Your search keyword '"Meiri, Shai"' showing total 40 results

1. Glass houses – comment on ‘decolonising biogeography’

Author

Roll, Uri and Meiri, Shai

Subjects

Biogeography, data, maps, colonialism

Published

2020

2. The smartphone fallacy – when spatial data are reported at spatial scales finer than the organisms themselves

Author

Meiri, Shai

Subjects

biogeography, spatial precision, decimal degrees, Google maps, GPS smartphones

Abstract

Thankfully, the days when specimen localities could be described in extremely vague terms such as “Peru” or “Indochina” are long gone. But the pendulum has swung too far the other way. Latitude and longitude data of specimens and study areas (such as small nature reserves) are nowadays commonly reported to the 0.000001 of a degree (or 0.01 of a second) or even more “precisely”. This is done either because of converting across measurement systems or because hand-held devices and internet sources provide this kind of precision. We probably report this degree of precision because we are reluctant to round – feeling it would make the data better and more “scientific”. I point out the scale referred to by different degrees of geographic precision (e.g., ~10cm for 6 decimal places) and argue that such degree of precision is false for two reasons: first, it is finer than actually achievable by hand held devices such as smartphones and GPS receivers (and much finer than we can tell from a map). Second, for large animals, such precision can refer to one part of the organism, and not another. I urge scientists to use simple reality checks when reporting latitude and longitude data and report precision at meaningful scales.

Published

2018

3. Guild Composition and Mustelid Morphology: Character Displacement but No Character Release

Author

Meiri, Shai, Dayan, Tamar, and Simberloff, Daniel

Published

2007

4. The Generality of the Island Rule Reexamined

Author

Meiri, Shai, Dayan, Tamar, and Simberloff, Daniel

Published

2006

5. Biogeographical Patterns in the Western Palearctic: The Fasting-Endurance Hypothesis and the Status of Murphy's Rule

Author

Meiri, Shai, Dayan, Tamar, and Simberloff, Daniel

Published

2005

6. On the Validity of Bergmann's Rule

Author

Meiri, Shai and Dayan, Tamar

Published

2003

7. Is the island rule general? Turtles disagree

Author

Itescu, Yuval, Karraker, Nancy E., Raia, Pasquale, Pritchard, Peter C. H., and Meiri, Shai

Published

2014

8. A practical guide to collections‐based research on ecogeographic rules.

Author

Shelomi, Matan and Meiri, Shai

Subjects

*EXPERIMENTAL design

Abstract

Ecogeographic research into how species' forms vary across space, time, and climate has taken on new urgency due to contemporary global climate change. Research using museum specimens and other records to study biological rules like Bergmann's, Allen's, and Gloger's Rules has a long history and continues to generate publications and robust scientific debates. Despite the prevalence and history of the field, however, no simple guide on how to carry out such work has ever been published. To lower the barriers of entry for new researchers, this review was created as a practical guide on how to perform ecogeographic research. The guide consolidates disparately published methodologies into a single, convenient document that reviews the history and present of the field of ecogeographic rule research, and describes how to generate appropriate hypotheses, design experiments, gather, and analyze biotic and geographic data, and interpret the results in an ecologically meaningful manner. The result is a semi‐standardized guide that enables scientists at all levels from any institution to carry out an investigation from start to finish on any biological rule, taxon, and location of their choice. [ABSTRACT FROM AUTHOR]

Published

2023

9. Macroecological and biogeographical patterns of limb reduction in the world's skinks.

Author

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

Subjects

SKINKS, BODY size, DATABASES, ECOLOGICAL niche, HINDLIMB

Abstract

Aim: Limb reduction is a dramatic evolutionary transition, yet whether it is achieved in similar trajectories across clades, and its environmental drivers, remain unclear. We investigate the macroevolutionary and biogeographical patterns of limb reduction in skinks, where limb reduction occurred more often than in any other tetrapod clade, and test their associations with substrate categories using a global database. We test for habitat associations of body shapes in a group of Australian skinks using quantitative habitat data. Location: Global (Scincidae), Australia (Sphenomorphinae). Taxon: Skinks, Australian Sphenomorphinae. Materials and Methods: We use morphological data to explore the patterns of limb reduction in the world's skinks, investigating how body proportions differ across skink clades and subfamilies. We examine the relationships between body shape and substrate (coarsely classified). Further, we investigate the relationships between body shape and high‐resolution soil and climate properties extracted from each species' distribution for Australian sphenomorphines. Results: Relationships between limb lengths and trunk elongation show idiosyncratic patterns across skink clades. Presacral vertebrae numbers positively correlate with trunk elongation in all taxa, except Glaphyromorphus. Skinks from sandy habitats show greater disparity between forelimb and hindlimb lengths than all other substrate categories. In sphenomorphines, shorter limbs and elongated trunks correlate with colder, more humid microhabitats and richer soils; high limb disparity correlates with hot, arid microhabitats and sandy, poor substrates. Main Conclusions: The evolutionary trajectories of limb reduction in skinks are clade‐specific and sometimes unique. Selection for specific limb proportions and body sizes in limb‐reduced forms changes across substrates. On poor, sandy substrates of arid environments, body shapes with longer hindlimbs may be more efficient for locomotion in a granular fluid (i.e. sand) and exploit the air–substrate interface than complete limblessness. On richer, more humid substrates, such morphology is rare, indicating that navigating cluttered substrates selects for more equal and shorter limb lengths. [ABSTRACT FROM AUTHOR]

Published

2023

10. Bergmann's Rule - what's in a name?

Author

Meiri, Shai

Published

2011

11. Slaying dragons: limited evidence for unusual body size evolution on islands

Author

Meiri, Shai, Raia, Pasquale, and Phillimore, Albert B.

Published

2011

12. One size does not fit all: no evidence for an optimal body size on islands

Author

Raia, Pasquale, Carotenuto, Francesco, and Meiri, Shai

Published

2010

13. Global Change and Carnivore Body Size: Data Are Stasis

Author

Meiri, Shai, Guy, Dorit, Dayan, Tamar, Simberloff, Daniel, and McGill, Brian

Published

2009

14. Evolution and Ecology of Lizard Body Sizes

Author

Meiri, Shai and Blackburn, Tim

Published

2008

15. Mammals of Borneo: Small Size on a Large Island

Author

Meiri, Shai, Meijaard, Erik, Wich, Serge A., Groves, Colin P., and Helgen, Kristofer M.

Published

2008

16. Size Evolution in Island Lizards

Author

Meiri, Shai

Published

2007

17. The Geography of Body Size-Challenges of the Interspecific Approach

Author

Meiri, Shai and Thomas, Gavin H.

Published

2007

18. The biogeography of warming tolerance in lizards.

Author

Anderson, Rodolfo O., Meiri, Shai, and Chapple, David G.

Subjects

*LIZARDS, *BIOGEOGRAPHY, *GEOTHERMAL ecology, *BODY temperature, *CLIMATE change

Abstract

Aim: Many ectotherms are at risk from climate change as temperatures are increasingly exceeding their thermal limits. Many evaluations of the vulnerability of ectotherms to climate change have relied on statistical metrics derived from coarse‐scale climatic data, which may result in misleading predictions. By applying an integrative approach, we investigated geographical correlates of the vulnerability of lizards to climate change. Location: Globally. Taxon: Lizards. Methods: We combined data on lizard thermal physiology and ecology, with high‐resolution climate data and biophysical modelling to assess lizards' vulnerability to climate change. We calculated warming tolerance (difference between their body temperatures and upper thermal limits) and number of hours of activity. We investigated associations between warming tolerance and activity time with latitude, altitude and biome types. We compared our approach with traditional methods to calculate warming tolerance (using solely macroclimatic data). Results: We found no latitudinal trend in the warming tolerance of lizards calculated from body temperature, but there was a weak negative correlation with altitude. We found associations between hours of activity and latitude and altitude. Desert species showed narrower warming tolerance than tropical and temperate species. Desert species and temperate species had reduced hours of activity when compared to tropical species. When warming tolerance was calculated from macroclimatic data, however, it was positively correlated with latitude and altitude, and species from tropical forested biomes showed narrow warming tolerances. Main Conclusions: Vulnerability metrics calculated from macroclimatic data can produce divergent outcomes to those observed from fine‐scale climatic data. Our work indicates that the ability of desert and temperate lizard species to cope with heat stress by thermoregulating is more constrained than that of tropical species. Integrative assessments of ectotherms' vulnerability to climate change can highlight species and regions that should be prioritised for conservation management. [ABSTRACT FROM AUTHOR]

Published

2022

19. Revision of the montane New Guinean skink genus Lobulia (Squamata: Scincidae), with the description of four new genera and nine new species.

Author

Slavenko, Alex, Tamar, Karin, Tallowin, Oliver J S, Kraus, Fred, Allison, Allen, Carranza, Salvador, and Meiri, Shai

Subjects

SKINKS, SQUAMATA, COLONIZATION (Ecology), SPECIES diversity, SPECIES, COLUBRIDAE

Abstract

The skink genus Lobulia is endemic to New Guinea, the largest and highest tropical island in the world. Lobulia and its related genera represent an important component of the montane herpetofauna of New Guinea, but it remains understudied and poorly known. We here provide the first, large-scale, systematic revision of Lobulia , using molecular phylogenetic and morphological comparisons to assess the monophyly of the genus and the diversity of species within it. We find that Lobulia , as currently defined, is polyphyletic. The eight species currently assigned to it form three clades. Furthermore, many specimens from New Guinea of unknown specific affinity are genetically and morphologically distinct from each other. Based on these data, we re-diagnose Lobulia and two of its closely related genera, Prasinohaema and Papuascincus. We erect four new genera (Alpinoscincus gen. nov. Nubeoscincus gen. nov. Ornithuroscincus gen. nov. and Palaia gen. nov.) to address the problem of polyphyly and describe nine new species Lobulia fortis sp. nov. Lobulia huonensis sp. nov. Loublia marmorata sp. nov. Lobulia vogelkopensis sp. nov. Ornithuroscincus bengaun sp. nov. Ornithuroscincus inornatus sp. nov. Ornithuroscincus pterophilus sp. nov. Ornithuroscincus shearmani sp. nov. and Ornithuroscincus viridis sp. nov. We supplement this taxonomic revision by investigating the biogeographic history of Lobulia s.l. and find evidence for a large radiation in the accreted terranes of New Guinea, with multiple independent colonizations of montane habitats and subsequent recolonization of lowland habitats. Our study reinforces the uniqueness and richness of the montane herpetofauna of New Guinea and the importance of mountains to biodiversity in the Tropics. [ABSTRACT FROM AUTHOR]

Published

2022

20. Biogeography of body size in terrestrial isopods (Crustacea: Oniscidea)

Author

Karagkouni, Maria, Sfenthourakis, Spyros, Feldman, Anat, Meiri, Shai, and Sfenthourakis, Spyros [0000-0003-3213-2502]

Subjects

0106 biological sciences, Evolution, Biogeography, Geographic variation, Oniscidea, aridity resistance hypothesis, Body size, geographic variation, 010603 evolutionary biology, 01 natural sciences, Phylogenetics, Crustacea, Genetics, Animalia, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Bergmann's rule, biology, Ecology, terrestrial isopods, biology.organism_classification, Crustacean, 010601 ecology, Animal Science and Zoology, body size, Acidosis, Zoology, Isopoda

Abstract

ID: 750 In: Journal of zoological systematics and evolutionary research, Vol. 54, no. 3 (Aug. 2016), p.182-188. Summary: AbstractThis study tries to unveil the contribution of climatic shift in shaping the extreme body size diversity in terrestrial isopods (Oniscidea). Trying to explain size variation at an interspecific level, we test five hypotheses: (1) Bergmann's Rule and the temperature‐size rule postulate large size in cold areas (2) The metabolic cold adaptation theory postulates small animal sizes in cold environments (3) The primary productivity hypothesis predicts size increase in resource‐rich areas (4) The aridity resistance hypothesis predicts large size in arid regions and (5). The acidosis hypothesis predicts smaller size with decreasing soil pH. Globally, Bergmann's rule and the aridity hypothesis are weakly supported. Among families and genera, results are variable and idiosyncratic. Conglobating species sizes provide weak support for the acidosis hypothesis. Overall, size is strongly affected by familial affiliation. Isopod size evolution seems to be mainly affected by phylogenetically constrained life‐history traits.AbstractDistributions of 738 species of terrestrial isopods (Crustacea: Oniscidea) against a global map of soil moisture. The medium sizedChaetophiloscia cellaria(Dollfus, 1884), Philosciidae (top), inhabits humid habitats whereas the the large‐sizedHemilepistus reaumurii(Milne‐Edwards, 1840), Agnaridae (bottom), lives in desert habitats. This exemplifies the tendency of isopods to increase in size with decreasing moisture which we have found characterizes the clade globally. Overall within‐taxa relationships are weak and idiosyncratic. Isopod size evolution mainly reflect phylogenetically constrained life history.

Published

2016

21. The other side of the Sahulian coin: biogeography and evolution of Melanesian forest dragons (Agamidae).

Author

Tallowin, Oliver J S, Meiri, Shai, Donnellan, Stephen C, Richards, Stephen J, Austin, Christopher C, and Oliver, Paul M

Subjects

*RAIN forests, *AGAMIDAE, *BIOGEOGRAPHY, *DRAGONS, *FOREST biodiversity, *SPECIES diversity

Abstract

New Guinea has been considered both as a refuge for mesic rainforest-associated lineages that contracted in response to the late Cenozoic aridification of Australia and as a centre of biotic diversification and radiation since the mid-Miocene or earlier. Here, we estimate the diversity and a phylogeny for the Australo-Papuan forest dragons (Sauria: Agamidae; ~20 species) in order to examine the following: (1) whether New Guinea and/or proto-Papuan Islands may have been a biogeographical refuge or a source for diversity in Australia; (2) whether mesic rainforest environments are ancestral to the entire radiation, as may be predicted by the New Guinea refuge hypothesis; and (3) more broadly, how agamid ecological diversity varies across the contrasting environments of Australia and New Guinea. Patterns of lineage distribution and diversity suggest that extinction in Australia, and colonization and radiation on proto-Papuan islands, have both shaped the extant diversity and distribution of forest dragons since the mid-Miocene. The ancestral biome for all Australo-Papuan agamids is ambiguous. Both rainforest and arid-adapted radiations probably started in the early Miocene. However, despite deep-lineage diversity in New Guinea rainforest habitats, overall species and ecological diversity is low when compared with more arid areas, with terrestrial taxa being strikingly absent. [ABSTRACT FROM AUTHOR]

Published

2020

22. 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

23. The global biogeography of lizard functional groups.

Author

Vidan, Enav, Novosolov, Maria, Bauer, Aaron M., Herrera, Fernando Castro, Chirio, Laurent, Campos Nogueira, Cristiano, Doan, Tiffany M., Lewin, Amir, Meirte, Danny, Nagy, Zoltan T., Pincheira‐Donoso, Daniel, Tallowin, Oliver J.S., Torres Carvajal, Omar, Uetz, Peter, Wagner, Philipp, Wang, Yuezhao, Belmaker, Jonathan, and Meiri, Shai

Subjects

FUNCTIONAL groups, LIZARDS, SPECIES diversity, BIOGEOGRAPHY, GRID cells, BIOLOGICAL databases

Abstract

Aim: Understanding the mechanisms determining species richness is a primary goal of biogeography. Richness patterns of sub‐groups within a taxon are usually assumed to be driven by similar processes. However, if richness of distinct ecological strategies respond differently to the same processes, inferences made for an entire taxon may be misleading. We deconstruct the global lizard assemblage into functional groups and examine the congruence among richness patterns between them. We further examine the species richness – functional richness relationship to elucidate the way functional diversity contributes to the overall species richness patterns. Location: Global. Methods: Using comprehensive biological trait databases we classified the global lizard assemblage into ecological strategies based on body size, diet, activity times and microhabitat preferences, using Archetypal Analysis. We then examined spatial gradients in the richness of each strategy at the one‐degree grid cell, biome, and realm scales. Results: We found that lizards can best be characterized by seven "ecological strategies": scansorial, terrestrial, nocturnal, herbivorous, fossorial, large, and semi‐aquatic. There are large differences among the global richness patterns of these strategies. While the major richness hotspot for lizards in general is in Australia, several strategies exhibit highest richness in the Amazon Basin. Importantly, the global maximum in lizard species richness is achieved at intermediate values of functional diversity and increasing functional diversity further result in a slow decline of species richness. Main conclusions: The deconstruction of the global lizard assemblage along multiple ecological axes offers a new way to conceive lizard diversity patterns. It suggests that local lizard richness mostly increases when species belonging to particular ecological strategies become hyper‐diverse there, and not because more ecological types are present in the most species rich localities. Thus maximum richness and maximum ecological diversity do not overlap. These results shed light on the global richness pattern of lizards, and highlight previously unidentified spatial patterns in understudied functional groups. [ABSTRACT FROM AUTHOR]

Published

2019

24. Why is fruit colour so variable? Phylogenetic analyses reveal relationships between fruit‐colour evolution, biogeography and diversification.

Author

Lu, Lu, Fritsch, Peter W., Matzke, Nicholas J., Wang, Hong, Kron, Kathleen A., Li, De‐Zhu, Wiens, John J., and Meiri, Shai

Subjects

FRUIT, COLOR of fruit, BIOGEOGRAPHY, BLUEBERRIES, SPECIES distribution, PHYTOGEOGRAPHY

Abstract

Aim: Are different fruit colours related to large‐scale patterns of dispersal, distribution and diversification? Here, we investigate this question for the first time, using phylogenetic approaches in the tribe Gaultherieae (Ericaceae). We test relationships between fruit colour and (a) biogeographic dispersal, (b) elevational and latitudinal species distributions and (c) rates of diversification. Location: Global. Time period: Recent to 30 million years ago. Major taxa studied: The plant tribe Gaultherieae in the family Ericaceae (blueberries and relatives). Methods: We estimated a new time‐calibrated phylogeny for Gaultherieae. Data on fruit colours and geographic distributions for each species were compiled from published sources and field observations. Using phylogenetic methods, we estimated major dispersal events across the tree and the most likely fruit colour associated with each dispersal event, and tested whether dispersal between major biogeographic regions was equally likely for different fruit colours, and whether dispersal distances were larger for certain colours. We then tested the relationships between fruit colours and geographic variables (latitude, elevation) and diversification rates. Results: Large‐scale dispersal events were significantly associated with red‐fruited lineages, even though red‐fruited species were relatively uncommon. Further, different fruit colours were associated with different elevations and latitudes (e.g. red at lower elevations, violet at lower latitudes, white at higher elevations). Violet colour was related to increased diversification rates, leading to more violet‐fruited species globally. Main conclusions: Overall, we show that different fruit colours can significantly impact the large‐scale dispersal, distribution and diversification of plant clades. Furthermore, the interplay between biogeography and fruit‐colour evolution seems to generate "taxon cycles" in fruit colour that may drive variation in fruit colour over macroevolutionary time‐scales. [ABSTRACT FROM AUTHOR]

Published

2019

25. A checklist of Israeli land vertebrates.

Author

Meiri, Shai, Belmaker, Amos, Berkowic, Daniel, Kazes, Kesem, Maza, Erez, Bar-Oz, Guy, and Dor, Roi

Abstract

Faunal lists are important tools in ecology, biogeography, and conservation planning. Such lists can identify gaps in our knowledge of the distribution and taxonomy of regional faunas, and highlight issues needing further study. We present an up to date list of all land vertebrates occurring in Israel. We identify 786 species, of which 551 are birds, 130 are mammals, 97 are reptiles and eight are amphibians. Of these 369 species breed in Israel (including reintroductions), 199 (mostly birds) are regular visitors and 182 are accidental. Fourteen other species are invasive, and 22 species are extinct. We identify issues with the taxonomy and status of several species, and note recent developments in our understanding the Israeli land vertebrate fauna. [ABSTRACT FROM AUTHOR]

Published

2019

26. Extinct, obscure or imaginary: The lizard species with the smallest ranges.

Author

Meiri, Shai, Bauer, Aaron M., Allison, Allen, Castro‐Herrera, Fernando, Chirio, Laurent, Colli, Guarino, Das, Indraneil, Doan, Tiffany M., Glaw, Frank, Grismer, Lee L., Hoogmoed, Marinus, Kraus, Fred, LeBreton, Matthew, Meirte, Danny, Nagy, Zoltán T., Nogueira, Cristiano de C., Oliver, Paul, Pauwels, Olivier S. G., Pincheira‐Donoso, Daniel, and Shea, Glenn

Subjects

*LIZARDS, *BIODIVERSITY, *SPECIES, *BIOGEOGRAPHY, *TAXONOMY

Abstract

Aim Small geographic ranges make species especially prone to extinction from anthropogenic disturbances or natural stochastic events. We assemble and analyse a comprehensive dataset of all the world's lizard species and identify the species with the smallest ranges-those known only from their type localities. We compare them to wide-ranging species to infer whether specific geographic regions or biological traits predispose species to have small ranges. Location Global. Methods We extensively surveyed museum collections, the primary literature and our own field records to identify all the species of lizards with a maximum linear geographic extent of <10 km. We compared their biogeography, key biological traits and threat status to those of all other lizards. Results One in seven lizards (927 of the 6,568 currently recognized species) are known only from their type localities. These include 213 species known only from a single specimen. Compared to more wide-ranging taxa, they mostly inhabit relatively inaccessible regions at lower, mostly tropical, latitudes. Surprisingly, we found that burrowing lifestyle is a relatively unimportant driver of small range size. Geckos are especially prone to having tiny ranges, and skinks dominate lists of such species not seen for over 50 years, as well as of species known only from their holotype. Two-thirds of these species have no IUCN assessments, and at least 20 are extinct. Main conclusions Fourteen per cent of lizard diversity is restricted to a single location, often in inaccessible regions. These species are elusive, usually poorly known and little studied. Many face severe extinction risk, but current knowledge is inadequate to properly assess this for all of them. We recommend that such species become the focus of taxonomic, ecological and survey efforts. [ABSTRACT FROM AUTHOR]

Published

2018

27. Population density-range size relationship revisited.

Author

Novosolov, Maria, Rodda, Gordon H., North, Alexandra C., Butchart, Stuart H. M., Tallowin, Oliver J. S., Gainsbury, Alison M., Meiri, Shai, and Hurlbert, Allen

Subjects

POPULATION density, BIOGEOGRAPHY, ECOLOGICAL niche, ANIMAL species, STATISTICAL correlation, ACQUISITION of data

Abstract

Aim The species population density-range size relationship posits that locally abundant species are widely distributed. However, this proposed pattern has been insufficiently tested. The few tests conducted were usually limited in scale and gave conflicting results. We tested the generality of the positive population density-range size relationship. We then studied whether similar environmental niche requirements are correlated with range size and with population density to search for mechanisms driving the hypothesized link between population density and range size. Location Worldwide. Methods We collected data on population density, range size and environmental niche for a global dataset of 192 lizard, 893 bird and 350 mammal species. Assessing the relationship between population density and range size and environmental niche parameters, we corrected for phylogenetic relationships, body mass, diet and study area. Results Our findings reveal that density had a weak negative correlation with bird range size and was unrelated to lizard and mammal range size. These trends were consistent at the global scale and across the biogeographical realms. Range size was related to relatively similar environmental niche parameters in all groups. Population density, however, was explained by taxon-specific factors and was therefore unrelated to range size by common causation. Main conclusions We suggest that the positive relationship between population density and range size identified in previous studies might be an artefact arising through incomplete sampling of range sizes. Our results indicate that the mechanisms shaping population density and range size may be independent. [ABSTRACT FROM AUTHOR]

Published

2017

28. 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

29. Selective extinction drives taxonomic and functional alpha and beta diversities in island bird assemblages.

Author

Si, Xingfeng, Baselga, Andrés, Leprieur, Fabien, Song, Xiao, Ding, Ping, and Meiri, Shai

Subjects

BIODIVERSITY conservation, TAXONOMY, BIOGEOGRAPHY, REPRODUCTIVE isolation, NATURE conservation

Abstract

Taxonomic diversity considers all species being equally different from each other and thus disregards species' different ecological functions. Exploring taxonomic and functional aspects of biodiversity simultaneously can better understand the processes of community assembly., We analysed taxonomic and functional alpha and beta diversities of breeding bird assemblages on land-bridge islands in the Thousand Island Lake, China. Given the high dispersal ability of most birds at this spatial scale (several kilometres), we predicted (i) selective extinction driving alpha and beta diversities after the creation of land-bridge islands of varying area and (ii) low taxonomic and functional beta diversities that were not correlated to spatial distance., Breeding birds were surveyed on 37 islands annually from 2007 to 2014. We decomposed beta diversity of breeding birds into spatial turnover and nestedness-resultant components, and related taxonomic and functional diversities to island area and isolation using power regression models (for alpha diversity) and multiple regression models on distance matrices (for beta diversity). We then ran simulations to assess the strength of the correlations between taxonomic and functional diversities., Results revealed that both taxonomic and functional alpha diversities increased with island area. The taxonomic nestedness-resultant and turnover components increased and decreased with difference in area, respectively, but functional counterparts did not. Isolation played a minor role in explaining alpha- and beta-diversity patterns. By partitioning beta diversity, we found low levels of overall taxonomic and functional beta diversities. The functional nestedness-resultant component dominated overall functional beta diversity, whereas taxonomic turnover was the dominant component for taxonomic beta diversity. The simulation showed that functional alpha and beta diversities were significantly correlated with taxonomic diversities, and the observed values of correlations were significantly different from null expectations of random extinction., Our assessment of island bird assemblages validated the predictions of no distance effects and low beta diversity due to pervasive dispersal events among islands and also suggested that selective extinction drives taxonomic and functional alpha and beta diversities. The contrasting turnover and nestedness-resultant components of taxonomic and functional beta diversities demonstrate the importance of considering the multifaceted nature of biodiversity when examining community assembly. [ABSTRACT FROM AUTHOR]

Published

2016

30. The effect of island type on lizard reproductive traits.

Author

Novosolov, Maria, Meiri, Shai, and Triantis, Kostas

Subjects

*LIZARD reproduction, *ISLANDS, *BIOGEOGRAPHY, *PREDATORY animals, *LIFE history interviews, *LIZARD evolution

Abstract

Aim The origins of islands influence island colonization and radiation dynamics, thus exerting differential selection pressures on the species that inhabit them. The occurrence of lower numbers of predator and competitor species on islands than the mainland selects for 'slow' life-history attributes (the 'island syndrome'). Animals colonizing, and radiating on, oceanic islands probably face more novel environments than do those inhabiting continental fragment and land-bridge islands. We hypothesized that oceanic island endemics will show the slowest life histories, whereas land-bridge island species will resemble mainland species the most. We predicted that species on old, small and isolated islands will also have slow life histories. Location World-wide. Methods We assembled life-history data for 540 mainland and 319 insular endemic lizard species. We tested whether clutch size, brood frequency, hatchling mass and productivity differed between islands of different origin and between islands and the mainland. We controlled for female size, for latitude and for phylogenetic relationship using the R package caper. In addition, we tested the influences of island age, area and isolation on species life histories. Results Oceanic island endemics have the smallest clutches and the largest offspring, and, together with continental fragment island endemics, lay most frequently. Clutch size, brood frequency and productivity increase with increasing island age. Isolation and area have little effect on lizard life history. Main conclusions Our findings support the proposition that selection pressure differs across island type. The predator-poor environments on oceanic islands select for few, large offspring, while the predator-rich environments of the mainland and land-bridge islands select for many, small offspring. Island geological origin creates the environment within which evolution takes place, and thus plays a major role in life-history evolution. As islands grow older, lizards adapt by increasing their yearly reproductive effort. [ABSTRACT FROM AUTHOR]

Published

2013

31. The island syndrome in lizards.

Author

Novosolov, Maria, Raia, Pasquale, Meiri, Shai, and Olalla‐Tárraga, Miguel

Subjects

LIZARD diseases, LIZARD ecology, PHYLOGENY, LIFE history theory, BIOGEOGRAPHY, ANIMAL clutches

Abstract

Aim Islands are thought to promote correlated ecological and life-history shifts in species, including increased population density, and an infrequent production of few, large, offspring. These patterns are collectively termed 'the island syndrome'. We present here the first, phylogenetically informed, global test of the 'island syndrome' hypothesis, using lizards as our model organisms. Location World-wide. Methods We assembled a database containing 641 lizard species, their phylogenetic relationships, geographic ranges and the following life-history traits: female mass, clutch size, brood frequency, hatchling body mass and population density. We tested for life-history differences between insular and mainland forms in light of the island syndrome, controlling for mass and latitude, and for phylogenetic non-independence. We also examined the effects of population density and, in insular endemics, of island area, on lizard reproductive traits. Results We found that insular endemic lizards lay smaller clutches of larger hatchlings than closely related mainland lizards of similar size, as was expected by the island syndrome. In general, however, insular endemics lay more frequently than mainland ones. Species endemic to small islands lay as frequently as mainland species. Continental and insular lizards have similar productivity rates overall. Island area had little effect on lizard reproductive traits. No trait showed association with population density. Main conclusions Island endemic lizards mainly follow the island syndrome. We hypothesize that large offspring are favoured on islands because of increased intra-specific aggression and cannibalism by adults. Stable populations on islands lacking predators may likewise lead to increased intra-specific competition, and hence select for larger hatchlings that will quickly grow to adult size. This view is supported by the fact that lizard populations are denser on islands - although population density per se was uncorrelated with any of the traits we examined. [ABSTRACT FROM AUTHOR]

Published

2013

32. What determines conformity to Bergmann's rule?

Author

Meiri, Shai, Yom-Tov, Yoram, and Geffen, Eli

Subjects

*BIRD populations, *BERGMANN'S rule, *MAMMAL populations, *BIOGEOGRAPHY, *CARNIVORA, *SPECIES diversity, *SPECIES distribution

Abstract

Aim Bergmann's rule, the tendency of body size within species in bird and mammal populations to be positively correlated with latitude, is among the best known biogeographical generalizations. The factors behind such clines, however, are not well understood. Here we use a large data base of 79 mammalian carnivore species to examine the factors affecting latitudinal size clines. Location Worldwide. Methods We measured the skulls and teeth of carnivores in natural history museums, and calculated the amount of variation in size explained by latitude, supplementing our measurements with published data. We examined the effects of a number of variables on the tendency to show latitudinal clines. Results We found that geographical range and latitudinal extent are strongly related to size clines. Minimum temperatures across the range, net primary productivity and habitat diversity also have some, albeit much less, influence. Main conclusions We suggest that species with large geographical ranges are likely to encounter significant heterogeneity in those factors that influence body size, and are thus likely to exhibit size clines. However, the key factors that determine body size may not always operate along a latitudinal (or other geographical) cline, but be spatially linked to patches in the species range. One such important factor is likely to be food availability, which we show is a strong predictor of size in the brown bear ( Ursus arctos) but is not associated with a latitudinal cline. We argue that the spatial distribution of key resources within the species range constitutes a significant predictor of carnivore body size. [ABSTRACT FROM AUTHOR]

Published

2007

33. Insular Carnivore Biogeography: Island Area and Mammalian Optimal Body Size.

Author

Meiri, Shai, Simberloff, Daniel, and Dayan, Tamar

Subjects

*CARNIVORA, *BIOGEOGRAPHY, *MAMMALS, *BODY size, *ANIMAL morphology, *ANIMAL species, *ANIMAL population density, *BIOLOGY

Abstract

Patterns of size variation in insular mammals have been used to support the claim that mammals have a single optimal body size. This hypothesis enjoys wide support, despite having been questioned on both theoretical and empirical grounds. It is claimed that species of optimal size maintain the highest population densities. Therefore these species are thought to inhabit the smallest islands, where larger and smaller species are generally absent. We sought such a pattern by testing how area affects the body sizes of the largest and smallest carnivore species on islands. Using data on carnivores from 322 islands, we found that the sizes of carnivores on small islands tend to be close to the order's mode. Furthermore, we found that the size distribution of carnivore species that inhabit islands resembles that of those whose range is entirely continental. We conclude that insular carnivores provide no support for theories proposing a single optimal size, and we suspect such theories are also flawed on theoretical grounds. [ABSTRACT FROM AUTHOR]

Published

2005

34. Anagenesis and Cladogenesis Are Useful Island Biogeography Terms.

Author

Meiri, Shai, Raia, Pasquale, and Santos, Ana M.C.

Subjects

*ADAPTIVE radiation, *ISLANDS, *BIOGEOGRAPHY, *GEOGRAPHY, *BIOLOGY

Published

2018

35. Front Cover.

Author

Lu, Lu, Fritsch, Peter W., Matzke, Nicholas J., Wang, Hong, Kron, Kathleen A., Li, De‐Zhu, Wiens, John J., and Meiri, Shai

Subjects

BIOGEOGRAPHY, COLOR, FRUIT

Published

2019

36. Early insularity and subsequent mountain uplift were complementary drivers of diversification in a Melanesian lizard radiation (Gekkonidae: Cyrtodactylus).

Author

Tallowin, Oliver J.S., Tamar, Karin, Meiri, Shai, Allison, Allen, Kraus, Fred, Richards, Stephen J., and Oliver, Paul M.

Subjects

*GECKOS, *CYRTODACTYLUS, *LIZARDS, *PLIOCENE Epoch, *BIOGEOGRAPHY

Abstract

Regions with complex geological histories present a major challenge for scientists studying the processes that have shaped their biotas. The history of the vast and biologically rich tropical island of New Guinea is particularly complex and poorly resolved. Competing geological models propose New Guinea emerged as a substantial landmass either during the Mid-Miocene or as recently as the Pliocene. Likewise, the estimated timing for the uplift of the high Central Cordillera, spanning the length of the island, differs across models. Here we investigate how early islands and mountain uplift have shaped the diversification and biogeography of Cyrtodactylus geckos. Our data strongly support initial colonisation and divergence within proto-Papuan islands in the Early- to Mid-Miocene, with divergent lineages and endemic diversity concentrated on oceanic island arcs in northern New Guinea and the formerly isolated East-Papuan Composite Terrane. At least four lineages are inferred to have independently colonised hill- and lower-montane forests, indicating that mountain uplift has also played a critical role in accumulating diversity, even in this predominantly lowland lineage. Our findings suggest that substantial land in northern New Guinea and lower-montane habitats date back well into the Miocene and that insular diversification and mountain colonisation have synergistically generated diversity in the geologically complex Papuan region. [ABSTRACT FROM AUTHOR]

Published

2018

37. Multilocus phylogeny and coalescent species delimitation in Kotschy's gecko, Mediodactylus kotschyi: Hidden diversity and cryptic species.

Author

Kotsakiozi, Panayiota, Jablonski, Daniel, Ilgaz, Çetin, Kumlutaş, Yusuf, Avcı, Aziz, Meiri, Shai, Itescu, Yuval, Kukushkin, Oleg, Gvoždík, Václav, Scillitani, Giovanni, Roussos, Stephanos A., Jandzik, David, Kasapidis, Panagiotis, Lymberakis, Petros, and Poulakakis, Nikos

Subjects

*PHYLOGENY, *MITOCHONDRIA, *MIOCENE Epoch, *BIOGEOGRAPHY

Abstract

Kotschy's Gecko, Mediodactylus kotschyi , is a small gecko native to southeastern Europe and the Levant. It displays great morphological variation with a large number of morphologically recognized subspecies. However, it has been suggested that it constitutes a species complex of several yet unrecognized species. In this study, we used multilocus sequence data (three mitochondrial and three nuclear gene fragments) to estimate the phylogenetic relationships of 174 specimens from 129 sampling localities, covering a substantial part of the distribution range of the species. Our results revealed high genetic diversity of M. kotschyi populations and contributed to our knowledge about the phylogenetic relationships and the estimation of the divergence times between them. Diversification within M. kotschyi began approximately 15 million years ago (Mya) in the Middle Miocene, whereas the diversification within most of the major clades have been occurred in the last 5 Mya. Species delimitation analysis suggests there exists five species within the complex, and we propose to tentatively recognize the following taxa as full species: M. kotschyi (mainland Balkans, most of Aegean islands, and Italy), M. orientalis (Levant, Cyprus, southern Anatolia, and south-eastern Aegean islands), M. danilewskii (Black Sea region and south-western Anatolia), M. bartoni (Crete), and M. oertzeni (southern Dodecanese Islands). This newly recognized diversity underlines the complex biogeographical history of the Eastern Mediterranean region. [ABSTRACT FROM AUTHOR]

Published

2018

38. Out of Africa: Phylogeny and biogeography of the widespread genus Acanthodactylus (Reptilia: Lacertidae).

Author

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

Subjects

*REPTILE phylogeny, *BIOGEOGRAPHY, *REPTILE diversity, *HABITATS, *MITOCHONDRIAL DNA, *ACANTHODACTYLUS

Abstract

Acanthodactylus lizards are among the most diverse and widespread diurnal reptiles in the arid regions spanning from North Africa across to western India. Acanthodactylus constitutes the most species-rich genus in the family Lacertidae, with over 40 recognized species inhabiting a wide variety of dry habitats. The genus has seldom undergone taxonomic revisions, and although there are a number of described species and species-groups, their boundaries, as well as their interspecific relationships, remain largely unresolved. We constructed a multilocus phylogeny, combining data from two mitochondrial ( 12S , cytb ) and three nuclear ( MC1R , ACM4 , c-mos ) markers for 302 individuals belonging to 36 known species, providing the first large-scale time-calibrated molecular phylogeny of the genus. We evaluated phylogenetic relationships between and within species-groups, and assessed Acanthodactylus biogeography across its known range. Acanthodactylus cladogenesis is estimated to have originated in Africa due to vicariance and dispersal events from the Oligocene onwards. Radiation started with the separation into three clades: the Western and scutellatus clades largely distributed in North Africa, and the Eastern clade occurring mostly in south-west Asia. Most Acanthodactylus species diverged during the Miocene, possibly as a result of regional geological instability and climatic changes. We support most of the current taxonomic classifications and phylogenetic relationships, and provide genetic validity for most species. We reveal a new distinct blanfordii species-group, suggest new phylogenetic positions ( A. hardyi , A. masirae ), and synonymize several species and subspecies ( A. lineomaculatus, A. boskianus khattensis and A. b. nigeriensis ) with their phylogenetically closely-related species. We recommend a thorough systematic revision of taxa, such as A. guineensis , A. grandis, A. dumerilii, A. senegalensis and the pardalis and erythrurus species-groups, which exhibit high levels of intraspecific variability, and clear evidence of phylogenetic complexity. [ABSTRACT FROM AUTHOR]

Published

2016

39. 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

40. Hidden relationships and genetic diversity: Molecular phylogeny and phylogeography of the Levantine lizards of the genus Phoenicolacerta (Squamata: Lacertidae).

Author

Tamar, Karin, Carranza, Salvador, in den Bosch, Herman, Sindaco, Roberto, Moravec, Jiří, and Meiri, Shai

Subjects

*PHYLOGEOGRAPHY, *LIZARD physiology, *REPTILE phylogeny, *MOLECULAR phylogeny, *LANDSCAPES, *ADAPTIVE radiation

Abstract

The Levant region witnessed dramatic tectonic events and climatic fluctuations that changed the historical landscape of the area and consequently influenced the cladogenesis and distribution of the local biota. In this study we use information from two mitochondrial and two nuclear genes and species delimitation methods in order to obtain the first robust time-calibrated molecular phylogeny of the Levantine rock lizards of the genus Phoenicolacerta . We sampled from across its distributional range with the aim to clarify its systematics, biogeography and evolution. Our results suggest that the genus includes two well-supported clades, one comprising solely the montane species Phoenicolacerta kulzeri , and the other including the three remaining species, the relatively widespread, P. laevis , the Syrian-Turkish P. cyanisparsa and the Cypriot endemic P. troodica . We found that both P. laevis and P. cyanisparsa are not monophyletic, as the Turkish populations of P. laevis branch within P. cyanisparsa . We found high levels of undescribed diversity within P. laevis which necessitate a thorough revision. We suggest that Phoenicolacerta started radiating during the mid-late Miocene, and that both vicariance and dispersal events shaped the diversification and distribution of the genus concomitantly with the formation of major geological structures and climatic fluctuations in the Levant. These results highlight the region as an important center of speciation, contributing to the species diversity of the eastern Mediterranean. [ABSTRACT FROM AUTHOR]

Published

2015