Your search keyword '"Pincheira-Donoso, Daniel"' showing total 53 results

1. Genome size does not influence extinction risk in the world's amphibians.

Author

Pincheira‐Donoso, Daniel, Harvey, Lilly P., Johnson, Jack V., Hudson, Dave, Finn, Catherine, Goodyear, Luke E. B., Guirguis, Jacinta, Hyland, Edel M., and Hodgson, Dave J.

Subjects

*GENOME size, *ENDANGERED species, *BIOLOGICAL extinction, *NATURE conservation, *AMPHIBIANS, *BIODIVERSITY

Abstract

Variation in genome size spans multiple orders of magnitude among animals. Despite the longstanding debate regarding the adaptive value or costs of genomic complexity, genome size has been proposed to influence extinction risk under the rapidly changing environments of the Anthropocene.The main hypothesis suggests that genome enlargement increases the accumulation of deleterious mutations while reducing rates of organismal growth and development. These combined effects of larger genome size are predicted to trigger population declines that can lead to extinction, especially under rapidly changing environments that disrupt demographic resilience.Comparative evidence from terrestrial plants and across vertebrates has provided mixed support for this hypothesis. However, large‐scale comparative studies based on explicit phylogenetic approaches remain lacking. Using a global‐scale amphibian dataset and two recognised proxies of extinction risk (International Union for Conservation of Nature IUCN conservation categories and population trends), we test the prediction that genomes are larger (as estimated by C‐value) in species facing extinction risk. We combine these analyses with life‐history traits widely known to be implicated with extinctions (body size, fecundity), along with a range of environmental factors.Our phylogenetic analyses consistently failed to identify an effect of genome size on either of the two proxies for extinction risk. The only consistent predictor of extinction risk observed across models performed for amphibians combined and for orders separately was decreasing geographical range size. We also identified a role for larger body size, decreasing range of environmental temperature (for anurans) and increasing levels of UV‐B radiation (for salamanders) as drivers of increasing threat.Our study provides no support for the prediction that species with larger genomes suffer heightened risk of extinction. We discuss some fundamental limitations underlying the genome size‐extinction hypothesis, and suggest that it is not a promising avenue to elucidate the causes of biodiversity declines in the Anthropocene. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

2. The global macroecology of brood size in amphibians reveals a predisposition of low‐fecundity species to extinction.

Author

Pincheira‐Donoso, Daniel, Harvey, Lilly P., Cotter, Sheena C., Stark, Gavin, Meiri, Shai, Hodgson, Dave J., and Jordan, Greg

Subjects

*BIOLOGICAL extinction, *ANIMAL clutches, *WILDLIFE conservation, *AMPHIBIANS, *MACROECOLOGY, *POPULATION viability analysis, *ANIMAL diversity

Abstract

Aim: The diversity of brood size across animal species exceeds the diversity of most other life‐history traits. In some environments, reproductive success increases with brood size, whereas in others it increases with smaller broods. The dominant hypothesis explaining such diversity predicts that selection on brood size varies along climatic gradients, creating latitudinal fecundity patterns. Another hypothesis predicts that diversity in fecundity arises among species adapted to different microhabitats within assemblages. A more recent hypothesis concerned with the consequences of these evolutionary processes in the era of anthropogenic environmental change predicts that low‐fecundity species might fail to recover from demographic collapses caused by rapid environmental alterations, making them more susceptible to extinctions. These hypotheses have been addressed predominantly in endotherms and only rarely in other taxa. Here, we address all three hypotheses in amphibians globally. Location: Global. Time period: Present. Major taxa studied: Class Amphibia. Methods: Using a dataset spanning 2,045 species from all three amphibian orders, we adopt multiple phylogenetic approaches to investigate the association between brood size and climatic, ecological and phenotypic predictors, and according to species conservation status. Results: Brood size increases with latitude. This tendency is much stronger in frogs, where temperature seasonality is the dominant driver, whereas salamander fecundity increases towards regions with more constant rainfall. These relationships vary across continents but confirm seasonality as the key driver of fecundity. Ecologically, nesting sites predict brood size in frogs, but not in salamanders. Finally, we show that extinction risk increases consistently with decreasing fecundity across amphibians, whereas body size is a "by‐product" correlate of extinction, given its relationship with fecundity. Main conclusions: Climatic seasonality and microhabitats are primary drivers of fecundity evolution. Our finding that low fecundity increases extinction risk reinforces the need to refocus extinction hypotheses based on a suggested role for body size. [ABSTRACT FROM AUTHOR]

Published

2021

3. Correlated evolution between herbivory and gastrointestinal tract in a prolific lizard adaptive radiation.

Author

Pincheira-Donoso, Daniel

Subjects

*LIZARDS, *LIOLAEMUS, *BODY size, *REPTILES, *ADAPTIVE radiation

Abstract

Radiations of ectothermic vertebrates across cold climates depend on the coordinated evolution of multiple traits that compensate for the constraints imposed by limited and fluctuating resources, such as temperature, food and oxygen. One of nature's most prolific such radiations, Liolaemus lizards, has diversified across the extreme cold climates of the Andes and Patagonia. Remarkably, the prevailing patterns of reptile herbivory are opposed by Liolaemus which, in contrast with lizards generally, have repeatedly evolved plant consumption across small-bodied species from cold climates. Herbivory is hypothesized to depend on the evolution of multiple traits that maximize absorption of nutrients from an intrinsically poor-quality diet, such as increases in gastrointestinal tract size and increases in the density of nematodes in the intestine that may assist with plant digestion. Here, a comparative phylogenetic approach across Liolaemus species is implemented to test these hypotheses, which have only been investigated nonphylogenetically. Results reveal that intestine length increases consistently with increasing herbivory, whereas stomach size or nematode load are not associated with plant consumption. Body size plays no role in herbivory either. Consequently, this evidence places emphasis on the enlargement of the intestine to facilitate the evolution of herbivory in cold climates. [ABSTRACT FROM AUTHOR]

Published

2021

4. The multiple origins of sexual size dimorphism in global amphibians.

Author

Pincheira‐Donoso, Daniel, Harvey, Lilly P., Grattarola, Florencia, Jara, Manuel, Cotter, Sheena C., Tregenza, Tom, Hodgson, Dave J., and Sandel, Brody

Subjects

*SEXUAL dimorphism, *SEXUAL selection, *SEASONAL temperature variations, *NATURAL selection, *ANIMAL populations, *AMPHIBIANS, *SPERMATOPHORES

Abstract

Aim: Body size explains most of the variation in fitness within animal populations and is therefore under constant selection from ecological and reproductive pressures, which often promote its evolution in sex‐specific directions, leading to sexual size dimorphism (SSD). Several hypotheses have been proposed to explain the vast diversity of SSD across species. These hypotheses emphasize: (a) the mate competition benefits to larger male size (sexual selection); (b) the benefits of larger female size for fecundity (fecundity selection); (c) the simultaneous benefits of niche divergence for males and females to reduce intersexual competition for ecological resources (natural selection); and (d) the underlying impact of geographical variation in climatic pressures expected to shape large‐scale patterns of SSD in synergy with the above selection pressures (e.g., intensification of fecundity selection as breeding seasons shorten). Based on a new, global‐scale amphibian dataset, we address the shortage of large‐scale, integrative tests of these four hypotheses. Location: Global. Time period: Extant. Major taxa studied: Class Amphibia. Methods: Using a > 3,500 species dataset spanning body size, ecological, life‐history, geographical and climatic data, we performed phylogenetic linear models to address the sexual, fecundity, ecological and climatic hypotheses of SSD. Results: Evolution of SSD is discordant between anurans and salamanders. Anuran SSD is shaped by climate (male‐biased SSD increases with temperature seasonality) and by nesting site. In salamanders, SSD converges across species that occupy the same types of microhabitats ("ecodimorphs"), whereas reproductive or climatic pressures have no effects on their SSD. These contrasts are associated with latitudinal gradients of SSD in anurans, but not in salamanders. Main conclusions: Amphibian SSD is driven by ecological and climatic pressures, whereas no roles for sexual or fecundity selection were detected. We show that macroevolutionary processes determined by different forms of selection lead to latitudinal patterns of trait diversity, and the lack of them. [ABSTRACT FROM AUTHOR]

Published

2021

5. No evidence for the 'rate‐of‐living' theory across the tetrapod tree of life.

Author

Stark, Gavin, Pincheira‐Donoso, Daniel, Meiri, Shai, and Field, Richard

Subjects

*COLD-blooded animals, *BASAL metabolism, *LIFE expectancy, *BODY temperature, *LIFE spans, *PREDICTION theory, *WARM-blooded animals, *HIGH temperatures

Abstract

Aim: The 'rate‐of‐living' theory predicts that life expectancy is a negative function of the rates at which organisms metabolize. According to this theory, factors that accelerate metabolic rates, such as high body temperature and active foraging, lead to organismic 'wear‐out'. This process reduces life span through an accumulation of biochemical errors and the build‐up of toxic metabolic by‐products. Although the rate‐of‐living theory is a keystone underlying our understanding of life‐history trade‐offs, its validity has been recently questioned. The rate‐of‐living theory has never been tested on a global scale in a phylogenetic framework, or across both endotherms and ectotherms. Here, we test several of its fundamental predictions across the tetrapod tree of life. Location: Global. Time period: Present. Major taxa studied: Land vertebrates. Methods: Using a dataset spanning the life span data of 4,100 land vertebrate species (2,214 endotherms, 1,886 ectotherms), we performed the most comprehensive test to date of the fundamental predictions underlying the rate‐of‐living theory. We investigated how metabolic rates, and a range of factors generally perceived to be strongly associated with them, relate to longevity. Results: Our findings did not support the predictions of the rate‐of‐living theory. Basal and field metabolic rates, seasonality, and activity times, as well as reptile body temperatures and foraging ecology, were found to be unrelated to longevity. In contrast, lower longevity across ectotherm species was associated with high environmental temperatures. Main conclusions: We conclude that the rate‐of‐living theory does not hold true for terrestrial vertebrates, and suggest that life expectancy is driven by selection arising from extrinsic mortality factors. A simple link between metabolic rates, oxidative damage and life span is not supported. Importantly, our findings highlight the potential for rapid warming, resulting from the current increase in global temperatures, to drive accelerated rates of senescence in ectotherms. [ABSTRACT FROM AUTHOR]

Published

2020

6. Global patterns of body size evolution are driven by precipitation in legless amphibians.

Author

Pincheira‐Donoso, Daniel, Meiri, Shai, Jara, Manuel, Olalla‐Tárraga, Miguel Ángel, and Hodgson, Dave J.

Subjects

*BODY size, *MORPHOLOGY, *COLD-blooded animals, *AMPHIBIANS, *WATER conservation, *METEOROLOGICAL precipitation, *BIOLOGICAL evolution

Abstract

Body size shapes ecological interactions across and within species, ultimately influencing the evolution of large‐scale biodiversity patterns. Therefore, macroecological studies of body size provide a link between spatial variation in selection regimes and the evolution of animal assemblages through space. Multiple hypotheses have been formulated to explain the evolution of spatial gradients of animal body size, predominantly driven by thermal (Bergmann's rule), humidity ('water conservation hypothesis') and resource constraints ('resource rule', 'seasonality rule') on physiological homeostasis. However, while integrative tests of all four hypotheses combined are needed, the focus of such empirical efforts needs to move beyond the traditional endotherm–ectotherm dichotomy, to instead interrogate the role that variation in lifestyles within major lineages (e.g. classes) play in creating neglected scenarios of selection via analyses of largely overlooked environment–body size interactions. Here, we test all four rules above using a global database spanning 99% of modern species of an entire Order of legless, predominantly underground‐dwelling amphibians (Gymnophiona, or caecilians). We found a consistent effect of increasing precipitation (and resource abundance) on body size reductions (supporting the water conservation hypothesis), while Bergmann's, the seasonality and resource rules are rejected. We argue that subterranean lifestyles minimize the effects of aboveground selection agents, making humidity a dominant selection pressure – aridity promotes larger body sizes that reduce risk of evaporative dehydration, while smaller sizes occur in wetter environments where dehydration constraints are relaxed. We discuss the links between these principles with the physiological constraints that may have influenced the tropically‐restricted global radiation of caecilians. [ABSTRACT FROM AUTHOR]

Published

2019

7. Sexes and species as rival units of niche saturation during community assembly.

Author

Pincheira‐Donoso, Daniel, Tregenza, Tom, Butlin, Roger K., and Hodgson, David J.

Subjects

*ECOLOGICAL niche, *COLONIZATION (Ecology), *INTERSEXUALITY, *SPECIES diversity, *SEXUAL dimorphism

Abstract

Abstract: Aim: Community assembly is traditionally assumed to result from speciation and colonization mediated by available niche space. This paradigm is expanded by the theory that niche space can also be saturated by intersexual adaptive divergence (ecological sexual dimorphism) when interspecific competition is relaxed. This theory (here termed ‘niche‐packing equivalence’) predicts that the evolution of ecological sexual dimorphism constrains the ecological opportunity that would otherwise lead to ecological speciation or colonization, and that saturation of niches by different species constrains divergent selection for divergence between the sexes. Therefore, sexes and species are equivalent, yet antagonistic units of niche occupation. We present the most comprehensive test of the niche‐packing equivalence theory at ecological time‐scales (assemblage level) to date. Location: South America Major taxa studied: Liolaemus lizards. Methods: We identified 23 Liolaemus assemblages varying in species richness and sexual size dimorphism (SSD), distributed across a wide environmental range. We used mixed effects models, permutation tests and Markov Chain Monte Carlo (MCMC) regressions to quantify the relationship between SSD and species richness. We then partitioned the body size niche dimension between the sexes and amongst species, and tested for non‐overlapping body size distributions. We regressed SSD and species richness of each assemblage against environmental predictors, using multi‐model inference and structural equation modelling. Results: Sexual dimorphism declines with increasing species richness, and a strong signal of tension between the two remains following phylogenetic control. This pattern is accompanied by evidence of constraints on body‐size partitioning amongst species and between the sexes: the two units of niche saturation tend not to overlap. However, across assemblages, species richness and SSD correlate with different environmental variables, suggesting that their tension is context‐specific. Main conclusions: Our evidence supports the prediction that sexual dimorphism and species richness are alternative outcomes of adaptive radiation. However, this antagonism is mediated by a suite of environmental predictors that influence dimorphism and species richness differentially. [ABSTRACT FROM AUTHOR]

Published

2018

8. Hypoxia and hypothermia as rival agents of selection driving the evolution of viviparity in lizards.

Author

Pincheira‐Donoso, Daniel, Jara, Manuel, Reaney, Ashley, García‐Roa, Roberto, Saldarriaga‐Córdoba, Mónica, Hodgson, Dave J., and Keil, Petr

Subjects

*VIVIPARITY, *NATURAL selection, *HYPOXEMIA, *EFFECT of temperature on embryos, *PHYSIOLOGICAL effects of oxygen, *BIOLOGICAL evolution, *REPTILES

Abstract

Aim The evolution of key innovations promotes adaptive radiations by opening access to new ecological opportunity. The acquisition of viviparity (live-bearing reproduction) has emerged as one such innovation explaining reptile proliferations into extreme climates. By evolving viviparity, females provide embryos with internally stable environments to complete development. The classical hypothesis suggests that natural selection for viviparity arises from low temperatures in cold climates, which promote prolonged egg retention in the mother's body. An alternative hypothesis proposes that declines in atmospheric oxygen at high elevations create natural selection for embryo retention to provide them with optimal oxygen levels during development. However, although experimental studies support the negative effects of low oxygen on egg development, this 'hypoxia' hypothesis has never been tested quantitatively. Here, we compete the hypoxia hypothesis against the 'cold-climate' hypothesis, using a highly diverse lizard genus. Location South America. Major taxa Liolaemus lizards. Methods We use a multivariate dataset covering 121 species varying extensively in geographical and climatic distribution (including extreme thermal and oxygen gradients) and parity mode. Based on a new molecular phylogeny for the genus, we use phylogenetic logistic regressions to generate a range of models ranking environmental factors as a function of their effects on parity mode transitions. Results Elevation and oxygen declines were almost perfectly correlated, and both were identified as the dominant predictors of oviparity-to-viviparity transitions, whereas the role for temperature (dominated by the coldest winter temperatures and daily fluctuations) was significant but secondary. Overall, we showed that oxygen deprivation and low temperatures both play a role in the evolution of viviparity. Main conclusions Our findings support the role for selection from declines in oxygen concentrations as the primary driver behind viviparity. However, selection arising from cold temperatures and from reduced fluctuations in daily temperatures contributes to the evolution of these transitions by creating multivariate selection on parity mode. [ABSTRACT FROM AUTHOR]

Published

2017

9. Fecundity selection theory: concepts and evidence.

Author

Pincheira-Donoso, Daniel and Hunt, John

Subjects

*FERTILITY, *ANIMAL sexual behavior, *BIOLOGICAL evolution, *DIMORPHISM (Biology), *SURVIVAL behavior (Animals)

Abstract

ABSTRACT Fitness results from an optimal balance between survival, mating success and fecundity. The interactions between these three components of fitness vary depending on the selective context, from positive covariation between them, to antagonistic pleiotropic relationships when fitness increases in one reduce the fitness of others. Therefore, elucidating the routes through which selection shapes life history and phenotypic adaptations via these fitness components is of primary significance to understanding ecological and evolutionary dynamics. However, while the fitness components mediated by natural (survival) and sexual (mating success) selection have been debated extensively from most possible perspectives, fecundity selection remains considerably less studied. Here, we review the theoretical basis, evidence and implications of fecundity selection as a driver of sex-specific adaptive evolution. Based on accumulating literature on the life-history, phenotypic and ecological aspects of fecundity, we ( i) suggest a re-arrangement of the concepts of fecundity, whereby we coin the term 'transient fecundity' to refer to brood size per reproductive episode, while 'annual' and 'lifetime fecundity' should not be used interchangeably with 'transient fecundity' as they represent different life-history parameters; ( ii) provide a generalized re-definition of the concept of fecundity selection as a mechanism that encompasses any traits that influence fecundity in any direction (from high to low) and in either sex; ( iii) review the (macro)ecological basis of fecundity selection (e.g. ecological pressures that influence predictable spatial variation in fecundity); ( iv) suggest that most ecological theories of fecundity selection should be tested in organisms other than birds; ( v) argue that the longstanding fecundity selection hypothesis of female-biased sexual size dimorphism ( SSD) has gained inconsistent support, that strong fecundity selection does not necessarily drive female-biased SSD, and that this form of SSD can be driven by other selective pressures; and ( vi) discuss cases in which fecundity selection operates on males. This conceptual analysis of the theory of fecundity selection promises to help illuminate one of the central components of fitness and its contribution to adaptive evolution. [ABSTRACT FROM AUTHOR]

Published

2017

10. More losers than winners: investigating Anthropocene defaunation through the diversity of population trends.

Author

Finn, Catherine, Grattarola, Florencia, and Pincheira‐Donoso, Daniel

Subjects

*BIRD populations, *ANIMAL diversity, *BIOLOGICAL extinction, *ANIMAL species, *AMPHIBIANS, *ENDANGERED species, *MASS extinctions

Abstract

The global‐scale decline of animal biodiversity ('defaunation') represents one of the most alarming consequences of human impacts on the planet. The quantification of this extinction crisis has traditionally relied on the use of IUCN Red List conservation categories assigned to each assessed species. This approach reveals that a quarter of the world's animal species are currently threatened with extinction, and ~1% have been declared extinct. However, extinctions are preceded by progressive population declines through time that leave demographic 'footprints' that can alert us about the trajectories of species towards extinction. Therefore, an exclusive focus on IUCN conservation categories, without consideration of dynamic population trends, may underestimate the true extent of the processes of ongoing extinctions across nature. In fact, emerging evidence (e.g. the Living Planet Report), reveals a widespread tendency for sustained demographic declines (an average 69% decline in population abundances) of species globally. Yet, animal species are not only declining. Many species worldwide exhibit stable populations, while others are even thriving. Here, using population trend data for >71,000 animal species spanning all five groups of vertebrates (mammals, birds, reptiles, amphibians and fishes) and insects, we provide a comprehensive global‐scale assessment of the diversity of population trends across species undergoing not only declines, but also population stability and increases. We show a widespread global erosion of species, with 48% undergoing declines, while 49% and 3% of species currently remain stable or are increasing, respectively. Geographically, we reveal an intriguing pattern similar to that of threatened species, whereby declines tend to concentrate around tropical regions, whereas stability and increases show a tendency to expand towards temperate climates. Importantly, we find that for species currently classed by the IUCN Red List as 'non‐threatened', 33% are declining. Critically, in contrast with previous mass extinction events, our assessment shows that the Anthropocene extinction crisis is undergoing a rapid biodiversity imbalance, with levels of declines (a symptom of extinction) greatly exceeding levels of increases (a symptom of ecological expansion and potentially of evolution) for all groups. Our study contributes a further signal indicating that global biodiversity is entering a mass extinction, with ecosystem heterogeneity and functioning, biodiversity persistence, and human well‐being under increasing threat. [ABSTRACT FROM AUTHOR]

Published

2023

11. What defines an adaptive radiation? Macroevolutionary diversification dynamics of an exceptionally species-rich continental lizard radiation.

Author

Pincheira-Donoso, Daniel, Harvey, Lilly P., and Ruta, Marcello

Subjects

*ADAPTIVE radiation, *MACROEVOLUTION, *NUCLEAR nonproliferation, *LIZARDS, *PHENOTYPES, *SPECIES distribution

Abstract

Background: Adaptive radiation theory posits that ecological opportunity promotes rapid proliferation of phylogenetic and ecological diversity. Given that adaptive radiation proceeds via occupation of available niche space in newly accessed ecological zones, theory predicts that: (i) evolutionary diversification follows an 'early-burst' process, i.e., it accelerates early in the history of a clade (when available niche space facilitates speciation), and subsequently slows down as niche space becomes saturated by new species; and (ii) phylogenetic branching is accompanied by diversification of ecologically relevant phenotypic traits among newly evolving species. Here, we employ macroevolutionary phylogenetic model-selection analyses to address these two predictions about evolutionary diversification using one of the most exceptionally species-rich and ecologically diverse lineages of living vertebrates, the South American lizard genus Liolaemus. Results: Our phylogenetic analyses lend support to a density-dependent lineage diversification model. However, the lineage through-time diversification curve does not provide strong support for an early burst. In contrast, the evolution of phenotypic (body size) relative disparity is high, significantly different from a Brownian model during approximately the last 5 million years of Liolaemus evolution. Model-fitting analyses also reject the 'early-burst' model of phenotypic evolution, and instead favour stabilizing selection (Ornstein-Uhlenbeck, with three peaks identified) as the best model for body size diversification. Finally, diversification rates tend to increase with smaller body size. Conclusions: Liolaemus have diversified under a density-dependent process with slightly pronounced apparent episodic pulses of lineage accumulation, which are compatible with the expected episodic ecological opportunity created by gradual uplifts of the Andes over the last ~25My. We argue that ecological opportunity can be strong and a crucial driver of adaptive radiations in continents, but may emerge less frequently (compared to islands) when major events (e.g., climatic, geographic) significantly modify environments. In contrast, body size diversification conforms to an Ornstein-Uhlenbeck model with multiple trait optima. Despite this asymmetric diversification between both lineages and phenotype, links are expected to exist between the two processes, as shown by our trait-dependent analyses of diversification. We finally suggest that the definition of adaptive radiation should not be conditioned by the existence of early-bursts of diversification, and should instead be generalized to lineages in which species and ecological diversity have evolved from a single ancestor. [ABSTRACT FROM AUTHOR]

Published

2015

12. The neck flattening defensive behaviour in snakes: First record of hooding in the South American colubrid genus Philodryas.

Author

Jara, Manuel and Pincheira-Donoso, Daniel

Subjects

*ANIMAL defenses, *COLUBRIDAE, *PHENOTYPES, *BIOLOGICAL adaptation, *COMPETITION (Biology), *ZOOLOGY, *BEHAVIOR

Abstract

Animal species have evolved a remarkable diversity of defensive phenotypic strategies aimed to deceive predators and other forms of danger. By relying on deception, these adaptations increase the chances of avoiding physical contact that may otherwise have very high fitness costs. One such deceptive behaviour is the popularly-known neck flattening, or "hooding", observed in some snakes. Hooding consists in the lateral expansion and dorso-ventral flattening of the neck, which creates the impression of a bigger opponent during confrontations. This trait is highly characteristic of cobras (Elapidae family). However, neck flattening is not exclusive to elapids, and has in fact been observed in a few other snake lineages, including some species of the families Lamprophiidae and Colubridae. Here, we present the first report of hooding behaviour in the South American colubrid genus Philodryas, based on field observations conducted on the Chilean species P. chamissonis (the longtailed snake). Our report adds to the few cases in which this deceptive behaviour has been observed in snakes outside the cobra family. [ABSTRACT FROM AUTHOR]

Published

2015

13. A global analysis of coral bleaching patterns in association with mangrove environments under global warming.

Author

Johnson, Jack V., Dick, Jaimie T. A., and Pincheira‐Donoso, Daniel

Subjects

*MANGROVE plants, *CORAL bleaching, *MANGROVE forests, *CORAL reef conservation, *CORAL reefs & islands, *GLOBAL warming, *CORALS, *MANGROVE ecology

Abstract

Marine heatwaves caused by global warming are progressively degrading coral reefs worldwide via the process of coral bleaching – the expulsion of photosynthetic endosymbionts. However, coral bleaching is not spatially homogeneous, but varies across environmental gradients in association with local conditions and taxonomic composition. Emerging evidence suggests that mangrove habitats are recurrent ''microenvironments' for reef corals, providing key biogeochemical services believed to influence their resilience, and housing co‐tolerant coral taxa. This close association between coral reefs and mangroves has led to the hypothesis that the extent of coral bleaching is reduced by the proximity of reef building corals to mangroves. Here, we present the first global‐scale test addressing this hypothesis. Using Bayesian generalised linear mixed effect modelling, we show that coral bleaching tends to increase under higher thermal stress when corals are further away from mangroves. When comparing conditional effects, corals furthest away from mangroves also show the highest levels of bleaching, suggesting a phenomenon of reduced bleaching for corals residing closer to mangroves under thermal stress. The drivers of this pattern may be numerous, but most likely include the presence of co‐tolerant coral species which are known to be associated with mangroves. Future research should focus on disentangling the mechanisms underlying these coral bleaching patterns in association with mangroves, specifically focusing on in‐situ environmental and taxonomic data collection. These endeavours will most likely require high‐resolution analyses of coral reefs at more local‐scales. Ultimately, our findings add to the ever‐growing importance of mangroves for near‐shore coral reef environments, and suggest a potentially important benefit for coral reefs associated with mangroves in the Anthropocene. [ABSTRACT FROM AUTHOR]

Published

2023

14. No evidence for conspecificity between two high Andes Liolaemus lizards (Squamata: Liolaemidae).

Author

PINCHEIRA-DONOSO, DANIEL

Subjects

*LIZARD populations, *ANIMAL reproduction, *GENETIC barcoding, *PHENOTYPIC plasticity, *ANIMAL diversity

Abstract

The remarkable taxonomic, ecological and geographic diversity achieved by the South American lizard genus Liolaemus has inspired persistent debate about species boundaries and the reliability of phenotypic predictors/indicators of reproductive isolation between species (i.e., signatures of speciation). Many aspects of these debates remain unsettled and part of the diversity of the genus remains under controversy. Factors such as small samples, or lack of molecular data to quantify genetic differences between species can be regarded as legitimate limitations on the ability to draw definite taxonomic conclusions. However, conclusions drawn from careless and negligent observations should be taken with high degree of caution. A recent paper offers a clear example of this latter scenario, in which it is suggested that Liolaemus filiorum Pincheira-Donoso and Ramirez, 2005 is a synonym of Liolaemus puritamensis Nuñez and Fox, 1989 based on qualitative analyses of the "holotype" of the former which is, in fact, not the holotype of this taxon, but rather one of the paratypes of the latter species. Editors and referees should play a central role in preventing publication of studies of this nature. [ABSTRACT FROM AUTHOR]

Published

2014

15. The evolution of viviparity opens opportunities for lizard radiation but drives it into a climatic cul-de-sac.

Author

Pincheira‐Donoso, Daniel, Tregenza, Tom, Witt, Matthew J., and Hodgson, Dave J.

Subjects

*ADAPTIVE radiation, *CLIMATE change, *VIVIPARITY, *LIZARDS, *BIOLOGICAL extinction, *LIOLAEMUS, *TECHNOLOGICAL innovations

Abstract

Aim Evolutionary radiations into novel areas or niches require innovative adaptations. However, rapid subsequent changes in these novel conditions might demand rapid re-adaptations to secure population persistence and prevent extinction. We propose that reptilian viviparity (live birth) is consistent with such a scenario. Using the Liolaemus lizard radiation, we investigate the hypotheses that historical invasions of cold climates have been permitted by transitions to viviparity, and that this parity mode is irreversible. Then, we investigate whether these combined factors restrict viviparous lizards to cold climates, and hence, whether viviparous species are particularly threatened by climate change. Location South America. Methods We employ phylogenetic analyses to investigate evolutionary transitions in reproductive modes and their consequences for environmental restrictions in viviparous lizards. We then employ climatic projections to predict the impact of climate change on the future persistence of these organisms. Results The oviparity-to-viviparity transition is consistently associated with colonization of cold climates, and appears to be irreversible. Since viviparity seems less viable (compared with oviparity) in warm climates, species that evolve viviparity in cold climates are likely to remain adaptively constrained to such environments. Therefore, upward-poleward advances of climate warming will cause severe shifts and contractions of viviparous species ranges, threatening major extinctions over the next half century. Main conclusions Viviparity has been largely responsible for the successful radiation of Liolaemus into cold climates, but since this adaptation is predominantly viable in these environments and is unlikely to re-evolve into oviparity, viviparity may prove to be an evolutionary dead-end for lizards facing rapid climate change. [ABSTRACT FROM AUTHOR]

Published

2013

16. Global Taxonomic Diversity of Living Reptiles.

Author

Pincheira-Donoso, Daniel, Bauer, Aaron M., Meiri, Shai, and Uetz, Peter

Subjects

*REPTILE classification, *REPTILE evolution, *BIOTIC communities, *PHYLOGENY, *SPECIES diversity, *COLUBRIDAE, *HERPETOLOGY

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. [ABSTRACT FROM AUTHOR]

Published

2013

17. Intraspecific predation in the Liolaemus lizard radiation: a primer.

Author

Pincheira-Donoso, Daniel

Subjects

*LIOLAEMUS, *LIZARD behavior, *PREDATION, *CANNIBALISM in animals, *ADAPTIVE radiation, *SPECIES, *PHYLOGENY

Abstract

Intraspecific predation (cannibalism) occurs in a number of lizard species, although the incidence of this trophic behaviour appears to be infrequent. Within the South American Liolaemus lizard evolutionary radiation, the primary component of the carnivorous diet (herbivory has also evolved in several species) includes a diversity of arthropods and other invertebrates. However, a number of cases of saurophagy, mostly cannibalism, have also been reported in different species. Here, I review for the first time the occurrence of cannibalism in this prominent group of lizards, one of the largest and more ecologically diverse living adaptive radiations. Adults of five Liolaemus species have previously been reported to feed on conspecific hatchlings, and one additional case (L. zapallarensis) is reported in this paper. In general, cannibalism is found in species located at the right side of the body size frequency distribution, while no cases have been reported on the far left range of body sizes, suggesting that cannibalism is more common in large species. Only one species of medium size (L. darwinii) is known to feed on conspecifics. In addition, males are responsible for 83% of the cases of cannibalism, while only one case of female cannibalism is known (L. chiliensis). Finally, no clear phylogenetic signal can be inferred from these observations, as the six reported cannibal species belong to four of the five main Liolaemus clades. [ABSTRACT FROM AUTHOR]

Published

2012

18. Predictable Variation of Range-Sizes across an Extreme Environmental Gradient in a Lizard Adaptive Radiation: Evolutionary and Ecological Inferences.

Author

Pincheira-Donoso, Daniel

Subjects

*VERTEBRATES, *CLIMATE change, *LIZARDS, *SOMATOTYPES, *CHORDATA

Abstract

Large-scale patterns of current species geographic range-size variation reflect historical dynamics of dispersal and provide insights into future consequences under changing environments. Evidence suggests that climate warming exerts major damage on high latitude and elevation organisms, where changes are more severe and available space to disperse tracking historical niches is more limited. Species with longer generations (slower adaptive responses), such as vertebrates, and with restricted distributions (lower genetic diversity, higher inbreeding) in these environments are expected to be particularly threatened by warming crises. However, a well-known macroecological generalization (Rapoport's rule) predicts that species range-sizes increase with increasing latitude-elevation, thus counterbalancing the impact of climate change. Here, I investigate geographic range-size variation across an extreme environmental gradient and as a function of body size, in the prominent Liolaemus lizard adaptive radiation. Conventional and phylogenetic analyses revealed that latitudinal (but not elevational) ranges significantly decrease with increasing latitude-elevation, while body size was unrelated to range-size. Evolutionarily, these results are insightful as they suggest a link between spatial environmental gradients and range-size evolution. However, ecologically, these results suggest that Liolaemus might be increasingly threatened if, as predicted by theory, ranges retract and contract continuously under persisting climate warming, potentially increasing extinction risks at high latitudes and elevations. [ABSTRACT FROM AUTHOR]

Published

2011

19. The balance between predictions and evidence and the search for universal macroecological patterns: taking Bergmann's rule back to its endothermic origin.

Author

Pincheira-Donoso, Daniel

Subjects

*MACROECOLOGY, *BERGMANN'S rule, *BIOCLIMATOLOGY, *GEOGRAPHICAL positions, *BIOLOGICAL adaptation

Abstract

Geographical variation in environmental temperatures is expected to impose clinal phenotypic selection that results in the expression of large-scale gradients of body mass variation within animal clades. Body size is predicted to increase with increasing latitude and elevation, and hence, with decreasing temperature, a pattern broadly known as Bergmann's rule. However, empirical observations are highly conflicting. Whilst most studies support this prediction in endotherms (birds and mammals), analyses conducted on ectotherms often fail to report this pattern. Does it reduce the validity of this macroecological rule? Since the original formulation of Bergmann's rule only involved endothermic organisms, I argue that the controversy is not a consequence of its predictive power, but a result of the later inclusion of ectotherms as part of the prediction. Here, I propose that the common conception of Bergmann's rule maintained for half a century is changed back to its original definition restricted to endotherms. This temperature-size relationship might therefore consolidate as a well-established macroecological rule if its original formulation is respected. Finally, I develop these claims on my initial suggestion that Bergmann's rule should be recognized as the evolutionary outcome of a general process with no phylogenetic scale distinction of species or populations, being equally applicable amongst and within species. [ABSTRACT FROM AUTHOR]

Published

2010

20. A phylogenetic analysis of sex-specific evolution of ecological morphology in Liolaemus lizards.

Author

Pincheira-Donoso, Daniel, Hodgson, David j., Stipala, Jan, and Tregenza, Tom

Subjects

*ADAPTIVE radiation, *NATURAL selection, *LIOLAEMUS, *LIZARDS, *SEXUAL dimorphism in animals, *ECOLOGICAL niche

Abstract

Adaptive radiation theory predicts that phenotypic traits involved in ecological performance evolve in different directions in populations subjected to divergent natural selection, resulting in the evolution of ecological diversity. This idea has largely been supported through comparative studies exploring relationships between ecological preferences and quantitative traits among different species. However, intersexual perspectives are often ignored. Indeed, although it is well established that intersexual competition and sex-specific parental and reproductive roles may often subject sex-linked phenotypes to antagonistic selection effects, most ecomorphological research has explored adaptive evolution on a single sex, or on means obtained from both sexes together. The few studies taking sexual differences into account reveal the occurrence of sex-specific ecomorphs in some clades of lizards, and conclude that the independent contribution of the sexes to the morphological diversity produced by adaptive radiation can be substantial. Here, we investigate whether microhabitat use results in the evolution of sex-specific ecomorphs across 44 Liolaemus lizard species. We found that microhabitat structure does not predict variation in body size and shape in either of the sexes. Yet, we found that males and females tend to occupy significantly different positions in multivariate morphological spaces, indicating that treating males and females as ecologically and phenotypically equivalent units may lead to incomplete or mistaken estimations of the diversity produced by adaptive evolution. [ABSTRACT FROM AUTHOR]

Published

2009

21. Testing the Accuracy of Fecal-Based Analyses in Studies of Trophic Ecology in Lizards.

Author

Pincheira-Donoso, Daniel

Subjects

*ANIMAL droppings, *FECES examination, *ANIMAL feeding behavior, *LIZARDS, *ECOLOGICAL niche

Abstract

Trophic niche studies are essential for evaluating ecological interactions between and within species and their evolutionary implications. For example, fundamental aspects of a wide range of hypotheses concerning population divergence, evolution of sexual dimorphism, and adaptations to fluctuating environments rely on dietary evidence. The accuracy of different methodologies used to estimate trophic specializations is therefore a fundamental issue. Under the assumption that direct observations of gastric contents provide accurate information about dietary preferences, I examined how reliably diet is reflected in fecal pellets. I conducted two main comparative tests on living lizards. First, I fed individuals of 23 species with hard- and soft-bodied organisms, and compared fecal pellets. Second, I examined prey items from natural diets represented in feces and gastric contents (stomach-flushing) in a wild population of the lizard Liolaemus tenuis. My results reveal that fecal samples provide inaccurate estimates of lizard trophic preferences, mainly because soft-bodied organisms are destroyed by digestive processes. Even though soft-bodied prey may be essential dietary items (as inferred from gastric analysis), these organisms may be almost entirely absent from feces. I suggest that direct gastric analyses should be the preferred method for analyzing reptilian diets. [ABSTRACT FROM AUTHOR]

Published

2008

22. The evolution of body size under environmental gradients in ectotherms: why should Bergmann's rule apply to lizards?

Author

Pincheira-Donoso, Daniel, Hodgson, David J., and Tregenza, Tom

Subjects

*BODY size, *BIOLOGICAL evolution, *LIZARDS, *COLD-blooded animals, *BERGMANN'S rule, *ECOLOGY

Abstract

Background: The impact of environmental gradients on the evolution of life history traits is a central issue in macroecology and evolutionary biology. A number of hypotheses have been formulated to explain factors shaping patterns of variation in animal mass. One such example is Bergmann's rule, which predicts that body size will be positively correlated with latitude and elevation, and hence, with decreasing environmental temperatures. A generally accepted explanation for this phenotypic response is that as body mass increases, body surface area gets proportionally smaller, which contributes to reduced rates of heat-loss. Phylogenetic and nonphylogenetic evidence reveals that endotherms follow Bergmann's rule. In contrast, while previous non-phylogenetic studies supported this prediction in up to 75% of ectotherms, recent phylogenetic comparative analyses suggest that its validity for these organisms is controversial and less understood. Moreover, little attention has been paid to why some ectotherms conform to this rule, while others do not. Here, we investigate Bergmann's rule in the six main clades forming the Liolaemus genus, one of the largest and most environmentally diverse genera of terrestrial vertebrates. A recent study conducted on some species belonging to four of these six clades concluded that Liolaemus species follow Bergmann's rule, representing the only known phylogenetic support for this model in lizards. However, a later reassessment of this evidence, performed on one of the four analysed clades, produced contrasting conclusions. Results: Our results fail to support Bergmann's rule in Liolaemus lizards. Non-phylogenetic and phylogenetic analyses showed that none of the studied clades experience increasing body size with increasing latitude and elevation. Conclusion: Most physiological and behavioural processes in ectotherms depend directly upon their body temperature. In cold environments, adaptations to gain heat rapidly are under strong positive selection to allow optimal feeding, mating and predator avoidance. Therefore, evolution of larger body size in colder environments appears to be a disadvantageous thermoregulatory strategy. The repeated lack of support for Bergmann's rule in ectotherms suggests that this model should be recognized as a valid rule exclusively for endotherms. [ABSTRACT FROM AUTHOR]

Published

2008

23. LOS GECKOS DE CHILE (SCLEROGLOSSA, GEKKONIDAE, GEKKONINAE). PARTE II. BIOGEOGRAFÍA Y CAMBIOS ONTOGENÉTICOS EN EL PATRÓN DE COLORACIÓN DE PHYLLODACTYLUS GERRHOPYGUS. PUEDE LA EVIDENCIA SOSTENER LA PRESENCIA DE PHYLLODACTYLUS INAEQUALIS EN CHILE?

Author

Pincheira-Donoso, Daniel

Subjects

*LIZARDS, *PHYLLODACTYLUS, *ANIMAL populations, *ANIMAL species

Abstract

Research on Chilean gekkonid lizards remains largely ignored. Only a few studies have focused in the specific analysis of the known populations. As a consequence, several fundamental aspects of the biological structure of this group are still a mystery. Indeed, in spite of the scarce number of taxa reported in Chile, it is hard to draw on more detailed conclusions about the species diversity in this territory. The genus Phyllodactylus, restricted to the northern deserts, has commonly been recognized on the basis of three species: P gerrhopygus, P heterurus and P inaequalis. Nonetheless, different studies often claim divergent opinions about the status of these taxa. In the present contribution, I analyze those populations identified as P. gerrhopygus and P inaequalis, which would be characterized by different colour patterns and distributions. However my results suggest that both taxa represent only one widespread species. The contrasting observed colour patterns can be explained as a consequence of ontogenetic shifts. Therefore, I conclude that the presence of P. inaequalis in Chile has been based on juvenile individuals of P. gerrhopygus. [ABSTRACT FROM AUTHOR]

Published

2006

24. UNA NUEVA ESPECIE DEL GÉNERO PHYMATURUS (IGUANIA: TROPIDURIDAE: LIOLAEMINI) DEL CENTRO-SUR DE CHILE.

Author

Pincheira-Donoso, Daniel

Subjects

*IGUANA (Genus), *ANIMAL species, *ANIMAL morphology, *PROTECTIVE coloration (Biology), *SPINES (Zoology), *ZOOLOGY

Abstract

Phymaturus vociferator is described as a new species of iguanian lizard, from central-southern Chile, related to P. verdugo from Peteroa Volcano region, Malargüe, Mendoza Province. The only known population comes from El Refugio, Laguna del Laja, in Antuco Volcano mountains, about 1700 m, close to the Argentinean frontier, in the Andean region of the Bio Bio Region. Morphological characters, pattern of coloration, and their isolated distribution, separate this new taxon from the other species of the genus. It is a member of the flagellifer species group, diagnosed by the presence of short superciliaries scales, with five or more suboculars, three or four rows of lorilabials, the simphisial scute narrower than rostral, commonly in contact with sublabials, and with caudal spines abruptly developed. Phymaturus vociferator has previously been confused with Phymaturus flagellifer (= P. palluma). [ABSTRACT FROM AUTHOR]

Published

2004

25. LIOLAEMUS ROBERTOI, UNA NUEVA ESPECIE DE LOS ANDES DEL NORTE DE CHILE PERTENECIENTE AL GRUPO RUIBALI (IGUANIA: TROPIDURIDAE: LIOLAEMINAE).

Author

Pincheira-Donoso, Daniel and Núñez, Herman

Subjects

*LIZARDS, *LIOLAEMUS, *SCALES (Reptiles), *EAR canal, *ANIMAL coloration

Abstract

A new species of the ruibali group is reported and described, from the Andean mountains of Fourth Administrative Region, Chile. The new lizard was previously confused with the Argentinean species Liolaemus vallecurensis. Liolaemus robertoi sp. nov. can be distinguished from any other species of the ruibali group because of its different character combinations, with 85-94 scales around midbody, anterior margin of auditory meatus with slightly enlarged scales, and totally different coloration. A hypothetical zoogeographic analysis allows to relate L. robertoi sp. nov. with the cis-Andean lizard Liolaemus rosenmanni. [ABSTRACT FROM AUTHOR]

Published

2003

26. PRIMER REGISTRO PARA CHILE DE LIOLAEMUS COERULEUS CEI Y ORTIZ, 1983 (IGUANIA: TROPIDURIDAE: LIOLAEMINAE), CON COMENTARIOS ADICIONALES SOBRE SUS RELACIONES SISTEMÁTICAS.

Author

Pincheira-Donoso, Daniel

Subjects

*LIOLAEMUS, *IGUANAS, *LIZARDS, *ANIMAL species

Abstract

Liolaemus coeruleus is documented for the first time from Chile; the species was found in Paso Pino Hachado (38°39′S; 70°54′W), Valle del Lonquimay, IX Administrative Region. The systematic relationships of this species with the neuquensis group, are discussed. [ABSTRACT FROM AUTHOR]

Published

2003

27. Local anthropogenic stress does not exacerbate coral bleaching under global climate change.

Author

Johnson, Jack V., Dick, Jaimie T. A., Pincheira‐Donoso, Daniel, and Bates, Amanda

Subjects

*CORAL bleaching, *CLIMATE change, *CORAL reefs & islands, *CORAL declines, *CORALS, *POPULATION density

Abstract

Aim: Rising ocean temperatures are widely recognized as the dominant driver behind the rapid degradation of coral reefs via the process of coral bleaching (the expulsion of photosynthetic endosymbionts, which reveals the coral skeleton). However, bleaching of hard corals is often assumed to be further aggravated by the effect of local‐scale stressors from anthropogenic activity, accelerating coral reef decline where these stressors are stronger. Despite the importance of this hypothesis, the interaction between climate change and local stressors for driving coral bleaching has only been investigated in a handful of studies, with no large scale (regional or global) test conducted thus far. We investigate the impact of human population density (HPD) – a proxy for local stressors – in both protected and non‐protected marine regions, and their interaction under heat stress as drivers of coral bleaching. Location: Global. Time period: 2002–2018. Major taxa studied: Scleractinia corals. Methods: Using 9,170 coral reef surveys worldwide, we performed Bayesian modelling to assess the probability of coral bleaching in response to local‐scale stressors in interaction with global warming. Results: Local HPD does not exacerbate coral bleaching, either independently or under thermal stress from climate change. Rather, the relationship between HPD and temperature stress appears weakly antagonistic for coral bleaching, contradicting the expectation that HPD increases sensitivity of corals to bleaching under thermal stress. Main conclusions: Local HPD does not interact with global warming for degrading coral reefs. However, regional variation in bleaching patterns exists. Consequently, bleaching will continue to occur on most coral reefs globally regardless of local HPD. Thus, it is likely that even isolated, well‐protected, coral reefs will continue to decline because of climate warming‐induced bleaching. Therefore, tackling the source of global warming remains the most effective way to mitigate coral reef decline via coral bleaching. [ABSTRACT FROM AUTHOR]

Published

2022

28. No evidence that extinction risk increases in the largest and smallest vertebrates.

Author

Pincheira-Donoso, Daniel and Hodgson, Dave J.

Subjects

*BIOLOGICAL extinction, *ENDANGERED species, *VERTEBRATES, *PHYLOGENY, *AMPHIBIANS

Abstract

The article focuses on findings of a research on differences in extinction risk in the largest and smallest vertebrates, referencing findings of a research published in a previous issue. It states use of Global Amphibian Biodiversity Project initiative's dataset, and mentions that the analyses were of the same sign in nonphylogenetic linear models. It notes that threat status declines with increasing body mass among amphibians, which should not be used as evidence for greater endangerment.

Published

2018

29. Front Cover.

Author

Pincheira‐Donoso, Daniel, Tregenza, Tom, Butlin, Roger K., and Hodgson, David J.

Subjects

*MACROECOLOGY

Published

2018

30. Body size distributions of anurans are explained by diversification rates and the environment.

Author

Amado, Talita Ferreira, Martinez, Pablo Ariel, Pincheira‐Donoso, Daniel, Olalla‐Tárraga, Miguel Ángel, and Davies, Jonathan

Subjects

*BODY size, *NORMALIZED difference vegetation index, *BIOLOGICAL extinction, *SKEWNESS (Probability theory), *DISTRIBUTION (Probability theory), *ANURA

Abstract

Aim: Body size frequency distributions are often skewed to the right, with a greater frequency of small‐sized species. Right skewness can appear when speciation is biased towards small species and extinction towards large ones. In contrast, limits imposed by environmental constraints will select taxa to co‐occur in assemblages and can modify size distributions to the left or to the right. We analysed whether the shape of size distributions of anurans is related to diversification rates and how the environment might also be creating the observed patterns. Location: The Western Hemisphere. Time period: Current. Major taxa studied: Anurans. Methods: We computed diversification rates from a dated phylogeny and obtained data for body size, spatial distribution and the climate (annual temperature, potential evapotranspiration and normalized difference vegetation index) inhabited by 2,598 anuran species to analyse the relationship between diversification rates and body size. We then used an assemblage‐based approach to test whether the climate is acting together with species evolutionary history to generate skewed distributions of body sizes at local sites. Results: Skewness was positively correlated with size‐biased speciation and extinction, whereas it was negatively correlated with net diversification. After the inclusion of environmental predictors, the explanatory power of our models increased significantly. When ranking the predictors, evolutionary rates remained first, followed by a secondary role of environmental variables. Main conclusions: Despite the high frequency of right‐skewed body size distributions, anuran assemblages of the New World showed a variation of skewness that can be explained by faster net diversification (speciation minus extinction) at modal sizes. We conclude that size‐biased evolutionary rates and the environment both have a role in defining the proportion of small and large sizes at local scales. [ABSTRACT FROM AUTHOR]

Published

2021

31. Rethinking the Effects of Body Size on the Study of Brain Size Evolution.

Author

Font, Enrique, García-Roa, Roberto, Pincheira-Donoso, Daniel, and Carazo, Pau

Subjects

*SIZE of brain, *BRAIN evolution, *AVIAN anatomy, *SPECIFIC gravity, *BODY size, *STRUCTURAL components, *BODY weight, *REPTILES

Abstract

Body size correlates with most structural and functional components of an organism's phenotype – brain size being a prime example of allometric scaling with animal size. Therefore, comparative studies of brain evolution in vertebrates rely on controlling for the scaling effects of body size variation on brain size variation by calculating brain weight/body weight ratios. Differences in the brain size-body size relationship between taxa are usually interpreted as differences in selection acting on the brain or its components, while selection pressures acting on body size, which are among the most prevalent in nature, are rarely acknowledged, leading to conflicting and confusing conclusions. We address these problems by comparing brain-body relationships from across >1,000 species of birds and non-avian reptiles. Relative brain size in birds is often assumed to be 10 times larger than in reptiles of similar body size. We examine how differences in the specific gravity of body tissues and in body design (e.g., presence/absence of a tail or a dense shell) between these two groups can affect estimates of relative brain size. Using phylogenetic comparative analyses, we show that the gap in relative brain size between birds and reptiles has been grossly exaggerated. Our results highlight the need to take into account differences between taxa arising from selection pressures affecting body size and design, and call into question the widespread misconception that reptile brains are small and incapable of supporting sophisticated behavior and cognition. [ABSTRACT FROM AUTHOR]

Published

2019

32. Live fast, diversify non-adaptively: evolutionary diversification of exceptionally short-lived annual killifishes.

Author

Lambert, Joshua W., Reichard, Martin, and Pincheira-Donoso, Daniel

Subjects

*KILLIFISHES, *FISH diversity, *ADAPTIVE radiation, *ECOLOGICAL niche, *FISH phylogeny

Abstract

Background: Adaptive radiations are triggered by ecological opportunity – the access to novel niche domains with abundant available resources that facilitate the formation of new ecologically divergent species. Therefore, as new species saturate niche space, clades experience a diversity-dependent slowdown of diversification over time. At the other extreme of the radiation continuum, non-adaptively radiating lineages undergo diversification with minimal niche differentiation when 'spatial opportunity' (i.e. areas with suitable 'ancestral' ecological conditions) is available. Traditionally, most research has focused on adaptive radiations, while empirical studies on non-adaptive radiations remain lagging behind. A prolific clade of African fish with extremely short lifespan (Nothobranchius killifish), show the key evolutionary features of a candidate non-adaptive radiation – primarily allopatric species with minimal niche and phenotypic divergence. Here, we test the hypothesis that Nothobranchius killifish have non-adaptively diversified. We employ phylogenetic modelling to investigate the tempo and mode of macroevolutionary diversification of these organisms. Results: Nothobranchius diversification has proceeded with minor niche differentiation and minimal morphological disparity among allopatric species. Additionally, we failed to identify evidence for a role of body size or biogeography in influencing diversification rates. Diversification has been homogeneous within this genus, with the only hotspot of species-richness not resulting from rapid diversification. However, species in sympatry show higher disparity, which may have been caused by character displacement among coexisting species. Conclusions: Nothobranchius killifish have proliferated following the tempo and mode of a non-adaptive radiation. Our study confirms that this exceptionally short-lived group have diversified with minimal divergent niche adaptation, while one group of coexisting species seems to have facilitated spatial overlap among these taxa via the evolution of ecological character displacement. [ABSTRACT FROM AUTHOR]

Published

2019

33. Risk of extinction increases towards higher elevations across the world's amphibians.

Author

Guirguis, Jacinta, Goodyear, Luke E. B., Finn, Catherine, Johnson, Jack V., and Pincheira‐Donoso, Daniel

Subjects

*ENDANGERED species, *AMPHIBIANS, *BIOLOGICAL extinction, *ALTITUDES, *SALAMANDERS, *ANURA

Abstract

Aim: Life in mountains is associated with multiple features that increase the risk of demographic collapses in populations – small geographic ranges, short breeding seasons, specialization to harsh climates – leading to the hypothesis that extinction risk is exacerbated in species inhabiting higher elevations. Here, we implement the first test of this hypothesis across the amphibian tree of life – the tetrapods with the largest proportion of montane species, and nature's most threatened animals. Location: Global. Time Period: Present. Major Taxa Studied: Class Amphibia. Methods: We collated a dataset spanning 8042 species from across all three amphibian orders (Anura, Caudata and Gymnophiona). We preformed phylogenetic logistic regressions to test the predictions that extinction risk increases with elevation, and whether this effect is caused by factors previously hypothesised to drive high‐elevation declines, including restrictions on species' geographic ranges, variation in their life histories and the presence of infectious disease. Results: Globally, extinction risk increases towards higher elevations. At order‐level, this relationship holds for frogs and salamanders. Even when controlling for geographic range size, life histories and infectious disease, extinction risk increases with elevation for amphibians combined and frogs globally, and in the Americas. In contrast, whereas extinction risk is greater among high‐elevation Eurasian amphibians, this relationship is explained by larger body sizes and lower fecundity. Main Conclusions: Our analyses indicate that after considering factors previously thought to explain the increase in extinction risk towards higher elevations (e.g., geographic range size, disease), elevation remains a significant predictor of amphibian extinction risk. Given that the only available tests of this hypothesis in other tetrapods (birds and reptiles) conflict with our findings, we suggest that physiological or life‐history features of amphibians may explain this observed phenomenon. [ABSTRACT FROM AUTHOR]

Published

2023

34. What drives the evolution of body size in ectotherms? A global analysis across the amphibian tree of life.

Author

Johnson, Jack V., Finn, Catherine, Guirguis, Jacinta, Goodyear, Luke E. B., Harvey, Lilly P., Magee, Ryan, Ron, Santiago, and Pincheira‐Donoso, Daniel

Subjects

*BODY size, *ADAPTIVE radiation, *COLD-blooded animals, *AMPHIBIANS, *SEASONAL temperature variations, *BODY temperature, *SALAMANDERS

Abstract

Aim: The emergence of large‐scale patterns of animal body size is the central expectation of a wide range of (macro)ecological and evolutionary hypotheses. The drivers shaping these patterns include climate (e.g. Bergmann's rule), resource availability (e.g. 'resource rule'), biogeographic settings and niche partitioning (e.g. adaptive radiation). However, these hypotheses often make opposing predictions about the trajectories of body size evolution. Therefore, whether underlying drivers of body size evolution can be identified remains an open question. Here, we employ the most comprehensive global dataset of body size in amphibians, to address multiple hypotheses that predict patterns of body size evolution based on climatic factors, ecology and biogeographic settings to identify underlying drivers and their generality across lineages. Location: Global. Time Period: Present. Major Taxa Studied: Amphibians. Methods: Using a global dataset spanning 7270 (>87% of) species of Anura, Caudata and Gymnophiona, we employed phylogenetic Bayesian modelling to test the roles of climate, resource availability, insularity, elevation, habitat use and diel activity on body size. Results: Only climate and elevation drive body size patterns, and these processes are order‐specific. Seasonality in precipitation and in temperature predict body size clines in anurans, whereas caecilian body size increases with aridity. However, neither of these drivers explained variation in salamander body size. In both anurans and caecilians, size increases with elevational range and with midpoint elevation in caecilians only. No effects of mean temperature, resource abundance, insularity, time of activity or habitat use were found. Main Conclusions: Precipitation and temperature seasonality are the dominant climatic drivers of body size variation in amphibians overall. Bergmann's rule is consistently rejected, and so are other alternative hypotheses. We suggest that the rationale sustaining existing macroecological rules of body size is unrealistic in amphibians and discuss our findings in the context of the emerging hypothesis that climate change can drive body size shifts. [ABSTRACT FROM AUTHOR]

Published

2023

35. Liolaemus altissimus araucaniensis (Sauria: Tropiduridae: Liolaeminae) en Antuco, Chile.

Author

Pincheira-Donoso, Daniel

Published

2003

36. The relative influence of sea surface temperature anomalies on the benthic composition of an Indo‐Pacific and Caribbean coral reef over the last decade.

Author

Johnson, Jack V., Exton, Dan A., Dick, Jaimie T. A., Oakley, Joseph, Jompa, Jamaluddin, and Pincheira‐Donoso, Daniel

Subjects

*CORAL reefs & islands, *OCEAN temperature, *CORALS, *CORAL declines, *GLOBAL temperature changes, *ALCYONACEA

Abstract

Rising ocean temperatures are the primary driver of coral reef declines throughout the tropics. Such declines include reductions in coral cover that facilitate the monopolization of the benthos by other taxa such as macroalgae, resulting in reduced habitat complexity and biodiversity. Long‐term monitoring projects present rare opportunities to assess how sea surface temperature anomalies (SSTAs) influence changes in the benthic composition of coral reefs across distinct locations. Here, using extensively monitored coral reef sites from Honduras (in the Caribbean Sea), and from the Wakatobi National Park located in the center of the coral triangle of Indonesia, we assess the impact of global warming on coral reef benthic compositions over the period 2012–2019. Bayesian generalized linear mixed effect models revealed increases in the sponge, and hard coral coverage through time, while rubble coverage decreased at the Indonesia location. Conversely, the effect of SSTAs did not predict any changes in benthic coverage. At the Honduras location, algae and soft coral coverage increased through time, while hard coral and rock coverage were decreasing. The effects of SSTA at the Honduras location included increased rock coverage, but reduced sponge coverage, indicating disparate responses between both systems under SSTAs. However, redundancy analyses showed intralocation site variability explained the majority of variance in benthic composition over the course of the study period. Our findings show that SSTAs have differentially influenced the benthic composition between the Honduras and the Indonesian coral reefs surveyed in this study. However, the large intralocation variance that explains the benthic composition at both locations indicates that localized processes have a predominant role in explaining benthic composition over the last decade. The sustained monitoring effort is critical for understanding how these reefs will change in their composition as global temperatures continue to rise through the Anthropocene. [ABSTRACT FROM AUTHOR]

Published

2022

37. Desert lizard diversity worldwide: Effects of environment, time, and evolutionary rate.

Author

Tejero‐Cicuéndez, Héctor, Tarroso, Pedro, Carranza, Salvador, Rabosky, Daniel L., and Pincheira‐Donoso, Daniel

Subjects

*LIZARDS, *SPECIES diversity, *SURFACE of the earth, *DESERTS, *ARID regions, *VICARIANCE

Abstract

Aim: Biodiversity is not uniformly distributed across the Earth's surface, even among physiographically comparable biomes in different biogeographic regions. For lizards, the world's large desert regions are characterized by extreme heterogeneity in species richness, spanning some of the most species‐rich (arid Australia) and species‐poor (central Asia) biomes overall. Regional differences in species diversity may arise as a consequence of the interplay of several factors (e.g., evolutionary time, diversification rate, environment), but their relative importance for biogeographic patterns remains poorly known. Here we use distributional and phylogenetic data to assess the evolutionary and ecological drivers of large‐scale variation in desert lizard diversity. Location: Deserts worldwide. Major taxa studied: Lizards (non‐snake squamates). Methods: We specifically test whether diversity patterns are best explained by differences in the ages of arid‐adapted lineages (evolutionary time hypothesis), by regional variation in speciation rate, by geographic area of the arid systems, and by spatial variation related to environment (climate, topography, and productivity). Results: We found no effect of recent speciation rate and geographic area on differences in desert lizard diversity. We demonstrate that the extreme species richness of the Australian deserts cannot be explained by greater evolutionary time, because species began accumulating more recently there than in more species‐poor arid regions. We found limited support for relationships between regional lizard richness and environmental variables, but these effects were inconsistent across deserts, showing a differential role of the environment in shaping the lizard diversity in different arid regions. Main conclusions: Our results provide evidence against several classic hypotheses for interregional variation in species richness, but also highlight the complexity of processes underlying vertebrate community richness in the world's great arid systems. [ABSTRACT FROM AUTHOR]

Published

2022

38. Determinants of zoogeographical boundaries differ between vertebrate groups.

Author

Ficetola, Gentile Francesco, Mazel, Florent, Falaschi, Mattia, Marta, Silvio, Thuiller, Wilfried, and Pincheira‐Donoso, Daniel

Subjects

*VERTEBRATES, *AMPHIBIANS, *CLIMATE change, *REGRESSION analysis, *CARBON cycle, *BIODIVERSITY conservation, *HETEROGENEITY

Abstract

Aim: Worldwide distribution patterns of living animals are structured in multiple zoogeographical regions, characterized by faunas with homogeneous composition that are separated by sharp boundaries. These zoogeographical regions can differ depending on the considered animal group, probably because they have distinct characteristics such as dispersal, metabolism, or evolutionary history, and thus divergent responses to major biogeographical drivers, such as tectonic movements, abrupt climate transitions and orographic barriers. Here, we tested if the drivers of biogeographical boundaries are different between vertebrate classes with strongly divergent traits and evolutionary history. Location: Global. Time period: Present. Major taxa studied: Amphibians, birds and mammals. Methods: We focused on terrestrial biogeographical boundaries, considering multiple potential drivers: spatial heterogeneity of present‐day climate, altitudinal variation, long‐term tectonic movements and past climate change (temperature). We used spatially explicit regression models and geographically weighted regressions to select and quantify the factors explaining the position of the biogeographical boundaries between vertebrate classes. Results: For mammals, tectonic movements, abrupt climatic transitions and orographic barriers jointly determined extant biogeographical boundaries, with tectonic movements being the most important. For birds, abrupt climatic transitions played the strongest role, while the effect of orographic barriers was weak. For amphibians, biogeographical boundaries mostly corresponded to areas with abrupt climatic transitions. The strongest transitions of amphibian faunas occur in areas with abrupt shifts of temperature and precipitation regimes. Main conclusions: Our analyses confirmed that different drivers have jointly shaped the global vertebrate biogeographical regions, and highlight that taxa with different features show heterogeneous responses across the globe. Eco‐physiological constraints likely increase the importance of spatial heterogeneity of climate, while dispersal limitations magnify the relevance of physical barriers (mountain chains and long‐term tectonic instability). Integrating among‐taxa heterogeneity into analyses thus provides a more complete view of how different processes determine biodiversity variation across the globe. [ABSTRACT FROM AUTHOR]

Published

2021

39. CarniDIET 1.0: A database of terrestrial carnivorous mammal diets.

Author

Middleton, Owen, Svensson, Hanna, Scharlemann, Jörn P. W., Faurby, Søren, Sandom, Christopher, and Pincheira‐Donoso, Daniel

Subjects

*FOOD diaries, *ANIMAL nutrition, *ECOLOGICAL niche, *MAMMALS, *DATABASES, *MACROECOLOGY

Abstract

Motivation: A species' diet is central to understanding many aspects of its biology, including its behaviour, movement, and ecological niche. The diets of terrestrial carnivorous mammals, defined here as species primarily consuming other mammals (hereafter, mammal‐consumers), have been extensively studied and can vary in the proportion of different food types, and species, consumed across their geographic ranges. Accessibility to data capturing such variation in diets of mammal‐consumers across the variety of ecosystems they occur in would provide valuable information for conservation, and open research avenues for macroevolution and macroecology. However, data on mammal‐consumer diets across their geographic ranges have not been systematically collated. Here, we present CarniDIET (version 1.0), an open‐access database containing quantitative data on the diets of terrestrial mammal‐consumers collated from the literature. Main types of variable contained: Diet records capturing the percentage of mammalian prey, to the highest taxonomic resolution available, and non‐mammalian food types (e.g., birds, invertebrates) in the diets of mammal‐consumers at specific sites and times. Associated data with each diet record include, where available, age and sex of mammal‐consumer, sample size, sample origin, and quantification method as well as spatial and temporal variables including dates, season, study site, altitude and coordinates. Spatial location and grain: Global, terrestrial. The spatial grain varies among sites from 0.03 to 100,000 km2, with a median of 170 km2. Study centroids are provided as latitude‐longitude coordinates. Time period and grain: Original diet samples were collected between 1933 and 2017, with half of studies collected between 1994 and 2008. Studies summarize diets from 1 month to 66 years, with a median of 1 year. Major taxa and level of measurement: Terrestrial carnivorous mammals that primarily consume other mammals (103 species). Studies generally represent species' population averages, although can include demographic breakdowns. [ABSTRACT FROM AUTHOR]

Published

2021

40. Multiple forms of hotspots of tetrapod biodiversity and the challenges of open-access data scarcity.

Author

Grattarola, Florencia, Martínez-Lanfranco, Juan A., Botto, Germán, Naya, Daniel E., Maneyro, Raúl, Mai, Patricia, Hernández, Daniel, Laufer, Gabriel, Ziegler, Lucía, González, Enrique M., da Rosa, Inés, Gobel, Noelia, González, Andrés, González, Javier, Rodales, Ana L., and Pincheira-Donoso, Daniel

Subjects

*BIODIVERSITY, *SPATIAL distribution (Quantum optics), *ECOSYSTEMS, *TETRAPODS

Abstract

The uneven spatial distribution of biodiversity is a defining feature of nature. In fact, the implementation of conservation actions both locally and globally has progressively been guided by the identification of biodiversity 'hotspots' (areas with exceptional biodiversity). However, different regions of the world differ drastically in the availability of fine-scale data on the diversity and distribution of species, thus limiting the potential to assess their local environmental priorities. Within South America—a megadiverse continent—Uruguay represents a peculiar area where multiple tropical and non-tropical eco-regions converge, creating highly heterogeneous ecosystems, but where the systematic quantification of biodiversity remains largely anecdotal. To investigate the constraints posed by the limited access to biodiversity data, we employ the most comprehensive database for tetrapod vertebrates in Uruguay (spanning 664 species) assembled to date, to identify hotspots of species-richness, endemism and threatened species for the first time. Our results reveal negligible spatial congruence among biodiversity hotspots, and that tetrapod sampling has historically concentrated in only a few areas. Collectively, our study provides a detailed account of the areas where urgent biodiversity monitoring efforts are needed to develop more accurate knowledge on biodiversity patterns, offering government and environmental bodies a critical scientific resource for future planning. [ABSTRACT FROM AUTHOR]

Published

2020

41. 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

42. Economic impact disharmony in global biological invasions.

Author

Cuthbert, Ross N., Dick, Jaimie T.A., Haubrock, Phillip J., Pincheira-Donoso, Daniel, Soto, Ismael, and Briski, Elizabeta

Published

2024

43. 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

44. 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

45. Alternative reproductive adaptations predict asymmetric responses to climate change in lizards.

Author

Jara, Manuel, García-Roa, Roberto, Escobar, Luis E., Torres-Carvajal, Omar, and Pincheira-Donoso, Daniel

Published

2019

46. Macroevolutionary diversification with limited niche disparity in a species-rich lineage of cold-climate lizards.

Author

Reaney, Ashley M., Saldarriaga-Córdoba, Mónica, and Pincheira-Donoso, Daniel

Subjects

*LIZARD evolution, *LIZARDS, *REPTILE diversity, *ECOLOGICAL niche, *NATURAL selection, *MACROEVOLUTION

Abstract

Background: Life diversifies via adaptive radiation when natural selection drives the evolution of ecologically distinct species mediated by their access to novel niche space, or via non-adaptive radiation when new species diversify while retaining ancestral niches. However, while cases of adaptive radiation are widely documented, examples of non-adaptively radiating lineages remain rarely observed. A prolific cold-climate lizard radiation from South America (Phymaturus), sister to a hyper-diverse adaptive radiation (Liolaemus), has extensively diversified phylogenetically and geographically, but with exceptionally minimal ecological and life-history diversification. This lineage, therefore, may offer unique opportunities to investigate the non-adaptive basis of diversification, and in combination with Liolaemus, to cover the whole spectrum of modes of diversification predicted by theory, from adaptive to non-adaptive. Using phylogenetic macroevolutionary modelling performed on a newly created 58-species molecular tree, we establish the tempo and mode of diversification in the Phymaturus radiation. Results: Lineage accumulation in Phymaturus opposes a density-dependent (or ‘niche-filling’) process of diversification. Concurrently, we found that body size diversification is better described by an Ornstein-Uhlenbeck evolutionary model, suggesting stabilizing selection as the mechanism underlying niche conservatism (i.e., maintaining two fundamental size peaks), and which has predominantly evolved around two major adaptive peaks on a ‘Simpsonian’ adaptive landscape. Conclusions: Lineage diversification of the Phymaturus genus does not conform to an adaptive radiation, as it is characterised by a constant rate of species accumulation during the clade’s history. Their strict habitat requirements (rocky outcrops), predominantly invariant herbivory, and especially the constant viviparous reproduction across species have likely limited their opportunities for adaptive diversifications throughout novel environments. This mode of diversification contrasts dramatically with its sister lineage Liolaemus, which geographically overlaps with Phymaturus, but exploits all possible microhabitats in these and other bioclimatic areas. Our study contributes importantly to consolidate these lizards (liolaemids) as promising model systems to investigate the entire spectrum of modes of species formations, from the adaptive to the non-adaptive extremes of the continuum. [ABSTRACT FROM AUTHOR]

Published

2018

47. A global test of the cold-climate hypothesis for the evolution of viviparity of squamate reptiles.

Author

Ma, Liang, Buckley, Lauren B., Huey, Raymond B., Du, Wei‐Guo, and Pincheira‐Donoso, Daniel

Subjects

*VIVIPARITY, *SQUAMATA, *VETERINARY embryology, *BODY temperature regulation, *EFFECT of climate on animal behavior, *REPTILES

Abstract

Aim: The evolution of viviparity in squamate reptiles has attracted considerable scientific attention since the beginning of last century. The cold-climate hypothesis posits that cold regions favor viviparity (and therefore the incidence of viviparous squamates is increased in these regions) because viviparous females can use thermoregulatory behavior to shorten embryonic developmental time and to reduce exposure of embryos to stressful temperatures. However, a rigorous global-scale test of the impact of viviparity on the developmental time and viability of embryos is still absent. Recently developed biophysical models and climate databases enable us to conduct a mechanistic test of this hypothesis. Location: Global. Time period: Summer. Major taxa studied: Squamata. Methods: We integrated global climate data, a biophysical model, and developmental functions to quantify the effects of temperature on embryo developmental time, developmental viability, and energy consumption of oviparous versus viviparous embryos. To examine the accuracy of our predictions, we calculated the percentage of squamate reptiles that were viviparous in each region and assessed developmental temperature of gravid females, latitude and elevation as predictors for the percentage of squamate reptiles. Results: Compared with oviparous embryos, viviparous embryos develop faster in cold regions, and experience similar embryonic developmental viability. Across most latitudes and elevations, the total energetic cost of development is lower for viviparous embryos than for oviparous embryos. Cold regions contain a higher proportion of viviparous species than do hot regions. By comparing the distribution pattern of viviparity and temperature effects on embryonic development, we found that shortened development time provided the strongest benefit of viviparity. Main conclusions: Our global and biophysical model based comparison generally supports the cold-climate hypothesis. Moreover, viviparity in cold climates appears beneficial primarily by shortening developmental time. [ABSTRACT FROM AUTHOR]

Published

2018

48. 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

49. Heterogeneous tempo and mode of evolutionary diversification of compounds in lizard chemical signals.

Author

García-Roa, Roberto, Jara, Manuel, López, Pilar, Martín, José, and Pincheira-Donoso, Daniel

Subjects

*BIOLOGICAL classification, *SPECIES hybridization, *CHROMOSOME substitution, *CLADISTIC analysis, *CROSSBREEDING

Abstract

Important part of the multivariate selection shaping social and interspecific interactions among and within animal species emerges from communication. Therefore, understanding the diversification of signals for animal communication is a central endeavor in evolutionary biology. Over the last decade, the rapid development of phylogenetic approaches has promoted a stream of studies investigating evolution of communication signals. However, comparative research has primarily focused on visual and acoustic signals, while the evolution of chemical signals remains largely unstudied. An increasing interest in understanding the evolution of chemical communication has been inspired by the realization that chemical signals underlie some of the major interaction channels in a wide range of organisms. In lizards, in particular, chemosignals play paramount roles in female choice and male-male competition, and during community assembly and speciation. Here, using phylogenetic macro-evolutionary modeling, we show for the very first time that multiple compounds of scents for communication in lizards have diversified following highly different evolutionary speeds and trajectories. Our results suggest that cholesterol, α-tocopherol, and cholesta-5,7-dien-3-ol have been subject to stabilizing selection (Ornstein-Uhlenbeck model), whereas the remaining compounds are better described by Brownian motion modes of evolution. Additionally, the diversification of the individual compounds has accumulated substantial relative disparity over time. Thus, our study reveals that the chemical components of lizard chemosignals have proliferated across different species following compound-specific directions. [ABSTRACT FROM AUTHOR]

Published

2017

50. Ant assemblages have darker and larger members in cold environments.

Author

Bishop, Tom R., Robertson, Mark P., Gibb, Heloise, van Rensburg, Berndt J., Braschler, Brigitte, Chown, Steven L., Foord, Stefan H., Munyai, Thinandavha C., Okey, Iona, Tshivhandekano, Pfarelo G., Werenkraut, Victoria, Parr, Catherine L., and Pincheira‐Donoso, Daniel

Subjects

*COLD-blooded animals, *THERMOSTAT, *HEAT losses, *MELANINS, *IRRADIATION

Abstract

ABSTRACT Aim In ectotherms, the colour of an individual's cuticle may have important thermoregulatory and protective consequences. In cool environments, ectotherms should be darker, to maximize heat gain, and larger, to minimize heat loss. Dark colours should also predominate under high UV-B conditions because melanin offers protection. We test these predictions in ants (Hymenoptera: Formicidae) across space and through time based on a new, spatially and temporally explicit, global-scale combination of assemblage-level and environmental data. Location Africa, Australia and South America. Methods We sampled ant assemblages ( n = 274) along 14 elevational transects on three continents. Individual assemblages ranged from 250 to 3000 m a.s.l. (minimum to maximum range in summer temperature of 0.5-35 °C). We used mixed-effects models to explain variation in assemblage cuticle lightness. Explanatory variables were average assemblage body size, temperature and UV-B irradiation. Annual temporal changes in lightness were examined for a subset of the data. Results Assemblages with large average body sizes were darker in colour than those with small body sizes. Assemblages became lighter in colour with increasing temperature, but darkened again at the highest temperatures when there were high levels of UV-B. Through time, temperature and body size explained variation in lightness. Both the spatial and temporal models explained c. 50% of the variation in lightness. Main conclusions Our results are consistent with the thermal melanism hypothesis, and demonstrate the importance of considering body size and UV-B radiation exposure in explaining the colour of insect cuticle. Crucially, this finding is at the assemblage level. Consequently, the relative abundances and identities of ant species that are present in an assemblage can change in accordance with environmental conditions over elevation, latitude and relatively short time spans. These findings suggest that there are important constraints on how ectotherm assemblages may be able to respond to rapidly changing environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2016