Your search keyword '"Ectotherms"' showing total 218 results

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

Author

Mobaraki, Asghar and Oraie, Hamzeh

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. Acclimation temperature and parasite infection drive metabolic changes in a freshwater fish at different biological scales.

Author

Levet, Marie, Killen, Shaun S., Bettinazzi, Stefano, Mélançon, Vincent, Breton, Sophie, and Binning, Sandra A.

Subjects

*ANAEROBIC metabolism, *CITRATE synthase, *HIGH temperatures, *ENERGY metabolism, *FISH parasites

Abstract

Environmental stressors such as elevated temperature and parasite infection can impact individual energy metabolism. However, organismal responses to co‐occurring stressors and their effects across biological scales remain unexplored despite the importance of integrative studies for accurately predicting the resilience of natural populations in changing environments. Using wild‐caught, naturally parasitized pumpkinseed sunfish, Lepomis gibbosus, we quantified changes in cellular and whole‐organism metabolism in response to temperature and parasite infection. We acclimated pumpkinseeds for 3 weeks at 20°C, 25°C or 30°C before measuring whole‐organism oxygen uptake (ṀO2) using intermittent flow‐respirometry to quantify maximal and standard metabolic rates (MMR and SMR, respectively) and aerobic scope (AS). We also measured the maximal activity of enzymes [citrate synthase (CS), respiratory complexes I + III and IV of the electron transport system and lactate dehydrogenase (LDH)] linked with cellular bioenergetics in fish heart, brain, spleen and gills using spectrophotometry. We found no interactions between acclimation temperatures and parasite intensity on cellular or whole‐organism metabolism. However, both stressors were independently related to fish metabolism, with differing impacts across biological scales. Whereas MMR increased with acclimation temperature, this was not mirrored by increasing SMR or decreasing AS, suggesting thermal compensation across acclimation temperatures at the whole‐organism level. On a cellular level, acclimation responses were similar across organs, with maximal activity of all enzymes decreasing with increasing acclimation temperature. However, LDH activity remained higher than aerobic enzyme activities (CS, ETS complexes I + III and IV) across acclimation temperatures and organs, especially in gills, where LDH activity drastically increased at 30°C. This may indicate a stronger reliance on anaerobic metabolism to sustain whole‐organism metabolic performance at high temperatures. Fish with greater trematode infection had lower MMR. There were no relationships between parasite intensity and SMR, AS or maximal enzyme activity. Our work shows that co‐occurring stressors have distinct impacts on fish metabolism: parasites are primarily related to whole‐organism metabolism while temperature impacts metabolism across biological scales. This highlights that interactions among co‐occurring stressors are important for ecological realism and accurate predictions regarding population resilience to environmental changes. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

3. Temperature-dependent dynamics of energy stores in Drosophila

Author

Diana Knoblochová, Malleswara Dharanikota, Martina Gáliková, and Peter Klepsatel

Subjects

Phenotypic plasticity, Thermal performance curve, Energy reserves, Ectotherms, Fat, Glycogen, Biology (General), QH301-705.5

Abstract

Abstract Background Understanding how ectotherms manage energy in response to temperature is crucial for predicting their responses to climate change. However, the complex interplay between developmental and adult thermal conditions on total energy stores remains poorly understood. Here, we present the first comprehensive quantification of this relationship in Drosophila melanogaster, a model ectotherm, across its entire thermal tolerance range. To account for potential intraspecific variation, we used flies from two distinct populations originating from different climate zones. Utilizing a full factorial design, we assessed the effects of both developmental and adult temperatures on the amount of key energy macromolecules (fat, glycogen, trehalose, and glucose). Importantly, by quantifying these macromolecules, we were able to calculate the total available energy. Results Our findings reveal that the dynamic interplay between developmental and adult temperatures profoundly influences the energy balance in Drosophila. The total energy reserves exhibited a quadratic response to adult temperature, with an optimal range of 18–21 °C for maximizing energy levels. Additionally, the temperature during development considerably affected maximum energy stores, with the highest reserves observed at a developmental temperature of approximately 20–21 °C. Deviations from this relatively narrow optimal thermal range markedly reduced energy stores, with each 1 °C increase above 25 °C diminishing energy reserves by approximately 15%. Conclusions This study highlights the critical and interacting roles of both developmental and adult thermal conditions in shaping Drosophila energy reserves, with potentially profound implications for fitness, survival, and ecological interactions under future climate scenarios.

Published

2024

4. Unoccupied aerial vehicles as a tool to map lizard operative temperature in tropical environments

Author

Emma A. Higgins, Doreen S. Boyd, Tom W. Brown, Sarah C. Owen, Geertje M. F. van derHeijden, and Adam C. Algar

Subjects

Climate change, ectotherms, forest canopy, random forest, thermal suitability, UAVs, Technology, Ecology, QH540-549.5

Abstract

Abstract To understand how ectotherms will respond to warming temperatures, we require information on thermal habitat quality at spatial resolutions and extents relevant to the organism. Measuring thermal habitat quality is either limited to small spatial extents, such as with ground‐based 3D operative temperature (Te) replicas, representing the temperature of the animal at equilibrium with its environment, or is based on microclimate derived from physical models that use land cover variables and downscale coarse climate data. We draw on aspects of both these approaches and test the ability of unoccupied aerial vehicle (UAV) data (optical RGB) to predict fine‐scale heterogeneity in sub‐canopy lizard (Anolis bicaorum) Te in tropical forest using random forest models. Anolis bicaorum is an endemic, critically endangered, species, facing significant threats of habitat loss and degradation, and work was conducted as part of a larger project. Our findings indicate that a model incorporating solely air temperature, measured at the centre of the 20 × 20 m plot, and ground‐based leaf area index (LAI) measurements, measured at directly above the 3D replica, predicted Te well. However, a model with air temperature and UAV‐derived canopy metrics performed slightly better with the added advantage of enabling the mapping of Te with continuous spatial extent at high spatial resolutions, across the whole of the UAV orthomosaic, allowing us to capture and map Te across the whole of the survey plot, rather than purely at 3D replica locations. Our work provides a feasible workflow to map sub‐canopy lizard Te in tropical environments at spatial scales relevant to the organism, and across continuous areas. This can be applied to other species and can represent species within the same community that have evolved a similar thermal niche. Such methods will be imperative in risk modelling of such species to anthropogenic land cover and climate change.

Published

2024

5. 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

6. Salamander loss alters montane stream ecosystem functioning and structure through top‐down effects.

Author

Alonso, A., Bosch, J., Pérez, J., Rojo, D., and Boyero, L.

Subjects

*FOREST litter, *INVERTEBRATE communities, *ENVIRONMENTAL degradation, *SALAMANDERS, *FOOD chains

Abstract

Amphibians are among the most endangered taxa worldwide, but little is known about how their disappearance can alter the functioning and structure of freshwater ecosystems, where they live as larval stages. This is particularly true for urodeles, which often are key predators in these ecosystems. The fire salamander (Salamandra salamandra) is a common predator in European fresh waters, but the species is declining due to habitat loss and the infection by fungal pathogens. We studied the consequences of fire salamander loss from three montane streams, by comparing two key ecosystem processes (periphyton accrual and leaf litter decomposition) and the structure of three communities (periphytic algae, aquatic hyphomycetes and invertebrates) using stream enclosures with and without salamander larvae. Salamander loss did not cause changes in invertebrate abundance or community structure, except for one stream where abundance increased in the absence of salamander larvae. However, salamander loss led to lower periphyton accrual, changes in algal community structure and slower leaf litter decomposition, with no associated changes in fungal communities or microbial decomposition. The changes observed may have been caused by release of salamander predatory pressure on invertebrates, which could have promoted their grazing on periphyton, in contrast to their preference for leaf shredding in the presence of salamander. Our study demonstrates an important role of salamander larvae in montane streams through top‐down control of lower trophic levels and thus in regulating key stream ecosystem processes. Our results highlight the need for improving protection measures for amphibians to prevent these alterations on ecosystem structure and function. [ABSTRACT FROM AUTHOR]

Published

2024

7. Unoccupied aerial vehicles as a tool to map lizard operative temperature in tropical environments.

Author

Higgins, Emma A., Boyd, Doreen S., Brown, Tom W., Owen, Sarah C., van der Heijden, Geertje M. F., and Algar, Adam C.

Subjects

LEAF area index, RANDOM forest algorithms, FOREST canopies, ATMOSPHERIC temperature, LAND cover

Abstract

To understand how ectotherms will respond to warming temperatures, we require information on thermal habitat quality at spatial resolutions and extents relevant to the organism. Measuring thermal habitat quality is either limited to small spatial extents, such as with ground‐based 3D operative temperature (Te) replicas, representing the temperature of the animal at equilibrium with its environment, or is based on microclimate derived from physical models that use land cover variables and downscale coarse climate data. We draw on aspects of both these approaches and test the ability of unoccupied aerial vehicle (UAV) data (optical RGB) to predict fine‐scale heterogeneity in sub‐canopy lizard (Anolis bicaorum) Te in tropical forest using random forest models. Anolis bicaorum is an endemic, critically endangered, species, facing significant threats of habitat loss and degradation, and work was conducted as part of a larger project. Our findings indicate that a model incorporating solely air temperature, measured at the centre of the 20 × 20 m plot, and ground‐based leaf area index (LAI) measurements, measured at directly above the 3D replica, predicted Te well. However, a model with air temperature and UAV‐derived canopy metrics performed slightly better with the added advantage of enabling the mapping of Te with continuous spatial extent at high spatial resolutions, across the whole of the UAV orthomosaic, allowing us to capture and map Te across the whole of the survey plot, rather than purely at 3D replica locations. Our work provides a feasible workflow to map sub‐canopy lizard Te in tropical environments at spatial scales relevant to the organism, and across continuous areas. This can be applied to other species and can represent species within the same community that have evolved a similar thermal niche. Such methods will be imperative in risk modelling of such species to anthropogenic land cover and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

8. 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

9. Multigenerational exposure to temperature influences mitochondrial oxygen fluxes in the Medaka fish (Oryzias latipes).

Author

Morla, Julie, Salin, Karine, Lassus, Rémy, Favre‐Marinet, Julie, Sentis, Arnaud, and Daufresne, Martin

Subjects

*ORYZIAS latipes, *PHYSIOLOGY, *FISH farming, *MITOCHONDRIA, *FACTORIAL experiment designs

Abstract

Aim: Thermal sensitivity of cellular metabolism is crucial for animal physiology and survival under climate change. Despite recent efforts, effects of multigenerational exposure to temperature on the metabolic functioning remain poorly understood. We aimed at determining whether multigenerational exposure to temperature modulate the mitochondrial respiratory response of Medaka fish. Methods: We conducted a multigenerational exposure with Medaka fish reared multiple generations at 20 and 30°C (COLD and WARM fish, respectively). We then measured the oxygen consumption of tail muscle at two assay temperatures (20 and 30°C). Mitochondrial function was determined as the respiration supporting ATP synthesis (OXPHOS) and the respiration required to offset proton leak (LEAK(Omy)) in a full factorial design (COLD‐20°C; COLD‐30°C; WARM‐20°C; WARM‐30°C). Results: We found that higher OXPHOS and LEAK fluxes at 30°C compared to 20°C assay temperature. At each assay temperature, WARM fish had lower tissue oxygen fluxes than COLD fish. Interestingly, we did not find significant differences in respiratory flux when mitochondria were assessed at the rearing temperature of the fish (i.e., COLD‐20°C vs. WARM −30°C). Conclusion: The lower OXPHOS and LEAK capacities in warm fish are likely the result of the multigenerational exposure to warm temperature. This is consistent with a modulatory response of mitochondrial capacity to compensate for potential detrimental effects of warming on metabolism. Finally, the absence of significant differences in respiratory fluxes between COLD‐20°C and WARM‐30°C fish likely reflects an optimal respiration flux when organisms adapt to their thermal conditions. [ABSTRACT FROM AUTHOR]

Published

2024

10. Predicting movement speed of beetles from body size and temperature.

Author

Terlau, Jördis, Brose, Ulrich, Boy, Thomas, Pawar, Samraat, Pinsky, Malin, and Hirt, Myriam

Subjects

Allometry, Climate warming, Ectotherms, Exploratory speed, Image-based tracking, Movement ecology, Thermal response

Abstract

Movement facilitates and alters species interactions, the resulting food web structures, species distribution patterns, community structures and survival of populations and communities. In the light of global change, it is crucial to gain a general understanding of how movement depends on traits and environmental conditions. Although insects and notably Coleoptera represent the largest and a functionally important taxonomic group, we still know little about their general movement capacities and how they respond to warming. Here, we measured the exploratory speed of 125 individuals of eight carabid beetle species across different temperatures and body masses using automated image-based tracking. The resulting data revealed a power-law scaling relationship of average movement speed with body mass. By additionally fitting a thermal performance curve to the data, we accounted for the unimodal temperature response of movement speed. Thereby, we yielded a general allometric and thermodynamic equation to predict exploratory speed from temperature and body mass. This equation predicting temperature-dependent movement speed can be incorporated into modeling approaches to predict trophic interactions or spatial movement patterns. Overall, these findings will help improve our understanding of how temperature effects on movement cascade from small to large spatial scales as well as from individual to population fitness and survival across communities.

Published

2023

11. Transcription factor roles in the local adaptation to temperature in the Andean Spiny Toad Rhinella spinulosa

Author

Fernando Hinostroza, Ingrid Araya-Duran, Alejandro Piñeiro, Isabel Lobos, and Luis Pastenes

Subjects

Anuran, DNA-binding protein, Ectotherms, Gene expression, Geothermal streams, Metamorphosis, Medicine, Science

Abstract

Abstract Environmental temperature strongly influences the adaptation dynamics of amphibians, whose limited regulation capabilities render them susceptible to thermal oscillations. A central element of the adaptive strategies is the transcription factors (TFs), which act as master regulators that orchestrate stress responses, enabling species to navigate the fluctuations of their environment skillfully. Our study delves into the intricate relationship between TF expression and thermal adaptation mechanisms in the Rhinella spinulosa populations. We sought to elucidate the dynamic modulations of TF expression in prometamorphic and metamorphic tadpoles that inhabit two thermally contrasting environments (Catarpe and El Tatio Geyser, Chile) and which were exposed to two thermal treatments (25 °C vs. 20 °C). Our findings unravel an intriguing dichotomy in response strategies between these populations. First, results evidence the expression of 1374 transcription factors. Regarding the temperature shift, the Catarpe tadpoles show a multifaceted approach by up-regulating crucial TFs, including fosB, atf7, and the androgen receptor. These dynamic regulatory responses likely underpin the population’s ability to navigate thermal fluctuations effectively. In stark contrast, the El Tatio tadpoles exhibit a more targeted response, primarily up-regulating foxc1. This differential expression suggests a distinct focus on specific TFs to mitigate the effects of temperature variations. Our study contributes to understanding the molecular mechanisms governing thermal adaptation responses and highlights the resilience and adaptability of amphibians in the face of ever-changing environmental conditions.

Published

2024

12. Combined effect of seasons and life history in an anuran strengthens the response and relationship between their physiology and gut microbiota

Author

Jun-Kyu Park and Yuno Do

Subjects

Amphibian, Ectotherms, Host physiology, Gut microbiota, Phenology, Medicine, Science

Abstract

Abstract Gut microbiota impact host physiology, though simultaneous investigations in ectothermic vertebrates are rare. Particularly, amphibians may exhibit more complex interactions between host physiology and the effects of gut microbiota due to the combination of seasonal changes and complex life histories. In this study, we assessed the relationships among food resources, gut bacterial communities, and host physiology in frogs (Phelophylax nigromaculatus), taking into account seasonal and life history variations. We found that food sources were not correlated with physiological parameters but had some relationships with the gut bacterial community. Variations in gut bacterial community and host physiology were influenced by the combined effects of seasonal differences and life history, though mostly driven by seasonal differences. An increase in Firmicutes was associated with higher fat content, reflecting potential fat storage in frogs during the non-breeding season. The increase in Bacteroidetes resulted in lower fat content in adult frogs and decreased immunity in juvenile frogs during the breeding season, demonstrating a direct link. Our results suggest that the gut microbiome may act as a link between food conditions and physiological status, and that the combined effect of seasons and life history could reinforce the relationship between gut microbiota and physiological status in ectothermic animals. While food sources may influence the gut microbiota of ectotherms, we contend that temperature-correlated seasonal variation, which predominately influences most ectotherms, is a significant factor.

Published

2024

13. Cold kiss still hot: limited temperature effects on envenomation performance in predatory strikes of a Japanese pit viper (Gloydius blomhoffii).

Author

Kodama, Tomonori, Sakamoto, Shinsuke H., and Mori, Akira

Subjects

*ENZYME-linked immunosorbent assay, *TEMPERATURE effect, *VENOM, *VIDEO recording, *PREDATORY animals

Abstract

Understanding how environmental factors affect the performance of predators can provide profound insights into predator–prey interactions from evolutionary and ecological perspectives and the global distributional patterns of each taxon. Almost all venomous predators are ectotherms, with muscle contraction properties depending on temperature. For predators having venom transportation systems driven by muscle contraction, temperature may have quite large effects on envenomation performance for prey subjugation. Here, we used videography and enzyme-linked immunosorbent assay to examine thermal effects on envenomation kinematics and venom expenditure in predatory strikes of a venomous snake, the Mamushi Gloydius blomhoffii, to its main rodent prey at various body temperatures under both field and laboratory experimental conditions. Unexpectedly, we found that the thermal effects on envenomation performance are limited over nearly the entire ecologically relevant range of temperature (from 13.2°C to 26.2°C). Although temperature statistically significantly affected the mass of venom injected under field conditions, temperature explained only a minor proportion of the variation in venom expenditure. These findings suggest that the Mamushi is able to maintain prey subjugation performance across a wide range of temperatures, which is highly advantageous for ectothermic predators. Further studies should examine the underlying mechanisms of the limited thermal effects and their ubiquity across venomous predators. [ABSTRACT FROM AUTHOR]

Published

2024

14. 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

15. Transcription factor roles in the local adaptation to temperature in the Andean Spiny Toad Rhinella spinulosa.

Author

Hinostroza, Fernando, Araya-Duran, Ingrid, Piñeiro, Alejandro, Lobos, Isabel, and Pastenes, Luis

Subjects

TRANSCRIPTION factors, BODY temperature regulation, GENE expression, TOADS, PHYSIOLOGICAL adaptation, TADPOLES, ANIMAL navigation

Abstract

Environmental temperature strongly influences the adaptation dynamics of amphibians, whose limited regulation capabilities render them susceptible to thermal oscillations. A central element of the adaptive strategies is the transcription factors (TFs), which act as master regulators that orchestrate stress responses, enabling species to navigate the fluctuations of their environment skillfully. Our study delves into the intricate relationship between TF expression and thermal adaptation mechanisms in the Rhinella spinulosa populations. We sought to elucidate the dynamic modulations of TF expression in prometamorphic and metamorphic tadpoles that inhabit two thermally contrasting environments (Catarpe and El Tatio Geyser, Chile) and which were exposed to two thermal treatments (25 °C vs. 20 °C). Our findings unravel an intriguing dichotomy in response strategies between these populations. First, results evidence the expression of 1374 transcription factors. Regarding the temperature shift, the Catarpe tadpoles show a multifaceted approach by up-regulating crucial TFs, including fosB, atf7, and the androgen receptor. These dynamic regulatory responses likely underpin the population's ability to navigate thermal fluctuations effectively. In stark contrast, the El Tatio tadpoles exhibit a more targeted response, primarily up-regulating foxc1. This differential expression suggests a distinct focus on specific TFs to mitigate the effects of temperature variations. Our study contributes to understanding the molecular mechanisms governing thermal adaptation responses and highlights the resilience and adaptability of amphibians in the face of ever-changing environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

16. Determining critical periods for thermal acclimatisation using a distributed lag non‐linear modelling approach.

Author

Redana, Matteo, Gibbins, Chris, and Lancaster, Lesley T.

Subjects

*MAYFLIES, *PHENOTYPES, *PHYSIOLOGISTS

Abstract

Rapid changes in thermal environments are threatening many species worldwide. Thermal acclimatisation may partially buffer species from the impacts of these changes, but currently, the knowledge about the temporal dynamics of acclimatisation remains limited. Moreover, acclimatisation phenotypes are typically determined in laboratory conditions that lack the variability and stochasticity that characterise the natural environment. Through a distributed lag non‐linear model (DLNM), we use field data to assess how the timing and magnitude of past thermal exposures influence thermal tolerance. We apply the model to two Scottish freshwater Ephemeroptera species living in natural thermal conditions. Model results provide evidence that rapid heat hardening effects are dramatic and reflect high rates of change in temperatures experienced over recent hours to days. In contrast, temperature change magnitude impacted acclimatisation over the course of weeks but had no impact on short‐term responses. Our results also indicate that individuals may de‐acclimatise their heat tolerance in response to cooler environments. Based on the novel insights provided by this powerful modelling approach, we recommend its wider uptake among thermal physiologists to facilitate more nuanced insights in natural contexts, with the additional benefit of providing evidence needed to improve the design of laboratory experiments. [ABSTRACT FROM AUTHOR]

Published

2024

17. Risk of migration: not all gregarious locust nymphs reach appropriate refuges.

Author

Maeno, Koutaro Ould, Benahi, Ahmed Salem, and Jaavar, Mohamed El Hacen

Abstract

Sedentary animals choose appropriate refuges against predators, while migratory ones may not necessarily do so. In ectotherms, refuge selection is critical during low temperatures, because they cannot actively evade predators. To understand how migratory ectotherms alter their defensive behaviors depending on refuge quality in cold temperatures, we evaluated migratory gregarious desert locust nymphs (Schistocerca gregaria) in the Sahara Desert, where daily thermal constraints occur. We recorded how roosting plant type (bush/shrub) and its height influenced two alternative defense behaviors (dropping/stationary) during cold mornings, in response to an approaching simulated ground predator. Most locusts in bushes dropped within the bush and hid irrespective of their height, whereas those roosting > 2 m height in shrubs remained stationary. These defenses are effective and match with refuge plant types because dynamic locomotion is not required. When nymphs roosted on shrubs < 1.5-m height, which was an unsafe position, nearly half showed both defensive behaviors, indicating that escaping decisions become ambiguous when the refuges are inappropriate. These results suggest that locusts display flexible defensive behaviors when finding appropriate refuges and selecting refuge before daily thermal limitations occur could be critical for migratory ectotherms, which is a risk associated with migration. [ABSTRACT FROM AUTHOR]

Published

2024

18. Overwintering conditions affect cold hardiness, survival, and post‐overwintering fitness of the pea leaf weevil.

Author

Wijerathna, Asha, Cárcamo, Héctor, and Evenden, Maya

Subjects

*FAVA bean, *CURCULIONIDAE, *INTRODUCED insects, *JUVENILE hormones, *LEAF temperature, *SOIL temperature

Abstract

Overwintering conditions affect the physiological state of ectotherms, and therefore, their cold hardiness and survival. A measure of the lethal and sublethal impacts of overwintering conditions on pest populations is crucial to predict population dynamics and to manage pests the following spring. The impact of winter conditions can be most intense for invasive insects undergoing range expansion. Insect herbivores can display plastic host use behaviours that depend on their body condition following winter. The pea leaf weevil, Sitona lineatus L. (Coleoptera: Curculionidae), is an invasive pest of field peas, Pisum sativum L., and faba bean, Vicia faba L. (Fabaceae). Pea leaf weevil has expanded its range in North America to include the Prairie Provinces of Canada. This study investigated the effects of temperature and microhabitat on overwintering survival and cold hardiness of pea leaf weevil in its expanded range. Further, we investigated the sublethal effect of overwintering temperature and duration on post‐overwintering survival, feeding, and oviposition of pea leaf weevil. We also investigated the role of juvenile hormone in modulating body condition of overwintering weevils. The overwintering survival of pea leaf weevil adults increased with soil temperature and varied with region and microhabitat. More weevils survived winters when positioned near tree shelterbelts compared to open alfalfa fields. The supercooling point of pea leaf weevil varied throughout its expanding range but did not differ for weevils held in the two microhabitats. The average threshold lethal temperature of pea leaf weevil at all three sites was −9.4 °C. Weevils that overwintered for a longer duration and at a higher temperature subsequently fed more on faba bean foliage and laid more eggs compared to those which overwintered for a shorter duration at a lower temperature. Our findings highlight that warm winters would increase overwintering survival and post‐overwintering fitness, facilitating further pea leaf weevil invasion northward in the Prairie Provinces of Canada. [ABSTRACT FROM AUTHOR]

Published

2024

19. High‐resolution climate data reveal an increasing risk of warming‐driven activity restriction for diurnal and nocturnal lizards.

Author

Dufour, Pauline C., Tsang, Toby P. N., Alston, Nicholas, De Vos, Tristan, Clusella‐Trullas, Susana, and Bonebrake, Timothy C.

Subjects

*LIZARDS, *PHYSIOLOGICAL models, *CLIMATE change, *HIGH temperatures, *GECKOS

Abstract

Widespread species experience a variety of climates across their distribution, which can structure their thermal tolerance, and ultimately, responses to climate change. For ectotherms, activity is highly dependent on temperature, its variability and availability of favourable microclimates. Thermal exposure and tolerance may be structured by the availability and heterogeneity of microclimates for species living along temperature and/or precipitation gradients – but patterns and mechanisms underlying such gradients are poorly understood. We measured critical thermal limits (CTmax and CTmin) for five populations of two sympatric lizard species, a nocturnal gecko (Chondrodactylus bibronii) and a diurnal skink (Trachylepis variegata) and recorded hourly thermal variation for a year in three types of microclimate relevant to the activity of lizards (crevice, full sun and partial shade) for six sites across a precipitation gradient. Using a combination of physiological and modelling approaches, we derived warming tolerance for the present and the end of the century. In the present climate, we found an overall wider thermal tolerance for the nocturnal species relative to the diurnal species, and no variation in CTmax but variable CTmin along the precipitation gradient for both species. However, warming tolerances varied significantly over the course of the day, across months and microhabitats. The diurnal skink was most restricted in its daily activity in the three driest sites with up to six daily hours of restricted activity in the open (i.e. outside refugia) during the summer months, while the impacts for the nocturnal gecko were less severe, due to its higher CTmax and night activity. With climate change, lizards will experience more months where activity is restricted and increased exposure to high temperatures even within the more sheltered microhabitats. Together our results highlight the importance of considering the relevant spatiotemporal scale and habitat for understanding the thermal exposure of diurnal and nocturnal species. [ABSTRACT FROM AUTHOR]

Published

2024

20. 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

21. 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

22. Combined effect of seasons and life history in an anuran strengthens the response and relationship between their physiology and gut microbiota.

Author

Park, Jun-Kyu and Do, Yuno

Abstract

Gut microbiota impact host physiology, though simultaneous investigations in ectothermic vertebrates are rare. Particularly, amphibians may exhibit more complex interactions between host physiology and the effects of gut microbiota due to the combination of seasonal changes and complex life histories. In this study, we assessed the relationships among food resources, gut bacterial communities, and host physiology in frogs (Phelophylax nigromaculatus), taking into account seasonal and life history variations. We found that food sources were not correlated with physiological parameters but had some relationships with the gut bacterial community. Variations in gut bacterial community and host physiology were influenced by the combined effects of seasonal differences and life history, though mostly driven by seasonal differences. An increase in Firmicutes was associated with higher fat content, reflecting potential fat storage in frogs during the non-breeding season. The increase in Bacteroidetes resulted in lower fat content in adult frogs and decreased immunity in juvenile frogs during the breeding season, demonstrating a direct link. Our results suggest that the gut microbiome may act as a link between food conditions and physiological status, and that the combined effect of seasons and life history could reinforce the relationship between gut microbiota and physiological status in ectothermic animals. While food sources may influence the gut microbiota of ectotherms, we contend that temperature-correlated seasonal variation, which predominately influences most ectotherms, is a significant factor. [ABSTRACT FROM AUTHOR]

Published

2024

23. Metal nanoparticle-induced effects on green toads (Amphibia, Anura) under climate change: conservation implications.

Author

Vaissi, Somaye, Chahardoli, Azam, Haghighi, Zahra Minoosh Siavosh, and Heshmatzad, Pouria

Subjects

ALUMINUM oxide, ANURA, NICKEL oxide, AMPHIBIANS, CLIMATE change, NICKEL oxides, COPPER oxide, IRON oxides, ZINC oxide

Abstract

The toxicity of aluminum oxide (Al2O3), copper oxide (CuO), iron oxide (Fe3O4), nickel oxide (NiO), zinc oxide (ZnO), and titanium dioxide (TiO2) nanoparticles (NPs) on amphibians and their interaction with high temperatures, remain unknown. In this study, we investigated the survival, developmental, behavioral, and histological reactions of Bufotes viridis embryos and larvae exposed to different NPs for a duration of 10 days, using lethal concentrations (LC25%, LC50%, and LC75% mg/L) under both ambient (AT: 18 °C) and high (HT: 21 °C) temperatures. Based on LC, NiONPs > ZnONPs > CuONPs > Al2O3NPs > TiO2NPs > Fe3O4NPs showed the highest mortality at AT. A similar pattern was observed at HT, although mortality occurred at lower concentrations and Fe3O4NPs were more toxic than TiO2NPs. The results indicated that increasing concentrations of NPs significantly reduced hatching rates, except for TiO2NPs. Survival rates decreased, abnormality rates increased, and developmental processes slowed down, particularly for NiONPs and ZnONPs, under HT conditions. However, exposure to low concentrations of Fe3O4NPs for up to 7 days, CuONPs for up to 72 h, and NiO, ZnONPs, and TiO2NPs for up to 96 h did not have a negative impact on survival compared with the control group under AT. In behavioral tests with larvae, NPs generally induced hypoactivity at AT and hyperactivity at HT. Histological findings revealed liver and internal gill tissue lesions, and an increase in the number of melanomacrophage centers at HT. These results suggest that global warming may exacerbate the toxicity of metal oxide NPs to amphibians, emphasizing the need for further research and conservation efforts in this context. [ABSTRACT FROM AUTHOR]

Published

2024

24. It is hot and cold here: the role of thermotolerance in the ability of spiders to colonize tree plantations in the southern Atlantic Forest.

Author

Piñanez-Espejo, Yolanda M. G., Munévar, Ana, Schilman, Pablo E., and Zurita, Gustavo Andrés

Subjects

*ORB weavers, *ENDANGERED species, *SPIDERS, *PLANTATIONS, *FOREST biodiversity, *SPECIES diversity, *COLD adaptation, *BROMELIACEAE

Abstract

Worldwide, with the decline of natural habitats, species with reduced niche breadth (specialists) are at greater risk of extinction as they cannot colonise or persist in disturbed habitat types. However, the role of thermal tolerance as a critical trait in understanding changes in species diversity in disturbed habitats, e.g., due to forest replacement by tree plantations, is still understudied. To examine the role of thermal tolerance on the responses of specialist and generalist species to habitat disturbances, we measured and compared local temperature throughout the year and thermotolerance traits [upper (CTmax) and lower (CTmin) thermal limits] of the most abundant species of spiders from different guilds inhabiting pine tree plantations and native Atlantic Forests in South America. Following the thermal adaptation hypothesis, we predicted that generalist species would show a wider thermal tolerance range (i.e., lower CTmin and higher CTmax) than forest specialist species. As expected, generalist species showed significantly higher CTmax and lower CTmin values than specialist species with wider thermal tolerance ranges than forest specialist species. These differences are more marked in orb weavers than in aerial hunter spiders. Our study supports the specialisation disturbance and thermal hypotheses. It highlights that habitat-specialist species are more vulnerable to environmental changes associated with vegetation structure and microclimatic conditions. Moreover, thermal tolerance is a key response trait to explain the Atlantic Forest spider's ability (or inability) to colonise and persist in human-productive land uses. [ABSTRACT FROM AUTHOR]

Published

2024

25. 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

26. 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

27. Natrix natrix after dark: citizen science sheds light on the common grass snake's nightlife.

Author

Spaseni, Petronel, Sahlean, Tiberiu C., Gherghel, Iulian, Zamfirescu, Stefan R., Petreanu, Ionuţ C., Melenciuc, Raluca, Alistar, Cristina F., Gavril, Viorel D., and Strugariu, Alexandru

Subjects

NATRIX natrix, CITIZEN science, SYMPATRIC speciation, NIGHTLIFE, BEHAVIORAL sciences, COLUBRIDAE

Abstract

Activity patterns in animals are often species-specific, and can be generally categorized as diurnal, crepuscular, or nocturnal. Understanding these patterns provides insight into ecological adaptations and behaviors. The common grass snake (Natrix natrix), one of the most common and widespread European snake species, is traditionally considered diurnal, with scarce evidence of its crepuscular and nocturnal activity. We aimed to document the distribution, environmental conditions, and potential phenotype associations of nighttime activity in N. natrix. We used citizen science data from iNaturalist (1992-2022), Observation.org (2012-2022), together with personal field observations (2010-2023) to collect 127 crepuscular and nocturnal activity records. Most observations occurred between May and August, coinciding with the peak activity period of grass snakes across their distribution range. Statistical analyses revealed no significant difference in mean daily temperatures between crepuscular and nocturnal observations. However, striped individuals displayed nocturnal activity at higher temperatures, consistent with their distribution in warmer regions, but failed to register any difference when tested on a geographic subsample, that accounted for sympatry of the phenotypes. Surprisingly, we found no significant impact of moon presence or moonlight on nighttime activity or age class, contrary to expectations based on other snake species' responses. While our study reveals that nocturnal activity in the common grass snake is geographically widespread, further research is warranted to understand its drivers and ecological implications. This study highlights the value of citizen science platforms for biological and ecological research, offering unparalleled spatial and temporal coverage by their users. In conclusion, our work extends the knowledge of nocturnal behavior in N. natrix and underlines the critical role of citizen science in discovering behavioral aspects of common and widespread species. [ABSTRACT FROM AUTHOR]

Published

2024

28. 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

29. Colonizing polar environments: thermal niche evolution in Collembola.

Author

Escribano‐Álvarez, Pablo, Martinez, Pablo A., Janion‐Scheepers, Charlene, Pertierra, Luis R., and Olalla‐Tárraga, Miguel Á.

Abstract

Temperature is a primary driver to define the ecophysiological activity and performance of ectotherms. Thus, thermal tolerance limits have a profound effect in determining geographic ranges. In regions with extreme cold temperatures, lower thermal limits of species are a key physiological trait for survival. Moreover, thermal niche breadth also plays an important role in allowing organisms to withstand climatic variability and confers species with broader potential to establish in new regions. Here we study the evolution of thermal tolerance limits among Collembola (Arthropoda) and explore how they are affected by the colonization of polar environments. In addition, we test the hypothesis that globally invasive species are more eurythermal than non‐invasive ones. Critical thermal limits (CTmin and CTmax), classic measurements of thermal tolerance, were compiled from the literature and complemented with experimental assays for springtail species. Genetic data of the mitochondrial gene cytochrome oxidase subunit 1 (COI) was used to assemble a phylogeny. Our results show that polar springtails have lower CTmin and lower CTmax compared to species from temperate and tropical regions, consistent with the Polar pressure hypothesis. We found no phylogenetic signal for CTmax, but low values of phylogenetic signal for CTmin. Globally invasive species do not have significantly broader thermal tolerance breadth (CTrange) than non‐invasive ones, thus not supporting the predictions of the Eurythermality hypothesis. We conclude that polar springtails have evolved their thermal niches in order to adapt to extremely cold environments, which has led to decreasing both upper and lower thermal tolerance limits. [ABSTRACT FROM AUTHOR]

Published

2024

30. Interference competition following a recent invasion of plague skinks (Lampropholis delicata) into a nationally critical native skink population.

Author

Wells, Sarah J., van Winkel, Dylan, and Barr, Ben P.

Subjects

*SKINKS, *COMPETITION (Biology), *ECOLOGICAL niche, *BIOLOGICAL invasions, *ENVIRONMENTAL degradation, *INTRODUCED species, *SEBASTES marinus

Abstract

Context: Invasive species can threaten native species through exploitative and interference competition if they occupy similar ecological niches. The invasive plague skink (Lampropholis delicata) has been accidently introduced to New Zealand, Lord Howe Island, and the Hawaiian Islands. Resource usage overlaps between plague skinks and several New Zealand skinks, suggesting the potential for exploitative and interference competition. However, no competitive mechanism or population impact has been identified. In 2014–15, plague skinks colonised Bream Head Scenic Reserve, Northland, New Zealand, where they overlap in occupancy and habitat with the 'Nationally Critical' kakerakau skink (Oligosoma kakerakau). Aims: We investigated intra- and interspecific interference competition between kakerakau and plague skinks in the wild. Methods: We recorded naturally occurring encounters and quantified aggression at a short-lived resource (sun-basking sites). Key results: Behavioural interactions were observed in 72% of all encounters with similar proportions of encounters resulting in agonistic interactions between intraspecific kakerakau skink encounters and interspecific kakerakau-plague encounters. Although kakerakau skinks and plague skinks reacted equally aggressively in an interspecific interaction, kakerakau skinks behaved significantly more aggressively in an interaction with a plague skink than with a conspecific. Juvenile kakerakau skinks were more likely than adults to exhibit submissive behaviours such as fleeing during interspecific interactions. Conclusions: This is the first evidence of interference competition occurring between plague skinks and a native skink. Our study suggests that kakerakau skinks, particularly juveniles, may experience competitive exclusion at important resources. Implications: Our findings indicate that plague skinks may pose a threat to native skink populations when habitat use overlaps. Biological invasions are a major cause of biodiversity loss. However, the behavioural interactions occurring between native and invasive species are often unknown. We report aggression in the wild between the invasive plague skink and a native New Zealand skink. Our study demonstrates that plague skinks may pose a threat to native skinks. [ABSTRACT FROM AUTHOR]

Published

2024

31. Surviving on a Rock, but for How Long? Deviations in the Thermoregulatory Strategy of the Milos Wall Lizard (Podarcis milensis)

Author

Panayiotis Pafilis, Chloe Adamopoulou, Antonis Antonopoulos, Aris Deimezis-Tsikoutas, Apostolos Christopoulos, and Kostas Sagonas

Subjects

ectotherms, thermoregulation, islands, lizards, conservation, global warming, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Reptiles are unable to generate metabolic heat and regulate body temperature behaviorally depending on environmental conditions. The thermal quality of their habitat is therefore of pivotal importance for their survival. Lizards render themselves as ideal ectothermic models, and their thermal biology has been extensively studied. In this work, we focused on the thermoregulatory performance of the endemic Milos wall lizard (Podarcis milensis) (Milos Archipelago, Aegean Sea, Greece). Applying the same standard methodology, we estimated the effectiveness of thermoregulation (E) taking into account the three main thermal parameters: body (Tb, the temperature of active animals in the field), environmental (Te, the temperature that animals would achieve in the field if passively conform to the environment) and preferred temperatures (Tpref, the temperatures an animal achieves in a laboratory thermal gradient). Here, we compare the thermoregulatory profile of two remote rocky islet populations, Falconera and Velopoula, with the Milos Island population. We collected Tb values from active lizards as well as Te from specially designed copper models, which were appropriately placed in the field so as to cover all possible microhabitats. Lizards were then transported to the laboratory where we assessed their Tprefs. Falconera and Velopoula populations showed the same high thermoregulatory effectiveness as that of Milos Island (EFalconera = 0.97, EVelopoula = 0.95, EMilos = 0.89). However, when we used an alternative evaluation of the thermoregulatory strategy, the E values outlined a much more effective thermoregulation for the islets: de-dbFalconera = 6.97, de-dbVelopoula = 11.54, de-dbMilos = 4.27. The adverse conditions on the islets outline a demanding habitat of low thermal quality that dictates effective thermoregulation. However, the trend of increasing temperatures depicts an even harsher environment for the years to come. Could lizards that have already achieved the highest thermoregulatory effectiveness and cannot escape from the isolated islets they dwell cope with these new conditions? This is the kind of questions to which conservation biology will be called upon to respond.

Published

2024

32. Rewilding in cold blood: Restoring functionality in degraded ecosystems using herbivorous reptiles

Author

Gavin Stark and Mauro Galetti

Subjects

Conservation, Ecosystems, Ectotherms, Extinction, Restoration, Translocation, Ecology, QH540-549.5

Abstract

Rewilding constitutes an ecological recovery approach that has been promoted to restore vanished ecological functions by replacing recently extinct or extirpated species through the reintroduction of the missing species or the introduction of their non-native functional analogues. In recent years we have witnessed many rewilding projects worldwide, with emphasis on (re)introducing large-bodied mammals (megafauna) in order to restore top-down trophic interactions and the associated trophic cascades and to promote self-regulating biodiverse ecosystems (i.e., trophic rewilding). However, this emphasis on large-sized mammals in conservation initiatives have ignored the importance of other taxa, such as reptiles, which can equally serve as potential candidates in rewilding projects. There appears to be a gap in the scientific literature in regard to the importance and effect of different taxa with the potential to play equal and important roles in ecosystem functionality and restoration. Consequently, there is a need for a comprehensive and systematic review of the subject. Here, we highlight the significance of rewilding using reptiles, focusing on herbivorous species, for the purpose of ecological restoration; and discuss how the taxonomic bias in rewilding initiatives has led to uneven conservation goals for certain vertebrate groups. Finally, we outline the consequences for reptilian rewilding under climate change and relate to how this group may fare in these conservation initiatives.

Published

2024

33. Natrix natrix after dark: citizen science sheds light on the common grass snake’s nightlife

Author

Petronel Spaseni, Tiberiu C. Sahlean, Iulian Gherghel, Ștefan R. Zamfirescu, Ionuț C. Petreanu, Raluca Melenciuc, Cristina F. Alistar, Viorel D. Gavril, and Alexandru Strugariu

Subjects

Ectotherms, Reptiles, Activity patterns, Nocturnal activity, Crepuscular activity, iNaturalist, Medicine, Biology (General), QH301-705.5

Abstract

Activity patterns in animals are often species-specific, and can be generally categorized as diurnal, crepuscular, or nocturnal. Understanding these patterns provides insight into ecological adaptations and behaviors. The common grass snake (Natrix natrix), one of the most common and widespread European snake species, is traditionally considered diurnal, with scarce evidence of its crepuscular and nocturnal activity. We aimed to document the distribution, environmental conditions, and potential phenotype associations of nighttime activity in N. natrix. We used citizen science data from iNaturalist (1992–2022), Observation.org (2012–2022), together with personal field observations (2010–2023) to collect 127 crepuscular and nocturnal activity records. Most observations occurred between May and August, coinciding with the peak activity period of grass snakes across their distribution range. Statistical analyses revealed no significant difference in mean daily temperatures between crepuscular and nocturnal observations. However, striped individuals displayed nocturnal activity at higher temperatures, consistent with their distribution in warmer regions, but failed to register any difference when tested on a geographic subsample, that accounted for sympatry of the phenotypes. Surprisingly, we found no significant impact of moon presence or moonlight on nighttime activity or age class, contrary to expectations based on other snake species’ responses. While our study reveals that nocturnal activity in the common grass snake is geographically widespread, further research is warranted to understand its drivers and ecological implications. This study highlights the value of citizen science platforms for biological and ecological research, offering unparalleled spatial and temporal coverage by their users. In conclusion, our work extends the knowledge of nocturnal behavior in N. natrix and underlines the critical role of citizen science in discovering behavioral aspects of common and widespread species.

Published

2024

34. 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

35. 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

36. Adaptation of sea turtles to climate warming: Will phenological responses be sufficient to counteract changes in reproductive output?

Author

Fuentes, M. M. P. B., Santos, A. J. B., Abreu‐Grobois, A., Briseño‐Dueñas, R., Al‐Khayat, J., Hamza, S., Saliba, S., Anderson, D., Rusenko, K. W., Mitchell, N. J., Gammon, M., Bentley, B. P., Beton, D., Booth, D. T. B., Broderick, A. C., Colman, L. P., Snape, R. T. E., Calderon‐Campuzano, M. F., Cuevas, E., and Lopez‐Castro, M. C.

Subjects

*GLOBAL warming, *SEA turtles, *PLANT phenology, *OCEAN temperature, *ATMOSPHERIC temperature, *LOW temperatures

Abstract

Sea turtles are vulnerable to climate change since their reproductive output is influenced by incubating temperatures, with warmer temperatures causing lower hatching success and increased feminization of embryos. Their ability to cope with projected increases in ambient temperatures will depend on their capacity to adapt to shifts in climatic regimes. Here, we assessed the extent to which phenological shifts could mitigate impacts from increases in ambient temperatures (from 1.5 to 3°C in air temperatures and from 1.4 to 2.3°C in sea surface temperatures by 2100 at our sites) on four species of sea turtles, under a "middle of the road" scenario (SSP2‐4.5). Sand temperatures at sea turtle nesting sites are projected to increase from 0.58 to 4.17°C by 2100 and expected shifts in nesting of 26–43 days earlier will not be sufficient to maintain current incubation temperatures at 7 (29%) of our sites, hatching success rates at 10 (42%) of our sites, with current trends in hatchling sex ratio being able to be maintained at half of the sites. We also calculated the phenological shifts that would be required (both backward for an earlier shift in nesting and forward for a later shift) to keep up with present‐day incubation temperatures, hatching success rates, and sex ratios. The required shifts backward in nesting for incubation temperatures ranged from −20 to −191 days, whereas the required shifts forward ranged from +54 to +180 days. However, for half of the sites, no matter the shift the median incubation temperature will always be warmer than the 75th percentile of current ranges. Given that phenological shifts will not be able to ameliorate predicted changes in temperature, hatching success and sex ratio at most sites, turtles may need to use other adaptive responses and/or there is the need to enhance sea turtle resilience to climate warming. [ABSTRACT FROM AUTHOR]

Published

2024

37. 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

38. Predicting movement speed of beetles from body size and temperature

Author

Jördis F. Terlau, Ulrich Brose, Thomas Boy, Samraat Pawar, Malin Pinsky, and Myriam R. Hirt

Subjects

Exploratory speed, Climate warming, Image-based tracking, Movement ecology, Ectotherms, Thermal response, Biology (General), QH301-705.5

Abstract

Abstract Movement facilitates and alters species interactions, the resulting food web structures, species distribution patterns, community structures and survival of populations and communities. In the light of global change, it is crucial to gain a general understanding of how movement depends on traits and environmental conditions. Although insects and notably Coleoptera represent the largest and a functionally important taxonomic group, we still know little about their general movement capacities and how they respond to warming. Here, we measured the exploratory speed of 125 individuals of eight carabid beetle species across different temperatures and body masses using automated image-based tracking. The resulting data revealed a power-law scaling relationship of average movement speed with body mass. By additionally fitting a thermal performance curve to the data, we accounted for the unimodal temperature response of movement speed. Thereby, we yielded a general allometric and thermodynamic equation to predict exploratory speed from temperature and body mass. This equation predicting temperature-dependent movement speed can be incorporated into modeling approaches to predict trophic interactions or spatial movement patterns. Overall, these findings will help improve our understanding of how temperature effects on movement cascade from small to large spatial scales as well as from individual to population fitness and survival across communities.

Published

2023

39. 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

40. 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

41. 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

42. Small Island Effects on the Thermal Biology of the Endemic Mediterranean Lizard Podarcis gaigeae.

Author

Reppa, Aikaterini, Agori, Ariadne Faidra, Santikou, Panayiota, Parmakelis, Aristeidis, Pafilis, Panayiotis, Valakos, Efstratios D., and Sagonas, Kostas

Subjects

*LACERTIDAE, *GEOTHERMAL ecology, *LIZARDS, *LIZARD populations, *BIOLOGY, *BODY temperature

Abstract

Simple Summary: As ectotherms that do not produce metabolic heat to regulate their body temperature, lizards largely rely on the thermal quality of the environment for most aspects of their biology. To compensate for geographically induced changes in the thermal environment, different lizard populations within a single species should either regulate their behavior or shift their thermal preferences, responding to directional selection. Here, we studied the thermal ecology of the endemic Skyros wall lizard (Podarcis gaigeae) and assessed the influence of thermal habitat quality on body temperature and preferred body temperatures. Our findings suggest that the species thermoregulate effectively in a wide variety of habitats and support the view that the thermal characteristics of certain species are plastic and respond to environmental changes. Ectotherms are vastly affected by climatic conditions as they rely on external sources of heat to regulate their body temperature, and changes in their habitat thermal quality could seriously affect their overall biology. To overcome the problems of a thermally unfavorable habitat, lizards need to either adjust their thermoregulatory behavior or respond to directional selection and shift their preferred body temperatures. To assess the impact of habitat thermal quality on the thermoregulatory profile, we studied multiple islet and 'mainland' populations of the Skyros wall lizard Podarcis gaigeae, an endemic lacertid to Skyros Archipelago, Greece. We evaluated the effectiveness of thermoregulation (E) using the three main thermal parameters: body (Tb), operative (Te), and preferred (Tpref) temperatures. We first hypothesized that the spatial homogeneity, the scarcity of thermal shelters, and the exposure to higher winds on islets would result in more demanding climate conditions. Second, we anticipated that islet lizards would achieve higher E in response to the lower thermal quality therein. As hypothesized, thermal parameters differed between populations but not in the expected manner. Skyros 'mainland' habitats reached higher temperatures, had more intense fluctuations, and were of lower thermal quality. As a result, lizards showed higher accuracy, precision, and effectiveness of thermoregulation. Noteworthy, we found that lizards from different populations have shifted their thermal profile and preferred body temperatures to cope with the particular conditions prevailing in their habitats. The latter supports the labile view on the evolution of thermoregulation. [ABSTRACT FROM AUTHOR]

Published

2023

43. Effects of heat waves on telomere dynamics and parental brooding effort in nestlings of the zebra finch (Taeniopygia castanotis) transitioning from ectothermy to endothermy.

Author

Ton, Riccardo, Boner, Winnie, Raveh, Shirley, Monaghan, Pat, and Griffith, Simon C.

Subjects

*TELOMERES, *HEAT waves (Meteorology), *ZEBRA finch, *ANIMAL clutches, *PARENTAL influences, *THERMAL stresses

Abstract

Heat waves are predicted to be detrimental for organismal physiology with costs for survival that could be reflected in markers of biological state such as telomeres. Changes in early life telomere dynamics driven by thermal stress are of particular interest during the early post‐natal stages of altricial birds because nestlings quickly shift from being ectothermic to endothermic after hatching. Telomeres of ectothermic and endothermic organisms respond differently to environmental temperature, but few investigations within species that transition from ectothermy to endothermy are available. Also, ambient temperature influences parental brooding behaviour, which will alter the temperature experienced by offspring and thereby, potentially, their telomeres. We exposed zebra finch nestlings to experimental heat waves and compared their telomere dynamics to that of a control group at 5, 12 and 80 days of age that encapsulate the transition from the ectothermic to the endothermic thermoregulatory stage; we also recorded parental brooding, offspring sex, mass, growth rates, brood size and hatch order. Nestling mass showed an inverse relationship with telomere length, and nestlings exposed to heat waves showed lower telomere attrition during their first 12 days of life (ectothermic stage) compared to controls. Additionally, parents of heated broods reduced the time they spent brooding offspring (at 5 days old) compared to controls. Our results indicate that the effect of heat waves on telomere dynamics likely varies depending on age and thermoregulatory stage of the offspring in combination with parental brooding behaviour during growth. [ABSTRACT FROM AUTHOR]

Published

2023

44. 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

45. Thermoregulatory ability and mechanism do not differ consistently between neotropical and temperate butterflies.

Author

Laird‐Hopkins, Benita C., Ashe‐Jepson, Esme, Basset, Yves, Arizala Cobo, Stephany, Eberhardt, Lucy, Freiberga, Inga, Hellon, Josh, Hitchcock, Gwen E., Kleckova, Irena, Linke, Daniel, Lamarre, Greg P. A., McFarlane, Alex, Savage, Amanda F., Turner, Edgar C., Zamora, Ana Cecilia, Sam, Katerina, and Bladon, Andrew J.

Subjects

*BODY temperature, *BUTTERFLIES, *ATMOSPHERIC temperature, *NYMPHALIDAE, *TEMPERATURE measurements, *TEMPERATE climate, *CLIMATE change

Abstract

Climate change is a major threat to species worldwide, yet it remains uncertain whether tropical or temperate species are more vulnerable to changing temperatures. To further our understanding of this, we used a standardised field protocol to (1) study the buffering ability (ability to regulate body temperature relative to surrounding air temperature) of neotropical (Panama) and temperate (the United Kingdom, Czech Republic and Austria) butterflies at the assemblage and family level, (2) determine if any differences in buffering ability were driven by morphological characteristics and (3) used ecologically relevant temperature measurements to investigate how butterflies use microclimates and behaviour to thermoregulate. We hypothesised that temperate butterflies would be better at buffering than neotropical butterflies as temperate species naturally experience a wider range of temperatures than their tropical counterparts. Contrary to our hypothesis, at the assemblage level, neotropical species (especially Nymphalidae) were better at buffering than temperate species, driven primarily by neotropical individuals cooling themselves more at higher air temperatures. Morphology was the main driver of differences in buffering ability between neotropical and temperate species as opposed to the thermal environment butterflies experienced. Temperate butterflies used postural thermoregulation to raise their body temperature more than neotropical butterflies, probably as an adaptation to temperate climates, but the selection of microclimates did not differ between regions. Our findings demonstrate that butterfly species have unique thermoregulatory strategies driven by behaviour and morphology, and that neotropical species are not likely to be more inherently vulnerable to warming than temperate species. [ABSTRACT FROM AUTHOR]

Published

2023

46. The ecological relevance of critical thermal maxima methodology for fishes.

Author

Desforges, Jessica E., Birnie‐Gauvin, Kim, Jutfelt, Fredrik, Gilmour, Kathleen M., Eliason, Erika J., Dressler, Terra L., McKenzie, David J., Bates, Amanda E., Lawrence, Michael J., Fangue, Nann, and Cooke, Steven J.

Subjects

*COMMON misconceptions, *SPECIES distribution, *ACCLIMATIZATION, *CLIMATE change, *INFRASTRUCTURE (Economics), *GEOTHERMAL ecology

Abstract

Critical thermal maxima methodology (CTM) has been used to infer acute upper thermal tolerance in fishes since the 1950s, yet its ecological relevance remains debated. In this study, the authors synthesize evidence to identify methodological concerns and common misconceptions that have limited the interpretation of critical thermal maximum (CTmax; value for an individual fish during one trial) in ecological and evolutionary studies of fishes. They identified limitations of, and opportunities for, using CTmax as a metric in experiments, focusing on rates of thermal ramping, acclimation regimes, thermal safety margins, methodological endpoints, links to performance traits and repeatability. Care must be taken when interpreting CTM in ecological contexts, because the protocol was originally designed for ecotoxicological research with standardized methods to facilitate comparisons within study individuals, across species and contexts. CTM can, however, be used in ecological contexts to predict impacts of environmental warming, but only if parameters influencing thermal limits, such as acclimation temperature or rate of thermal ramping, are taken into account. Applications can include mitigating the effects of climate change, informing infrastructure planning or modelling species distribution, adaptation and/or performance in response to climate‐related temperature change. The authors' synthesis points to several key directions for future research that will further aid the application and interpretation of CTM data in ecological contexts. [ABSTRACT FROM AUTHOR]

Published

2023

47. A genome-wide RNAi screen for genes important for proliferation of cultured Drosophila cells at low temperature identifies the Ball/VRK protein kinase.

Author

Mendaluk, Anna, Caussinus, Emmanuel, Boutros, Michael, and Lehner, Christian F.

Subjects

*PROTEIN kinases, *LOW temperatures, *HEAT shock proteins, *NUCLEAR membranes, *DROSOPHILA, *IMAGINAL disks, *TEMPERATURE effect

Abstract

A change in ambient temperature is predicted to disrupt cellular homeostasis by affecting all cellular processes in an albeit non-uniform manner. Diffusion is generally less temperature-sensitive than enzymes, for example, and each enzyme has a characteristic individual temperature profile. The actual effects of temperature variation on cells are still poorly understood at the molecular level. Towards an improved understanding, we have performed a genome-wide RNA interference screen with S2R + cells. This Drosophila cell line proliferates over a temperature range comparable to that tolerated by the parental ectothermic organism. Based on effects on cell counts and cell cycle profile after knockdown at 27 and 17 °C, respectively, genes were identified with an apparent greater physiological significance at one or the other temperature. While 27 °C is close to the temperature optimum, the substantially lower 17 °C was chosen to identify genes important at low temperatures, which have received less attention compared to the heat shock response. Among a substantial number of screen hits, we validated a set successfully in cell culture and selected ballchen for further evaluation in the organism. This gene encodes the conserved metazoan VRK protein kinase that is crucial for the release of chromosomes from the nuclear envelope during mitosis. Our analyses in early embryos and larval wing imaginal discs confirmed a higher requirement for ballchen function at temperatures below the optimum. Overall, our experiments validate the genome-wide screen as a basis for future characterizations of genes with increased physiological significance at the lower end of the readily tolerated temperature range. [ABSTRACT FROM AUTHOR]

Published

2023

48. Ageing across the great divide: tissue transformation, organismal growth and temperature shape telomere dynamics through the metamorphic transition.

Author

Burraco, Pablo, Hernandez-Gonzalez, Miguel, Metcalfe, Neil B., and Monaghan, Pat

Subjects

*GLOBAL warming, *XENOPUS laevis, *CELLULAR aging, *RESORPTION (Physiology), *TELOMERES, *METAMORPHOSIS

Abstract

Telomere attrition is considered a useful indicator of cellular and whole-organism ageing rate. While approximately 80% of animal species undergo metamorphosis that includes extensive tissue transformations (involving cell division, apoptosis, de-differentiation and de novo formation of stem cells), the effect on telomere dynamics is unknown. We measured telomeres in Xenopus laevis developing from larvae to adults under contrasting environmental temperatures. Telomere dynamics were linked to the degree of tissue transformation during development. Average telomere length in gut tissue increased dramatically during metamorphosis, when the gut shortens by 75% and epithelial cells de-differentiate into stem cells. In the liver (retained from larva) and hindlimb muscle (newly formed before metamorphosis), telomeres gradually shortened until adulthood, likely due to extensive cell division. Tail muscle telomere lengths were constant until tail resorption, and those in heart (retained from larva) showed no change over time. Telomere lengths negatively correlated with larval growth, but for a given growth rate, telomeres were shorter in cooler conditions, suggesting that growing in the cold is more costly. Telomere lengths were not related to post-metamorphic growth rate. Further research is now needed to understand whether telomere dynamics are a good indicator of ageing rate in species undergoing metamorphosis. [ABSTRACT FROM AUTHOR]

Published

2023

49. Environmental temperature predicts resting metabolic rates in tropidurinae lizards.

Author

Giacometti, Danilo, Bars‐Closel, Melissa, Kohlsdorf, Tiana, de Carvalho, José Eduardo, and Cury de Barros, Fábio

Subjects

*ECOPHYSIOLOGY, *LIZARDS, *ECOLOGICAL niche, *TEMPERATURE, *MAINTENANCE costs

Abstract

Interspecific variation in metabolic rates may be associated with climate, habitat structure, and resource availability. Despite a strong link between ecology and physiology, there is a dearth in the understanding of how the costs of body maintenance change during ecological transitions. We focused on an ecologically diverse group of neotropical lizards (Tropidurinae) to investigate whether and how resting metabolic rate (RMR) evolved under divergent micro‐ and macrohabitat conditions. Using a phylogenetic framework, we tested whether species from hot and dry habitats had lower RMRs in relation to those from cooler and mesic habitats, and investigated whether microhabitat usage had an effect over body mass‐adjusted RMRs. Our results suggest that RMRs are not phylogenetically structured in Tropidurinae. We found no correlation between metabolism, precipitation, and microhabitat usage. Species from warmer habitats had lower RMR compared to those from cooler habitats, supporting a mechanism of negative compensation in metabolic responses to temperature. Ectotherms from warmer habitats can limit energetic demand and expenditure through reduced RMR, whereas those from cooler habitats may sustain activity despite thermal constraints via increased RMR. Our work highlights the role of temperature in shaping metabolic responses in lizards, giving additional support to the notion that physiology and ecological contexts are intertwined. Research Highlights: Interspecific variation in metabolic rates of Tropidurinae lizards is explained by differences in habitat temperature. Species from warmer habitats showed lower resting metabolic rates than those from cooler habitats, supporting a mechanism of negative compensation in metabolic responses to temperature. [ABSTRACT FROM AUTHOR]

Published

2022

50. 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