Formation of constructive strategies of behaviour of primary school pupils in conflict with their peers

The article deals with the problem of primary schoolchildren’s conflict behaviour. The necessity of forming constructive strategies of children's behaviour in conflict through the implementation of the developed programme is shown. The results of ascertaining experiment conducted on a sample of 60 fourth-formers using the following diagnostic tools are presented – the method of Kenneth W. Thomas & Ralph H. Kilmann’s Conflict Mode Instrument (in the adaptation of Natal’ya Grishina), expert assessment of the behaviour of schoolchildren in a conflict situation by pedagogues and parents, a questionnaire for teachers ‟Signs of conflict” by Yelena Lyutova & Galina Monina). The analysis of the data showed that the majority of primary schoolchildren choose non-constructive behavioural strategies (adaptation, competition, avoidance), and also have an increased level of conflict, which indicated the feasibility of developing and implementing a programme for the formation of constructive behavioural strategies of pupils. 15 group sessions were conducted in the form of training using role-playing games, psychohymnastic exercises, mini-lectures, discussions, and situation analysis. The control experiment, as well as the use of mathematical statistics methods, showed the effectiveness of the work done – the presence of changes in the strategies of behaviour in conflict, in particular, pupils more often choose constructive strategies (cooperation and compromise) and less often destructive ones (rivalry and withdrawal), there was a decrease in the level of conflict.

Promiscuous specialists: Host specificity patterns among generalist louse flies

Ectoparasites such as louse flies (Diptera: Hippoboscidae) have tendency for host specialization, which is driven by adaptation to host biology as well as competition avoidance between parasites of the same host. However, some louse fly species, especially in genera attacking birds, show wide range of suitable hosts. In the presented study, we have surveyed the current status of bird specific louse flies in Finland to provide comprehensive host association data to analyse the ecological requirements of the generalist species. A thorough sampling of 9342 birds, representing 134 species, recovered 576 specimens of louse flies, belonging to six species: Crataerina hirundinis, C. pallida, Ornithomya avicularia, O. chloropus, O. fringillina and Ornithophila metallica. Despite some overlapping hosts, the three Ornithomya species showed a notable pattern in their host preference, which was influenced not only by the host size but also by the habitat and host breeding strategy. We also provide DNA barcodes for ten Finnish species of Hippoboscidae, which can be used as a resource for species identification as well as metabarcoding studies in the future.

Promiscuous specialists: Host specificity patterns among generalist louse flies

Ectoparasites such as louse flies (Diptera: Hippoboscidae) have tendency for host specialization, which is driven by adaptation to host biology as well as competition avoidance between parasites of the same host. However, some louse fly species, especially in genera attacking birds, show wide range of suitable hosts. In the presented study, we have surveyed the current status of bird attacking louse flies in Finland to provide comprehensive host association data to analyse the ecological requirements of the generalist species. A thorough sampling of 9342 birds, representing 134 species, recovered 576 specimens of louse flies, belonging to six species: Crataerina hirundinis, C. pallida, Ornithomya avicularia, O. chloropus, O. fringillina and Ornithophila metallica. Despite some overlapping hosts, the three Ornithomya species showed a notable pattern in their host preference, which was influenced not only by the host size but also by the habitat and host breeding strategy. We also provide DNA barcodes for most Finnish species of Hippoboscidae, which can be used as a resource for species identification as well as metabarcoding studies in the future.

Correction to: Mate attraction, chemical defense, and competition avoidance in the parasitoid wasp Leptopilina pacifica

While typesetting the article the below errors are occurred.

Mate attraction, chemical defense, and competition avoidance in the parasitoid wasp Leptopilina pacifica

A major hypothesis for the evolution of chemical signals is that pheromones arise from non-communicative precursor compounds. However, data supporting this hypothesis are rare, primarily because the original functions of the antecedent compounds often have been lost. A notable exception, however, is the parasitoid wasp species Leptopilina heterotoma, whose compound (−)-iridomyrmecin is used as a defensive secretion, a cue for females to avoid competition with con- and hetero-specific females, and as the primary component of the females’ sex pheromone. To better understand the evolution of sex pheromones from defensive compounds, we examined the chemical ecology of L. pacifica, the sister species of L. heterotoma. Here, we show that L. pacifica also produces a defensive secretion containing a species-specific mixture of mostly iridoid compounds. However, the composition of the secretion is more complex than in L. heterotoma, and iridomyrmecin is only a minor component. Moreover, in contrast to L. heterotoma, conspecific female competitors were not avoided by female subjects, and a role of the iridoids in the female sex pheromone of L. pacifica can be excluded, as only the females’ cuticular hydrocarbons (CHCs) resulted in the elicitation of courtship by males. Although closely related, the two sister species show substantial differences in the use of the defensive secretion for communicative purposes. Variation in pheromone usage in this genus still presents a conundrum, highlighting the need for additional studies to understand the selective forces shaping the evolution of pheromone composition.

Foraging niche overlap during chick-rearing in the sexually dimorphic Westland petrel

Most Procellariform seabirds are pelagic, breed in summer when prey availability peaks, and migrate for winter. They also display a dual foraging strategy (short and long trips) and sex-specific foraging. The Westland petrel Procellaria westlandica , a New Zealand endemic, is one of the rare seabirds breeding in winter. Preliminary findings on this large and sexually dimorphic petrel suggest a foraging behaviour with no evidence of a dual strategy, within a narrow range and with shared areas between sexes. To investigate further this unusual strategy, the present study determined the fine-scale at-sea behaviours (global positioning system and accelerometer data loggers) and trophic niches (stable isotopes in whole blood) of chick-rearing individuals (16 males and 13 females). All individuals foraged on the shelf-slope of the west coast of New Zealand's South Island with short, unimodal trips. Both sexes foraged at similar intensity without temporal, spatial or isotopic niche segregation. These findings suggest the presence of a winter prey resource close to the colony, sufficient to satisfy the nutritional needs of breeding without increasing the foraging effort or intra-specific competition avoidance during winter. Additional data are needed to assess the consistency of foraging niche between the sexes and its reproductive outcomes in view of anticipated environmental changes.

Evidence of sperm removal behaviour in an externally fertilizing species and compensatory behaviour for the risk of self-sperm removal

The removal of rival sperm from a female's sperm storage organ acts as a strong sperm competition avoidance mechanism, which has been reported only in internally fertilizing species and not at all in externally fertilizing species. This study demonstrated for the first time that nest-holding males of Bathygobius fuscus , an externally fertilizing marine fish, remove the sperm of rival sneaker males from the spawning nest by exhibiting tail-fanning behaviour within the nest. Males showed tail-fanning behaviour when semen was artificially injected into the nest but not when seawater was injected, and in open nests this behaviour resulted in higher paternity rates for the focal male. The sperm removal behaviour entails the risk of removing their own sperm; therefore, additional sperm release behaviour is likely necessary to benefit from the sperm removal effect. Consistent with this, males increased post-fanning sperm release behaviour more in the semen than in the seawater injection treatment. Moreover, males who had removed sperm for a longer time spent more time releasing sperm after the removal, suggesting that the additional sperm release behaviour compensated for the loss of their own sperm. These results suggest that sperm removal behaviour is not restricted to internally fertilizing organisms and deserves further investigation in this and other species.

Identification of seminal proteins related to the inhibition of mate searching in female crickets

In response to the reduction in fitness associated with sperm competition, males are expected to evolve tactics that hinder female remating. For example, females often display a postmating reduction in their sexual receptivity that has been shown to be mediated by proteins contained in a male’s seminal fluid (sfps). However, although there has been comprehensive research on sfps in genetically well-characterized species, few nonmodel species have been studied in such detail. We initially confirm that female Australian field crickets, Teleogryllus oceanicus, do display a significant reduction in their mate-searching behavior 24 h after mating. This effect was still apparent 3 days after mating but was entirely absent after 1 week. We then attempted to identify the sfps that might play a role in inducing this behavioral response. We identified two proteins, ToSfp022 and ToSfp011, that were associated with the alteration in female postmating behavior. The knockdown of both proteins resulted in mated females that displayed a significant increase in their mate-searching behaviors compared with females mated to males having the full compliment of seminal fluid proteins in their ejaculate. Our results indicate that the female refractory period in T. oceanicus likely reflects a sperm competition avoidance tactic by males, achieved through the action of male seminal fluid proteins.

Microbiota-mediated competition between pest insects and its application to the evolution-proof protection of crops

Species that share the same resources often avoid costly competition with contextdependent behaviors. This is the case of the invasive insect pest Drosophila suzukii which larvae’s ecological niche overlaps with that of Drosophila melanogaster in ripe, but not rotten, fruit. Previous research showed D. suzukii prevents costly larval competition by not ovipositing in substrates with D. melanogaster eggs. We discovered D. suzukii females respond to cues produced by D. melanogaster adults associated to gut microbiota bacteria. This behavior of D. suzukii varied over time and among populations, revealing subtle condition-dependence. In particular, D. suzukii females that bore D. melanogaster gut bacteria stopped avoiding sites with D. melanogaster cues. The adaptive significance of the behavior was investigated by reproducing experimentally in-fruit larval competition. D. suzukii larvae only suffered from competition with D. melanogaster if the competitor was associated to its microbiota, suggesting D. suzukii has evolved a solution to avoid its offspring develops in challenging environments. We argue that D. suzukii’s competition avoidance behavior has features enabling the design of an evolution-proof repellent to protect crops.

Lipids as currency in ecological interactions: Competition and facilitation between two lipid scavenging parasitoids

Interspecific interactions in nature often revolve around the acquisition of nutrients. Depending on the organisms’ metabolic requirements, competition for specific essential nutrients may occur, which selects for increased abilities to monopolize, consume and store these nutrients. Lipid scavengers are organisms that rely on exogenous lipid acquisition as they lack the ability to synthesize fatty acids de novo or in sufficient quantity. Most parasitoid insects are lipid scavengers: they obtain all required lipids by feeding on their hosts as larvae. Here we study the nutritional ecology of competitive interactions between native Nasonia vitripennis and introduced Tachinaephagus zealandicus. While the former was already known to lack lipogenesis, we show that T. zealandicus also relies on host lipids. The interactions between the two species were studied using competition experiments, in which oviposition of T. zealandicus on a host was followed by multiparasitism by N. vitripennis. The outcome of competition was determined by the duration of the time lag between oviposition events. N. vitripennis was superior when arriving 3 days after oviposition by T. zealandicus. In contrast, 9 days after oviposition of T. zealandicus we observed complete reversal, and no N. vitripennis offspring were able to develop. Only when N. vitripennis laid eggs 15 days after T. zealandicus oviposition, both species could emerge from the same host. However, N. vitripennis realizes only 10% of its potential fitness at this time point because prior parasitization by the gregarious T. zealandicus compartmentalizes the host resources, limiting the spread of N. vitripennis’ venom. This study shows that successful reproduction of N. vitripennis at 15 days was achieved by hyperparasitizing, a capability that provides a fitness benefit to N. vitripennis, as it extends the time window that hosts are available for parasitization. Choice tests with hosts at different time intervals after T. zealandicus oviposition revealed a partial mismatch in N. vitripennis females between competition avoidance and offspring performance, which may be linked to the limited co-evolutionary time between native and introduced species. We discuss our results in the context of nutritional ecology and, specifically, the role of lipids in ecological interactions.