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This study aims to investigate the chain mediating effect of consolidated helicopter parenting and adolescent impulsivity on the relationship between physical activity and adolescent aggressive behavior. A survey was conducted with 4813 adolescents using the School Physical Activity Scale, the Consolidated Helicopter Parenting Scale, the Brief Barratt Impulsiveness Scale, and the Buss-Perry Aggression Questionnaire. Data were analyzed using SPSS 26.0 and the PROCESS macro for correlation analysis, regression analysis, and chain mediation effect testing. (1) Physical activity is positively correlated with adolescent aggressive behavior and can positively predict consolidated helicopter parenting, adolescent impulsivity, and aggressive behavior. (2) Consolidated helicopter parenting positively predicts adolescent impulsivity and aggressive behavior, while adolescent impulsivity positively predicts aggressive behavior. (3) A significant chain mediation effect was found, where physical activity indirectly influences aggressive behavior through the path consolidated helicopter parenting → adolescent impulsivity. Physical activity can exacerbate adolescent aggressive behavior by enhancing the level of consolidated helicopter parenting and increasing adolescent impulsivity. This chain mediation mechanism provides new insights into the causes of adolescent aggressive behavior and offers practical implications for school sports interventions and family educational guidance.

Our objective was to determine the effect of lead (Pb) on the behavior of the Mexican mojarra, which is native to the Balsas River basin, and the convict cichlid, which is an exotic invasive there. Both fish species were exposed to Pb, followed by Pb depuration, to evaluate its impacts on behavior. We evaluated swimming activity, predation attempts, prey consumed, foraging efficiency, and aggressive behaviors. The behavioral effects of Pb differed between the two species. While swimming activity decreased in both species during Pb exposure, swimming activity recovered during the Pb depuration period in the convict cichlid, but not in the Mexican mojarra. In both species, the total predation attempts and prey consumed increased during exposure to Pb and remained elevated during Pb depuration. Pb did not affect the foraging efficiency or number of aggressive behaviors of the convict cichlid. In contrast, the foraging efficiency of the Mexican mojarra decreased with Pb exposure and remained low during Pb depuration, and the number of aggressive behaviors increased under Pb exposure and remained elevated during Pb depuration. Pb exposure affected Mexican mojarra more strongly than the convict cichlid, which could induce changes in the ecological relationships between these species.

Species redistributions are one of the most prevalent changes observed in oceans worldwide due to climate change. One of the major challenges is being able to predict temperature-driven changes to species interactions and the outcome of these changes for marine communities due to the complex nature of indirect effects. In the ocean-warming hotspot of southeast Australia, the ranges of many species have shifted poleward. The range of the eastern rock lobster Sagmariasus verreauxi has extended into warming Tasmanian waters inhabited by the resident southern rock lobster Jasus edwardsii, which may lead to increased competitive interactions between the species. Using video monitoring, we investigated how the 2 species compete for food at current (18°C), future (21°C) and future heatwave (24°C) summer temperatures. Behavioural competition occurred in 80% of experiments, during which J. edwardsii won 84% of competitive interactions and showed more aggressive behaviour at all temperatures. This indicates that resident J. edwardsii is not only more dominant in direct food competition than the range-shifting S. verreauxi but, surprisingly, also sustains competitive dominance beyond its physiological thermal optimum under predicted future ocean warming and heatwave scenarios.

Yamato et al present the first documentation of conspecific aggression in dugongs (Dugong dugon) in Thailand. Conspecific aggression, which involves attempts to injure or monopolize resources, has been observed in various marine mammal species. Agonistic behavior is also present in sirenians, such as dugongs and manatees. Male-male aggression in dugongs is driven by competition for resources and mates. They used drones to observe and analyze the aggressive behavior of dugongs in two events. The events included approaching, pursuing, agonistic collision, rushing, mounting, and separating behaviors. The initiators of the aggression were presumed to be males, based on their behavior. The events were distinguishable from mating behavior and were characterized by brief and violent contacts. The study provides insights into the behavioral categories and indicators of dugong aggression and highlights the advantages of using drones for aerial observations. Further research is needed to understand the benefits and functions of aggression in dugongs.

This study investigates the effects of environmentally relevant concentrations of atrazine and fluoxetine, both individually and in combination, on aggressive behavior in male Betta splendens (B. splendens). Controlled behavioral assays were used to test the hypothesis that both individual and combined exposures would alter aggressive behavior, primarily by delaying the initiation of aggression and reducing the duration of specific displays. Twelve low-concentration (15 µg/L atrazine; 0.54 µg/L fluoxetine) and six high-concentration (30 µg/L atrazine; 1.08 µg/L fluoxetine) acute exposure trials were conducted. Latency to respond (LTR), broadside display (BSD), and frontal display (FD) were recorded over three days of male conspecific interactions. We analyzed the results using a negative binomial general linear model with day, atrazine, fluoxetine, and the interaction between the two compounds as predictors of the three behavioral responses. Results found that exposure to both compounds at either concentration significantly reduced aggressive behaviors compared to controls, increasing the latency to respond and decreasing broadside display and frontal display. For the low-concentration experiments, there were significant antagonistic effects from the interaction between fluoxetine and atrazine for all three behavioral responses (LTR p = 0.002, BSD p < 0.001, FD p < 0.001), with the combination of the two compounds showing a smaller impact than predicted by each singly. For the high-concentration experiments, there was a significant antagonistic interaction for BSD (p < 0.0001) and a marginally significant antagonistic interaction for LTR (p = 0.078). These findings suggest that these compounds can delay the onset and reduce the intensity of aggressive behaviors, underscoring the potential disruption of neurobehavioral pathways essential for survival, though the impact of these chemicals is altered by exposure conditions. This research highlights how environmental concentrations of common contaminants, especially in combination, may impair ecologically relevant behaviors in chemically impacted freshwater habitats.

Mass coral bleaching causes population declines and mortality of coral reef species1 yet its impacts on behaviour are largely unknown. Here, we unite behavioural theory with community ecology to test whether bleaching-induced mass mortality of corals can cause consistent changes in the behaviour of coral-feeding fishes. We documented 5,259 encounters between individuals of 38 Chaetodon (butterflyfish) species on 17 reefs within the central Indo-Pacific, of which 3,828 were repeated on 10 reefs both before and after the global coral bleaching event in 2016. Aggression between butterflyfishes decreased by two-thirds following large-scale coral mortality, despite no significant change in fish abundance or community composition. Pairwise encounters were most likely to be aggressive between obligate corallivores and on reefs with high coral cover. After bleaching, the proportion of preferred Acropora corals in the diet decreased significantly (up to 85% fewer bites), with no increase in overall bite rate to compensate for the loss of these nutritionally rich corals. The observed reduced aggression at low resource levels due to nutritional deficit follows the predictions of the economic theory of aggressive behaviour2,3. Our results reveal synchronous changes in behaviour in response to coral mortality. Such changes could potentially disrupt territories4, leading to reorganization of ecological communities.

Fish social behavior can be affected by artificial environments, particularly by factors that act upon species that show aggressive behavior to set social rank hierarchy. Although aggressive interactions are part of the natural behavior in fish, if constant and intense, such interactions can cause severe body injuries, increase energy expenditure, and lead the animals to suffer from social stress. The immediate consequence of these factors is a reduced welfare in social fish species. In this paper, we consider the factors that impact on the social behavior and welfare of Nile tilapia, an African cichlid fish widely used both in fish farms and in research; this species is frequently used as a model for physiology and behavior research. This is a polygynous species whose males interact aggressively, establishing a territorial based hierarchy, where a dominant male and several subordinate males arise. When social stability is shrunk, the negative effects of prolonged fighting emerge. In this paper, we summarized how some of the common practices in aquaculture, such as classifying individuals by matching their sizes, water renewal, stock density, and environment lighting affect Nile tilapia social aggressive interactions and, in turn, impact on its welfare. We also discuss some ways to decrease the effects of aggressive interactions in Nile tilapia, such as environment color and body tactile stimulation.

A 30 portable emission measurement system (PEMS) test was conducted in this study to examine the effect of driving modes (aggressive and normal) and road type (urban and rural) on tailpipe emissions. Driving modes were assessed using relative positive acceleration and velocity × positive acceleration factors. The findings revealed that aggressive and normal driving modes differed significantly on urban and rural roads, as evident from paired sample t-test ( p < 0.05). Furthermore, aggressive driving exhibited more prominent speed and acceleration on rural roads, while normal driving modes showed consistent acceleration or speed patterns regardless of road conditions as observed from kernel density estimation and box plot analysis. Emission rates (CO, CO 2 , HC, and NO x ) significantly varied between aggressive and normal driving modes on urban and rural roads, as indicated by paired sample t-test analysis ( p < 0.05). Aggressive driving increased CO 2 , CO, and HC emission rates for acceleration and deceleration modes by 18% to 40% compared to normal driving. Aggressive driving modes increased the emission factors (CO, HC, and CO 2 ) by 5% to 25% compared to the normal driving mode on both urban and rural roads. Moreover, the NO x emission factors were also found significant during normal driving conditions on urban roads. This study provides real-world emission factors of diesel cars considering the impact of route, vehicle familiarity, and driving behavior induced by varying traffic conditions, which will contribute to improve the current emissions inventory on both a local and global level.

After observing a fight between two snowflake eels in southern Taiwan, we had difficulties locating scientific information on eel–eel aggressive behaviour and looked further afield. We collected and scored 34 videos posted on social media, to provide more insight into antagonistic behaviours in eels. The videos showed 12 different species of moray eels involved in aggressive interactions, with the genus Gymnothorax contributing to ~ 71% and Echidna contributing to 24% of the observed occurrences. 82% of the videos documented antagonistic interactions between conspecifics. The fights involved “knotting”, when opponents curl around each other and shove with their bodies, and some biting. Overall, the incidence of injury and death of losers, as well as injury of winners, was higher in smaller-bodied opponents. Conspecific encounters elicited the greatest intensity of aggressive behaviour, which we interpreted as rivalry due to dominance hierarchies and territoriality. This normally included a visible resource the opponents fought over (a den, a food item, a mate). Same-species fights started after gaping mouths at each other, with individuals being roughly equal in size. Conspecific opponents were often injured, but never killed. Available videos with fights between different species included predatory attacks and defensive reactions. Except for one case, interspecific encounters often ended with one eel being killed and eaten, with the winner being a fish-eating Gymnothorax species. Pre-fight, the killer was observed displaying food searching behaviour by checking holes. Both conspecific and interspecific fights frequently incurred deep, V-shaped wounds that were not apparently life threatening. Old V-shaped scars occurred on the bodies of some eels. Such scars could be used in research further investigating aggressive behaviour in moray eels.

Cannibalism is a common phenomenon that occurs in over 30 fish families. Most of the species are valuable objects of aquaculture and cannibalism is highly undesirable. Cannibalism is an aggressive behaviour, which can be caused by stress induced by various population and environmental factors and can occur in two main forms: early larval and late juvenile (or adult). Each of these forms can lead to severe losses of stock. Losses are caused not only by fish eating each other, but also by an increase in the number of infections (the result of body surface damage). It is important to understand the phenomenon of cannibalism in order to properly prevent, diagnose and reduce it. The main aim of this study was to present and examine some of the well-examined methods of cannibalism mitigation. Most of the methods consist of creating rearing conditions similar to natural conditions and to reduce stress. Moreover, because of large interspecies differences, similar methods can result in different effects depending on the species. Additional studies are needed to better understand the biology of each cultured species with particular emphasis on the impact of domestication, as well as to improve fish rearing conditions.