Your search keyword '"Ectotherms"' showing total 186 results

1. Melanism in the Saw-scaled Viper, Echis carinatus (Schneider, 1801) from Sheedvar Island, Persian Gulf, Iran.

Author

Mobaraki, Asghar and Oraie, Hamzeh

Subjects

MELANISM, VIPERIDAE, COLD-blooded animals, VERTEBRATES, MITOCHONDRIA

Abstract

Melanism in Echis carinatus has been observed on Sheedvar Island in the Persian Gulf. A comparative analysis between melanistic and non-melanistic individuals showed no significant morphological or genetic differences. The evolution of melanism in E. carinatus may serve as camouflage or aid in predator avoidance, similar to other nocturnal viper species. However, a deeper understanding of the ecological role of melanism in nocturnal vertebrates, including E. carinatus, requires further investigation to clarify its broader significance. [ABSTRACT FROM AUTHOR]

Published

2024

2. Concrete refuges and the influence of temperature on artificial refuge occupation by terrestrial lizards.

Author

Turner, Matthew K., Kelly, Dave, and Lettink, Marieke

Subjects

*OUTCROPS (Geology), *GECKOS, *SKINKS, *REPTILES, *COLD-blooded animals

Abstract

Zoobank LSIDArtificial refuges are commonly used to sample small reptiles and to provide supplementary shelter. For refuges to be effective, they should be safe and acceptable to reptiles. Current designs used for New Zealand lizards are vulnerable to trampling and degradation, restricting where they can be used without risk to lizards. We tested the usage of a new trampling-resistant concrete refuge, containing an internal crevice and basking ledge, by terrestrial lizards on the Port Hills in Canterbury, South Island. Twice a month we inspected 40 refuges on 20 occasions over one year which resulted in 420 gecko and 39 skink encounters. Geckos consistently used refuges throughout the year while skinks were infrequently found. Internal refuge surface and ambient air temperature data suggests that both overnight and day-time temperatures in the refuges were favourable for year-round occupation by geckos at the study site. Due to the low number of skinks, their occupancy was not analysed. Our refuge design appears to be a robust and effective design, particularly for crevice-dwelling geckos in trampling-prone and rocky habitats. Additional research is needed to investigate gecko movements in refuges at more extreme temperatures, test our design on other reptile species and assess potential restoration benefits.urn:lsid:zoobank.org:pub:71482E37-D73D-4362-AAE8-4AA15BE33A7F. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ecological consequences of body size reduction under warming.

Author

Sentis, Arnaud, Bazin, Simon, Boukal, David S., and Stoks, Robby

Subjects

*BODY size, *ECOLOGICAL impact, *BIOENERGETICS, *COLD-blooded animals, *GENERALIZATION

Abstract

Body size reduction is a universal response to warming, but its ecological consequences across biological levels, from individuals to ecosystems, remain poorly understood. Most biological processes scale with body size, and warming-induced changes in body size can therefore have important ecological consequences. To understand these consequences, we propose a unifying, hierarchical framework for the ecological impacts of intraspecific body size reductions due to thermal plasticity that explicitly builds on three key pathways: morphological constraints, bioenergetic constraints and surface-to-volume ratio. Using this framework, we synthesize key consequences of warming-induced body size reductions at multiple levels of biological organization. We outline how this trait-based framework can improve our understanding, detection and generalization of the ecological impacts of warming. [ABSTRACT FROM AUTHOR]

Published

2024

4. Here comes the sun: Thermoregulatory behavior in ectotherms illuminated by light‐level geolocators.

Author

Otten, J. G., Clifton, I. T., Becker, D. F., and Refsnider, J. M.

Subjects

*TURTLES, *COLD-blooded animals, *WATER temperature, *BODY temperature, *REPRODUCTION, *DATA loggers

Abstract

Daily activity patterns of free‐ranging wildlife affect a wide range of ecological and physiological processes and, in turn are affected by anthropogenic disturbances to the environment. However, obtaining a continuous record of activity without disturbing wild animals is logistically challenging. We used commercially available, multi‐purpose light‐level geolocator dataloggers to continuously record light environment and time spent out of water during 5‐months (1 May to 9 September 2021) in an ectothermic freshwater turtle species, the northern map turtle (Graptemys geographica). We used these data to compare time of year and sex differences in thermoregulatory behavior in an ectothermic species in its natural habitat. We recorded >500 000 data points from 17 individual turtles (nine males and eight females). We found no differences in the mean light levels, or proportion of time spent out of the water, between males and females. However, there was a significant effect of both time of year and sex by time of year interaction in both light level, proportion of time spent dry, and number of state changes (i.e., shuttling behavior, wet to dry or dry to wet), suggesting that turtles alter their aerial basking behavior over the course of the season and that the changes in patterns of aerial basking behavior differ between the sexes throughout the year. In general, the proportion of time spent dry decreased over the active season, with an increase during the last week of June and the first week of July, while the number of state changes increased in females during late May/early June before decreasing, while males remained relatively constant. These changes may reflect the different energetic demands associated with reproduction between the two sexes. The overall downward trend in aerial basking likely reflects the role of increasing environmental temperatures, particularly water temperature, in the maintenance of body temperature in this largely aquatic species. [ABSTRACT FROM AUTHOR]

Published

2024

5. Is thermal sensitivity affected by predation risk? A case study in tadpoles from ephemeral environments.

Author

Miloch, Daniela, Cecchetto, Nicolas R., Lescano, Julián N., Leynaud, Gerardo C., and Perotti, María Gabriela

Subjects

*TADPOLES, *PREDATION, *COLD-blooded animals, *AMPHIBIANS, *FROGS

Abstract

Changes in environmental temperature may induce variations in thermal tolerance and sensitivity in ectotherm organisms. These variations generate plastic responses that can be analyzed by examining their Thermal Performance Curves (TPCs). Additionally, some performance traits, like locomotion, could be affected by other factors such as biological interactions (e.g., predator–prey interaction). Here, we evaluate if the risk of predation modifies TPCs in Mendoza four‐eyed frog (Pleurodema nebulosum, Burmeister, 1861) and Guayapa's four‐eyed frog (Pleurodema guayapae, Barrio, 1964), two amphibian species that occur in ephemeral ponds in arid environments. We measured thermal tolerances and maximum swimming velocity at six different temperatures in tadpoles under three situations: control, exposure to predator chemical cues, and exposure to conspecific alarm cues. TPCs were fitted using General Additive Mixed Models. We found that curves of tadpoles at risk of predation differed from those of control mainly in thermal sensitivity parameters. Our work confirms the importance of biotic interactions have in thermal physiology. Research Highlights: Understanding how ectotherms respond to variations in environmental temperature is crucial for predicting their responses to ongoing warming. We found plasticity in thermal sensitivity and thermal tolerance as a response to predation risk. [ABSTRACT FROM AUTHOR]

Published

2024

6. Shorter telomeres are associated with shell anomalies in a long‐lived tortoise.

Author

Mira‐Jover, Andrea, Rodríguez‐Caro, R. C., Noguera, J. C., Fritz, U., Kehlmaier, C., García de la Fuente, M. I., Giménez, A., and Graciá, E.

Subjects

*TELOMERES, *TESTUDINIDAE, *BIOMARKERS, *COLD-blooded animals, *REPTILES

Abstract

Age‐related telomere length (TL) variation is relatively well‐described for mammals, birds and other model organisms. Nevertheless, it remains largely unknown in ectotherms, especially turtles and tortoises, which are extremely long‐lived species with slow or negligible senescence. In this study, we described TL dynamics in wild spur‐thighed tortoises (Testudo graeca), one of the chelonian species with the lowest aging rates. By combining cross‐sectional (single) and longitudinal (capture–recapture) samplings, we assessed the relationship between TL and individual characteristics (sex, age, individual growth rate, body condition index, presence of shell anomalies). We did not find any association between TL and sex, individual growth rate, or body condition. However, the relationship with age remains uncertain, likely due to the complex dynamics of TL over time. Interestingly, shorter telomeres correlated significantly with shell anomalies, which are usually assumed as a fitness proxy for reptiles. Overall, our results suggest TL as a potential indicator for ontogenetic studies on tortoises, while its utility as a marker of biological age appears limited. [ABSTRACT FROM AUTHOR]

Published

2024

7. Ecological responses of squamate reptiles to nocturnal warming.

Author

Rutschmann, Alexis, Perry, Constant, Le Galliard, Jean‐François, Dupoué, Andréaz, Lourdais, Olivier, Guillon, Michaël, Brusch, George, Cote, Julien, Richard, Murielle, Clobert, Jean, and Miles, Donald B.

Subjects

*SQUAMATA, *COLD-blooded animals, *LACERTIDAE, *VIVIPAROUS lizard, *GLOBAL warming, *NOCTURNAL animals, *GEOTHERMAL ecology

Abstract

Nocturnal temperatures are increasing at a pace exceeding diurnal temperatures in most parts of the world. The role of warmer nocturnal temperatures in animal ecology has received scant attention and most studies focus on diurnal or daily descriptors of thermal environments' temporal trends. Yet, available evidence from plant and insect studies suggests that organisms can exhibit contrasting physiological responses to diurnal and nocturnal warming. Limiting studies to diurnal trends can thus result in incomplete and misleading interpretations of the ability of species to cope with global warming. Although they are expected to be impacted by warmer nocturnal temperatures, insufficient data are available regarding the night‐time ecology of vertebrate ectotherms. Here, we illustrate the complex effects of nocturnal warming on squamate reptiles, a keystone group of vertebrate ectotherms. Our review includes discussion of diurnal and nocturnal ectotherms, but we mainly focus on diurnal species for which nocturnal warming affects a period dedicated to physiological recovery, and thus may perturb activity patterns and energy balance. We first summarise the physical consequences of nocturnal warming on habitats used by squamate reptiles. Second, we describe how such changes can alter the energy balance of diurnal species. We illustrate this with empirical data from the asp viper (Vipera aspis) and common wall lizard (Podarcis muralis), two diurnal species found throughout western Europe. Third, we make use of a mechanistic approach based on an energy‐balance model to draw general conclusions about the effects of nocturnal temperatures. Fourth, we examine how warmer nights may affect squamates over their lifetime, with potential consequences on individual fitness and population dynamics. We review quantitative evidence for such lifetime effects using recent data derived from a range of studies on the European common lizard (Zootoca vivipara). Finally, we consider the broader eco‐evolutionary ramifications of nocturnal warming and highlight several research questions that require future attention. Our work emphasises the importance of considering the joint influence of diurnal and nocturnal warming on the responses of vertebrate ectotherms to climate warming. [ABSTRACT FROM AUTHOR]

Published

2024

8. Diet Affects the Temperature–Size Relationship in the Blowfly Aldrichina grahami.

Author

Yan, Guanjie, Li, Dandan, Wang, Guangshuai, and Wu, Lingbing

Subjects

*BODY size, *BLOWFLIES, *COLD-blooded animals, *DIET, *CURVE fitting, *LARVAE

Abstract

Simple Summary: In warmer environments, the growth of ectotherms is usually accelerated and is expected to result in maturation at a larger body size. Yet, most ectotherms exhibit a plastic reduction in body size (the temperature–size rule, TSR), which has caused people confusion. To explore these mechanisms, we reared Aldrichina grahami at 20 °C, 25 °C, and 30 °C, and added a nutritional challenge by using dilutions of pork liver paste to provide diets that ranged in quality from high (undiluted) to moderate (1/8), low (1/16), and poor (1/24). The growth of larvae was measured, and growth curves were fitted to the relationships between growth rate and weight for the third instar larvae. Our results showed that when the TSR was followed as the temperature increased, there was a cross-over point that divided the two growth curves into early and later stages, which could be used to help understand the life-history puzzle in warmer temperatures, with the instantaneous growth rate being faster in the early stages of development and then slower in later stages. This study reminds us that animals have evolved to cope with multiple simultaneous environmental changes, and it has thus offered a better understanding of life-history puzzles. In warmer environments, most ectotherms exhibit a plastic reduction in body size (the temperature–size rule, TSR). However, in such environments, growth is usually accelerated and would be expected to result in maturation at a larger body size, leading to increases in fecundity, survival, and mating success, compared to maturation at a smaller size (the 'life-history puzzle'). To explore these mechanisms, we reared Aldrichina grahami at 20 °C, 25 °C, and 30 °C, and added a nutritional challenge by using dilutions of pork liver paste to provide diets that ranged in quality from high (undiluted) to moderate (1/8), low (1/16), and poor (1/24). Larvae were randomly sampled for weighing from hatching. Growth curves were fitted to the relationships between growth rate and weight for the third instar larvae. Our results showed that body size was affected by an interaction between temperature and diet, and that following or not following the TSR can vary depending on underfeeding. Moreover, when the TSR was followed as temperature increased, there was a cross-over point that divided the two growth curves into early and later stages, which could be used to help understand the life-history puzzle in warmer temperatures, with the instantaneous growth rate being faster in the early stages of development and then slower in later stages. This study reminds us that animals have evolved to cope with multiple simultaneous environmental changes, and it has thus offered a better understanding of life-history puzzles. [ABSTRACT FROM AUTHOR]

Published

2024

9. Climate change from an ectotherm perspective: evolutionary consequences and demographic change in amphibian and reptilian populations.

Author

Hayden Bofill, Sofía I. and Blom, Mozes P. K.

Subjects

COLD-blooded animals, AMPHIBIAN populations, CLIMATE change, DEMOGRAPHIC change, ECOLOGICAL disturbances, PHYLOGEOGRAPHY, POPULATION dynamics

Abstract

Understanding how natural populations will respond to contemporary changes in climate is becoming increasingly urgent and of fundamental importance for the preservation of future biodiversity. Among vertebrates, amphibians and reptiles are more sensitive to environmental perturbations than endotherms and ectotherm diversity will likely be disproportionally impacted by climate change. Notwithstanding concerns surrounding the climate change resilience of ectotherm populations, accurately predicting future population trajectories based on contemporary ecological and physiological data alone remains challenging and much can be learnt by studying how populations have responded to climate change in the past. Genomic approaches can now assay the genetic diversity of contemporary population at an unprecedented scale but to date have been relatively underutilised when studying the demographic history of amphibians and reptiles. In this review, we first summarise how changing climatic conditions may influence the ectotherm phenotype and how this can translate to changes in fitness and population dynamics. We then discuss how the relative role of past climate in shaping ectotherm diversity has traditionally been approached in a phylogeographic context and how expanding genomic resources for ectotherm species can be leveraged to improve the study of past demography for many amphibian and reptilian groups. An integrative approach that links known proximate effects on phenotype due to climate change, with past changes in demographic trajectories will ultimately enable us to generate more accurate models of future population change and improve our ability to assess climate change resilience for many ectotherm groups. [ABSTRACT FROM AUTHOR]

Published

2024

10. Disentangling the drivers of decadal body size decline in an insect population.

Author

Botsch, Jamieson C., Zaveri, Aayush N., Nell, Lucas A., McCormick, Amanda R., Book, K. Riley, Phillips, Joseph S., Einarsson, Árni, and Ives, Anthony R.

Subjects

*BODY size, *INSECT populations, *INSECT size, *GLOBAL warming, *COLD-blooded animals, *COMPETITION (Biology)

Abstract

While climate warming is widely predicted to reduce body size of ectotherms, evidence for this trend is mixed. Body size depends not only on temperature but also on other factors, such as food quality and intraspecific competition. Because temperature trends or other long‐term environmental factors may affect population size and food sources, attributing trends in average body size to temperature requires the separation of potentially confounding effects. We evaluated trends in the body size of the midge Tanytarsus gracilentus and potential drivers (water temperature, population size, and food quality) between 1977 and 2015 at Lake Mývatn, Iceland. Although temperatures increased at Mývatn over this period, there was only a slight (non‐significant) decrease in midge adult body size, contrary to theoretical expectations. Using a state‐space model including multiple predictors, body size was negatively associated with both water temperature and midge population abundance, and it was positively associated with 13C enrichment of midges (an indicator of favorable food conditions). The magnitude of these effects were similar, such that simultaneous changes in temperature, abundance, and carbon stable isotopic signature could counteract each other in the long‐term body size trend. Our results illustrate how multiple factors, all of which could be influenced by global change, interact to affect average ectotherm body size. [ABSTRACT FROM AUTHOR]

Published

2024

11. Is the Pyrenean newt ( Calotriton asper) a thermoconformer? Cloacal and water temperature in two different thermal periods in a Pre-Pyrenean stream population.

Author

Montori, Albert

Subjects

*WATER temperature, *COLD-blooded animals, *BODY temperature, *SALAMANDRIDAE, *ANIMAL locomotion, *OXYGEN consumption

Abstract

In ectothermic animals, heat seems to be a determining factor because it influences many vital activities such as locomotion, the ability to escape, feeding, and reproduction, among others. In aquatic environments, physical characteristics of water prevent small ectotherms from thermoregulating and therefore it is expected that their body temperature remains similar to water temperature. Throughout its distribution and annual cycle, the Pyrenean newt (Calotriton asper) is exposed to a wide range of water temperatures that affect its biological and ecological traits like the standard metabolic rate, oxygen consumption, activity period and growth pattern. This study analyses the relationship between the cloacal and water temperatures in a Pre-Pyrenean population of C. asper in two periods with well differentiated water temperatures (July and September). The aims are to establish if there are differences between sexes in cloacal temperature, whether reproductive activity modifies cloacal temperature, and to analyse the degree of thermoconformity of the species. The results indicate that cloacal temperature depends on the water temperature, corroborating the idea that C. asper is mainly a thermoconformer, as it corresponds to an aquatic ectotherm. However, the cloacal temperature of newts was slightly higher than water temperature. In individuals in amplexus, cloacal temperature was significantly higher than in specimens that are not in this mating position, and in July, females showed much greater dispersion in cloacal temperature than males, which is probably related to spawning behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

12. How important is temperature for strike success of ectotherms? Thermal effects on predator–prey interactions of free‐ranging pit vipers (Gloydius blomhoffii).

Author

Kodama, Tomonori and Mori, Akira

Subjects

*PREDATION, *COLD-blooded animals, *PIT vipers, *TEMPERATURE effect, *TEMPERATURE, *BODY temperature, *VIDEO recording

Abstract

Among various environmental factors, temperature has been considered a main determinant of outcomes of predator–prey interactions involving ectotherms. Although numerous studies have aimed to examine temperature effects on those interactions, few studies have been conducted under fully natural conditions. In this study, we examined the degree to which temperature affects the outcomes of encounters between a Japanese pit viper (Mamushi, Gloydius blomhoffii) and its prey under natural conditions. We continuously recorded ambushing behaviors and body temperatures of these snakes in the field using videography. We found that, over the range of temperatures at which Mamushi hunted, (1) temperature has only limited effects on whether Mamushis initiate a strike at prey and whether strikes successfully hit the prey; (2) prey reactions to strikes, such as whether they dodge the strike or the latency from strike initiation to dodge, are not affected by temperature; and (3) factors such as distance to prey and prey dodging movements are greater determinants than temperature on the outcomes of encounters between free‐ranging Mamushi and their prey. Our results suggest that temperature effects on the outcomes of free‐ranging snake–prey interactions may be smaller than hitherto considered. [ABSTRACT FROM AUTHOR]

Published

2023

13. Oxidative stress mediates the impact of heatwaves on survival, growth and immune status in a lizard.

Author

Zhang, Qiong, Han, Xing-Zhi, Burraco, Pablo, Wang, Xi-Feng, Teng, Li-Wei, Liu, Zhen-Sheng, and Du, Wei-Guo

Subjects

*OXIDATIVE stress, *HEAT waves (Meteorology), *IMMUNITY, *LIZARDS, *COLD-blooded animals, *GLOBAL warming

Abstract

Climate change often includes increases in the occurrence of extreme environmental events. Among these, heatwaves affect the pace of life and performance of wildlife, particularly ectothermic animals, owing to their low thermoregulatory abilities. However, the underlying mechanisms by which this occurs remain unclear. Evidence shows that heatwaves alter the redox balance of ectotherms, and oxidative stress is a major mediator of life-history trade-offs. Therefore, oxidative stress may mediate the effect of extreme thermal conditions on the life histories of ectotherms. To test this hypothesis, a 2 × 2 experiment was conducted to manipulate the redox balance (through a mitochondrial uncoupler that alleviates oxidative stress) of the desert toad-headed agama (Phrynocephalus przewalskii) exposed to heatwave conditions. We recorded lizard growth and survival rates and quantified their redox and immune statuses. In control lizards (unmanipulated redox balance), heatwave conditions decreased growth and survival and induced oxidative damage and immune responses. By contrast, lizards with alleviated oxidative stress showed close-to-normal growth, survival, and immune status when challenged with heatwaves. These results provide mechanistic insight into the role of oxidative stress in mediating the effects of extreme temperatures on ectothermic vertebrates, which may have major eco-evolutionary implications. [ABSTRACT FROM AUTHOR]

Published

2023

14. Linking physiology and climate to infer species distributions in Australian skinks.

Author

Anderson, Rodolfo O., Tingley, Reid, Hoskin, Conrad J., White, Craig R., and Chapple, David G.

Subjects

*SPECIES distribution, *BODY temperature, *SKINKS, *PHYSIOLOGY, *COLD-blooded animals, *IDENTIFICATION of animals

Abstract

Climate has a key impact on animal physiology, which in turn can have a profound influence on geographic distributions. Yet, the mechanisms linking climate, physiology and distribution are not fully resolved.Using an integrative framework, we tested the predictions of the climatic variability hypothesis (CVH), which states that species with broader distributions have broader physiological tolerance than range‐restricted species, in a group of Lampropholis skinks (8 species, 196 individuals) along a latitudinal gradient in eastern Australia. We investigated several physiological aspects including metabolism, water balance, thermal physiology, thermoregulatory behaviour and ecological performance.Additionally, to test whether organismal information (e.g. behaviour and physiology) can enhance distribution models, hence providing evidence that physiology and climate interact to shape range sizes, we tested whether species distribution models incorporating physiology better predict the range sizes than models using solely climatic layers.In agreement with the CVH, our results confirm that widespread species can tolerate and perform better at broader temperature ranges than range‐restricted species. We also found differences in field body temperatures, but not thermal preference, between widespread and range‐restricted species. However, metabolism and water balance did not correlate with range size.Biophysical modelling revealed that the incorporation of physiological and behavioural data improves predictions of Lampropholis distributions compared with models based solely on macroclimatic inputs, but mainly for range‐restricted species.By integrating several aspects of the physiology and niche modelling of a group of ectothermic animals, our study provides evidence that physiology correlates with species distributions. Physiological responses to climate are central in establishing geographic ranges of skinks, and the incorporation of processes occurring at local scales (e.g. behaviour) can improve species distribution models. [ABSTRACT FROM AUTHOR]

Published

2023

15. The role of thermal tolerance in determining elevational distributions of four arthropod taxa in mountain ranges of southern Asia.

Author

Khaliq, Imran, Shahid, Muhammad Junaid, Kamran, Haseeb, Sheraz, Muhammad, Awais, Muhammad, Shabir, Mehtab, Asghar, Muhammad, Rehman, Abdul, Riaz, Maria, Braschler, Brigitte, Sanders, Nathan J., and Hof, Christian

Subjects

*ARTHROPODA, *SPECIES distribution, *ACCLIMATIZATION, *CLIMATE extremes, *COLD-blooded animals, *CLIMATE change, *EXTREME value theory, *GRASSHOPPERS, *BEETLES

Abstract

Understanding the role of thermal tolerances in determining species distributions is important for assessing species responses to climate change. Two hypotheses linking physiology with species distributions have been put forward—the climatic variability hypothesis and the climatic extreme hypothesis. The climatic variability hypothesis predicts the selection of individuals with broad thermal tolerance in more variable climatic conditions and the climatic extreme hypothesis predicts the selection of individuals with extreme thermal tolerance values under extreme climatic conditions. However, no study has tested the predictions of these hypotheses simultaneously for several taxonomic groups along elevational gradients.Here, we related experimentally measured critical thermal maxima, critical thermal minima and thermal tolerance breadths for 15,187 individuals belonging to 116 species of ants, beetles, grasshoppers, and spiders from mountain ranges in central and northern Pakistan to the limits and breadths of their geographic and temperature range.Across all species and taxonomic groups, we found strong relationships between thermal traits and elevational distributions both in terms of geography and temperature. The relationships were robust when repeating the analyses for ants, grasshoppers, and spiders but not for beetles. These results indicate a strong role of physiology in determining elevational distributions of arthropods in Southern Asia.Overall, we found strong support for the climatic variability hypothesis and the climatic extreme hypothesis. A close association between species' distributional limits and their thermal tolerances suggest that in case of a failure to adapt or acclimate to novel climatic conditions, species may be under pressure to track their preferred climatic conditions, potentially facing serious consequences under current and future climate change. [ABSTRACT FROM AUTHOR]

Published

2023

16. 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

17. Acute, diel, and annual temperature variability and the thermal biology of ectotherms.

Author

Kefford, Ben J., Ghalambor, Cameron K., Dewenter, Beatrice, Poff, N. LeRoy, Hughes, Jane, Reich, Jollene, and Thompson, Ross

Subjects

*COLD-blooded animals, *GLOBAL warming, *TEMPERATURE, *CLIMATE change, *CIRCADIAN rhythms, *BIOLOGY

Abstract

Global warming is increasing mean temperatures and altering temperature variability at multiple temporal scales. To better understand the consequences of changes in thermal variability for ectotherms it is necessary to consider thermal variation at different time scales (i.e., acute, diel, and annual) and the responses of organisms within and across generations. Thermodynamics constrain acute responses to temperature, but within these constraints and over longer time periods, organisms have the scope to adaptively acclimate or evolve. Yet, hypotheses and predictions about responses to future warming tend not to explicitly consider the temporal scale at which temperature varies. Here, focusing on multicellular ectothermic animals, we argue that consideration of multiple processes and constraints associated with various timescales is necessary to better understand how altered thermal variability because of climate change will affect ectotherms. [ABSTRACT FROM AUTHOR]

Published

2022

18. Too cool to fight: Is ambient temperature associated with male aggressive behavior in the mesquite lizard?

Author

Domínguez‐Godoy, M. A., Hudson, R., Montoya, B., Bastiaans, E., and Díaz de la Vega‐Pérez, A. H.

Subjects

*LIZARDS, *COMPETITION (Biology), *BODY temperature, *COLD-blooded animals

Abstract

Aggressive behavior is performed in the context of intraspecific competition for gaining access to mates, food, or suitable territories. However, aggressive confrontations may divert time and energy from other important activities and increase the likelihood of suffering physical injury or predation. Aggressive behavior is particularly costly for ectotherms because it may reduce the time available for thermoregulation, which is a time‐consuming activity but indispensable for adequate maintenance of metabolic processes. In this study, we analyzed the long‐term effect of the thermal quality (i.e. the degree of discrepancy between the temperatures available in a given environment and temperatures that animals prefer) on the aggressive behavior of the mesquite lizard Sceloporus grammicus. Our hypothesis was that time allocated to aggressive behavior in low thermal quality environments is diverted from time spent on the acquisition and maintenance of an adequate body temperature. Accordingly, we found that lizards from the low thermal quality location (i.e. low environmental temperature) exhibited less aggressive behavior than those captured in middle and high thermal quality locations. Our results show that in the low thermal quality location aggressive behavior was almost absent, suggesting that this behavior may interfere with the acquisition and maintenance of an adequate body temperature. Therefore, it is likely that the benefits of thermoregulation outweigh those of aggressive behavior at low thermal quality locations. [ABSTRACT FROM AUTHOR]

Published

2022

19. Behavioral response to heat stress of twig-nesting canopy ants.

Author

Bujan, Jelena and Yanoviak, Stephen P.

Subjects

*ANTS, *TROPICAL forests, *FOREST canopies, *CARPENTER ants, *GLOBAL warming, *COLD-blooded animals

Abstract

Tropical forests experience a relatively stable climate, but are not thermally uniform. The tropical forest canopy is hotter and thermally more variable than the understory. Heat stress in the canopy is expected to increase with global warming, potentially threatening its inhabitants. Here, we assess the impact of heating on the most abundant tropical canopy arthropods—ants. While foragers can escape hot branches, brood and workers inside twig nests might be unable to avoid heat stress. We examined nest choice and absconding behavior—nest evacuation in response to heat stress—of four common twig-nesting ant genera. We found that genera nesting almost exclusively in the canopy occupy smaller cavities compared to Camponotus and Crematogaster that nest across all forest strata. Crematogaster ants absconded at the lowest temperatures in heating experiments with both natural and artificial nests. Cephalotes workers were overall less likely to abscond from their nests. This is the first test of behavioral thermoregulation in tropical forest canopy ants, and it highlights different strategies and sensitivities to heat stress. Behavioral avoidance is the first line of defense against heat stress and will be crucial for small ectotherms facing increasing regional and local temperatures. [ABSTRACT FROM AUTHOR]

Published

2022

20. Termites have wider thermal limits to cope with environmental conditions in savannas.

Author

Woon, Joel S., Atkinson, David, Adu‐Bredu, Stephen, Eggleton, Paul, and Parr, Catherine L.

Subjects

*SAVANNAS, *INSECT societies, *TROPICAL forests, *LOW temperatures, *TROPICAL conditions, *COLD-blooded animals

Abstract

The most diverse and abundant family of termites, the Termitidae, evolved in African tropical forests. They have since colonised grassy biomes such as savannas. These open environments have more extreme conditions than tropical forests, notably wider extremes of temperature and lower precipitation levels and greater temporal fluctuations (of both annual and diurnal variation). These conditions are challenging for soft‐bodied ectotherms, such as termites, to survive in, let alone become as ecologically dominant as termites have.Here, we quantified termite thermal limits to test the hypothesis that these physiological limits are wider in savanna termite species to facilitate their existence in savanna environments.We sampled termites directly from mound structures, across an environmental gradient in Ghana, ranging from wet tropical forest through to savanna. At each location, we quantified both the Critical Thermal Maxima (CTmax) and the Critical Thermal Minima (CTmin) of all the most abundant mound‐building Termitidae species in the study areas. We modelled the thermal limits in two separate mixed‐effects models against canopy cover at the mound, temperature and rainfall, as fixed effects, with sampling location as a random intercept.For both CTmax and CTmin, savanna species had significantly more extreme thermal limits than forest species. Between and within environments, areas with higher amounts of canopy cover were significantly associated with lower CTmax values of the termite colonies. CTmin was significantly positively correlated with rainfall. Temperature was retained in both models; however, it did not have a significant relationship in either. Sampling location explained a large proportion of the residual variation, suggesting there are other environmental factors that could influence termite thermal limits.Our results suggest that savanna termite species have wider thermal limits than forest species. These physiological differences, in conjunction with other behavioural adaptations, are likely to have enabled termites to cope with the more extreme environmental conditions found in savanna environments and facilitated their expansion into open tropical environments. [ABSTRACT FROM AUTHOR]

Published

2022

21. Nine years of experimental warming did not influence the thermal sensitivity of metabolic rate in the medaka fish Oryzias latipes.

Author

Alberto‐Payet, Fanny, Lassus, Remy, Isla, Alejandro, Daufresne, Martin, and Sentis, Arnaud

Subjects

*ORYZIAS latipes, *COLD adaptation, *FISH populations, *COLD (Temperature), *COLD-blooded animals, *ENERGY consumption, *CLIMATE change

Abstract

A pressing challenge is to determine whether and how global‐change drivers influence species physiology and survival. Recently, researchers have proposed the metabolic theory of ecology, defending the hypothesis of a universal thermal dependence of metabolic rate or, alternatively, the metabolic cold adaptation theory, stating that local adaptation can influence the thermal sensitivity of metabolic rate. However, the long‐term (i.e. multigenerational) consequences of warming for the thermal sensitivity of metabolic rate remain largely unexplored although it determines energy use and is crucial for species response to climate change.In this study, we used an evolutionary experiment with medaka fishes Oryzias latipes maintained for more than 12 generations at warm and cold temperatures (30 and 20°C, respectively) to address this issue. Our objective was to investigate whether thermal adaptation influences the relationship between temperature and mass‐corrected metabolic rate and how this may occur.In agreement with the universal thermal dependence hypothesis, we found that warming did not significantly influence the thermal sensitivity of mass‐corrected metabolic rate: neither the intercept nor the slope of the temperature–metabolic rate relationship differed among fish lineages. Our small‐scale laboratory experiment thus indicated that there is limited potential for evolutionary change in medaka fish metabolic rate in response to warmer temperatures.Overall, we provide evidence that 9 years of experimental warming did not influence the thermal sensitivity of metabolic rate. Our results highlight the invariability of the thermal dependence of metabolic rate, which has important implications for adaptation to climate warming. This finding suggests a limited potential for metabolic adaptations in response to long‐term temperature changes, which may have negative consequences for the persistence of fish populations under climate change. [ABSTRACT FROM AUTHOR]

Published

2022

22. Temperature and barometric pressure affect the activity intensity and movement of an endangered thermoconforming lizard.

Author

Ariano‐Sánchez, Daniel, Mortensen, Rasmus M., Wilson, Rory P., Bjureke, Peder, Reinhardt, Stefanie, and Rosell, Frank

Subjects

ATMOSPHERIC pressure, LIZARDS, COLD-blooded animals, GLOBAL Positioning System, TEMPERATURE, GLOBAL warming

Abstract

Global warming is expected to affect movement‐related thermoregulation in ectotherms, but the likely effects on thermoconforming lizards, which spend little energy in thermoregulation behavior, are unclear. We used the Guatemalan beaded lizard (Heloderma charlesbogerti) as a model thermoconforming species to investigate the effects of ambient temperature and barometric pressure (a cue for rain in the study area) on activity intensity and the structure of movement paths. We tracked 12 individuals over a total of 148 animal days during the wet season of 2019 using Global Positioning System tags and triaxial accelerometry. We found a clear positive effect of ambient temperature on activity (using vectorial dynamic body acceleration [VeDBA]) and step length of lizard movements. The movement also became more directional (longer step lengths and smaller turning angles) with increasing ambient temperatures. There was a small negative effect of barometric pressure on VeDBA. We propose that our patterns are indicative of internal state changes in the animals, as they move from a state of hunger, eliciting foraging, which is enhanced by lower temperatures and rainfall to a thermally stressed state, which initiates shelter‐seeking. Our findings highlight the sensitivity of this species to temperature change, show that not all thermoconforming lizards are thermal generalists, and indicate that predicted regional increases in temperature and reduction in rainfall are likely to negatively impact this species by reducing the width of their operational thermal window. [ABSTRACT FROM AUTHOR]

Published

2022

23. Thermal tolerance plasticity and dynamics of thermal tolerance in Eublepharis macularius: Implications for future climate-driven heat stress.

Author

White, Emma, Kim, Solyip, Wegh, Garrett, and Chiari, Ylenia

Subjects

*HISTORY of biology, *REPTILE physiology, *PHYSIOLOGICAL stress, *PHENOTYPIC plasticity, *BODY temperature, *GECKOS, *HEAT waves (Meteorology), *COLD-blooded animals

Abstract

The intensity and duration of heat waves, as well as average global temperatures, are expected to increase due to climate change. Heat waves can cause physiological stress and reduce fitness in animals. Species can reduce overheating risk through phenotypic plasticity, which allows them to raise their thermal tolerance limits over time. This mechanism could be important for ectotherms whose body temperatures are directly influenced by available environmental temperatures. Geckos are a large, diverse group of ectotherms that vary in their thermal habitats and times of daily activity, which could affect how they physiologically adjust to heat waves. Data on thermal physiology are scarce for reptiles, with only one study in geckos. Understanding thermal tolerance and plasticity, and their relationship, is essential for understanding how some species are able to adjust or adapt to changing temperatures. In this study, we estimated thermal tolerance and plasticity, and their interaction, in the crepuscular gecko, Eublepharis macularius , a species that is emerging as a model for reptile biology. After estimating basal thermal tolerance for 28 geckos, thermal tolerance was measured for each individual a second time at several timepoints (3, 6, or 24 h) to determine thermal tolerance plasticity. We found that thermal tolerance plasticity (1) does not depend on the basal thermal tolerance of the organism, (2) was highest after 6 h from initial heat shock, and (3) was negatively influenced by individual body mass. Our findings contribute to the increasing body of work focused on understanding the influence of biological and environmental factors on thermal tolerance plasticity in organisms and provide phenotypic data to further investigate the molecular basis of thermal tolerance plasticity in organisms. • Physiological adjustments may allow for organisms to withstand thermal extremes. • Heat hardening (plasticity) enhances thermal tolerance in response to heat stress. • Heat hardening across 24 h was measured for the gecko, Eublepharis macularius. • E. macularius exhibits maximum thermal tolerance plasticity after 6 h. • Species' biology and evolutionary history may strongly affect heat hardening. [ABSTRACT FROM AUTHOR]

Published

2024

24. Dechlorane Plus Biomagnification and Transmission through Prairie Food Webs in Inner Mongolia, China.

Author

Chen, Wenming, Bao, Junsong, Bu, Te, Jin, Hongli, Liu, Yiming, Li, Tianwei, Wang, Huiting, Zhao, Pengyuan, Wang, Ying, Hu, Jicheng, and Jin, Jun

Subjects

*BIOMAGNIFICATION, *PRAIRIES, *WARM-blooded animals, *COLD-blooded animals

Abstract

Dechlorane Plus (DP) is found widely in the environment. It is important to study DP enrichment and biomagnification in terrestrial ecosystems to improve our understanding of the possible effects of DP on the environment and human health. A total of 90 samples, including plant and animal tissues, were collected from Xilingol Prairie in Inner Mongolia, China. The DP concentrations in different species were assessed, and transmission of DP through food webs containing ectotherms and endotherms was assessed. The compound was detected in the biotic samples (plant; range 0.133–0.422 ng/g dry wt), in animal muscle (range: not dected–5.70 ng/g lipid wt), and in animal hair (range: not dected–2.03 ng/g dry wt), indicating that DP is present in remote environments such as Xilingol Prairie. These findings suggest that DP can undergo long‐distance transport in the environment. Biomagnification factors (ectotherms: range 0.146–88.0, endotherms: range 0.866–17.2) and anti‐DP/total DP concentration ratios (fanti values of 0.412–0.787) for the prairie animals were calculated. Ectotherms were found to selectively enrich syn‐DP, and stereoselective enrichment increased moving up the food web. Lower‐trophic‐level endotherms strongly stereoselectively enriched syn‐DP, and higher‐trophic‐level endotherms stereoselectively enriched anti‐DP. Environ Toxicol Chem 2021;40:413–421. © 2020 SETAC [ABSTRACT FROM AUTHOR]

Published

2021

25. Global analysis of fish growth rates shows weaker responses to temperature than metabolic predictions.

Author

Denderen, Daniël, Gislason, Henrik, Heuvel, Joost, Andersen, Ken H., and Leprieur, Fabien

Subjects

*FISH growth, *COLD-blooded animals, *FORECASTING, *EFFECT of temperature on fishes

Abstract

Aim: Higher temperatures increase the metabolic rate of ectothermic organisms up to a certain level and make them grow faster. This temperature‐sensitivity of growth is frequently used to predict the long‐term effects of climate warming on ectotherms. Yet, realized growth also depends on ecological factors and evolutionary adaptation. Here we study whether faster growth is observed along temperature clines within and between marine fish species from polar to tropical regions. Location: Global. Time period: The sampling or publication year is for 718 observations before 1980, 1,073 observations between 1980 and 2000, and 390 observations after 2000 (for 336 observations no year was recorded). Major taxa studied: Marine teleost fish and elasmobranchs. Methods: The effects of temperature on fish growth are studied using 2,517 growth observations, representing 771 species in 165 marine ecoregions. The effects of temperature are presented with a Q10, describing relative increase in the rate of growth for each 10 °C increase. Results: We find weak within‐ and between‐species effects of temperature on growth. The typical within‐species effect of temperature has a Q10 of 1.1. The between‐species effect is a little higher (Q10 = 1.4, or Q10 = 1.2 when corrected for phylogenetic relationships). When analysed per fish guild, growth responses vary from nearly independent of temperature in large demersals (Q10 = 1.1) to positive in small pelagics (Q10 = 1.6) and elasmobranchs (Q10 = 2.3). Average growth is higher in ecoregions with high primary production. Main conclusion: The change in average growth along temperature clines is weaker than predicted by metabolic theory, suggesting that the metabolic predictions are not sustainable in an ecosystem context. The long‐term response of fish to the increase in temperature associated with climate change may hence be shaped more by local environmental and ecological dynamics than by the physiological temperature response of the species currently present. [ABSTRACT FROM AUTHOR]

Published

2020

26. Shifting aspect or elevation? The climate change response of ectotherms in a complex mountain topography.

Author

Feldmeier, Stephan, Schmidt, Benedikt R., Zimmermann, Niklaus E., Veith, Michael, Ficetola, Gentile Francesco, Lötters, Stefan, and Fourcade, Yoan

Subjects

*CLIMATE change, *TOPOGRAPHY, *ALTITUDES, *COLD-blooded animals, *VIVIPAROUS lizard

Abstract

Aim: Climate change is expected to cause mountain species to shift their ranges to higher elevations. Due to the decreasing amounts of habitats with increasing elevation, such shifts are likely to increase their extinction risk. Heterogeneous mountain topography, however, may reduce this risk by providing microclimatic conditions that can buffer macroclimatic warming or provide nearby refugia. As aspect strongly influences the local microclimate, we here assess whether shifts from warm south‐exposed aspects to cool north‐exposed aspects in response to climate change can compensate for an upward shift into cooler elevations. Location: Switzerland, Swiss Alps. Methods: We built ensemble distribution models using high‐resolution climate data for two mountain‐dwelling viviparous ectotherms, the Alpine salamander and the Common lizard, and projected them into various future scenarios to gain insights into distributional changes. We further compared elevation and aspect (northness) of current and predicted future locations to analyse preferences and future shifts. Results: Future ranges were consistently decreasing for the lizard, but for the salamander they were highly variable, depending on the climate scenario and threshold rule. Aspect preferences were elevation‐dependent: warmer, south‐exposed microclimates were clearly preferred at higher compared to lower elevations. In terms of presence and future locations, we observed both elevational upward shifts and northward shifts in aspect. Under future conditions, the shift to cooler north‐exposed aspects was particularly pronounced at already warmer lower elevations. Main conclusions: For our study species, shifts in aspect and elevation are complementary strategies to mitigate climatic warming in the complex mountain topography. This complements the long‐standing view of elevational upward shift being their only option to move into areas with suitable future climate. High‐resolution climate data are critical in heterogeneous environments to identify microrefugia and thereby improving future impact assessments of climate change. [ABSTRACT FROM AUTHOR]

Published

2020

27. Climate dependent heating efficiency in the common lizard.

Author

Rutschmann, Alexis, Rozen‐Rechels, David, Dupoué, Andréaz, Blaimont, Pauline, Villemereuil, Pierre, Miles, Donald B., Richard, Murielle, and Clobert, Jean

Subjects

*BODY temperature regulation, *VIVIPAROUS lizard, *LIZARDS, *COLD-blooded animals, *MOUNTAINS

Abstract

Regulation of body temperature is crucial for optimizing physiological performance in ectotherms but imposes constraints in time and energy. Time and energy spent thermoregulating can be reduced through behavioral (e.g., basking adjustments) or biophysical (e.g., heating rate physiology) means. In a heterogeneous environment, we expect thermoregulation costs to vary according to local, climatic conditions and therefore to drive the evolution of both behavioral and biophysical thermoregulation. To date, there are limited data showing that thermal physiological adjustments have a direct relationship to climatic conditions. In this study, we explored the effect of environmental conditions on heating rates in the common lizard (Zootoca vivipara). We sampled lizards from 10 populations in the Massif Central Mountain range of France and measured whether differences in heating rates of individuals correlated with phenotypic traits (i.e., body condition and dorsal darkness) or abiotic factors (temperature and rainfall). Our results show that heat gain is faster for lizards with a higher body condition, but also for individuals from habitats with higher amount of precipitation. Altogether, they demonstrate that environmentally induced constraints can shape biophysical aspects of thermoregulation. [ABSTRACT FROM AUTHOR]

Published

2020

28. ¿QUÉ IMPLICACIONES ECOFISIOLÓGICAS TIENE LA ACTIVIDAD NOCTURNA EN REPTILES "DIURNOS"? UNA REVISIÓN.

Author

LARA RESENDIZ, Rafael Alejandro

Subjects

*CLIMATE change, *HYPOTHERMIA, *REPTILES, *COLD-blooded animals

Abstract

This review is the first to summarize published studies that document nocturnal activity events in reptiles previously considered exclusively diurnal. The ecophysiological implications of this nocturnal activity in tropical and high-latitude environments are described and discussed from the perspective of optimal activity temperature ranges, tolerance thresholds, activity periods, cathemerality, voluntary hypothermia and its importance in the face of global climate change. Gaps in the research field are finally identified, and new lines of study are proposed. [ABSTRACT FROM AUTHOR]

Published

2020

29. Microhabitat analyses support relationships between niche breadth and range size when spatial autocorrelation is strong.

Author

Ficetola, Gentile Francesco, Lunghi, Enrico, and Manenti, Raoul

Subjects

*MULTIPLE scale method, *LUNGLESS salamanders, *NUMBERS of species, *COLD-blooded animals, *ECOLOGICAL niche

Abstract

Multiple evidence of positive relationships between nice breadth and range size (NB–RS) suggested that this can be a general ecological pattern. However, correlations between niche breadth and range size can emerge as a by‐product of strong spatial structure of environmental variables. This can be problematic because niche breadth is often assessed using broad‐scale macroclimatic variables, which suffer heavy spatial autocorrelation. Microhabitat measurements provide accurate information on species tolerance, and show limited autocorrelation. The aim of this study was to combine macroclimate and microhabitat data to assess NB–RS relationships in European plethodontid salamanders (Hydromantes), and to test whether microhabitat variables with weak autocorrelation can provide less biased NB–RS estimates across species. To measure macroclimatic niche, we gathered comprehensive information on the distribution of all Hydromantes species, and combined them with broad‐scale climatic layers. To measure microhabitat, we recorded salamander occurrence across > 350 caves and measured microhabitat features influencing their distribution: humidity, temperature and light. We assessed NB–RS relationships through phylogenetic regression; spatial null‐models were used to test whether the observed relationships are a by‐product of autocorrelation. We observed positive relationships between niche breadth and range size at both the macro‐ and microhabitat scale. At the macroclimatic scale, strong autocorrelation heavily inflated the possibility to observe positive NB–RS. Spatial autocorrelation was weaker for microhabitat variables. At the microhabitat level, the observed NB–RS was not a by‐product of spatial structure of variables. Our study shows that heavy autocorrelation of variables artificially increases the possibility to detect positive relationships between bioclimatic niche and range size, while fine‐scale data of microhabitat provide more direct measure of conditions selected by ectotherms, and enable less biased measures of niche breadth. Combining analyses performed at multiple scales and datasets with different spatial structure provides more complete niche information and effectively tests the generality of niche breadth–range size relationships. [ABSTRACT FROM AUTHOR]

Published

2020

30. Repeatable inter‐individual variation in the thermal sensitivity of metabolic rate.

Author

Réveillon, Tom, Rota, Thibaut, Chauvet, Éric, Lecerf, Antoine, and Sentis, Arnaud

Subjects

*INDIVIDUAL differences, *AMPHIPODA, *CLIMATE change, *GAMMARUS, *COLD-blooded animals, *STATISTICAL reliability, *PHENOTYPIC plasticity

Abstract

Assessing whether trait variations among individuals are consistent over time and among environmental conditions is crucial to understand evolutionary responses to new selective pressures such as climate change. According to the universal thermal dependence hypothesis, thermal sensitivity of metabolic rate should not vary strongly and consistently among organisms, implying limited evolutionary response for metabolic traits under climate change. However, this hypothesis has been rarely tested at an individual level, leaving a gap in our understanding of climate change impacts on metabolic responses and their potential evolution. Using the amphipod Gammarus fossarum, we investigated the variability and repeatability of individual metabolic thermal reaction norms over time. We found large variations in both the thermal sensitivity (i.e. slope) and expression level (i.e. intercept) of individual metabolic reaction norms. Moreover, differences among individuals were consistent over time, and therefore repeatable. Inter‐individual variations in body mass resulted in a high repeatability of metabolic expression level but had no significant effect on the repeatability of thermal sensitivity. Overall, our results highlight that inter‐individual variability and repeatability of thermal reaction norms can be substantial. We conclude that these consistent differences among individuals should not be overlooked when apprehending the ecological and evolutionary effects of climate change. [ABSTRACT FROM AUTHOR]

Published

2019

31. A mechanistic model to scale up biophysical processes into geographical size gradients in ectotherms.

Author

Rubalcaba, Juan G., Gouveia, Sidney F., Olalla‐Tárraga, Miguel A., and Algar, Adam

Subjects

*COLD-blooded animals, *MODELS & modelmaking, *BODY size, *WATER conservation, *WATER utility rates, *BODY temperature

Abstract

Aim: Understanding the mechanisms behind broad‐scale gradients in animal body size remains challenging. In contrast to endotherms, the extent to which biophysical properties of ectotherms scale up into interspecific size gradients at macroecological scales remains elusive. Our aim here is to investigate what latitudinal body size gradients are expected to emerge from first biophysical principles regarding heat and water balances in terrestrial vertebrate ectotherms. Location: Nearctic and Western Palaearctic. Time period: Theoretical model under current climatic conditions. Major taxa studied: Terrestrial vertebrate ectotherms. Methods: We developed a biophysical model to derive heat balances and rates of water loss of lizard‐like reptiles and anuran‐like amphibians from microclimatic variables. We projected geographically model predictions for different size classes to explore how body temperature (Tb) and cutaneous evaporative water loss (EWL) are influenced by body size at macroscales. Results: Large‐bodied ectotherms (over 100 g) attain a slightly higher Tb and conserve it for longer than small animals (5 g), owing to the lower convective heat dissipation and their greater thermal inertia. While large animals are more at risk of overheating in warm regions, all organisms, irrespective of body size, are constrained by low temperatures experienced at boreal latitudes. Furthermore, because of the nonlinear decrease in EWL with increasing size, larger size allows reduction of water loss of small wet‐skinned ectotherms in more evaporative environments. Main conclusions: Size differences in heat balance offer a mechanistic explanation for the pattern of increasing body size northwards, as well as for the associated decrease in species richness. Water conservation is also identified as a potential mechanism for larger body sizes in dryer areas in wet‐skinned ectotherms such as amphibians. Moreover, our model reveals nonlinear relationships involving size and optimum states of thermal and hydric functions, accounting for complexities that are unnoticeable by traditional, correlative investigations. [ABSTRACT FROM AUTHOR]

Published

2019

32. Shrinking skinks: lizard body size declines in a long-term forest fragmentation experiment.

Author

Tuff, Kika T., Glidden, Caroline K., Melbourne, Brett A., Meyers, Jacqui A., Nix, Henry A., Sarre, Stephen D., and Davies, Kendi F.

Subjects

COLD-blooded animals, BODY size, FOREST declines, FRAGMENTED landscapes, LIZARDS, CLIMATE change

Abstract

Context: Increasing rates of habitat fragmentation globally underscore the importance of understanding the full spectrum of fragmentation's ecological consequences. Fragmentation alters the thermal environment of fragments, which may alter the body size of ectothermic organisms and in turn impact survival and reproduction. Objectives: To determine whether experimental habitat fragmentation alters body size in the heliothermic, ground-dwelling common garden skink (Lampropholis guichenoti). Methods: We use body size data spanning 29 years to experimentally test the prediction that lizards will experience morphological changes in forest fragments but not in non-fragmented controls. Results: Lizards were smaller in forest fragments relative to those in the non-fragmented controls after the fragmentation treatment was applied. For lizards within forest fragments, the greater the exposure to deforested areas, the greater the decline in body size. This pattern was strongest in the first 5 years following fragmentation and weakened or reversed over time as the pine plantation matrix surrounding the fragments matured. Using sampling site-scale temperature data for the most recent 5 years of the experiment, we show that temperature predicts lizard body size. Our findings are consistent with predictions made under the temperature-size rule that ectotherms will be smaller in fragmented landscapes because of temperature increases at newly created edges. Conclusions: Our results raise new concerns about the effects of fragmentation on organisms in remnant patches and offer new research priorities, as more evidence is needed to determine the generality of body size declines in fragmented landscapes. Our results also highlight that body size declines, often attributed to climate change, may be amplified by habitat fragmentation, which has been global in its impact. [ABSTRACT FROM AUTHOR]

Published

2019

33. Upscaling Microclimatic Conditions into Body Temperature Distributions of Ectotherms.

Author

Rubalcaba, Juan G., Gouveia, Sidney F., and Olalla-Tárraga, Miguel A.

Subjects

*CLIMATE change, *COLD-blooded animals, *ECOLOGICAL niche, *BODY temperature regulation, *HEAT balance (Engineering)

Abstract

Realistic projections of the biological impacts of climate change require predicting fitness responses to variations in environmental conditions. For ectotherms, this challenge requires methods to scale-up microclimatic information into actual body temperatures, T b, while dealing with uncertainty regarding individual behaviors and physiological constraints. Here, we propose an information-theoretical model to derive microhabitat selection and T b distributions of ectotherm populations from microclimatic data. The model infers the most probable allocation of individuals among the available microenvironments and the associated population-level T b distribution. Using empirical T b data of 41 species of desert lizards from three independently evolved systems—Western North America, Kalahari Desert, and Western Australia—we show that the model accurately predicts empirical T b distributions across the three systems. Moreover, the framework naturally provides a way to quantify the importance of thermoregulation in a thermal environment and thereby a measurement for the constraint imposed by the climatic conditions. By predicting T b distributions of ectotherm populations even without exhaustive information on the underpinning mechanisms, our approach forms a solid theoretical basis for upscaling microclimatic and physiological information into a population-level fitness trait. This scaling process is a first step to reliably project the biological impacts of climate change to broad temporal and spatial scales. [ABSTRACT FROM AUTHOR]

Published

2019

34. 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

35. Editorial: Evolutionary and Integrative Approaches for Revealing Adaptive Mechanisms in Marine Animals Along Environmental Gradients.

Author

Tremblay, Nelly, Blier, Pierre U., and Rosas, Carlos

Subjects

MARINE animals, MALE infertility, CYTOCHROME oxidase, WHITELEG shrimp, CONTRACTILE proteins, COLD-blooded animals

Published

2020

36. Temperature effects on prey and basal resources exceed that of predators in an experimental community.

Author

Thakur, Madhav P., Griffin, John N., Künne, Tom, Dunker, Susanne, Fanesi, Andrea, and Eisenhauer, Nico

Subjects

*CLIMATE change, *TEMPERATURE effect, *COLD-blooded animals, *PREDATORY animals, *FOOD chains

Abstract

Climate warming alters the structure of ecological communities by modifying species interactions at different trophic levels. Yet, the consequences of warming‐led modifications in biotic interactions at higher trophic levels on lower trophic groups are lesser known. Here, we test the effects of multiple predator species on prey population size and traits and subsequent effects on basal resources along an experimental temperature gradient (12–15°C, 17–20°C, and 22–25°C). We experimentally assembled food web modules with two congeneric predatory mites (Hypoaspis miles and Hypoaspis aculeifer) and two Collembola prey species (Folsomia candida and Proisotoma minuta) on a litter and yeast mixture as the basal resources. We hypothesized that warming would modify interactions within and between predator species, and that these alterations would cascade to basal resources via changes in the density and traits (body size and lipid: protein ratio) of the prey species. The presence of congeners constrained the growth of the predatory species independent of warming despite warming increased predator density in their respective monocultures. We found that warming effects on both prey and basal resources were greater than the effects of predator communities. Our results further showed opposite effects of warming on predator (increase) and prey densities (decrease), indicating a warming‐induced trophic mismatch, which are likely to alter food web structures. We highlight that warmer environments can restructure food webs by its direct effects on lower trophic groups even without modifying top‐down effects. Climate warming can alter the structure of communities. Here, we tested whether warming alters the structure of communities by altering the interactions at the higher trophic levels. We found weaker effects of warming on the interactions at higher trophic levels, but still its stronger effects in restructuring communities by altering the responses of the lower trophic groups. [ABSTRACT FROM AUTHOR]

Published

2018

37. Body-Size Variation across Environmental Gradients in an Ectothermic Organism: An Intraspecific Approach to Ecogeographic Patterns.

Author

Rivas, Javier, Quiero, Andrés, Penna, Mario, and Velásquez, Nelson A.

Subjects

*COLD-blooded animals, *COMPETITION (Biology), *BODY size, *DISCRIMINANT analysis, *STATISTICAL correlation

Abstract

Bergmann's rule states that endothermic species from cool areas tend to have larger body sizes than those from warm areas. Allen's rule maintains that endothermic species from cool environments should have shorter extremities than their counterparts from warm areas. Although a number of studies have supported both rules, the validity of these trends remains controversial, especially for ectothermic organisms. Here, we studied intraspecific morphological variation in Four-Eyed Frogs (Pleurodema thaul) to determine if these rules are valid in an ecogeographic context. Specifically, we analyzed how morphology varies across nine traits in males of P. thaul collected from nine localities in Chile. A discriminant analysis of all measured traits indicated differentiation between localities, and the first two canonical variables explained ∼80% of the total variation in morphometric features. Additionally, these two canonical variables were correlated with precipitation and monthly minimum temperature. To determine the validity of Allen's rule, a stepwise discriminant analysis was performed incorporating three morphological variables measured on the extremities of the individuals. This analysis indicated no variation in the traits between populations. The first canonical variable of the discriminant analysis explained 90% of the total variation in extremity morphology and was not correlated with environmental variables. We did, however, detect a correlation between the canonical variables of the stepwise discriminant analysis, and both minimum temperature and precipitation. Overall, our results indicate that the populations of P. thaul in Chile comply with Bergmann's rule. [ABSTRACT FROM AUTHOR]

Published

2018

38. Body size shifts influence effects of increasing temperatures on ectotherm metabolism.

Author

Riemer, Kristina, Anderson‐Teixeira, Kristina J., Smith, Felisa A., Harris, David J., and Ernest, S. K. Morgan

Subjects

*BODY size, *HIGH temperature (Weather), *COLD-blooded animals, *METABOLIC regulation, *GLOBAL temperature changes

Abstract

Abstract: Aim: Warmer temperatures directly increase metabolic rates of ectotherms, but temperature also indirectly affects metabolic rates. Higher temperatures result in smaller body sizes and associated decreases in metabolic rates, and it remains unknown whether this indirect effect of temperature increase could mitigate the direct positive effect of temperature on metabolic rate. Here, we assess whether temperature‐induced shifts in body size are likely to offset the direct influence of temperature on metabolic rate. Location: Global. Time period: 1940–2011. Major taxa studied: Ectotherms. Methods: We compiled literature‐derived data on mass and temperature for 109 ectotherm species raised at various constant temperatures. Using an allometric equation to estimate metabolic rate from size and temperature, we determined the body masses necessary for species to maintain constant metabolic rates under increased temperatures. We also calculated and compared (a) change in metabolic rate attributable to increased temperature where body size does not change with (b) change in metabolic rate including empirical size change. Results: Warmer temperatures resulted in increased metabolic rate estimates, but this was partly offset by decreased body sizes for the majority of species. For most species, observed decreases in body size at higher temperatures were insufficient to avoid metabolic rate increases. Main conclusions: Although the indirect effect of temperature on metabolic rate via body size is not sufficient to counterbalance the direct effect, it limits the magnitude of the increase in metabolic rate. Thus, in a warming climate, ectotherms are likely to experience increases in energy use that are smaller than anticipated. Given that metabolic rates have substantial, diverse impacts on individuals, populations, and ecosystems, these indirect effects of temperature change will have complex cascading effects on ecological communities, but the impacts of increases in metabolic rate of these varying magnitudes are unknown. [ABSTRACT FROM AUTHOR]

Published

2018

39. Comparative studies of critical physiological limits and vulnerability to environmental extremes in small ectotherms: How much environmental control is needed?

Author

HOFFMANN, Ary A. and SGRÒ, Carla M.

Subjects

*ECOLOGICAL niche, *COLD-blooded animals, *CLIMATE change, *PHYLOGENY, *GENETICS

Abstract

Abstract: Researchers and practitioners are increasingly using comparative assessments of critical thermal and physiological limits to assess the relative vulnerability of ectothermic species to extreme thermal and aridity conditions occurring under climate change. In most assessments of vulnerability, critical limits are compared across taxa exposed to different environmental and developmental conditions. However, many aspects of vulnerability should ideally be compared when species are exposed to the same environmental conditions, allowing a partitioning of sources of variation such as used in quantitative genetics. This is particularly important when assessing the importance of different types of plasticity to critical limits, using phylogenetic analyses to test for evolutionary constraints, isolating genetic variants that contribute to limits, characterizing evolutionary interactions among traits limiting adaptive responses, and when assessing the role of cross generation effects. However, vulnerability assessments based on critical thermal/physiological limits also need to take place within a context that is relevant to field conditions, which is not easily provided under controlled environmental conditions where behavior, microhabitat, stress exposure rates and other factors will differ from field conditions. There are ways of reconciling these requirements, such as by taking organisms from controlled environments and then testing their performance under field conditions (or vice versa). While comparisons under controlled environments are challenging for many taxa, assessments of critical thermal limits and vulnerability will always be incomplete unless environmental effects within and across generations are considered, and where the ecological relevance of assays measuring critical limits can be established. [ABSTRACT FROM AUTHOR]

Published

2018

40. Partitioning thermal habitat on a vertical rock, a herculean task.

Author

Pafilis, Panayiotis, Maragou, Panayiota, Sagonas, Kostas, and Valakos, Efstratios

Subjects

*BODY temperature regulation, *PODARCIS, *TEMPERATURE effect, *COLD-blooded animals, *ECOLOGICAL niche

Abstract

Species occurring in sympatry have to effectively segregate their niche in order to co-exist. In the case of ectotherms in particular, the very important parameter of thermal biology has to be taken into account. Here we investigated the thermoregulatory effectiveness ( E ) of two endemic Greek lizards ( Hellenolacerta graeca and Podarcis peloponnesiacus ) that live syntopically on a rocky cliff in the Peloponnese. We presumed that the two species would select different microhabitats, to avoid interspecific competition, and follow a similar thermoregulation pattern as they experience the same conditions. We also expected that E values for both species would differ depending on the season. Overall, we found that the two species had similar E values for each season but differentiated partial thermoregulatory attributes. Though they both occurred in the same types of microhabitat, H. graeca selected higher sites (average 99 cm above ground) than P. peloponnesiacus (average 44 cm). Also, the latter achieved higher preferred temperatures during summer and winter. Finally, the effectiveness of thermoregulation for both species varied interseasonally and received its highest values during summer, in response to the lowest thermal quality that was observed then. Similar studies stress the importance of thermal shifts for ectotherm co-existence. [ABSTRACT FROM AUTHOR]

Published

2017

41. Differential expression of stress candidate genes for thermal tolerance in the sea urchin Loxechinus albus.

Author

Vergara-Amado, Jonathan, Silva, Andrea X., Manzi, Catalina, Nespolo, Roberto F., and Cárdenas, Leyla

Subjects

*THERMAL tolerance (Physiology), *SEA urchin physiology, *COLD-blooded animals, *INVERTEBRATE genetics, *EFFECT of stress on animals

Abstract

Marine ectotherms inhabiting intertidal and shallow subtidal environments are continuously exposed to diurnal tidal cycles and seasonal variability in temperature. These organisms have adaptive mechanisms to maintain cellular homeostasis, irrespective of thermal environmental variation. In this study, we describe the molecular responses to thermal stress in the edible sea urchin Loxechinus albus . In particular, we determined the differential expression of a set of molecular markers that have been identified as targets of stress-related responses. These include the heat shock proteins ( hsp70 and hsp90 ), cell detoxification proteins ( cytochrome P450 ), and osmorregulatory proteins ( α and ß - Na + /K + ATPase ). We exposed individuals to different temperatures; a warm treatment (18±1.0 °C), a cold treatment (10±1.0 °C), and a control treatment (average local temperature of 14±1.0 °C) and differential expression was quantified after 2, 6, 12 and 48 h of exposure. Levels of mRNA were quantified by reverse transcription-quantitative polymerase chain reaction, and the relative expression of each gene was calculated using the 18S rRNA gene as a reference, and the control treatment as a calibrator. We found that the expression levels of all studied genes increased during exposure to warmth. The largest increase in expression was observed in cytochrome p450 genes (ca. sixteen-fold); this was followed by increases in the expression of the Na + /K + ATPase (ca. eight-fold) and by the hsp (ca. six fold) genes. These results indicate that sea urchin thermal stress responses depend on differential gene-regulation, involving heat-shock, membrane potential, and detoxification genes that generate an integrated adaptive response to acute environmental changes. [ABSTRACT FROM AUTHOR]

Published

2017

42. Physical mechanism or evolutionary trade-off? Factors dictating the relationship between metabolic rate and ambient temperature in carabid beetles.

Author

Gudowska, Agnieszka, Schramm, Bartosz W., Czarnoleski, Marcin, Kozłowski, Jan, and Bauchinger, Ulf

Subjects

*GROUND beetles, *INSECT metabolism, *EFFECT of temperature on insects, *BEETLES, *COLD-blooded animals, *PHYSIOLOGY

Abstract

The tight association between ambient temperature (T) and metabolic rate (MR) is a common occurrence in ectotherms, but the determinants of this association are not fully understood. This study examined whether the relationship between MR and T is the same among individuals, as predicted by the Universal Temperature Dependence hypothesis, or whether this relationship differs between them. We used flow-through respirometry to measure standard MR and to determine gas exchange patterns for 111 individuals of three Carabidae species which differ in size ( Abax ovalis, Carabus linnei and C. coriaceus ), exposed to four different temperatures (ten individuals of each species measured at 6, 11, 16 and 21 °C). We found a significant interaction between ln body mass and the inverse of temperature, indicating that in a given species, the effect of temperature on MR was weaker in larger individuals than in smaller individuals. Overall, this finding shows that the thermal dependence of MR is not body mass invariant. We observed three types of gas exchange patterns among beetles: discontinuous, cyclic and continuous. Additionally, the appearance of these patterns was associated with MR and T. Evolution in diverse terrestrial environments could affect diverse ventilation patterns, which accommodate changes in metabolism in response to temperature variation. In conclusion, explaining the variance in metabolism only through fundamental physical laws of thermodynamics, as predicted by the Universal Temperature Dependence hypothesis, appears to oversimplify the complexity of nature, ignoring evolutionary trade-offs that should be taken into account in the temperature – metabolism relationship. [ABSTRACT FROM AUTHOR]

Published

2017

43. Mitigating thermal effect of behaviour and microhabitat on the intertidal snail Littorina saxatilis (Olivi) over summer.

Author

Chapperon, Coraline, Studerus, Kevin, and Clavier, Jacques

Subjects

*ECOLOGICAL niche, *LITTORINA saxatilis, *BODY temperature regulation, *COLD-blooded animals, *SUMMER

Abstract

High shore intertidal ectotherms must withstand temperatures which are already close, at or beyond their upper physiological thermal tolerance. Their behaviour can provide a relief under heat stress, and increase their survival through thermoregulation. Here, we used infrared imaging to reveal the thermoregulatory behavioural strategies used by the snail Littorina saxatilis (Olivi) on different microhabitats of a high shore boulder field in Finistère (western France) in summer. On our study site, substrate temperature is frequently greater than L. saxatilis upper physiological thermal limits, especially on sun exposed microhabitats. To maintain body temperatures within their thermal tolerance window, withdrawn snails adopted a flat posture, or elevated their shells and kept appended to the rock on the outer lip of their aperture with dried mucous (standing posture). These thermal regulatory behaviours lowered snail body temperatures on average by 1–2 °C. Aggregation behaviour had no thermoregulatory effect on L. saxatilis in the present study. The occupation of biogenic microhabitats (barnacles) was associated with a 1 °C decrease in body temperatures. Barnacles and microhabitats that experienced low sun exposure, low thermal fluctuations and low thermal maxima, could buffer the heat extremes encountered at high shore level especially on sun exposed microhabitats. [ABSTRACT FROM AUTHOR]

Published

2017

44. Thermal ecology of two syntopic lizard species of the genus Liolaemus (Iguania: Liolaemidae) in north western Argentina.

Author

ROBLES, Cecilia Inés and HALLOY, Monique

Subjects

LIZARD behavior, COLD-blooded animals

Abstract

Body temperature (Tb) is important in ectothermic organisms. It involves physiological and ecological mechanisms. Here we report on body temperatures in two syntopic species of the genus Liolaemus, from northwestern Argentina and their relation to environmental field temperatures. We monitored an area measuring100 x 75 m during two austral springs and summers between 2012 and 2014.Liolaemus ramirezae presented an average Tb that was significantly lower (32 ± 3.9 °C) than of L. pacha (34 ± 3 °C). This might be explained by their phylogenetic history. Tb of the two species was not affected by sex nor by morphological measurements in the case of L. pacha, which coincides with what has been reported in other species of the genus. Tb was correlated to microenvironmental temperatures. During the two springs and summers of the study, Tb of L. pacha had a range of 30 to 35 °C, which was on average greater than maximum air temperatures, indicating that it can regulate its Tb during the day. The same could not be evaluated for the other species due to low sample size. More studies are needed to better understand different aspects of thermoregulation in these species. [ABSTRACT FROM AUTHOR]

Published

2017

45. Responses of arthropod populations to warming depend on latitude: evidence from urban heat islands.

Author

Youngsteadt, Elsa, Ernst, Andrew F., Dunn, Robert R., and Frank, Steven D.

Subjects

*ARTHROPOD populations, *LATITUDE, *URBAN heat islands, *COLD-blooded animals, *TEMPERATURE

Abstract

Biological effects of climate change are expected to vary geographically, with a strong signature of latitude. For ectothermic animals, there is systematic latitudinal variation in the relationship between climate and thermal performance curves, which describe the relationship between temperature and an organism's fitness. Here, we ask whether these documented latitudinal patterns can be generalized to predict arthropod responses to warming across mid- and high temperate latitudes, for taxa whose thermal physiology has not been measured. To address this question, we used a novel natural experiment consisting of a series of urban warming gradients at different latitudes. Specifically, we sampled arthropods from a single common street tree species across temperature gradients in four US cities, located from 35.8 to 42.4° latitude. We captured 6746 arthropods in 34 families from 111 sites that varied in summer average temperature by 1.7-3.4 °C within each city. Arthropod responses to warming within each city were characterized as Poisson regression coefficients describing change in abundance per °C for each family. Family responses in the two midlatitude cities were heterogeneous, including significantly negative and positive effects, while those in high-latitude cities varied no more than expected by chance within each city. We expected high-latitude taxa to increase in abundance with warming, and they did so in one of the two high-latitude cities; in the other, Queens (New York City), most taxa declined with warming, perhaps due to habitat loss that was correlated with warming in this city. With the exception of Queens, patterns of family responses to warming were consistent with predictions based on known latitudinal patterns in arthropod physiology relative to regional climate. Heterogeneous responses in midlatitudes may be ecologically disruptive if interacting taxa respond oppositely to warming. [ABSTRACT FROM AUTHOR]

Published

2017

46. Trade-off between thermal preference and sperm maturation in a montane lizard.

Author

Quintero-Pérez, Rosa Isela, Méndez-de la Cruz, Fausto Roberto, Miles, Donald B., Vera Chávez, Mirna Crizel, López-Ramírez, Yolanda, Arenas-Moreno, Diego Miguel, and Arenas-Ríos, Edith

Subjects

*BODY temperature, *SPRINTING, *SPERMATOZOA, *LIZARDS, *SPERM motility, *INFERTILITY, *COLD-blooded animals, *SURVIVAL rate

Abstract

Temperature is a key abiotic factor that influences performance of several physiological traits in ectotherms. Organisms regulate their body temperature within a range of temperatures to enhance physiological function. The capacity of ectotherms, such as lizards, to maintain their body temperature within their preferred range influences physiological traits such as speed, various reproductive patterns, and critical fitness components, such as growth rates or survival. Here, we evaluate the influence of temperature on locomotor performance, sperm morphology and viability in a high elevation lizard species (Sceloporus aeneus). Whereas maximal values for sprint speed coincides with field active and preferred body temperature, short-term exposure at the same range of temperatures produces abnormalities in sperm morphology, lower sperm concentration and diminishes sperm motility and viability. In conclusion, we confirmed that although locomotor performance is maximized at preferred temperatures, there is a trade-off with male reproductive attributes, which may cause infertility. As a consequence, prolonged exposure to preferred temperatures could threaten the persistence of the species through reduced fertility. Persistence of the species is favored in environments with access to cooler, thermal microhabitats that enhance reproductive parameters. • Preferred temperature improve locomotor performance, but decreases sperm parameters of the lizard Sceloporus aeneus. • Locomotor performance is maximized when the body temperature approaches the species' preferred temperature (32 °C). • Exposure to temperatures (24 °C and 28 °C), below the preferred temperature (32.7 °C), enhances sperm parameters. [ABSTRACT FROM AUTHOR]

Published

2023

47. Acclimation of thermal physiology to new basking regimes in a widespread Australian skink.

Author

Anderson, Rodolfo O., Goulet, Celine T., and Chapple, David G.

Subjects

*THERMAL tolerance (Physiology), *ACCLIMATIZATION, *COLD-blooded animals, *SKINKS, *PHYSIOLOGY, *BODY temperature

Abstract

Changes in thermal environments are a challenge for many ectotherms, as they would have to acclimate their physiology to new thermal environments to maintain high-levels of performance. Time spent basking is key for many ectothermic animals to keep their body temperature within optimal thermal ranges. However, little is known about the impact of changes in basking time on the thermal physiology of ectothermic animals. We investigated how different basking regimes (low intensity vs high intensity) affected key thermal physiological traits of a widespread Australian skink (Lampropholis delicata). We quantified thermal performance curves and thermal preferences of skinks subjected to low and high intensity basking regimes over a 12-week period. We found that skinks acclimated their thermal performance breadth in both basking regimes, with the skinks from the low-intensity basking regime showing narrower performance breadths. Although maximum velocity and optimum temperatures increased after the acclimation period, these traits did not differ between basking regimes. Similarly, no variation was detected for thermal preference. These results provide insight into mechanisms that allow these skinks to successfully overcome environmental constraints in the field. Acclimation of thermal performance curves seems to be key for widespread species to colonise new environments, and can buffer ectothermic animals in novel climatic scenarios. • Acclimation to different basking regimes could aid ectotherms regulating their physiology. • We investigated whether thermal traits of skinks respond to different basking regimes. • Thermal performance breadth changed after 12 weeks of acclimation at both basking regimes. • We did not observe changes in thermal preference, optimum temperatures, and maximum velocity. • Our results suggest mechanisms that may allow skinks to survive in new environments. [ABSTRACT FROM AUTHOR]

Published

2023

48. Behavioral fever in ectothermic vertebrates.

Author

Rakus, Krzysztof, Ronsmans, Maygane, and Vanderplasschen, Alain

Subjects

*VERTEBRATES, *COLD-blooded animals, *BODY temperature regulation, *EXANTHEMA, *FEVER, *ANIMAL behavior, *MAMMALS

Abstract

Fever is an evolutionary conserved defense mechanism which is present in both endothermic and ectothermic vertebrates. Ectotherms in response to infection can increase their body temperature by moving to warmer places. This process is known as behavioral fever. In this review, we summarize the current knowledge on the mechanisms of induction of fever in mammals. We further discuss the evolutionary conserved mechanisms existing between fever of mammals and behavioral fever of ectothermic vertebrates. Finally, the experimental evidences supporting an adaptive value of behavioral fever expressed by ectothermic vertebrates are summarized. [ABSTRACT FROM AUTHOR]

Published

2017

49. Thermal growth potential of Atlantic cod by the end of the 21st century.

Author

Butzin, Martin and Pörtner, Hans‐Otto

Subjects

*CLIMATE change, *EARTH science forecasting, *ECOPHYSIOLOGY, *COLD-blooded animals, *FISH growth, *THERMAL tolerance (Physiology)

Abstract

Ocean warming may lead to smaller body sizes of marine ectotherms, because metabolic rates increase exponentially with temperature while the capacity of the cardiorespiratory system to match enhanced oxygen demands is limited. Here, we explore the impact of rising sea water temperatures on Atlantic cod ( Gadus morhua), an economically important fish species. We focus on changes in the temperature-dependent growth potential by a transfer function model combining growth observations with climate model ensemble temperatures. Growth potential is expressed in terms of asymptotic body weight and depends on water temperature. We consider changes between the periods 1985-2004 and 2081-2100, assuming that future sea water temperatures will evolve according to climate projections for IPCC AR5 scenario RCP8.5. Our model projects a response of Atlantic cod to future warming, differentiated according to ocean regions, leading to increases of asymptotic weight in the Barents Sea, while weights are projected to decline at the southern margin of the biogeographic range. Southern spawning areas will disappear due to thermal limitation of spawning stages. These projections match the currently observed biogeographic shifts and the temperature- and oxygen-dependent decline in routine aerobic scope at southern distribution limits. [ABSTRACT FROM AUTHOR]

Published

2016

50. Thermal constraints and the influence of reproduction on thermoregulation in a high-altitude gecko ( Quedenfeldtia trachyblepharus).

Author

Bouazza, A., Slimani, T., El Mouden, H., Blouin‐Demers, G., and Lourdais, O.

Subjects

*BODY temperature regulation, *COLD adaptation, *COLD-blooded animals, *PARITY (Obstetrics), *LIFE (Biology)

Abstract

Temperature plays a crucial role for ectotherm performance and thus for fitness. Terrestrial ectotherms, including reptiles, regulate their body temperature mainly by behavioural means. At high altitude, however, thermal constraints make precise thermoregulation costly. The cost-benefit model of lizard thermoregulation predicts that thermally challenging environments should favour the evolution of thermoconformity. Yet, several species maintain high and stable body temperatures even in cool environments. We studied the Atlas Day Gecko, Quedenfeldtia trachyblepharus, a cold-adapted lizard endemic to the High Atlas Mountains of Morocco. We quantified thermoregulation in gravid females, non-gravid adult females, and adult males during the active season. Geckos thermoregulated during their active season, and thermoregulated with more effectiveness early in the season than late in the season. In the laboratory, the preferred body temperature ranges of gravid females, non-gravid females, and males were not significantly different. In the field, however, gravid females had smaller deviations from the preferred body temperature and maintained higher body temperatures than males and non-gravid females. Our study suggests that cold-adapted reptiles adjust their thermoregulatory behaviour in response to thermal constraints and reproductive status. [ABSTRACT FROM AUTHOR]

Published

2016