Your search keyword '"SURVIVAL behavior (Animals)"' showing total 4,017 results

1. Functional diversity along the anteroposterior axis of the ventromedial hypothalamus.

Author

Gutierrez‐Castellanos, Nicolas, Dias, Inês C., Husain, Basma F. A., and Lima, Susana

Subjects

*SURVIVAL behavior (Animals), *HYPOTHALAMUS, *BIOLOGICAL fitness, *ANIMAL behavior, *HUMAN sexuality

Abstract

Innate behaviors ensure animal survival and reproductive success. Defending their territory, escaping from predators or mating with a sexual partner, are fundamental behaviors determining the ecological fitness of individuals. Remarkably, all these behaviors share a common neural substrate, as they are under the control of the ventromedial hypothalamus (VMH). Decades of research have contributed to understanding the exquisite diversity of functional ensembles underlying the wide array of functions that the VMH carries out. These functional ensembles are usually distributed throughout the dorsoventral and mediolateral axes of this nucleus. However, increasing evidence is bringing to attention the functional diversity of the VMH across its anteroposterior axis. In this review, we will overview our current understanding of how different ensembles within the VMH control a wide array of animal behaviors, emphasizing the newly discovered roles for its anterior subdivision in the context of conspecific self‐defense. [ABSTRACT FROM AUTHOR]

Published

2024

2. Learning Rich Feature Representation and State Change Monitoring for Accurate Animal Target Tracking.

Author

Yin, Kuan, Feng, Jiangfan, and Dong, Shaokang

Subjects

*ANIMAL tracks, *SURVIVAL behavior (Animals), *ANIMAL mechanics, *ANIMAL behavior, *BEHAVIORAL research, *ANIMAL migration, *HABITAT selection, *HUMAN-animal relationships

Abstract

Simple Summary: Animal movement trajectories are effective indicators of key information such as social behavior, food acquisition, reproduction, migration, and survival strategies in animal behavior analysis. However, manual observation is still relied upon in many analysis scenarios, which is inefficient and error-prone. This paper introduces a computer vision-based method for tracking animal trajectories, which enables monitoring and accurate acquisition of individual target animal movement trajectories over extended periods, overcoming the limitations of manual observation. The experiments demonstrate that the method is efficient and accurate in tracking animals in complex scenes, providing essential basic data for animal behavior analysis and having a wide range of potential applications. Animal tracking is crucial for understanding migration, habitat selection, and behavior patterns. However, challenges in video data acquisition and the unpredictability of animal movements have hindered progress in this field. To address these challenges, we present a novel animal tracking method based on correlation filters. Our approach integrates hand-crafted features, deep features, and temporal context information to learn a rich feature representation of the target animal, enabling effective monitoring and updating of its state. Specifically, we extract hand-crafted histogram of oriented gradient features and deep features from different layers of the animal, creating tailored fusion features that encapsulate both appearance and motion characteristics. By analyzing the response map, we select optimal fusion features based on the oscillation degree. When the target animal's state changes significantly, we adaptively update the target model using temporal context information and robust feature data from the current frame. This updated model is then used for re-tracking, leading to improved results compared to recent mainstream algorithms, as demonstrated in extensive experiments conducted on our self-constructed animal datasets. By addressing specific challenges in animal tracking, our method offers a promising approach for more effective and accurate animal behavior research. [ABSTRACT FROM AUTHOR]

Published

2024

3. Movement predictability of individual barn owls facilitates estimation of home range size and survival.

Author

Cain, Shlomo, Solomon, Tovale, Leshem, Yossi, Toledo, Sivan, Arnon, Eitam, Roulin, Alexandre, and Spiegel, Orr

Subjects

BARN owl, SPATIAL behavior, PERSONALITY, SOCIABILITY, OWLS, SURVIVAL rate, SURVIVAL behavior (Animals)

Abstract

Background: There is growing attention to individuality in movement, its causes and consequences. Similarly to other well-established personality traits (e.g., boldness or sociability), conspecifics also differ repeatedly in their spatial behaviors, forming behavioral types ("spatial-BTs"). These spatial-BTs are typically described as the difference in the mean-level among individuals, and the intra-individual variation (IIV, i.e., predictability) is only rarely considered. Furthermore, the factors determining predictability or its ecological consequences for broader space-use patterns are largely unknown, in part because predictability was mostly tested in captivity (e.g., with repeated boldness assays). Here we test if (i) individuals differ in their movement and specifically in their predictability. We then investigate (ii) the consequences of this variation for home-range size and survival estimates, and (iii) the factors that affect individual predictability. Methods: We tracked 92 barn owls (Tyto alba) with an ATLAS system and monitored their survival. From these high-resolution (every few seconds) and extensive trajectories (115.2 ± 112.1 nights; X̅ ± SD) we calculated movement and space-use indices (e.g., max-displacement and home-range size, respectively). We then used double-hierarchical and generalized linear mix-models to assess spatial-BTs, individual predictability in nightly max-displacement, and its consistency across time. Finally, we explored if predictability levels were associated with home-range size and survival, as well as the seasonal, geographical, and demographic factors affecting it (e.g., age, sex, and owls' density). Results: Our dataset (with 74 individuals after filtering) revealed clear patterns of individualism in owls' movement. Individuals differed consistently both in their mean movement (e.g., max-displacement) and their IIV around it (i.e., predictability). More predictable individuals had smaller home-ranges and lower survival rates, on top and beyond the expected effects of their spatial-BT (max-displacement), sex, age and ecological environments. Juveniles were less predictable than adults, but the sexes did not differ in their predictability. Conclusion: These results demonstrate that individual predictability may act as an overlooked axis of spatial-BT with potential implications for relevant ecological processes at the population level and individual fitness. Considering how individuals differ in their IIV of movement beyond the mean-effect can facilitate understanding the intraspecific diversity, predicting their responses to changing ecological conditions and their population management. [ABSTRACT FROM AUTHOR]

Published

2023

4. GENETICALLY BLOATED BEASTS.

Author

Fox, Douglas

Subjects

*SALAMANDERS, *SURVIVAL behavior (Animals), *EVOLUTIONARY theories, *SALAMANDER behavior, *GENOMES, *BIOLOGICAL evolution

Abstract

The article explores the implication of the perseverance of salamanders for the theory of evolution. Salamanders are known for their sluggish existence due to the fact that their genomes are 300 times larger than a lizard, bird or mammal and for their survival by lying around instead of following the survival of the fittest theory of evolution. Also cited is the tendency of giant genomes to distort bodies. It mentions the gradual evolution of the bloated genome of the salamander.

Published

2022

5. Thermal acclimation and habitat-dependent differences in temperature robustness of a crustacean motor circuit.

Author

Stein, Wolfgang, Torres, Gabriela, Giménez, Luis, Espinosa-Novo, Noé, Geißel, Jan Phillipp, Vidal-Gadea, Andrés, and Harzsch, Steffen

Subjects

ACCLIMATIZATION, SURVIVAL behavior (Animals), ION channels, CARCINUS maenas, COLD-blooded animals, WATER temperature, CRUSTACEA

Abstract

Introduction: At the cellular level, acute temperature changes alter ionic conductances, ion channel kinetics, and the activity of entire neuronal circuits. This can result in severe consequences for neural function, animal behavior and survival. In poikilothermic animals, and particularly in aquatic species whose core temperature equals the surrounding water temperature, neurons experience rather rapid and wide-ranging temperature fluctuations. Recent work on pattern generating neural circuits in the crustacean stomatogastric nervous system have demonstrated that neuronal circuits can exhibit an intrinsic robustness to temperature fluctuations. However, considering the increased warming of the oceans and recurring heatwaves due to climate change, the question arises whether this intrinsic robustness can acclimate to changing environmental conditions, and whether it differs between species and ocean habitats. Methods: We address these questions using the pyloric pattern generating circuits in the stomatogastric nervous system of two crab species, Hemigrapsus sanguineus and Carcinus maenas that have seen a worldwide expansion in recent decades. Results and discussion: Consistent with their history as invasive species, we find that pyloric activity showed a broad temperature robustness (>30°C). Moreover, the temperature-robust range was dependent on habitat temperature in both species. Warm-acclimating animals shifted the critical temperature at which circuit activity breaks down to higher temperatures. This came at the cost of robustness against cold stimuli in H. sanguineus, but not in C. maenas. Comparing the temperature responses of C. maenas from a cold latitude (the North Sea) to those from a warm latitude (Spain) demonstrated that similar shifts in robustness occurred in natural environments. Our results thus demonstrate that neuronal temperature robustness correlates with, and responds to, environmental temperature conditions, potentially preparing animals for changing ecological conditions and shifting habitats. [ABSTRACT FROM AUTHOR]

Published

2023

6. Plateau pikas near roads are bold and silent when facing a potential predator.

Author

Zhu, Bicheng, Qu, Jiapeng, and Cui, Jianguo

Subjects

*SURVIVAL behavior (Animals), *ANIMAL behavior

Abstract

Human disturbance, particularly road traffic, is one of the greatest threats to wildlife. Considering the association between alerting behavior and the survival of animals, it is important to study the effects of road traffic on alerting behavior of wildlife. Previous studies assessing the short-term impact of road traffic on alerting behavior of wildlife have focused on vigilance distances. However, studies on the use of alarm calls are scarce, and it is unclear whether such behavioral responses change after repeated exposure to road traffic. We assessed the alerting behavior of plateau pikas (Ochotona curzoniae) who were near or far from roads when facing a potential predator. We found that pikas near roads exhibited shorter vigilance and tolerance distances, and produced fewer alarm calls than those relatively far away from roads. Furthermore, both vigilance and tolerance distances of plateau pikas were significantly positively correlated with the distance from the burrow to the road. Road traffic reduced antipredator responses and shaped alerting behavior; that is, pikas near roads were bolder and more silent compared to those far away from roads. Our findings suggest that increasing urbanization will have corresponding effects on animal behavior, which may have significant fitness effects in the future. [ABSTRACT FROM AUTHOR]

Published

2023

7. Individual identification of endangered amphibians using deep learning and smartphone images: case study of the Japanese giant salamander (Andrias japonicus).

Author

Takaya, Kosuke, Taguchi, Yuki, and Ise, Takeshi

Subjects

*DEEP learning, *SURVIVAL behavior (Animals), *SALAMANDERS, *SMARTPHONES, *AMPHIBIANS, *ENDANGERED species

Abstract

Information obtained via individual identification is invaluable for ecology and conservation. Physical tags, such as PIT tags and GPS, have been used for individual identification; however, these methods could impact on animal behavior and survival rates, and the tags may become lost. Although non-invasive methods that do not affect the target species (such as manual photoidentification) are available, these techniques utilize stripes and spots that are unique to the individual, which requires training, and applying them to large datasets is challenging. Many studies that have applied deep learning for identification have focused on species-level identification, but few have addressed individual-level identification. In this study, we developed an image-based identification method based on deep learning that uses the head spot pattern of the Japanese giant salamander (Andrias japonicus), an endemic and endangered species in Japan. We trained and evaluated a dataset collected over two days from 11 individuals in captivity, which included 7075 images taken by a smartphone camera. Individuals were photographed three times a day at approximately 11:00 (morning), 15:00 (afternoon), and 18:00 (evening). As a result, individual identification by our method, which used the EfficientNetV2 achieved 99.86% accuracy, kappa coefficient of 0.99, and an F1 score of 0.99. Performance was lower for the evening model than for the morning and afternoon models, which were trained and evaluated using photographs taken at the corresponding time of the day. The proposed method does not require direct contact with the target species, and the effect on the animals is minimal; moreover, individual-level information can be obtained under natural conditions. In the future, smartphone images can be applied to citizen science surveys and individual-level big data collection, which is difficult using current methods. [ABSTRACT FROM AUTHOR]

Published

2023

8. 基于脑小血管病临床脑血流特点构建并评估 不完全性全脑缺血再灌注大鼠模型

Author

王珊珊, 徐昊, 侯培媚, 李泽康, 周丽娟, and 葛金文

Subjects

*CEREBRAL small vessel diseases, *SURVIVAL behavior (Animals), *HYPOTHALAMUS, *SPECKLE interference, *EQUILIBRIUM testing

Abstract

AIM: To construct and evaluate an incomplete global cerebral ischemia-reperfusion rat model based on the hemodynamic characteristics of cerebral small vessel disease （CSVD）, so as to provide an ideal rat model for investigating ischemic cerebrovascular diseases such as CSVD. METHODS: A total of 126 male SD rats were divided into sham, minor, and serious groups （n=42）. The bilateral common carotid artery clamp-open circulation operation was used to construct the incomplete global cerebral ischemia-reperfusion rat model, and real-time changes of cerebral hemodynamics were assessed by a laser speckle blood flow imaging system. At 2, 24 and 72 h after the model was constructed, the survival rate and animal behavior （beam balance test, BBT） score were evaluated, and the materials of the model animals were taken. HE staining was used to observe the histopathological changes in different brain regions of the rats, and non-targeted metabonomics was utilized to analyze the different metabolites in the rat plasma and cerebral cortex, thus evaluating the damage degree. RESULTS: The average survival rates of rats in minor and serious groups were 83. 2% and 73. 7% （P<0. 05）, and the mean residual cerebral blood flow rates were 56. 3% and 40. 9%, respectively. The BBT scores at 2, 24 and 72 h after modeling in minor and serious groups were higher than those in sham group （P<0. 05）. The HE staining results showed that the neurons in the extensive cerebral cortex （especially in M1 and RSA）, ventrolateral part of ventromedial hypothalamus （VMHvl） and hippocampal C2 region showed morphological changes at different degrees. The non-targeted metabonomics analysis revealed a total of 45 differential metabolites in the plasma of sham and serious groups, comprising 33 up-regulated and 12 down-regulated metabolites. In addition, the RSA exhibited 19 differential metabolites, including 6 up-regulated and 13 down-regulated metabolites. This finding suggests that the modeling disrupted neuroendocrine function in the rats. CONCLUSION: The bilateral common carotid artery occlusion and open circulation model can lead to diffuse and extensive damage to the cerebral cortex, VMHvl, and hippocampal C2 region in rats, and the injury mechanism may be linked to metabolic disorders, oxidative stress damage, and other factors. This model provides a new experimental model for investigating repeated ischemia-reperfusion injury in rats with CSVD. [ABSTRACT FROM AUTHOR]

Published

2023

9. Protecting the Piping Plover.

Author

Montanaro, Lenore M.

Subjects

PIPING plover, BIRD conservation, ENDANGERED Species Act of 1973 (U.S.), MIGRATORY Bird Treaty Act (U.S. : 1918), ENVIRONMENTAL law, SURVIVAL behavior (Animals), BIODIVERSITY, BIRD habitats

Abstract

The article takes a look at the legal protections for piping plovers. Topics discussed include connections between humans and wildlife relevant to piping plovers, protection of the piping plover under the Endangered Species Act, Migratory Bird Treaty Act and the National Environmental Policy Act, the need for humans to be educated about ways to harmonize with piping plovers for their survival, and implications of the presence or absence of piping plovers for biodiversity and health of habitats.

Published

2023

10. CNS serotonin content mediating food deprivation-enhanced learning is regulated by hemolymph tryptophan concentration and autophagic flux in the pond snail.

Author

Totani, Yuki, Nakai, Junko, Hatakeyama, Dai, Dyakonova, Varvara E., Lukowiak, Ken, and Ito, Etsuro

Subjects

*TRYPTOPHAN, *HEMOLYMPH, *SURVIVAL behavior (Animals), *SEROTONIN, *SNAILS

Abstract

Nutritional status affects cognitive function in many types of organisms. In the pond snail Lymnaea stagnalis, 1 day of food deprivation enhances taste aversion learning ability by decreasing the serotonin (5-hydroxytryptamin; 5-HT) content in the central nervous system (CNS). On the other hand, after 5 days of food deprivation, learning ability and the CNS 5-HT concentration return to basal levels. How food deprivation leads to alterations of 5-HT levels in the CNS, however, is unknown. Here, we measured the concentration of the 5-HT precursor tryptophan in the hemolymph and CNS, and demonstrated that the CNS tryptophan concentration was higher in 5-day food-deprived snails than in non-food-deprived or 1-day food-deprived snails, whereas the hemolymph tryptophan concentration was not affected by the duration of food deprivation. This finding suggests the existence of a mediator of the CNS tryptophan concentration independent of food deprivation. To identify the mediator, we investigated autophagic flux in the CNS under different food deprivation conditions. We found that autophagic flux was significantly upregulated by inhibition of the tropomyosin receptor kinase (Trk)-Akt-mechanistic target of rapamycin complex 1 (MTORC1) pathway in the CNS of 5-day food-deprived snails. Moreover, when autophagy was inhibited, the CNS 5-HT content was significantly downregulated in 5-day food-deprived snails. Our results suggest that the hemolymph tryptophan concentration and autophagic flux in the CNS cooperatively regulate learning ability affected by different durations of food deprivation. This mechanism may underlie the selection of behaviors appropriate for animal survival depending on the degree of nutrition. [ABSTRACT FROM AUTHOR]

Published

2023

11. On the performance analysis of solving the Rubik's cube using swarm intelligence algorithms.

Author

Jeevan, Jishnu and Nair, Madhu S.

Subjects

*SWARM intelligence, *ANT algorithms, *SURVIVAL behavior (Animals), *PARTICLE swarm optimization, *CUBES, *FISH schooling, *REPRODUCTION

Abstract

Swarm intelligence algorithms are nature-inspired algorithms that mimic natural phenomena to solve optimization problems. These natural phenomena are intelligent animal behavior used by animals for survival from hunting prey, migration, escaping predators, and reproduction. Some examples are ant colonies, flocking of birds, tracking patterns of hawks, herding behaviour of animals, bacterial growth, fish schooling, and intelligent microbial organisms. The Rubik's cube is a 3D combinatorial puzzle with six faces covered by nine stickers of colors: white, red, blue, orange, green, and yellow. The objective is to turn the scrambled cube, where each side will have more than one colour, into a solved cube having only one colour on each side. This study uses the following algorithms - particle swarm optimization, ant colony optimization, discrete krill herd optimization, and a greedy tree search algorithm - to investigate which of the four can solve the Rubik's cube in the shortest time using the shortest possible move sequence and show that swarm intelligence algorithms are capable of solving the Rubik's cube. [ABSTRACT FROM AUTHOR]

Published

2022

12. Microengineered devices enable long-term imaging of the ventral nerve cord in behaving adult Drosophila.

Author

Hermans, Laura, Kaynak, Murat, Braun, Jonas, Ríos, Victor Lobato, Chen, Chin-Lin, Friedberg, Adam, Günel, Semih, Aymanns, Florian, Sakar, Mahmut Selman, and Ramdya, Pavan

Subjects

SURVIVAL behavior (Animals), DROSOPHILA, NERVE endings, DROSOPHILA melanogaster, MINIMALLY invasive procedures, BIOLOGICAL networks

Abstract

The dynamics and connectivity of neural circuits continuously change on timescales ranging from milliseconds to an animal's lifetime. Therefore, to understand biological networks, minimally invasive methods are required to repeatedly record them in behaving animals. Here we describe a suite of devices that enable long-term optical recordings of the adult Drosophila melanogaster ventral nerve cord (VNC). These consist of transparent, numbered windows to replace thoracic exoskeleton, compliant implants to displace internal organs, a precision arm to assist implantation, and a hinged stage to repeatedly tether flies. To validate and illustrate our toolkit we (i) show minimal impact on animal behavior and survival, (ii) follow the degradation of chordotonal organ mechanosensory nerve terminals over weeks after leg amputation, and (iii) uncover waves of neural activity caffeine ingestion. Thus, our long-term imaging toolkit opens up the investigation of premotor and motor circuit adaptations in response to injury, drug ingestion, aging, learning, and disease. Minimally invasive procedures for tracking neural activity are important for understanding of neural networks. Here the authors describe microfabricated implants and windows that enable long-term recordings of motor circuit activity in Drosophila, allowing them to watch how neurons change their structure and activity over weeks. [ABSTRACT FROM AUTHOR]

Published

2022

13. Layers of Phenomena: Facilitating three-dimensional experiences for fourth-grade students.

Author

Boling, Joshua

Subjects

SURVIVAL behavior (Animals), SPECIAL needs students

Abstract

Half of the students were adamant the lynx would definitely catch the hare, and the others were convinced that the hare would be able to escape and hide. Students edged forward in their seats as the Canadian lynx slinked toward the snowshoe hare. Student/teacher-created rubrics (see Supplemental Resources) would guide the quality of students' scientific drawings and writing. [Extracted from the article]

Published

2022

14. Neuromodulation Enables Temperature Robustness and Coupling Between Fast and Slow Oscillator Circuits.

Author

Städele, Carola and Stein, Wolfgang

Subjects

SURVIVAL behavior (Animals), NEUROMODULATION, NEURAL circuitry, TEMPERATURE effect, CENTRAL pattern generators

Abstract

Acute temperature changes can disrupt neuronal activity and coordination with severe consequences for animal behavior and survival. Nonetheless, two rhythmic neuronal circuits in the crustacean stomatogastric ganglion (STG) and their coordination are maintained across a broad temperature range. However, it remains unclear how this temperature robustness is achieved. Here, we dissociate temperature effects on the rhythm generating circuits from those on upstream ganglia. We demonstrate that heat-activated factors extrinsic to the rhythm generators are essential to the slow gastric mill rhythm's temperature robustness and contribute to the temperature response of the fast pyloric rhythm. The gastric mill rhythm crashed when its rhythm generator in the STG was heated. It was restored when upstream ganglia were heated and temperature-matched to the STG. This also increased the activity of the peptidergic modulatory projection neuron (MCN1), which innervates the gastric mill circuit. Correspondingly, MCN1's neuropeptide transmitter stabilized the rhythm and maintained it over a broad temperature range. Extrinsic neuromodulation is thus essential for the oscillatory circuits in the STG and enables neural circuits to maintain function in temperature-compromised conditions. In contrast, integer coupling between pyloric and gastric mill rhythms was independent of whether extrinsic inputs and STG pattern generators were temperature-matched or not, demonstrating that the temperature robustness of the coupling is enabled by properties intrinsic to the rhythm generators. However, at near-crash temperature, integer coupling was maintained only in some animals while it was absent in others. This was true despite regular rhythmic activity in all animals, supporting that degenerate circuit properties result in idiosyncratic responses to environmental challenges. [ABSTRACT FROM AUTHOR]

Published

2022

15. Evolution at the Limits.

Author

Riesch, Rüdiger and Plath, Martin

Subjects

*BIOLOGICAL adaptation, *POECILIIDAE, *SURVIVAL behavior (Animals), *FISH habitats, *FISH DNA, *GENETIC speciation

Abstract

The article discusses research which aimed to explore the limits of adaptation in several species in the family of poeciliid fishes that have managed to colonize creeks and rivers containing toxic levels of hydrogen sulfide. Topics covered include traits shared by the fish that aid survival in their deadly environment, analysis of their DNA which show they acquired similar adaptations via different molecular pathways, and how their extreme environment may spur speciation.

Published

2017

16. A method for studying escape behavior to terrestrial threats in rodents.

Author

Zhang, Yueting, Wang, Jincheng, Pang, Ruiqi, Zhang, Yanjie, Deng, Qiyue, Liu, Xue, and Zhou, Yi

Subjects

*SURVIVAL behavior (Animals), *ANIMAL behavior, *RODENTS, *STARTLE reaction, *SERVOMECHANISMS

Abstract

Escape is one of the most essential behaviors for an animal's survival because it could be a matter of life and death. Much of our current understanding of the neural mechanisms underlying escape is derived from the looming paradigm, which mimics a diving aerial predator. Yet, the idea of the looming paradigm does not account for all types of threats like lions hunting antelopes or cats stalking mice. Escape responses to such terrestrial threats may require different strategies and neural mechanisms. Here, we developed a real-time interactive platform to study escape behavior to terrestrial threats in mice. A closed-loop controlled robot was magnetically pulled to mimic a terrestrial threat that chases a mouse. By using strong magnets and high-precision servo motors, the robot is capable of moving precisely with a high spatial-temporal resolution. Different algorithms can be used to achieve single approach or persistent approach. Animal experiments showed that mice exhibited consistent escape behavior when exposed to an approaching robotic predator. When presented with a persistently approaching predator, the mice were able to rapidly adapt their behavior, as evidenced by a decrease in startle responses and changes in movement patterns. In comparison to existing methods for studying escape behavior, such as the looming paradigm, this approach is more suitable for investigating animal behavior in response to sustained threats. In conclusion, we have developed a flexible platform to study escape behavior to terrestrial threats in mice. • A flexible platform to study escape behavior to terrestrial threats in mice. • Mice perceive the approaching robotic predator as a threat and escape quickly. • Mice can quickly adapt their behavior when facing a persistent threat. • The visual information is still critical in eliciting escape behavior to terrestrial threats. [ABSTRACT FROM AUTHOR]

Published

2024

17. Identification of olfactory alarm substances in zebrafish.

Author

Masuda, Miwa, Ihara, Sayoko, Mori, Naoki, Koide, Tetsuya, Miyasaka, Nobuhiko, Wakisaka, Noriko, Yoshikawa, Keiichi, Watanabe, Hidenori, Touhara, Kazushige, and Yoshihara, Yoshihiro

Subjects

*BRACHYDANIO, *SURVIVAL behavior (Animals), *FRESHWATER fishes, *COINCIDENCE circuits, *NEURAL circuitry, *ALARMS

Abstract

Escaping from danger is one of the most fundamental survival behaviors for animals. Most freshwater fishes display olfactory alarm reactions in which an injured fish releases putative alarm substances from the skin to notify its shoaling company about the presence of danger. Here, we identified two small compounds in zebrafish skin extract, designated as ostariopterin and daniol sulfate. Ostariopterin is a pterin derivative commonly produced in many freshwater fishes belonging to the Ostariophysi superorder. Daniol sulfate is a novel sulfated bile alcohol specifically present in the Danio species, including zebrafish. Ostariopterin and daniol sulfate activate distinct glomeruli in the olfactory bulb. Zebrafish display robust alarm reactions, composed of darting, freezing, and bottom dwelling, only when they are concomitantly stimulated with ostariopterin and daniol sulfate. These results demonstrate that the fish alarm reaction is driven through a coincidence detection mechanism of the two compounds along the olfactory neural circuitry. [Display omitted] • Ostariopterin is a "danger signal" commonly present in many freshwater fishes • Daniol sulfate is a "conspecific signal" specifically present in Danio fish species • Ostariopterin and daniol sulfate activate distinct olfactory circuits in zebrafish • Coincidence detection of these two molecules triggers robust alarm reaction In 1938, Karl von Frisch postulated the existence of olfactory alarm substances (Schreckstoff) in fish. Masuda et al. identify two compounds in zebrafish skin extract, ostariopterin and daniol sulfate, which act as "danger" and "conspecific" signals, respectively. Only when they are concomitantly applied do zebrafish display a robust alarm reaction. [ABSTRACT FROM AUTHOR]

Published

2024

18. Provocation: all yeast cells are born equal, but some grow to be more equal than others.

Author

Boulton, Chris

Subjects

*YEAST, *APOPTOSIS, *STEM cells, *METHYLENE blue, *SURVIVAL behavior (Animals), *WINE flavor & odor

Abstract

Yeast is central to the brewing process and as such deserves great care and attention to ensure it is fit‐for‐purpose. It is widely accepted that assessment based on simple viability testing is useful but far too blunt an instrument to give much useful information regarding the physiological state of the live yeast cells within the population. The need to address this issue has spawned a plethora of procedures collectively termed 'vitality tests'. The concept of yeast vitality is nebulous, and this goes some way to explain why no single test has been universally adopted. There is, however, another major flaw in the underlying assumptions of the majority of vitality tests. This is, most are based on bulk samples which ignore heterogeneities within the population of cells being examined. The asymmetric mode of proliferation of Saccharomyces yeasts means that mother and daughter cells are always unequal. Individual cells have finite lifespans, old cells die and must be replaced with new fitter progeny. We are fortunate in that budding yeasts are widely used as a model cell for studies into ageing in higher eukaryotes and as a result there is a huge and ever‐expanding body of literature devoted to this subject. This has shown that yeast populations comprise several distinct sub‐populations which respond differently to external messengers. These messengers may be generated by one sub‐set of the population and received and acted upon by another indicating a degree of cooperation designed to ensure survival of the whole. Death of individuals within populations can be as a result of the application of lethal external stresses but more usually is a programmed process in which targeted cells commit suicide in an expression of altruism for the greater good of the whole. On reflection, perhaps this is unexpected but perfectly logical behaviour for single celled organisms to adopt. Most yeast population studies have been performed using haploid laboratory strains cultivated under relatively defined conditions. The industrial scale model is, of course, far removed from this. Brewing yeast strains are very different, and the complexities of serial fermentations and associated yeast handling processes introduce added layers of complexity. Nevertheless, there is every reason to believe that similar population heterogeneities and cooperative behaviour exist within the context of brewing. The thrust of the arguments presented in this article is that we should embrace this and consider individual cells within yeast populations within a fermenter, for example, as being individual free‐living components of a multicellular organism. Further, intercellular cooperation is managed by a network of messenger molecules many of which are likely to trigger the global shifts associated in metabolic activities which accompany the reversible passage from growth to quiescence and which coincidentally are likely to be of importance in beer flavour. The purpose of this article is to argue that the majority of current yeast vitality tests are not fit for their intended purpose. They do not provide outputs that are predictive of fermentation performance or an indication of the metabolic status of the population as a whole. Simple viability tests based on differential responses to biological stains, including methylene blue, are of equal value in commercial brewing. This situation can be improved by the introduction of tests which give information of how sub‐populations develop and interact with each other. Probably dual staining techniques which probe membrane competence and detect cells in the early stages of programmed cell death, as discussed in this article, are promising candidates. © 2021 The Institute of Brewing & Distilling [ABSTRACT FROM AUTHOR]

Published

2021

19. Art school futures.

Author

Wood, John

Subjects

ART schools, COVID-19 pandemic, EDUCATION policy, ECOLOGICAL modernization, SURVIVAL behavior (Animals), FUTURES

Abstract

The late Sir Ken Robinson attracted great interest for noting the education system's lack of support for imaginative and creative skills. This omission has important ramifications throughout society as a whole, especially given the challenges of the COVID-19 pandemic, not to mention environmental emergencies that threaten our very survival as a species. Although our predicament calls for a co-creative and transformative response, this amounts to a paradigm change that is beyond the capacity of our current systems of governance. The article therefore calls for a review of education policy that would include some deep reflections on the ecological purpose of learning. It suggests that, in order to augment the scholastic and analytical traditions underpinning the modern university, policy-makers should invest in the modernization and development of the traditional art school. This should cater for a much larger spectrum of human needs and capabilities. These might support ethical, co-creative thinking at all levels, including feeling, acting and experiencing at many simultaneous levels, including head, heart, hand and what the article calls 'humour'. [ABSTRACT FROM AUTHOR]

Published

2021

20. ІРОНІЯ У КІНОВСЕСВІТІ ЛЮДЕЙ Х ЯК ПРОБЛЕМА ЕВОЛЮЦІЙНОЇ ЕТИКИ.

Author

Бородіна, Наталія

Subjects

BIOETHICS, EVOLUTIONARY ethics, BACTERIAL colonies, PSEUDOMONAS fluorescens, NATURAL selection, FILM adaptations, SOCIOBIOLOGY, SURVIVAL behavior (Animals)

Abstract

Copyright of Doxa / Doksa is the property of I. I. Mechnikov Odessa National University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

21. JORNADA TRANS: Um Estudo Acerca da Trajetória de Travestis e Mulheres Transexuais no Mercado de Trabalho do Recife.

Author

Mazza Batista, Suelen, Costa Mendes, Diego, Alves Silva, Giselle, and Costa de Mendonça, José Ricardo

Subjects

*TRANS women, *GENDER identity, *SOCIAL isolation, *LABOR market, *CROSS-dressers, *SURVIVAL behavior (Animals), *TRANSSEXUALISM

Abstract

This study aims to discuss the work trajectory of transvestites and transsexual women in the labor market in Recife. With an exploratory character, of an applied nature and a qualitative approach, this research was developed around seven interviews with transvestites and transsexual women, based on a semi-structured script. The collected data where analyzed by a thematic content analysis, based on the relationship between the occupation of transsexual and transvestite women with schooling, professional training, family support and the non-inclusive job market. It might be seen that, due to prejudices and discrimination in society, this population suffers social exclusion, which begins with the rejection by the family, passing through a hostile and non-inclusive school environment, and a formal labor market with few opportunities. In this context, prostitution often becomes a mean for survival, and one of the few spaces in which the gender identity of this population is legitimized. [ABSTRACT FROM AUTHOR]

Published

2020

22. Improving the Retention and GPAs of Black Males at a Primarily White Institution: A Living and Learning Community Approach.

Author

Cintron, Dakota W., Hines, Erik M., Singleton II, Paul, and Golden, Monique N.

Subjects

LEARNING communities, PROPENSITY score matching, GRADE point average, MALES, GRADE repetition, SURVIVAL behavior (Animals)

Abstract

This study provides the results of a two-year follow-up evaluation on the influence of an undergraduate living and learning community (LLC) on Black male achievement at a Primarily White Institution (PWI). The LLC was implemented at the PWI to improve the retention and academic outcomes of Black males. In the Fall of 2016, the LLC accepted its first cohort of 44 students (treatment group). Given the self-selection of individuals into this LLC, this study uses a quasi-experimental approach to evaluate the impact of the LLC. Two control groups were identified using institutional demographic and background data. The two control groups for this study consisted of a propensity score matching (N = 70) control group and a random sample (N = 155) control group. Two-year follow-up survival and latent growth curve analysis results provide evidence that the treatment group had higher gains in retention and grade point average (GPA) than both control groups. Altogether, the results demonstrate the measurable short-term impact of the LLC approach for Black males at a PWI. [ABSTRACT FROM AUTHOR]

Published

2020

23. Protective Effects of Baicalin on Lipopolysaccharide-Induced Injury in Caenorhabditis elegans.

Author

Ma, Jing, Wang, Ranran, Yan, Haijing, Xu, Renjie, Xu, Ajing, and Zhang, Jian

Subjects

*CAENORHABDITIS elegans, *LIPOPOLYSACCHARIDES, *SURVIVAL behavior (Animals), *ENZYME-linked immunosorbent assay, *TUMOR necrosis factors, *OXIDATIVE stress, *TOLL-like receptors

Abstract

Objectives: Sepsis-induced inflammation injury and oxidative stress are well known causes of mortality. The anti-inflammatory effects of baicalin have been proposed in a mouse model of experimental sepsis. Here, we investigated its protective effects and associated mechanisms with respect to lipopolysaccharide (LPS)-induced injury in Caenorhabditis elegans. Methods: Worms were stimulated by LPS (100 μg/mL), with baicalin (1, 10, 100 μmol/L), for 24 h. Animal survival rates and behaviors (reversal and omega turn) were then determined. Further, levels of the inflammatory cytokines interleukin 6 (IL-6), IL-1, and tumor necrosis factor (TNF)-α were detected by enzyme-linked immunosorbent assay. Western blotting was also performed to determine the protein expression levels of Toll-like receptor 4 (TLR4), nuclear factor-κB (NF-κB), Bax, and Bcl-2. The activities of malondialdehyde (MDA) and superoxide dismutase (SOD) contents were determined using corresponding kits. Results: Baicalin (10, 100 μmol/L) improved LPS-stimulated C. elegans survival and rescued behavioral phenotypes. It also suppressed the oxidative stress related to LPS injury by decreasing MDA levels and increasing SOD activity. Moreover, the inflammatory response was inhibited as evidenced by decreased levels of cytokines including IL-6, IL-1, and TNF-α. In addition, baicalin treatment significantly decreased cleaved Bax levels and increased Bcl-2 expression in C. elegans treated with LPS. Simultaneously, the expression of NF-κB and TLR4 was significantly decreased. Conclusion: Baicalin treatment protects against LPS-induced injury by decreasing oxidative stress, repressing the inflammatory cascade, and inhibiting apoptosis. [ABSTRACT FROM AUTHOR]

Published

2020

24. Trabajo, supervivencia y bienestar.

Author

Armando González, Luis

Subjects

ENERGY management, HUMAN beings, POWER resources, PALEONTOLOGY, COGNITIVE science, SURVIVAL behavior (Animals)

Abstract

Copyright of Teoría y Praxis is the property of Editorial Universidad Don Bosco and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

25. Outcome Expectations, Expectancy Accessibility, and Exercise in Endometrial Cancer Survivors.

Author

Perkins, Heidi Y., Waters, Andrew J., Baum, George P., and Basen-Engquist, Karen M.

Subjects

*EXERCISE & psychology, *HEALTH behavior, *CANCER patients, *SURVIVAL behavior (Animals), *DEVELOPMENTAL psychology & motivation, *REACTION time

Abstract

Studies have shown that expectations about exercise outcomes are associated with exercise behavior. Outcome expectations can be assessed by self-report questionnaires, but a new method—the expectancy accessibility task—may convey unique information about outcome expectations that is less subject to respondent biases. This method involves measuring the reaction time to endorse or reject an outcome We examined the relationship of self-reported outcome expectations and expectancy accessibility tasks in a pilot study of sedentary endometrial cancer survivors (N = 20). After measuring outcome expectations and expectancy accessibility, participants were given an exercise program and asked to monitor exercise for 7 days using diaries and accelerometers. Analyses revealed no relationship between outcome expectation scores and exercise, but shorter response times to endorse positive exercise outcomes was related to more exercise in the next week (p = .02). [ABSTRACT FROM AUTHOR]

Published

2009

26. Drowning Survival in Icy Water: A Review.

Author

Avramidis, Stathis and Butterly, Ronald

Subjects

LITERATURE reviews, RESUSCITATION from drowning, HYPOTHERMIA, SURVIVAL behavior (Animals), CARDIOPULMONARY system

Abstract

We conducted an extensive literature review using the search terms of "drowning" and "hypothermia" to discover the major factors related to differences in survival rate especially associated with hypothermic effects. Studies indicated that some differences in drowning survival could be identified associated with age, sex, length of submersion, reduced core body temperature, and quality of cardiopulmonary respiratory care. The variability of results associated with the large number of studies prevented us from making any recommendations about whether hypothermia can improve survival among either children or adults. [ABSTRACT FROM AUTHOR]

Published

2008

27. How Individuals' Cherished Possessions Become Families' Inalienable Wealth.

Author

Curasi, Carolyn Folkman, Price, Linda L., and Arnould, Eric J.

Subjects

INHERITANCE & succession, HEIRLOOMS, SOUVENIRS (Keepsakes), FAMILIES, GENERATIONS, SURVIVAL behavior (Animals), INTERGENERATIONAL relations, SOCIAL systems, CULTURAL survival, ANTIQUES

Abstract

This article examines a special category of objects, things that people should not give or sell, but keep from generation to generation within the close confines of a group--inalienable wealth. Previous findings about inalienable wealth are restricted to studies of indigenous cultures by anthropologists. We explore whether and how objects pass from alienable to inalienable status across generations of middle-class North American families. Our research distinguishes families' inalienable wealth from individuals' cherished possessions and keepsakes in terms of the role of caretakers, the behavioral dynamics of guardianship, temporal orientation, shared significance, and distinctive semiotic qualities. [ABSTRACT FROM AUTHOR]

Published

2004

28. Survival of the shyest.

Author

Ogden, Lesley Evans

Subjects

*BASHFULNESS, *ANIMAL psychology, *SURVIVAL behavior (Animals), *PREDATION, *CURIOSITY, *LONG-term memory, *SENSITIVITY (Personality trait), *BRAIN imaging, *AMPHIBIANS

Abstract

The article looks at research into the personality trait of shyness, focusing on the survival benefits of the expression of shyness in animals. Researcher Andrew Sih found that bold, proactive larval salamanders were more likely to be consumed by predators than more timid, reactive salamanders. Other topics include exploration behaviors in birds, the correlation between shyness and long-term memory in fishes, and brain imaging of sensory processing sensitivity in shy humans.

Published

2013

29. No Effect of Polystyrene Microplastics on Foraging Activity and Survival in a Post-larvae Coral-Reef Fish, Acanthurus triostegus.

Author

Jacob, Hugo, Gilson, Arthur, Lanctôt, Chantal, Besson, Marc, Metian, Marc, and Lecchini, David

Subjects

PLASTIC marine debris, POLYSTYRENE, ACANTHURUS, FISH behavior, SURVIVAL behavior (Animals), ANIMAL feeding behavior

Abstract

Microplastics (MP) are ubiquitous in the marine environment and have been shown to alter the behaviour of some species due to potential neurotoxic effect. However, very little is known on the effect of this stressor on behavioural responses of early and more vulnerable life stages. This study explores the effects of polystyrene MP (90 µm diameter) on the foraging activity of newly settled surgeonfish Acanthurus triostegus and on their survival facing predators. Exposure to a high concentration of 5 MP particles per mL (5 MP mL−1) for 3, 5 and 8 days did not alter their foraging activity nor their susceptibility to predation. This suggests that short-term exposures to reportedly high MP concentrations have negligible effects on the behaviour of newly settled A. triostegus. Nevertheless, responses to MP can be highly variable, and further research is needed to determine potential ecological effects of MP on reef fish populations during early-life stages. [ABSTRACT FROM AUTHOR]

Published

2019

30. When good animals love restored habitat in bad neighborhoods: ecological traps for eastern cottontails in agricultural landscapes.

Author

Nawrocki, Julia A., Schooley, Robert L., and Ward, Michael P.

Subjects

SYLVILAGUS floridanus, ANIMAL habitations, PREDATION, SURVIVAL behavior (Animals), AGRICULTURAL ecology, AGRICULTURAL landscape management

Abstract

Large-scale restoration programs have been implemented worldwide to counteract habitat loss and fragmentation from expansion and intensification of agriculture. These agri-environment programs create habitat patches imbedded in an agricultural matrix. The assumption is these patches benefit wildlife and that individuals either avoid agricultural fields or use them to increase their fitness. We selected eastern cottontails (Sylvilagus floridanus) as a focal species on restored grasslands in Illinois, USA to assess survival and to determine if maladaptive habitat selection for agricultural fields could create an ecological trap. We also investigated whether a mismatch between real and perceived predation risk could explain their habitat selection. We radiotracked 95 cottontails and estimated habitat-specific survival using known-fate models, and measured habitat selection using Manly's standardized selection ratios. We also assessed perceived predation risk with giving-up density experiments. Survival of cottontails was higher in restored grasslands relative to agricultural and developed areas. Habitat selection did not reflect this spatial variation in mortality risk, however, when crops were present on the landscape. Agricultural lands created an equal-preference trap. Cottontails did not accurately assess predation risk; they did not recognize that agricultural fields were risky. This mismatch could be due to cottontails' emphasis on protecting themselves from avian predators rather than from coyotes (Canis latrans), which currently are their main predator. Our novel study demonstrates how dynamic landscape context can create ecological traps. Such unexpected outcomes can reduce the conservation benefits of restoration programs. [ABSTRACT FROM AUTHOR]

Published

2019

31. A description of nesting behaviors, including factors impacting nest site selection, in black‐and‐white ruffed lemurs (Varecia variegata).

Author

Baden, Andrea L.

Subjects

*ANIMAL habitations, *SURVIVAL behavior (Animals), *NEST predation, *BIRD breeding, *BIRD nests

Abstract

Nest site selection is at once fundamental to reproduction and a poorly understood component of many organisms' reproductive investment. This study investigates the nesting behaviors of black‐and‐white ruffed lemurs, Varecia variegata, a litter‐bearing primate from the southeastern rainforests of Madagascar. Using a combination of behavioral, geospatial, and demographic data, I test the hypotheses that environmental and social cues influence nest site selection and that these decisions ultimately impact maternal reproductive success. Gestating females built multiple large nests throughout their territories. Of these, females used only a fraction of the originally constructed nests, as well as several parking locations as infants aged. Nest construction was best predicted by environmental cues, including the size of the nesting tree and density of feeding trees within a 75 m radius of the nest, whereas nest use depended largely on the size and average distance to feeding trees within that same area. Microhabitat characteristics were unrelated to whether females built or used nests. Although unrelated to nest site selection, social cues, specifically the average distance to conspecifics' nest and park sites, were related to maternal reproductive success; mothers whose litters were parked in closer proximity to others' nests experienced higher infant survival than those whose nests were more isolated. This is likely because nesting proximity facilitated communal crèche use by neighboring females. Together, these results suggest a complex pattern of nesting behaviors that involves females strategically building nests in areas with high potential resource abundance, using nests in areas according to their realized productivity, and communally rearing infants within a network of nests distributed throughout the larger communal territory. Map illustrating the distribution nests and park sites built by gestating ruffed lemurs, as well as patterns of nest use, reuse, and infant creching behavior. [ABSTRACT FROM AUTHOR]

Published

2019

32. Contribution of maternal effects to dietary selection in Mediterranean fruit flies.

Author

Leftwich, Philip T., Nash, William J., Friend, Lucy A., and Chapman, Tracey

Subjects

*MEDITERRANEAN fruit-fly, *DIET, *ANIMAL sexual behavior, *LOW-calorie diet, *SURVIVAL behavior (Animals)

Abstract

Individual responses to dietary variation represent a fundamental component of fitness, and nutritional adaptation can occur over just a few generations. Maternal effects can show marked proximate responses to nutrition, but whether they contribute to longer term dietary adaptation is unclear. Here, we tested the hypotheses that maternal effects: (i) contribute to dietary adaptation, (ii) diminish when dietary conditions are constant between generations, (iii) are trait‐specific and (iv) interact with high‐ and low‐quality food. We used experimental evolution regimes in the medfly (Ceratitis capitata) to test these predictions by subjecting an outbred laboratory‐adapted population to replicated experimental evolution on either constant high calorie sugar ('A') or low‐calorie starch ('S') larval diets, with a standard adult diet across both regimes. We measured the contribution of maternal effects by comparing developmental and adult phenotypes of individuals reared on their own diet with those swapped onto the opposite diet for either one or two generations (high and low maternal effect conditions, respectively), both at the start and after 30 generations of selection. Initially, there were strong maternal effects on female body mass and male mating success but not larval survival. Interestingly, the initial maternal effects observed in female body mass and male mating success showed sex‐specific interactions when individuals from high calorie regimes were tested on low calorie diets. However, as populations responded to selection, the effects of maternal provisioning on all traits diminished. The results broadly supported the predictions. They show how the contribution of maternal effects to dietary responses evolves in a context‐dependent manner, with significant variation across different fitness‐related traits. We conclude that maternal effects can evolve during nutritional adaptation and hence may be an important life history trait to measure, rather than to routinely minimize. [ABSTRACT FROM AUTHOR]

Published

2019

33. Spatial scale, topography and thermoregulatory behaviour interact when modelling species' thermal niches.

Author

Barton, Madeleine G., Clusella‐Trullas, Susana, and Terblanche, John S.

Subjects

*ECOLOGICAL niche, *SPECIES distribution, *TOPOGRAPHY, *MICROCLIMATOLOGY, *ECOLOGICAL models, *SURVIVAL behavior (Animals), *BODY temperature regulation, *CLIMATE change

Abstract

The spatial scale at which climate and species' occupancy data are gathered, and the resolution at which ecological models are run, can strongly influence predictions of species performance and distributions. Running model simulations at coarse rather than fine spatial resolutions, for example, can determine if a model accurately predicts the distribution of a species. The impacts of spatial scale on a model's accuracy are particularly pronounced across mountainous terrain. Understanding how these discrepancies arise requires a modelling approach in which the underlying processes that determine a species' distribution are explicitly described. Here we use a process‐based model to explore how spatial resolution, topography and behaviour alter predictions of a species thermal niche, which in turn constrains its survival and geographic distribution. The model incorporates biophysical equations to predict the operative temperature (Te), thermal‐dependent performance and survival of a typical insect, with a complex life‐cycle, in its microclimate. We run this model with geographic data from a mountainous terrain in South Africa using climate data at three spatial resolutions. We also explore how behavioural thermoregulation affects predictions of a species performance and survival by allowing the animal to select the optimum thermal location within each coarse‐grid cell. At the regional level, coarse‐resolution models predicted lower Te at low elevations and higher Te at high elevations than models run at fine‐resolutions. These differences were more prominent on steep, north‐facing slopes. The discrepancies in Te in turn affected estimates of the species thermal niche. The modelling framework revealed how spatial resolution and topography influence predictions of species distribution models, including the potential impacts of climate change. These systematic biases must be accounted for when interpreting the outputs of future modelling studies, particularly when species distributions are predicted to shift from uniform to topographically heterogeneous landscapes. [ABSTRACT FROM AUTHOR]

Published

2019

34. Does body growth impair immune function in a large herbivore?

Author

Cheynel, L., Douhard, F., Gilot-Fromont, E., Rey, B., Débias, F., Pardonnet, S., Carbillet, J., Verheyden, H., Hewison, A. J. M., Pellerin, M., Gaillard, J.-M., and Lemaître, J.-F.

Subjects

*HERBIVORES, *ANIMAL reproduction, *SURVIVAL behavior (Animals), *IMMUNE system, *ANIMAL populations

Abstract

According to the principle of allocation, trade-offs are inevitable when resources allocated to one biological function are no longer available for other functions. Growth, and to a lesser extent, immunity are energetically costly functions that may compete with allocation to reproductive success and survival. However, whether high allocation to growth impairs immune system development during the growing period or immune system performance during adulthood is currently unknown in wild mammals. Using three roe deer (Capreolus capreolus) populations experiencing contrasting environmental conditions, we tested for potential costs of growth on immune phenotype over both the short-term (during growth), and the long-term (during adulthood) over the course of an individuals' life. We investigated potential costs on a set of 12 immune traits that reflect both innate and adaptive responses, and compared them between sexes and populations. Although fast growth tended to be associated with low levels of some humoral traits (globulins) during the growing period and some cellular immune traits (i.e. eosinophil and neutrophil counts) during adulthood, evidence for a trade-off between growth and other immune components was limited. Unexpectedly, no detectable growth costs on immunity were found in females from the population experiencing the least favourable environment. We discuss our findings in the light of the complex interplay between resource allocation strategies among reproduction, maintenance and immunity, in relation to local environmental conditions experienced by roe deer. [ABSTRACT FROM AUTHOR]

Published

2019

35. Temperature and pCO2 jointly affect the emergence and survival of cercariae from a snail host: implications for future parasitic infections in the Humboldt Current system.

Author

Leiva, Natalia V., Manríquez, Patricio H., Aguilera, Victor M., and González, M. Teresa

Subjects

*CERCARIAE, *CLIMATE change, *GASTROPODA, *INTERTIDAL ecology, *TREMATODA, *SURVIVAL behavior (Animals), *HOST-parasite relationships

Abstract

Graphical abstract Highlights • This is the first known study evaluating combined temperature and p CO 2 effects on cercarial life history traits. • A trade-off between cercarial emergence and survival was observed at high water temperature. • Combined effects of higher levels of temperature and p CO 2 reduce cercarial survival. • Combined levels of temperature and p CO 2 produce species-specific responses in emergence of cercariae. • It is suggested that infection of these trematode species in upwelling areas could increase in the future. Abstract Ocean warming and acidification are general consequences of rising atmospheric CO 2 concentrations. In addition to future predictions, highly productive systems such as the Humboldt Current System are characterized by important variations in both temperature and p CO 2 level, but how these physical–chemical ocean changes might influence the transmission and survival of parasites has not been assessed. This study experimentally evaluated the effects of temperature (14, 18 and 25 °C) and the combined effects of temperature (∼15 and 20 °C) and p CO 2 level (∼500 and 1400 microatmospheres (µatm) on the emergence and survival of two species of marine trematodes—Echinostomatidae gen. sp. and Philophthalmidae gen. sp.—both of which infect the intertidal snail Echinolittorina peruviana. Snails were collected from intertidal rocky pools in a year-round upwelling area of the northern Humboldt Current System (23°S). Two experiments assessed parasite emergence and survival by simulating emersion-immersion tidal cycles. To assess parasite survival, 2 h old cercariae (on average) were taken from a pool of infected snails incubated at 20–25 °C, and their mortality was recorded every 6 h until all the cercariae were dead. For both species, a trade-off between high emergence and low survival of cercariae was observed in the high temperature treatment. Species-specific responses to the combination of temperature and p CO 2 levels were also observed: the emergence of Echinostomatidae cercariae was highest at 20 °C regardless of the p CO 2 levels. By contrast, the emergence of Philophthalmidae cercariae was highest at elevated p CO 2 (15 and 20 °C), suggesting that CO 2 may react synergistically with temperature, increasing transmission success of this parasite in coastal ecosystems of the Humboldt Current System where water temperature and pH are expected to decrease. In conclusion, our results suggest that integrating temperature- p CO 2 interactions in parasite studies is essential for understanding the consequence of climate change in future marine ecosystem health. [ABSTRACT FROM AUTHOR]

Published

2019

36. Fitness Consequences of Female Alternative Reproductive Tactics in House Mice (Mus musculus domesticus).

Author

Ferrari, Manuela, Lindholm, Anna K., and König, Barbara

Subjects

*BIOLOGICAL fitness, *MICE breeding, *ANIMAL reproduction, *ANIMAL mortality, *SURVIVAL behavior (Animals)

Abstract

Alternative reproductive tactics (ARTs) are defined as discrete differences in morphological, physiological, and/or behavioral traits associated with reproduction that occur within the same sex and population. House mice provide a rare example of ARTs in females, which can rear their young either solitarily or together with one or several other females in a communal nest. We assessed the fitness consequences of communal and solitary breeding in a wild population to understand how the two tactics can be evolutionarily stable. Females switched between the two tactics (with more than 50% of all females having two or more litters using both tactics), pointing toward communal and solitary breeding being two tactics within a single strategy and not two genetically determined strategies. Communal breeding resulted in reduced pup survival and negatively impacted female reproductive success. Older and likely heavier females more often reared their litters solitarily, indicating that females use a condition-dependent strategy. Solitary breeding seems the more successful tactic, and only younger and likely less competitive females might opt for communal nursing, even at the cost of increased pup mortality. This study emphasizes the importance of analyzing phenotypic plasticity and its role in cooperation in the context of female ARTs. [ABSTRACT FROM AUTHOR]

Published

2019

37. The importance of growing up: juvenile environment influences dispersal of individuals and their neighbours.

Author

Endriss, Stacy B., Vahsen, Megan L., Bitume, Ellyn V., Grey Monroe, J., Turner, Kathryn G., Norton, Andrew P., Hufbauer, Ruth A., and Sih, Andrew

Subjects

*DISPERSAL (Ecology), *PHENOTYPES, *RED flour beetle, *SURVIVAL behavior (Animals), *SPECIES distribution

Abstract

Dispersal is a key ecological process that is strongly influenced by both phenotype and environment. Here, we show that juvenile environment influences dispersal not only by shaping individual phenotypes, but also by changing the phenotypes of neighbouring conspecifics, which influence how individuals disperse. We used a model system (Tribolium castaneum, red flour beetles) to test how the past environment of dispersing individuals and their neighbours influences how they disperse in their current environment. We found that individuals dispersed especially far when exposed to a poor environment as adults if their phenotype, or even one‐third of their neighbours' phenotypes, were shaped by a poor environment as juveniles. Juvenile environment therefore shapes dispersal both directly, by influencing phenotype, as well as indirectly, by influencing the external social environment. Thus, the juvenile environment of even a minority of individuals in a group can influence the dispersal of the entire group. [ABSTRACT FROM AUTHOR]

Published

2019

38. Functional social structure in baboons: Modeling interactions between social and environmental structure in group-level foraging.

Author

Bonnell, Tyler R., Henzi, S. Peter, and Barrett, Louise

Subjects

*BABOONS, *FORAGING behavior, *SOCIAL behavior in mammals, *CERCOPITHECIDAE, *SURVIVAL behavior (Animals), *PRIMATES

Abstract

Abstract In mobile social groups, cohesion is thought to be driven by patterns of attraction at both the individual and group level. In long-lived species with high group stability and repeated interactions, such as baboons, individual-to-individual attractions have the potential to play a large role in group cohesion and overall movement patterns. In previous work, we found that the patterning of inter-individual attraction gave rise to an emergent group-level structure, whereby a core of more influential, inter-dependent individuals exerted a unidirectional influence on the movements of peripheral animals. Here, we use agent-based modeling of baboon groups to investigate whether this core–periphery structure has any functional consequences for foraging behavior. By varying individual level attractions, we produced baboon groups that contained influence structures that varied from more to less centralized. Our results suggest that varying centrality affects both the ability of the group to detect resource structure in the environment, as well as the ability of the group to exploit these resources. Our models predict that foraging groups with more centralized social structures will show a reduction in detection and an increase in exploitation of resources in their environment, and will produce more extreme foraging outcomes. More generally, our results highlight how a group's internal social structure can result in mobile social animals being able to more (or less) effectively exploit environmental structure, and capitalize on the distribution of resources. In addition, our agent-based model can be used to generate testable predictions that can be tested among the extant baboon allotaxa. This will add value to the existing body of work on responses to local ecology, as well as providing a means to test hypotheses relating to the phylogeography of the baboons and, by analogy, shed light on patterns of hominin evolution in time and space. [ABSTRACT FROM AUTHOR]

Published

2019

39. Harbor seal pup dispersal and individual morphology, hematology, and contaminant factors affecting survival.

Author

Greig, Denise J., Gulland, Frances M. D., Harvey, James T., Lonergan, Mike, and Hall, Ailsa J.

Subjects

HARBOR seal, MAMMAL morphology, MAMMAL populations, SURVIVAL behavior (Animals), HEMATOLOGY

Abstract

Understanding the factors affecting individual harbor seal (Phoca vitulina) survival is essential for determining population level health risks. We estimated postweaning dispersal, and modeled the effects of morphology, hematology, and blubber contaminants on the survival of recently weaned harbor seal pups using a mark recapture framework. We deployed satellite transmitters on apparently healthy pups captured in San Francisco Bay (SFB, n = 19) and Tomales Bay (TB, n = 7), and pups released after rehabilitation that stranded along the central California coast preweaning (n = 21). Dispersal distances were further than previously reported for harbor seal pups (maximum = 802 km) which has implications for understanding risks to this vulnerable age class. We found differences in body condition, serum immunoglobulin and thyroxine (T4) concentrations, white blood cell count, and blubber organohalogen contamination (OH) among the three groups. Overall, increased T4, decreased OH, and increased mass were associated with greater survival probabilities; whereas, among stranded seals, greater mass gain, shorter time in rehabilitation, and admission to rehabilitation earlier in the season were associated with greater survival probabilities. Attention to these latter factors may improve the success of rehabilitation efforts. For wild pups, reduction of legacy contaminants and direct causes of mortality, such as ship strike, may enhance pup survival. [ABSTRACT FROM AUTHOR]

Published

2019

40. Rapid noninvasive field estimation of body length of female elephant seals (Mirounga leonina).

Author

Sanvito, Simona, Sanvito, Roberto, and Galimberti, Filippo

Subjects

ELEPHANT seals, MAMMAL morphology, FORAGING behavior, SURVIVAL behavior (Animals), MAMMAL behavior, PHOTOGRAMMETRY

Abstract

The article discusses the integration of rapid invasive field estimation in assessing the body length of female elephant seals. Topics include the importance of body size estimation as a research component on foraging ecology, conservation and parental investment and the growing tendency in integrating noninvasive methods that based on photogrammetry in wildlife study. The various benefits of using photogrammetry-based methods in assessing the female elephant seals' body length are also noted.

Published

2019

41. Regulation of harvester ant foraging as a closed-loop excitable system.

Author

Pagliara, Renato, Gordon, Deborah M., and Leonard, Naomi Ehrich

Subjects

*ANT colonies, *FORAGING behavior, *CLOSED loop systems, *ECOLOGY, *SURVIVAL behavior (Animals), *HYMENOPTERA

Abstract

Ant colonies regulate activity in response to changing conditions without using centralized control. Desert harvester ant colonies forage for seeds, and regulate foraging to manage a tradeoff between spending and obtaining water. Foragers lose water while outside in the dry air, but ants obtain water by metabolizing the fats in the seeds they eat. Previous work shows that the rate at which an outgoing forager leaves the nest depends on its recent rate of brief antennal contacts with incoming foragers carrying food. We examine how this process can yield foraging rates that are robust to uncertainty and responsive to temperature and humidity across minute-to-hour timescales. To explore possible mechanisms, we develop a low-dimensional analytical model with a small number of parameters that captures observed foraging behavior. The model uses excitability dynamics to represent response to interactions inside the nest and a random delay distribution to represent foraging time outside the nest. We show how feedback from outgoing foragers returning to the nest stabilizes the incoming and outgoing foraging rates to a common value determined by the volatility of available foragers. The model exhibits a critical volatility above which there is sustained foraging at a constant rate and below which foraging stops. To explain how foraging rates adjust to temperature and humidity, we propose that foragers modify their volatility after they leave the nest and become exposed to the environment. Our study highlights the importance of feedback in the regulation of foraging activity and shows how modulation of volatility can explain how foraging activity responds to conditions and varies across colonies. Our model elucidates the role of feedback across many timescales in collective behavior, and may be generalized to other systems driven by excitable dynamics, such as neuronal networks. [ABSTRACT FROM AUTHOR]

Published

2018

42. Temporal changes in Weddell seal dive behavior over winter: Are females increasing foraging effort to support gestation?

Author

Shero, Michelle R., Goetz, Kimberly T., Costa, Daniel P., and Burns, Jennifer M.

Subjects

*MARINE mammals, *WEDDELL seal, *FORAGING behavior, *SURVIVAL behavior (Animals), *PREGNANCY in animals

Abstract

In capital‐breeding marine mammals, prey acquisition during the foraging trip coinciding with gestation must provide energy to meet the immediate needs of the growing fetus and also a store to meet the subsequent demands of lactation. Weddell seals (Leptonychotes weddellii) that give birth following the gestational (winter) foraging period gain similar proportions of mass and lipid as compared to females that fail to give birth. Therefore, any changes in foraging behavior can be attributed to gestational costs. To investigate differences in foraging effort associated with successful reproduction, twenty‐three satellite tags were deployed on post‐molt female Weddell seals in the Ross Sea. Of the 20 females that returned to the area the following year, 12 females gave birth and eight did not. Females that gave birth the following year began the winter foraging period with significantly longer and deeper dives, as compared to non‐reproductive seals. Mid‐ to late winter, reproductive females spent a significantly greater proportion of the day diving, and either depressed their diving metabolic rates (DMR), or exceeded their calculated aerobic dive limit (cADL) more frequently than females that returned without a pup. Moreover, non‐reproductive females organized their dives into 2–3 short bouts per day on average (BOUTshort; 7.06 ± 1.29 hr; mean ± 95% CI), whereas reproductive females made 1–2 BOUTshort per day (10.9 ± 2.84 hr), comprising one long daily foraging bout without rest. The magnitude of the increase in dive activity budgets and depression in calculated DMR closely matched the estimated energetic requirements of supporting a fetus. This study is one of the first to identify increases in foraging effort that are associated with successful reproduction in a top predator and indicates that reproductive females must operate closer to their physiological limits to support gestational costs. We assess the shifts in foraging behavior associated with successfully carrying a pregnancy to term in Weddell seals. Gestation was associated with increased foraging effort (dive duration, depth, time each day diving, fewer rest periods between dive bouts), and thus reproductive females operated closer to their physiological dive limits. This study is one of the first to identify increases in foraging effort to accommodate the energetic costs of fetal growth in a top predator. [ABSTRACT FROM AUTHOR]

Published

2018

43. Temporal scale of environmental correlations affects ecological synchrony.

Author

Desharnais, Robert A., Reuman, Daniel C., Costantino, Robert F., Cohen, Joel E., and Vasseur, David

Subjects

*DISPERSAL (Ecology), *SURVIVAL behavior (Animals), *FOREST management, *POPULATION dynamics, *COMPETITION (Biology)

Abstract

Population densities of a species measured in different locations are often correlated over time, a phenomenon referred to as synchrony. Synchrony results from dispersal of individuals among locations and spatially correlated environmental variation, among other causes. Synchrony is often measured by a correlation coefficient. However, synchrony can vary with timescale. We demonstrate theoretically and experimentally that the timescale‐specificity of environmental correlation affects the overall magnitude and timescale‐specificity of synchrony, and that these effects are modified by population dispersal. Our laboratory experiments linked populations of flour beetles by changes in habitat size and dispersal. Linear filter theory, applied to a metapopulation model for the experimental system, predicted the observed timescale‐specific effects. The timescales at which environmental covariation occurs can affect the population dynamics of species in fragmented habitats. [ABSTRACT FROM AUTHOR]

Published

2018

44. Hypoxia adaptation in termites: hypoxic conditions enhance survival and reproductive activity in royals.

Author

Tasaki, E., Matsuura, K., and Iuchi, Y.

Subjects

*HYPOXEMIA, *TERMITES, *SURVIVAL behavior (Animals), *RETICULITERMES, *ANTIOXIDANTS, *ENZYMES, *VITELLOGENINS

Abstract

Termite royals (queen and king) exhibit extraordinary longevity without sacrificing reproductive performance, unlike most animals, in whom lifespan is generally negatively associated with reproduction. Therefore, the regulatory mechanisms underlying longevity have attracted much attention. Although the ageing process is influenced by environmental factors in many insects during their life cycle, it remains unclear whether any factors have an effect on the extended survival and high reproductive capacity of termite royals. Here, we show that hypoxia, possibly an important environmental factor in the nests, enhances survival and reproductive activity in incipient royals of the subterranean termite Reticulitermes speratus compared with those in control conditions. Quantitative real‐time PCR analysis revealed that the expression levels of the vitellogenin gene in queens are maintained to a greater extent under hypoxic conditions than under control conditions. The expression levels of the antioxidant enzyme genes RsCAT1 and RsPHGPX are also significantly promoted by hypoxia in queens and kings respectively. These results suggest that hypoxic exposure can contribute in part to achieving high reproductive output by altering gene expression after founding of colonies in the royals. Our study provides novel insights into the effect of a nest environment on the reproductive characteristics in termite royals. [ABSTRACT FROM AUTHOR]

Published

2018

45. Genetic analysis of longevity and lamb survival from birth to yearling in Moghani sheep.

Author

Ghavi Hossein-Zadeh, Navid, Noori, Reza, and Shadparvar, Abdol Ahad

Subjects

*SHEEP breeding, *LAMBS, *ANIMAL young, *SURVIVAL behavior (Animals), *ANIMAL development

Abstract

The objective of this study was to estimate genetic parameters for longevity and survival traits from birth to yearling in Moghani breed of sheep. The data set comprised of 4580 lamb survival records collected during 1994 to 2012 in the breeding station of Moghani sheep. Traits studied were cumulative lamb survival from birth up to 3 (S1), 6 (S2), 9 (S3) and 12 (S4) months of age, and corresponding longevity of lambs (L1, L2, L3 and L4, respectively). The linear and threshold animal model analyses were run using a restricted maximum likelihood method and average information algorithm (AIREML) of the WOMBAT software and MATVEC program, respectively. Also, cumulative survival traits were analysed using the sire model through the Weibull proportional hazard function of the MATVEC program. Direct heritability estimates obtained from different linear models varied from 0.004-0.021, 0.014-0.023, 0.058-0.069 and 0.006-0.061 for L1, L2, L3 and L4, respectively. Also, heritability estimates on the logarithmic scale for S1, S2, S3 and S4 obtained from the Weibull sire model were 0.57, 0.40, 0.08 and 0.03, respectively. Medium to high estimates of heritability for survival traits, employing proportional hazard models, suggest that lamb survival could be improved through direct selection within the flock. [ABSTRACT FROM AUTHOR]

Published

2018

46. Factors influencing experimental estimation of scavenger removal and observer detection in bird–window collision surveys.

Author

Riding, Corey S. and Loss, Scott R.

Subjects

SCAVENGERS (Zoology), ANTHROPOGENIC effects on nature, BIRD populations, BIRD conservation, SURVIVAL behavior (Animals)

Abstract

Wildlife collisions with human‐built structures are a major source of direct anthropogenic mortality. Understanding and mitigating the impact of anthropogenic collisions on wildlife populations require unbiased mortality estimates. However, counts of collision fatalities are underestimated due to several bias sources, including scavenger removal of carcasses between fatality surveys and imperfect detection of carcasses present during surveys. These biases remain particularly understudied for bird–window collisions, the largest source of avian collision mortality. In Stillwater, Oklahoma, USA, we used bird carcasses collected during window collision monitoring to experimentally assess factors influencing scavenging and observer detection, and we employed trail cameras to characterize the scavenger community and timing of scavenging. We recorded nine scavenger species, but the domestic cat and Virginia opossum were responsible for 73% of known‐species scavenging events. The most frequent scavenger species were primarily nocturnal, and 68% of scavenging events occurred at night. Scavenger species best predicted time to first scavenging event, season best predicted carcass persistence time, and both season and carcass size predicted whether any carcass remains persisted after scavenging. Our results also suggest that observer detection was influenced by substrate, with greater detection of carcasses on artificial substrates. Our findings related to scavenging timing have important implications for the unbiased estimation of collision mortality because the timing of peak scavenging relative to timing of peak mortality can substantially influence accuracy of adjusted mortality estimates. Further, the differences in correlates for time to first scavenging and time to carcass removal (i.e., persistence time) illustrate the importance of explicitly measuring these often‐independent events that are frequently conflated in the anthropogenic mortality literature. [ABSTRACT FROM AUTHOR]

Published

2018

47. SOC Conference, October 2018, Macdonald Aviemore Resort.

Author

Palmar, David, Creamer, Alison, Oliver, Danny, Riddle, Cordon, Maxfield, Hilary, Main, Doreen, Herbert, Gillian, Elkins, Norman, Thornton, Michael, and Maxwell, Jimmy

Subjects

ORNITHOLOGISTS, BIRD conservation, WILDLIFE reintroduction, SURVIVAL behavior (Animals)

Published

2018

48. High survival rates of radio-tagged Red Kites in central Scotland during extreme winter weather.

Author

DUFFY, K. and CAMERON, D.

Subjects

SURVIVAL behavior (Animals), RED kite, BIRD conservation, WILDLIFE reintroduction

Published

2018

49. Vehicular impact as a source of wildlife mortality in the Western Pacific Coast of Mexico.

Author

Delgado-Trejo, Carlos, Herrera-Robledo, Rubén, Martínez-Hernández, Nabil, Bedolla-Ochoa, Cutzi, Hart, Catherine E., Alvarado-Díaz, Javier, Suazo-Ortuño, Ireri, Nava-Bravo, Héctor, Lopez-Toledo, Leonel, and Mendoza, Eduardo

Subjects

REPTILES, WILDLIFE conservation, ROADKILL, ANIMAL mortality, SURVIVAL behavior (Animals), ANIMALS, ZOOLOGICAL surveys

Abstract

Copyright of Revista Mexicana de Biodiversidad is the property of Universidad Nacional Autonoma de Mexico, Instituto de Biologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

50. Thermal Sensitivity of Gypsy Moth (Lepidoptera: Erebidae) During Larval and Pupal Development.

Author

Banahene, Nana, Salem, Salem K, Faske, Trevor M, Byrne, Hannah M, Glackin, Madison, Agosta, Salvatore J, Eckert, Andrew J, Grayson, Kristine L, and Thompson, Lily M

Subjects

LYMANTRIA dispar, INSECT development, LEPIDOPTERA, LARVAL behavior, INTRODUCED species, CLIMATE change, SURVIVAL behavior (Animals)

Abstract

As global temperatures rise, thermal limits play an increasingly important role in determining the persistence and spread of invasive species. Gypsy moth (Lymantria dispar L. Lepidoptera: Erebidae) in North America provides an ideal system for studying the effect of high temperatures on invasive species performance. Here, we used fluctuating temperature regimes and exposed gypsy moth at specific points in development (first–fourth instar, pupa) to cycles of favorable (22–28°C) or high-temperature treatments (30–36°C, 32–38°C, 34–40°C) for either 2 or 7 d. We measured survival, growth, and prolonged effects of exposure on development time and pupal mass. Survival generally decreased as the experimental temperature treatment and duration of exposure increased for all instars and pupae, with a narrow threshold for lethal effects. In response to increasing temperature and magnified by longer exposure times, growth abruptly declined for third instars and development time increased for pupae. For those surviving the 2-d exposure treatment, development time to pupation increased for all instars, but we did not find consistent effects on final pupal mass. These negative effects of high temperature provide important data on the susceptibility of gypsy moth to heat at different points in development. This work improves our understanding of thermal limits to growth and development in gypsy moth and can aid in determining invasion potential under current and future climates. [ABSTRACT FROM AUTHOR]

Published

2018