, and Meiri, Shai

Subjects

MACROECOLOGY, REPTILES, LIZARDS, STRUCTURAL equation modeling, SPECIES diversity

Abstract

Aim: Lizard assemblages vary greatly in taxonomic, ecological and phenotypic diversity, yet the mechanisms that generate and maintain these patterns at a macroecological scale are not well understood. We aimed to characterize the ecological and environmental drivers of species richness patterns in the context of macroecological theory for 10 independent lizard radiations. Location: Global. Time period: Present day. Major taxa: Lizards. Methods: We analysed patterns of species and functional trait diversity in 10 ecologically distinct and widely distributed clades encompassing nearly all known lizard species. Using recently published spatial, phylogenetic, and functional trait datasets, we built spatially explicit structural equation models to ask whether species richness was directly or indirectly related to functional divergence or convergence within communities, and with features of the environment, including measures of productivity, complexity and harshness. Results: Our results show that high species richness is achieved via different pathways in different lizard clades, with both functionally divergent and convergent assemblages harbouring high diversity in different clades. More generally, we also find common, positive effects of temperature, productivity and topography on species richness within lizard clades. Main conclusions: Thermal constraints, topographic complexity and spatial structuring of functional diversity help explain the presence of highly diverse lizard assemblages, suggesting the importance of environmental filters in shaping present‐day diversity and assemblage structure. Our results show how different pathways to high richness in different clades have contributed to the overall global pattern of species richness in reptiles. [ABSTRACT FROM AUTHOR]

Published

2020

27. Viviparity does not affect the numbers and sizes of reptile offspring.

Author

Meiri, Shai, Feldman, Anat, Schwarz, Rachel, Shine, Richard, and Liu, Xuan

Subjects

*ANIMAL clutches, *VIVIPARITY, *EGG incubation, *OVIPARITY, *REPTILES, *WATER analysis, *EGGSHELLS, *EMBRYOS

Abstract

Viviparity (live‐bearing) has independently evolved from oviparity (egg‐laying) in more than 100 lineages of squamates (lizards and snakes).We might expect consequent shifts in selective forces to affect per‐brood reproductive investment (RI = total mass of offspring relative to maternal mass) and in the way in which that output is partitioned (number vs. size of offspring per brood). Based on the assumption that newly born offspring are heavier than eggs, we predicted that live‐bearing must entail either increased RI or a reduction in offspring size and/or fecundity.However, our phylogenetically controlled analysis of data on 1,259 squamate species revealed no significant differences in mean offspring size, clutch size or RI between oviparous and viviparous squamates.We attribute this paradoxical result to (1) strong selection on offspring sizes, unaffected by parity mode, (2) the lack of a larval stage in amniotes, favouring large eggs even in the ancestral oviparous mode and (3) the ability of viviparous females to decrease the mass of uterine embryos by reducing extra‐embryonic water stores.Our analysis shows that squamate eggs (when laid) weigh about the same as the hatchlings that emerge from them (despite a many‐fold increase in embryo mass during incubation). Most of the egg mass is due to components (such as water stores and the eggshell) not required for oviductal incubation. That repackaging enables live‐born offspring to be accommodated within the mother's body without increasing total litter mass.The consequent stasis in reproductive burden during the evolutionary transition from oviparity to viviparity may have facilitated frequent shifts in parity modes. [ABSTRACT FROM AUTHOR]

Published

2020

28. Endothermy, offspring size and evolution of parental provisioning in vertebrates.

Author

Meiri, Shai

Subjects

*VERTEBRATES, *BIRTH size, *BIRD food, *REPTILES, *WARM-blooded animals, *YOUNG adults, *MAMMALS

Abstract

Mammals and birds provide food for their young after birth, but such provisioning is almost absent in other vertebrates. A recent theory suggested that, in addition to thermoregulation, the large discrepancy in size between adult and young ectothermic vertebrates precludes them from providing for their young, whereas the relatively large offspring of endotherms are easier to provision. I show here that reptile neonates and hatchlings are as large as those of mammals and birds. Differences in size between adults and young thus cannot explain the lack of parental provisioning in reptiles. I suggest that the large size at birth is the ancestral condition in amniotes as a whole and that provisioning has thus evolved after endothermy. [ABSTRACT FROM AUTHOR]

Published

2019

29. Biogeography of the genus Acanthodactylus Fitzinger, 1834

Author

Tamar, Karin, Carranza, Salvador, Sindaco, Roberto, Moravec, Jiří, Trape, Jean-François, and Meiri, Shai

Subjects

Biogeography, Diversification, Acanthodactylus, Reptiles, Phylogeny

Abstract

Trabajo presentado en la International Biogeography Society 7th Biennial Meeting, celebrada en Bayreuth (Alemania) del 8 al 12 de enero de 2015., Acanthodactylus lizards are among the most diverse, abundant and widespread reptiles in the arid areas of northern Africa to southwest Asia. It is the most species rich genus in the family Lacertidae, currently with over 40 recognized species. We sampled 302 individuals representing 36 species and most subspecies from across the distributional range of the genus. We sequenced all specimens for two mitochondrial (12S, Cytb) and three nuclear (MC1R, ACM4, c-mos) markers, reconstructing the first large scale calibrated molecular phylogeny of Acanthodactylus to gain insights into its historical biogeography. The onset of Acanthodactylus cladogenesis is estimated to have occurred due to vicariance and dispersal processes with the separation into three clades: the Western and the scutellatus clades mostly distributed in northern Africa, and the Eastern clade from the Middle-East, Arabia and southwestern Asia. Most Acanthodactylus species diverged during the Miocene corresponding to regional tectonic movements and climate change.

Published

2015

30. Biodiversity growth on the volcanic ocean islands and the roles of in situ cladogenesis and immigration: case with the reptiles.

Author

Ali, Jason R. and Meiri, Shai

Subjects

*ADAPTIVE radiation, *ISLANDS, *ARCHIPELAGOES, *BIODIVERSITY, *REPTILES

Abstract

Models for biodiversity growth on the remote oceanic islands assume that in situ cladogenesis is a major contributor. To test this, we compiled occurrence data for 194 terrestrial reptile species on 53 volcanically‐constructed middle‐ to low‐latitude landmasses worldwide. Despite 273 native island‐species records, there are only 8–12 cases of the phenomenon, including just two radiations. Diversification frequencies are largely uncorrelated with island area, age, maximum altitude, and isolation. Furthermore, there is no indication that the presence of non‐sister congeners on an island stymies the process. Diversity on individual oceanic islands therefore results primarily from immigration and anageneis, but this is not a simple matter. Clusters that are difficult to reach (far or challenging to get to) or thrive upon (e.g. Canaries, Galápagos) have relatively few clades (3–8), some of which have many species (6–14), and all host at least one endemic genus. In these settings, diversity grows mainly by intra‐archipelago transfer followed by within‐island anagenetic speciation. In contrast, those island groups that are easier to disperse to (characterized by short distances and conducive transit conditions) and harbour more benign habitats (e.g. Comoros, Lesser Antilles) have been settled by many ancestor‐colonizers (≥ 14), but each clade has few derived species (≤ 4). These archipelagoes lack especially distinctive lineages. Models explaining the assembly and growth of terrestrial biotic suites on the volcanic ocean islands thus need to accommodate these new insights. [ABSTRACT FROM AUTHOR]

Published

2019

31. Global patterns of body size evolution in squamate reptiles are not driven by climate.

Author

Slavenko, Alex, Feldman, Anat, Allison, Allen, Bauer, Aaron M., Böhm, Monika, Chirio, Laurent, Colli, Guarino R., Das, Indraneil, Doan, Tiffany M., LeBreton, Matthew, Martins, Marcio, Meirte, Danny, Nagy, Zoltán T., Nogueira, Cristiano de C., Pauwels, Olivier S. G., Pincheira‐Donoso, Daniel, Roll, Uri, Wagner, Philipp, Wang, Yuezhao, and Meiri, Shai

Subjects

SQUAMATA, COLD-blooded animals, BIODIVERSITY, BERGMANN'S rule, BODY size

Abstract

Aim: Variation in body size across animal species underlies most ecological and evolutionary processes shaping local‐ and large‐scale patterns of biodiversity. For well over a century, climatic factors have been regarded as primary sources of natural selection on animal body size, and hypotheses such as Bergmann's rule (the increase of body size with decreasing temperature) have dominated discussions. However, evidence for consistent climatic effects, especially among ectotherms, remains equivocal. Here, we test a range of key hypotheses on climate‐driven size evolution in squamate reptiles across several spatial and phylogenetic scales. Location: Global. Time period: Extant. Major taxa studied: Squamates (lizards and snakes). Methods: We quantified the role of temperature, precipitation, seasonality and net primary productivity as drivers of body mass across ca. 95% of extant squamate species (9,733 spp.). We ran spatial autoregressive models of phylogenetically corrected median mass per equal‐area grid cell. We ran models globally, across separate continents and for major squamate clades independently. We also performed species‐level analyses using phylogenetic generalized least square models and linear regressions of independent contrasts of sister species. Results: Our analyses failed to identify consistent spatial patterns in body size as a function of our climatic predictors. Nearly all continent‐ and family‐level models differed from one another, and species‐level models had low explanatory power. Main conclusions: The global distribution of body mass among living squamates varies independently from the variation in multiple components of climate. Our study, the largest in spatial and taxonomic scale conducted to date, reveals that there is little support for a universal, consistent mechanism of climate‐driven size evolution within squamates. [ABSTRACT FROM AUTHOR]

Published

2019

32. Traits of lizards of the world: Variation around a successful evolutionary design.

Author

Meiri, Shai

Subjects

*LIZARDS, *GEODATABASES, *RADIATION, *PHYLOGENY, *REPTILES, *NATURAL history

Abstract

Motivation: over the last 12 years I have been collecting trait and geographic data on lizards. These data could be useful for scientists studying this remarkable reptilian radiation. Furthermore, as published data for some of the less well known species are scarce, I hope this study can initiate a community effort to fill in data gaps. I present geographical, morphological, ecological, physiological and life history data for the 6,657 known species of lizards. I further indicate whether there are phylogenetic data associated with them, and their threat assessment, if they have one. I present descriptive statistics regarding these traits and point to avenues for future research using the dataset. Main types of variable contained: body size, ecological, thermal biology, geographic, phylogenetic and life history data. Spatial location: Global. Time period: data are for species known from living, or recently extinct species. Most underlying data were collected during the 20th and 21st centuries. Major taxa: Reptilia, Sauria (Squamata, including Amphisbaenia but excluding Serpentes). Level of measurement: species. Software format: csv. [ABSTRACT FROM AUTHOR]

Published

2018

33. Papua New Guinea terrestrial-vertebrate richness: elevation matters most for all except reptiles.

Author

Tallowin, Oliver, Allison, Allen, Algar, Adam C., Kraus, Fred, and Meiri, Shai

Subjects

CONGRUENCES & residues, VERTEBRATES, REPTILES, SPECIES hybridization

Abstract

Aims To examine species richness patterns in Papua New Guinea's terrestrial vertebrates and test for geographical congruence between the four classes, and between lizard and snake subgroups. To assess the environmental correlates of Papua New Guinean terrestrial-vertebrate richness, and contrast effects of varying analytical resolution and correction for spatial autocorrelation. We predict congruence in the bird, mammal and to a lesser extent amphibian richness, with weak congruence or incongruence between reptiles and the other taxonomic groups. We further predict these patterns will stem from relative or in the case of reptiles dissimilar, correlative trends with environmental predictors such as elevation and temperature. Location Papua New Guinea. Methods Having created and updated distribution maps for reptiles, we compare them with known ranges of amphibians, birds and mammals and generate species richness grids at quarter-, half- and one- degree spatial resolutions. We examine congruence in species richness between vertebrate groups and between reptile subgroups. We employed spreading-dye models to simulate species richness according to eight environmental predictors and one random model. We accounted for spatial autocorrelation in all analyses. Results Papua New Guinean amphibian, bird and mammal species richness are spatially congruent, a trend which strengthens with decreasing spatial resolution. Reptiles and the lizard and snake subgroups reveal remarkably different spatial-richness trends. Elevational predictors, particularly elevational range at coarse resolutions, provide the strongest correlates of species richness. Terrestrial-vertebrate richness increases with elevation, whereas reptile richness decreases. Main conclusions Congruent species richness gradients in Papua New Guinea are observed in most terrestrial vertebrates, except reptiles. Topographic heterogeneity and associated climatic clines promote diversity in most terrestrial vertebrates but appear to strongly constrain reptile diversity. The topographical complexity and climatic stratification of tropical mountains clearly present a wealth of opportunities for diversification in most terrestrial vertebrate groups. As reptiles are strongly constrained by temperature, tropical mountains present more of a diversification barrier for them. [ABSTRACT FROM AUTHOR]

Published

2017

34. Intraspecific competition, not predation, drives lizard tail loss on islands.

Author

Itescu, Yuval, Schwarz, Rachel, Meiri, Shai, Pafilis, Panayiotis, and Clegg, Sonya

Subjects

LIZARD anatomy, PREDATION, ANIMAL aggression, GECKOS, AUTOTOMY, PHYSIOLOGY, REPTILES

Abstract

1. Tail autotomy is mainly considered an antipredator mechanism. Theory suggests that predation pressure relaxes on islands, subsequently reducing autotomy rates. 2. Intraspecific aggression, which may also cause tail loss, probably intensifies on islands due to the higher abundance. 3. We studied whether tail autotomy is mostly affected by predation pressure or by intraspecific competition. We further studied whether predator abundance or predator richness is more important in this context. 4. To test our predictions, we examined multiple populations of two gecko species: Kotschy's gecko (Mediodactylus kotschyi; mainland and 41 islands) and the Mediterranean house gecko (Hemidactylus turcicus; mainland and 17 islands), and estimated their abundance together with five indices of predation. 5. In both species, autotomy rates are higher on islands and decline with most predation indices, in contrast with common wisdom, and increase with gecko abundance. In M. kotschyi, tail-loss rates are higher on predator and viper-free islands, but increase with viper abundance. 6. We suggest that autotomy is not simply, or maybe even mainly, an antipredatory mechanism. Rather, such defence mechanisms are a response to complex direct and indirect biotic interactions and perhaps, in the case of tail autotomy in insular populations, chiefly to intraspecific aggression. [ABSTRACT FROM AUTHOR]

Published

2017

35. 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

Subjects

*CLIMATE change, *REPTILES, *DUST, *NUMBERS of species, *ENDANGERED species

Abstract

The IUCN recently coordinated the first assessment of extinction risk of the world's reptile species. This monumental undertaking allows, for the first time, an examination of threats and prioritization of conservation effort, not just for reptiles, but for land vertebrates as a whole. Reptiles are now the largest class of land vertebrates in terms of species numbers. The dynamic nature of reptile taxonomy, the 18 years it took for the Global Reptile Assessment to be completed, the poor state of knowledge for many species – especially of squamates – and the evolving nature of threats, however, all highlight the need for continued monitoring of reptile species and threats. Here we review the status of reptile conservation assessments, and identify the challenges facing the next reptile assessments. We then recommend potential avenues that could facilitate efficient, accurate and timely future assessments. • The first Global Reptile assessment only covers ~85 % of species currently recognized • Newly described reptiles, Data Deficient species and species that underwent taxonomic splitting after they were assessed require new dedicated studies to correctly assess their conservation status • Small ranged species and species not observed for lengthy periods of time need to be carefully assessed in the future • The effects of climate change and future land use changes need to be well integrated into assessments • approaches to measuring Red List criteria need to be diversified, population trends, generation length and projected declines should increasingly be used [ABSTRACT FROM AUTHOR]

Published

2023

36. Patterns of species richness, endemism and environmental gradients of African reptiles.

Author

Lewin, Amir, Feldman, Anat, Bauer, Aaron M., Belmaker, Jonathan, Broadley, Donald G., Chirio, Laurent, Itescu, Yuval, LeBreton, Matthew, Maza, Erez, Meirte, Danny, Nagy, Zoltán T., Novosolov, Maria, Roll, Uri, Tallowin, Oliver, Trape, Jean‐François, Vidan, Enav, and Meiri, Shai

Subjects

SPECIES diversity, REPTILES, AMPHISBAENIA, CROCODILES, LIZARDS, SNAKES

Abstract

Aim To map and assess the richness patterns of reptiles (and included groups: amphisbaenians, crocodiles, lizards, snakes and turtles) in Africa, quantify the overlap in species richness of reptiles (and included groups) with the other terrestrial vertebrate classes, investigate the environmental correlates underlying these patterns, and evaluate the role of range size on richness patterns. Location Africa. Methods We assembled a data set of distributions of all African reptile species. We tested the spatial congruence of reptile richness with that of amphibians, birds and mammals. We further tested the relative importance of temperature, precipitation, elevation range and net primary productivity for species richness over two spatial scales (ecoregions and 1° grids). We arranged reptile and vertebrate groups into range-size quartiles in order to evaluate the role of range size in producing richness patterns. Results Reptile, amphibian, bird and mammal richness are largely congruent ( r = 0.79-0.86) and respond similarly to environmental variables (mainly productivity and precipitation). Ecoregion size accounts for more variation in the richness of reptiles than in that of other groups. Lizard distributions are distinct with several areas of high species richness where other vertebrate groups (including snakes) are species-poor, especially in arid ecoregions. Habitat heterogeneity is the best predictor of narrow-ranging species, but remains relatively important in explaining lizard richness even for species with large range sizes. Main conclusions Reptile richness varies with similar environmental variables as the other vertebrates in Africa, reflecting the disproportionate influence of snakes on reptile richness, a result of their large ranges. Richness gradients of narrow-ranged vertebrates differ from those of widespread taxa, which may demonstrate different centres of endemism for reptile subclades in Africa. Lizard richness varies mostly with habitat heterogeneity independent of range size, which suggests that the difference in response of lizards is due to their ecological characteristics. These results, over two spatial scales and multiple range-size quartiles, allow us to reliably interpret the influence of environmental variables on patterns of reptile richness and congruency. [ABSTRACT FROM AUTHOR]

Published

2016

37. Late Quaternary reptile extinctions: size matters, insularity dominates.

Author

Slavenko, Alex, Tallowin, Oliver J. S., Itescu, Yuval, Raia, Pasquale, Meiri, Shai, and Thomas, Gavin

Subjects

HOLOCENE Epoch, REPTILE size, BIOLOGICAL extinction, BIOGEOGRAPHY, BIODIVERSITY

Abstract

Aim A major Late Quaternary vertebrate extinction event affected mostly large-bodied 'megafauna'. This is well documented in both mammals and birds, but evidence of a similar trend in reptiles is scant. We assess the relationship between body size and Late Quaternary extinction in reptiles at the global level. Location Global. Methods We compile a body size database for all 82 reptile species that are known to have gone extinct during the last 50,000 years and compare them with the sizes of 10,090 extant reptile species (97% of known extant diversity). We assess the body size distributions in the major reptile groups: crocodiles, lizards, snakes and turtles, while testing and correcting for a size bias in the fossil record. We examine geographical biases in extinction by contrasting mainland and insular reptile assemblages, and testing for biases within regions and then globally by using geographically weighted models. Results Extinct reptiles were larger than extant ones, but there was considerable variation in extinction size biases among groups. Extinct lizards and turtles were large, extinct crocodiles were small and there was no trend in snakes. Lizard lineages vary in the way their extinction is related to size. Extinctions were particularly prevalent on islands, with 73 of the 82 extinct species being island endemics. Four others occurred in Australia. The fossil record is biased towards large-bodied reptiles, but extinct lizards were larger than extant ones even after we account for this. Main conclusions Body size played a complex role in the extinction of Late Quaternary reptiles. Larger lizard and turtle species were clearly more affected by extinction mechanisms such as over exploitation and invasive species, resulting in a prevalence of large-bodied species among extinct taxa. Insularity was by far the strongest correlate of recent reptile extinctions, suggesting that size-biased extinction mechanisms are amplified in insular environments. [ABSTRACT FROM AUTHOR]

Published

2016

38. Late bloomers and baby boomers: ecological drivers of longevity in squamates and the tuatara.

Author

Scharf, Inon, Feldman, Anat, Novosolov, Maria, Pincheira-Donoso, Daniel, Das, Indraneil, Böhm, Monika, Uetz, Peter, Torres-Carvajal, Omar, Bauer, Aaron, Roll, Uri, and Meiri, Shai

Subjects

BABY boom generation, LONGEVITY, SQUAMATA, TUATARA, LIFE history theory, ALLOMETRY

Abstract

Aim Longevity is an important life-history trait, directly linked to the core attributes of fitness (reproduction and survival), yet large-scale comparative studies quantifying its implications for the ecology and life history of ectotherms are scarce. We tested the allometry of longevity in squamates and the tuatara, and determined how longevity is related to key environmental characteristics and life-history traits. Predictions based on life-history theory are expected to hold true for ectotherms, similarly to mammals and birds. Location World-wide. Methods We assembled from the literature a dataset of the maximum longevities of more than a thousand squamate species, representing c. 10% of their known species diversity, their phylogenetic relationships and multiple life-history and ecological variables. Correcting for phylogeny, we modelled the link between squamate longevity and both key life-history traits, such as body mass and age at first reproduction, and important environmental factors, such as latitude and primary productivity within species distributional ranges. Results Large-bodied species live for longer than small ones, but body size explains far less of the variance in longevity than it does in mammals and birds. Accounting for body size, squamate brood frequency is negatively correlated with longevity, while age at first reproduction is positively correlated with longevity. This points to a continuum of slow-to-fast life-history strategies. Squamates in high latitudes and cold regions live for longer, probably because a shorter season of activity translates to slower development, older age at first reproduction and hence to increased longevity. Individuals live longer in captivity than in the wild. Herbivorous and omnivorous squamates live for longer than carnivorous ones. We postulate that low-quality nutrition reduces growth rates, promotes a relative decline in reproductive rates and thus prolongs life. Main conclusions Our results support key predictions from life-history theory and suggest that reproducing more slowly and at older ages, being herbivorous and, plausibly, lowering metabolism, result in increased longevity. [ABSTRACT FROM AUTHOR]

Published

2015

39. Hot-Spot Facts and Artifacts-Questioning Israel's Great Biodiversity.

Author

ROLL, URI, STONE, LEWI, and MEIRI, SHAI

Subjects

BIODIVERSITY, SPECIES diversity, ECOLOGICAL heterogeneity, REPTILES, MAMMALS

Abstract

Israel's biological diversity has been praised as being particularly rich in relation to its size; however this assumption was never tested when taking into account the empirical form of the species-area relationship. Here we compared the species richness of different countries to see if the Israeli diversity is exceptionally rich when area is accurately accounted for. We compared richness of amphibians, birds, mammals, reptiles, flowering plants, conifers and cycads, and ferns in all the world's countries. We further tested the effects of mean latitude, altitude span, and insularity on species richness both for all world countries and just for Mediterranean countries. For all taxa and in all tests, Israel lies within the prediction intervals of the models. Out of 42 tests, Israel's residuals lie in the upper decile of positive residuals once: for reptiles, when compared to all world countries, taking all predicting factors into account. Using only countries larger than 1000 km2, Israel was placed as top residual when compared to other Mediterranean countries for mammals and reptiles. We therefore conclude that Israel's species richness does not significantly exceed the expected values for a country its size. This is true when comparing it to either world or just Mediterranean countries. Adding more predicting factors does not change this fact. [ABSTRACT FROM AUTHOR]

Published

2009

40. Asymmetric Behavior in Ptyodactylus guttatus: Can a Digit Ratio Reflect Brain Laterality?

Author

Sion, Guy, Tal, Rahav, and Meiri, Shai

Subjects

RISK-taking behavior, BRAIN function localization, CEREBRAL dominance, GECKOS, BEHAVIOR, REPTILES

Abstract

The digit ratio, an indicator of brain laterality, is the ratio of the second and fourth digits on the left (L24) or right foot (R24). Much of the research on the digit ratio and brain laterality focuses on primates, rather than other species such as reptiles. We tested whether the digit ratio in the gecko Ptyodactylus guttatus was associated with behaviors attributed to brain laterality. We examined risk-taking behavior (time spent under cover), foot preference (which foot was the first to start moving) and the side from which geckos bypassed an obstacle, in relation to the digit ratio. Geckos with longer fourth digits on their left hind foot (higher digit ratio) spent more time under cover. Geckos starting to move with their left leg were much more likely to bypass obstacles from the right side, and vice versa. This is the first evidence of laterality being associated with the digit ratio in reptiles. Comparisons among vertebrates are needed in order to decipher the evolutionary origin of the commonalities and peculiarities of brain asymmetry and disentangle the patterns and drivers of our evolutionary tree. [ABSTRACT FROM AUTHOR]

Published

2020

41. Tarentola annularis (Squamata: Phyllodactylidae): a new invasive species in Israel.

Author

JAMISON, SIMON, TAMAR, KARIN, SLAVENKO, ALEX, and MEIRI, SHAI

Subjects

*TARENTOLA, *SQUAMATA, *INTRODUCED species, *REPTILES, *PHYLLODACTYLUS

Published

2017

42. 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

43. Annual Report. Academic year 2019/2020

Author

Mostovski, Mike B. (Ed.), Ben-David-Zaslow, Revital, Gur, Yonatan, Dayan, Tamar, Bar-Yosef Mayer, Daniela E., Belmaker, Amos, Belmaker, Jonathan, Ben-Dov Segal, Avigail, Bronstein, Omri, Dorchin, Achik, Dorchin, Netta, Feldstein-Farkash, Tamar, Friedman, Arieh-Leib-Leonid, Gal, Bruria, Galil, Bella, Gavrieli, Yael, Goren, Liron, Goren, Menachem, Guershon, Moshe, Hershkovitz, Israel, Hershkovitz, Yaron, Hoffman, Razy, Huchon, Dorothée, Ionescu, Armin, Katz, Yuri, Kravchenko, Vasily, Kuslitzky, Wolf, Langgut, Dafna, Levitt Barmats, Ya'arit, Maza, Erez, Meiri, Meirav, Meiri, Shai, Mienis, Henk K., Morgulis, Elizabeth, Novoselsky, Tanya, Orlov-Labkovsky, Olga, Pen-Mouratov, Stanislav, Pisanti, Gideon, Rittner, Oz, Sapir, Yuval, Sapir-Hen, Lidar, Shefer, Sigal, Shenkar, Noa, Sokolover, Noga, Spodek, Malkie, Ramon, Uri, Renan, Ittai, Ben Zvi, Gilad, Ribak, Gal, Sapan, Alon, Yefremova, Zoya, Ziffer-Berger, Jotham, and Zonstein, Sergei

Subjects

reports, nature conservation, Foraminifera, Mediterranean, taxonomy, insects, Israel, sponges, herbarium, biodiversity, algae, education, amphibians, insectariums, plants, field work, curation, archeobotany, ascidians, Coleoptera, corals, pollen, museums, archeozoology, charcoal, Echinodermata, Natural history, Bryozoa, Middle East, human evolution, anthropology, mammals, collections, fish, molluscs, research, Holocene, crustaceans, zoology, Diptera, Brachiopoda, archaeology, Polychaeta, botany, invertebrates, Hymenoptera, reptiles, exhibitions, birds, fungi, vertebrates, Paleozoic, paleontology

Abstract

The past year has been a challenging one. The Steinhardt Museum only opened to the public in July 2018 for a trial run, became fully operational in September, and was gaining significant momentum, but a mere 8 months later, in March 2019, Covid struck and the world as we knew it was transformed. This caught us in the trajectory of an upwards momentum, prior to stabilizing our funding sources and getting government recognition as a museum and in the midst of team-building work and rapid content development. This is not something we had bargained for. That said, our team rose to the occasion. While unfortunately, we had to part with many great hourly workers in the Public Division of the museum and send them on unpaid leave, the remainder of the team stayed with us, and people continued to work as hard as ever in preparation for the museum re-opening, dealing with the many challenges that a new museum affords. The scientific staff continued its work throughout the pandemic. Our scientists and professionals worked in the collections and in the field under very complicated conditions indeed. The collection ma­nagers continued promoting the collections and taxonomic work and providing in­valuable services to a variety of agencies. The Applied Policy-Relevant Research Division Centers—Open Landscape Institute, HaMaarag, and the National Center for Aquatic Ecology—continued almost business as usual, as did the Entomological Laboratory for Applied Ecology. The museum was closed for a significant part of the year but during the months that it was open, albeit with restrictions, and particularly during the summer months, we were gratified by the level of renewed public interest. During the reporting period, the Museum researchers produced 202 scientific articles, which were published or accepted for publication, and13 books/book chapters.

Published

2022

44. Evolution around the Red Sea: Systematics and biogeography of the agamid genus Pseudotrapelus (Squamata: Agamidae) from North Africa and Arabia.

Author

Tamar, Karin, Scholz, Sebastian, Crochet, Pierre-André, Geniez, Philippe, Meiri, Shai, Schmitz, Andreas, Wilms, Thomas, and Carranza, Salvador

Subjects

*BIOLOGICAL evolution, *BIOGEOGRAPHY, *AGAMIDAE, *GLOBAL environmental change

Abstract

Since the Oligocene, regions adjacent to the Red Sea have experienced major environmental changes, from tectonic movements and continuous geological activity to shifting climatic conditions. The effect of these events on the distribution and diversity of the regional biota is still poorly understood. Agamid members of the genus Pseudotrapelus are diurnal, arid-adapted lizards distributed around the Red Sea from north-eastern Africa, across the mountains and rocky plateaus of the Sinai and Arabian Peninsulas northwards to Syria. Despite recent taxonomic work and the interest in the group as a model for studying biogeographic and diversity patterns of the arid areas of North Africa and Arabia, its taxonomy is poorly understood and a comprehensive phylogeny is still lacking. In this study, we analyzed 92 Pseudotrapelus specimens from across the entire distribution range of the genus. We included all known species and subspecies, and sequenced them for mitochondrial (16S, ND4 and tRNAs) and nuclear (MC1R, c- mos ) markers. This enabled us to obtain the first time-calibrated molecular phylogeny of the genus, using gene trees, species trees and coalescent-based methods for species delimitation. Our results revealed Pseudotrapelus as a monophyletic genus comprised of two major clades and six independently evolving lineages. These lineages correspond to the five currently recognized species and a sixth lineage relating to the synonymized P. neumanni . The subspecific validity of P. sinaitus werneri needs further assessment as it does not form a distinct cluster relative to P. s. sinaitus . The onset of Pseudotrapelus diversification is estimated to have occurred in Arabia during the late Miocene. Radiation has likely resulted from vicariance and dispersal events due to the continued geological instability, sea level fluctuations and climatic changes within the region. [ABSTRACT FROM AUTHOR]

Published

2016

45. Annual Report. Academic year 2018/2019

Author

Mostovski, Mike (Ed.), Ben-David-Zaslow, Revital, Gur, Yonatan, Dayan, Tamar, Bar-Yosef Mayer, Daniela E., Belmaker, Amos, Belmaker, Jonathan, Ben-Dov Segal, Avigail, Bronstein, Omri, Dorchin, Achik, Dorchin, Netta, Feldstein-Farkash, Tamar, Friedman, Arieh-Leib-Leonid, Gal, Bruria, Galil, Bella, Goren, Liron, Guershon, Moshe, Goren, Menachem, Gavrieli, Yael, Hershkovitz, Israel, Hershkovitz, Yaron, Hoffman, Razy, Huchon, Dorothée, Ionescu, Armin, Kravchenko, Vasily, Kuslitzky, Wolf, Langgut, Dafna, Levitt Barmats, Ya'arit, Maza, Erez, Meiri, Meirav, Meiri, Shai, Mienis, Henk K., Morgulis, Elizabeth, Novoselsky, Tanya, Orlov-Labkovsky, Olga, Pen-Mouratov, Stanislav, Rittner, Oz, Sapir, Yuval, Sapir-Hen, Lidar, Shefer, Sigal, Shenkar, Noa, Sokolover, Noga, Spodek, Malkie, Ramon, Uri, Renan, Ittai, Ribak, Gal, Sapan, Alon, Yefremova, Zoya, Ziffer-Berger, Jotham, and Zonstein, Sergei

Subjects

biodiversity research, reports, Natural history, nature conservation, Foraminifera, Mediterranean, Bryozoa, taxonomy, Middle East, human evolution, anthropology, mammals, collections, insects, Israel, sponges, herbarium, algae, fish, molluscs, education, amphibians, Holocene, insectariums, plants, crustaceans, zoology, Brachiopoda, field work, archaeology, Polychaeta, botany, archeobotany, invertebrates, reptiles, ascidians, exhibitions, corals, pollen, birds, fungi, museums, vertebrates, archeozoology, Paleozoic, paleontology, charcoal, Echinodermata

Abstract

The past year was a wonderful yet challenging one. After a two-month trial run, the museum opened to the public and with almost 200,000 visitors during this past year we have already become the 7th most visited museum in Israel. These numbers were well above our expectations; clearly Israel needed a natural history museum! The Marketing, Operations, and Education teams were committed to welcome this influx of visitors and to develop a new and innovative array of rich and varied programs: workshops, conferences, science days, tours around the galleries and the zoo and botanical garden, night at the museum, plays, public lectures and cool parties. We worked hard to convey our science and values in museum activities, and were gratified by the very positive response we got from our visitors, and thrilled with developing partnerships, in particular with the Tel Aviv Yaffo municipality. Transferring over 5.5 million specimens to the new museum building was challenging, as was reorganizing the specimens in the new storage facilities. With full dedication of the museum’s Collections Managers and Curators, most of the specimens have already been arranged in the new collection halls, where we can now care for them as we should; but it will still take a significant effort to get all our collections in the long term proper storage. The Collections and Research team is growing in numbers and in scientific strength and has reached organizational maturity. The Groups (Terrestrial Vertebrates, Entomology, Marine & Aquatic, Paleosciences, Herbarium) have matured into full-fledged Museum Sections working in coordination and with team spirit. The museum collections database underwent a significant change in the past few years, rearranged on a new software platform that enabled the creation of a unified database that would shortly be publicly available through the museum’s website. Until that happens, we continued to send data as requested to colleagues from around the world. All this was important because hundreds of scientists continued to use our collections for research in the past year, including many colleagues from abroad and graduate students. As a service-oriented institution, we did our best to provide a state-of-the-art research infrastructure for all. Concurrently, the Collections team members continued to record nature assets in areas of their expertise and to promote their taxonomic research and ability to provide crucial services to academia, conservation agencies, agriculture and health authorities, aviation safety, and other missions. The Open Landscape Institute, HaMaarag and the Israel Center for Aquatic Ecology have moved to the new building and, residing now in close physical proximity on the 5th floor, their scientific and professional cooperation is strengthening both among them and with the collections team and research laboratories. These synergies are vital; we plan for the museum to form a whole that is greater than its parts. Moreover, we find interactions with our colleagues from the Ministry of Environmental Protection, Israel Nature and Parks Authority and Keren Kayemeth LeIsrael (Jewish National Fund) through our joint projects both fruitful and scientifically challenging. The museum hosted several national and international meetings. Dafna Langgut was a member of the organizing committee of the 5th Annual Israeli Conference on Environmental History and organized a session on The Steinhardt Natural History Museum as an Archive to Environmental Studies; Shai Meiri was a member of the organizing committee of Gekkota Mundi II | An International Conference; Amos Belmaker was a member of the organizing committee of the 11th Biennial European Bird Curator Meeting; Bella Galil and Menachem Goren organized a workshop Guidelines for the Definition of Deep-Sea Protected Areas within the frame of the Implementation of the MSFD to the Deep Mediterranean Sea multilateral project; Dorothée Huchon organized a Symposium in Honor of Prof. David Wool 86th Birthday; and Jonathan Belmaker represented the museum on the panel of the 2nd Conference of the Israel Chapter of the Society for Conservation Biology that was held at the Technion in Haifa. The Israel Taxonomy Initiative supported three taxonomic workshops on insects (Hemiptera), arrow worms (Chaetognatha) and Peracarida crustaceans. HaMaarag conducted two full-day seminars: Ashalim Stream Ecosystem Montoring Program and Evrona Nature Reserve Ecosystem Monitoring Program. Team building was an important component of the museum’s work in the past year and would continue to be so. The museum team members come from various university units and other organizations, with different areas of expertise and scientific background. Additionally, dozens of new ushers, cashiers and guides were recruited in the past year, and, of course, we shared our building and treasures with a tremendous number of visitors. Thus, we all have to learn to accommodate each other’s needs in the joint building. The greatest challenge facing humankind in the 21st century is the need to provide for a rapidly growing global population, while protecting ecosystems upon which we are all dependent. As a national research infrastructure, the key mission of our museum is to record nature, to study it, and to share our knowledge and expertise with decision-makers and the general public. We feel that the State of Israel and Tel Aviv University have entrusted us with a great treasure, one that is timely, of huge scientific interest, of great societal value, and of immense public interest. We are indeed privileged.

Published

2020

46. Rueppel's Snake-eyed skink, Ablepharus rueppellii (Gray, 1839) (Reptilia: Squamata: Scincidae): Distribution extension and geographic range in Israel.

Author

Roll, Uri, Tallowin, Oliver, Berkowic, Daniel, Maza, Erez, Ostrometzky, Yael, Slavenko, Alex, Shacham, Boaz, Tamar, Karin, and Meiri, Shai

Subjects

*LIZARDS, *REPTILES, *SPECIES distribution, *SKINK populations

Abstract

We report a new locality for Rueppel's Snake-eyed skink (Ablepharus rueppellii) in Southern Israel - near Shivta Junction. This record extends the known distribution of this species in Israel by ~25km. We examined all known localities of this species in Israel and the adjacent Sinai Peninsula (Egypt), and discuss some discrepancies between them and currently published range maps, including the one produced by the IUCN. [ABSTRACT FROM AUTHOR]

Published

2013

47. Annual Report. Academic year 2017/2018

Author

Mostovski, Mike (Ed.), Dayan, Tamar, Sapan, Alon, Dorchin, Netta, Scharf, Inon, Ribak, Gal, Kravchenko, Vasily, Zonstein, Sergei, Yefremova, Zoya, Novoselsky, Tanya, Stern, Tirza, Friedman, Arieh-Leib-Leonid, Spodek, Malkie, Morgulis, Elizabeth, Shefer, Sigal, Mienis, Henk K., Rittner, Oz, Ben-David-Zaslow, Revital, Sokolover, Noga, Pen-Mouratov, Stanislav, Levitt Barmats, Ya'arit, Goren, Liron, Bronstein, Omri, Shenkar, Noa, Belmaker, Jonathan, Goren, Menachem, Galil, Bella, Meiri, Shai, Ben-Dov Segal, Avigail, Feldstein, Tamar, Hoffman, Razy, Gal, Bruria, Langgut, Dafna, Bar-Yosef Mayer, Daniela E., Orlov-Labkovsky, Olga, Sapir-Hen, Lidar, Meiri, Meirav, May, Hilla, Sarig, Rachel, Huchon, Dorothée, Gavrieli, Yael, Hershkovitz, Yaron, Renan, Ittai, Levinsky, Irina, and Ramon, Uri

Subjects

reports, Natural history, Foraminifera, Mediterranean, taxonomy, Middle East, mammals, collections, insects, Israel, sponges, herbarium, biodiversity, molluscs, fish, algae, education, research, amphibians, insectariums, crustaceans, zoology, field work, botany, archeobotany, invertebrates, reptiles, ascidians, exhibitions, corals, birds, pollen, fungi, museums, vertebrates, archeozoology, paleontology

Abstract

The past year was a historical milestone in the Steinhardt Museum development, with the begin­ning of the move into the new building and opening our galleries to the general public. This process began decades ago, most formally with a science policy decision made by the Israel Academy of Sciences and Humanities in 1986, to consider our collections as National Collections, a National Museum of Natural History in the making. We have finalized Phase I of the Steinhardt Museum development and now face challenges of Phase II — the continuing development of our public programs and scientific and professional ca­pabilities, while strategically advancing the organizational and financial structure of the Stein­hardt Museum. The Steinhardt Museum comprises three major divisions. The Public Division was very active with finishing the exhibitions, developing an application and educational materials for museum visitors, and training guides, ushers and cashiers to work with the public. July and August saw a trial run with limited numbers of visitors and in September we opened the museum for all who purchased tickets on-line. The interest in the museum was gratifying, exceeding our most op­ti­mistic expectations, with the tickets sold out weeks ahead. Very positive responses were received from the public representing all sectors of the Israeli society; we feel privileged to share our trea­sures and knowledge with all. The Collections & Research Division has developed dramatically over the past few years — now comprising ca. 5.5 million specimens, over 40 expert collections managers, taxidermists and tech­nical assistants, 24 curators, 5 associate curators and a number of active curators emeriti. The Israel Taxonomy Initiative and the Aliya from the former USSR have contributed highly qua­lified museum professionals, in particular expert taxonomists, to this division, and the relevant aca­demic units have hired excellent young faculty members who serve as curators and develop collections-based research programs. Consequently, the rate of our collecting and the numbers of graduate students and international colleagues who use the collections for research have in­creased substantially. The staff members were entrusted with an arduous task of transferring the col­lections to the new museum building and reorganizing the collections in the storage facilities; they have been dealing with this admirably. Two special projects in the Collections & Research Division — the Israel Taxonomy Initiative and the Ancient DNA Program — continued to perform well, and the joint molecular systematics laboratory moved from cramped quarters to a spacious lab in the new museum building that would allow its development and use by all collections-based researchers. The Applied Policy-Relevant Research Division comprises three centers supported and co-ma­naged by the Ministry of Environmental Protection, the Israel Nature and Parks Authority and KKL-JNF: The Israel National Center for Aquatic Ecology, the Open Landscape Institute (with part­nership also of the Society for the Protection of Nature in Israel) and HaMaarag – Israel National Nature Assessment Program. The experts working in these centers have added a new dimension to the research carried out in the museum, and we trust that the synergy between them and the Collections & Research Division of the museum will continue to add depth to the museum’s mission and activities. The Applied Policy-Relevant Research Division also comprises special projects and services provided by the museum to governmental and other agencies: The Entomology Lab for Applied Ecology, the Feather Identification Lab, Agricultural Biodiversity and Marine Biodiversity, which produce knowledge required to support important activities of the Plant Protection and Inspection Services of the Ministry of Agriculture, monitor and survey arthropods, monitor bird-strikes for the Airports Authority and the Israeli Air-Force, and do forensic work and monitor marine nature reserves for the Israel Nature and Parks Authority. It was a very intensive, uneasy yet rewarding year, and we are privileged to have a dedicated hard-working team that meets challenges successfully and good-humoredly. We are also fortunate to have excellent colleagues in all relevant agencies and organizations who work with us, to attain the common goal of recording Israel’s biodiversity, studying it and sharing our knowledge and trea­sures with decision-makers and with the general public.

Published

2019

48. 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