Your search keyword '"De Gasperin, Ornela"' showing total 4 results

1. Cryptic recessive lethality of a supergene controlling social organization in ants.

Author

Blacher, Pierre, De Gasperin, Ornela, Grasso, Guglielmo, Sarton‐Lohéac, Solenn, Allemann, Roxane, and Chapuisat, Michel

Subjects

*SOCIAL structure, *SOCIAL control, *GENETIC models, *ANTS, *ASSORTATIVE mating

Abstract

Supergenes are clusters of linked loci that control complex phenotypes, such as alternative forms of social organization in ants. Explaining the long‐term maintenance of supergenes is challenging, particularly when the derived haplotype lacks homozygous lethality and causes gene drive. In the Alpine silver ant, Formica selysi, a large and ancient social supergene with two haplotypes, M and P, controls colony social organization. Single‐queen colonies only contain MM females, while multiqueen colonies contain MP and PP females. The derived P haplotype, found only in multiqueen colonies, selfishly enhances its transmission through maternal effect killing, which could have led to its fixation. A population genetic model showed that a stable social polymorphism can only be maintained under a narrow set of conditions, which includes partial assortative mating by social form (which is known to occur in the wild), and low fitness of PP queens. With a combination of field and laboratory experiments, we show that the P haplotype has deleterious effects on female fitness. The survival rate of PP queens and workers was around half that of other genotypes. Moreover, P‐carrying queens had lower fertility and fecundity compared to other queens. We discuss how cryptic lethal effects of the P haplotype help stabilize this ancient polymorphism. [ABSTRACT FROM AUTHOR]

Published

2023

2. The early‐life environment and individual plasticity in life‐history traits.

Author

De Gasperin, Ornela, Duarte, Ana, English, Sinead, Attisano, Alfredo, and Kilner, Rebecca M.

Subjects

*BEETLES, *LARVAE, *MITES, *ANIMAL carcasses, *ANIMAL breeds

Abstract

We tested whether the early‐life environment can influence the extent of individual plasticity in a life‐history trait. We asked: can the early‐life environment explain why, in response to the same adult environmental cue, some individuals invest more than others in current reproduction? Moreover, can it additionally explain why investment in current reproduction trades off against survival in some individuals, but is positively correlated with survival in others? We addressed these questions using the burying beetle, which breeds on small carcasses and sometimes carries phoretic mites. These mites breed alongside the beetle, on the same resource, and are a key component of the beetle's early‐life environment. We exposed female beetles to mites twice during their lives: during their development as larvae and again as adults during their first reproductive event. We measured investment in current reproduction by quantifying average larval mass and recorded the female's life span after breeding to quantify survival. We found no effect of either developing or breeding alongside mites on female reproductive investment, nor on her life span, nor did developing alongside mites influence her size. In post hoc analyses, where we considered the effect of mite number (rather than their mere presence/absence) during the female's adult breeding event, we found that females invested more in current reproduction when exposed to greater mite densities during reproduction, but only if they had been exposed to mites during development as well. Otherwise, they invested less in larvae at greater mite densities. Furthermore, females that had developed with mites exhibited a trade‐off between investment in current reproduction and future survival, whereas these traits were positively correlated in females that had developed without mites. The early‐life environment thus generates individual variation in life‐history plasticity. We discuss whether this is because mites influence the resources available to developing young or serve as important environmental cues. Two challenges in evolutionary ecology are to explain why there is individual variation in life‐history plasticity, and why life‐history traits sometimes, but not always, trade off against each other. Using an experimental approach, we show that individual plasticity in a life‐history trait (current reproductive investment) is attributable to conditions experienced in early life. We further show that early‐life conditions can explain whether this trait has a positive or negative relationship with another life‐history trait (adult survival). [ABSTRACT FROM AUTHOR]

Published

2019

3. Friend or foe: inter-specific interactions and conflicts of interest within the family.

Author

DE GASPERIN, ORNELA and KILNER, REBECCA M.

Subjects

*BURYING beetles, *INSECT larvae, *ANIMAL social behavior, *PARASITIDAE, *BROOD stock assessment, *COMPETITION (Biology), *INSECTS

Abstract

1. Interactions between species can vary from mutually beneficial to evolutionarily neutral to antagonistic, even when the same two species are involved. Similarly, social interactions between members of the same species can lie on a spectrum from conflict to cooperation. 2. The aim of the present study was to investigate whether variation in the two types of social behaviour are interconnected. Is the fitness of the various classes of social partner within species (such as parent and offspring, or male and female) differently affected by interactions with a second species? Moreover, can inter-specific interactions influence the outcome of social interactions within species? 3. The present experiments focus on the interactions between the burying beetle Nicrophorus vespilloides Herbst and the phoretic mite Poecilochirus carabi G. Canestrini & R. Canestrini. The approach was to measure the fitness of burying beetle mothers, fathers, and offspring after reproduction, which took place either in the presence or absence of mites. 4. We found that male, female, and larval burying beetles derive contrasting fitness costs and benefits from their interactions with the mite, despite sharing a common family environment. From the mite's perspective, its relationship with the burying beetle can, therefore, be simultaneously antagonistic, neutral, and possibly even mutualistic, depending on the particular family member involved. We also found that mites can potentially change the outcome of evolutionary conflicts within the family. 5. We conclude that inter-specific interactions can explain some of the variation in social interactions seen within species. It is further suggested that intra-specific interactions might contribute to variation in the outcome of interactions between species. [ABSTRACT FROM AUTHOR]

Published

2015

4. Interspecific interactions change the outcome of sexual conflict over prehatching parental investment in the burying beetle Nicrophorus vespilloides.

Author

De Gasperin, Ornela and Kilner, Rebecca M.

Subjects

*BURYING beetles, *SILPHIDAE, *ONTOLOGY, *ANIMAL carcasses, *ANIMAL reproduction

Abstract

Sexual conflict arises when the optimal reproductive strategy differs for males and females. It is associated with every reproductive stage, yet few studies have considered how the outcome may be changed by interactions with other species. Here, we show that phoretic mites Poecilochirus carabi change the outcome of sexual conflict over the supply of prehatching parental investment in the burying beetle Nicrophorus vespilloides. Burying beetles require a small dead vertebrate for reproduction, which they prepare by shaving it, rolling up the flesh, and burying it. When pairs were given a medium-sized mouse to prepare (13-16 g), mites changed how the costs of reproduction were divided between the sexes, with males then sustaining greater costs than females. We found no equivalent difference when pairs prepared larger or smaller carcasses. Thus, our experiment shows that the outcome of sexual conflict over prehatching parental investment is changed by interactions with other species during reproduction. [ABSTRACT FROM AUTHOR]

Published

2015