ABSTRACT. Haplodiploidy results in relatedness asymmetries be-tween colony members of highly eusocial Hymenoptera. As a conse-quence, queen and reproductive workers are more related to their own sons than to each other’s male offspring. Kin selection theory predicts multiple optima in male parentage: either the queen or the workers should produce all the males. Nevertheless, shared male parentage is common in highly eusocial hymenopterans. An inclusive fitness model was used to analyze the effect of the number of reproductive workers on male parentage shared by the queen and laying workers by isolat-ing the male component from an inclusive fitness equation using the equal fitness through male condition for each pairwise combination of the t...
In eusocial Hymenoptera with monogynous colonies and singly inseminated queens, workers are related ...
Social insects usually live in colonies comprising one or a small number of reproductive individuals...
Sex allocation data in eusocial Hymenoptera (ants, bees and wasps) provide an excellent opportunity ...
Haplodiploidy results in relatedness asymmetries between colony members of highly eusocial Hymenopte...
A model is constructed to study the effects of local mate competition and multiple mating on the opt...
Workers in eusocial insect species help in rearing their siblings and other genetic relatlves instea...
Kin selection theory predicts that, in social Hymenoptera, the parentage of males should be determin...
Kin selection theory predicts that, in social Hymenoptera, the parentage of males should be determin...
W. D. Hamilton famously suggested that the inflated relatedness of full sisters under haplodiploidy ...
The haplodiploid genetic system found in all Hymenopterans creates an asymmetry in genetic relatedne...
In many eusocial Hymenoptera, workers prevent each other from producing male offspring by destroying...
Hamilton's kin selection theory predicts conflicts of interest among relatives, even within hig...
Mutual policing is an important mechanism that maintains social harmony in group-living organisms by...
The generation-long primacy of kin selection in explaining the evolution of advanced eusociality in ...
<div><p>Mutual policing is an important mechanism that maintains social harmony in group-living orga...
In eusocial Hymenoptera with monogynous colonies and singly inseminated queens, workers are related ...
Social insects usually live in colonies comprising one or a small number of reproductive individuals...
Sex allocation data in eusocial Hymenoptera (ants, bees and wasps) provide an excellent opportunity ...
Haplodiploidy results in relatedness asymmetries between colony members of highly eusocial Hymenopte...
A model is constructed to study the effects of local mate competition and multiple mating on the opt...
Workers in eusocial insect species help in rearing their siblings and other genetic relatlves instea...
Kin selection theory predicts that, in social Hymenoptera, the parentage of males should be determin...
Kin selection theory predicts that, in social Hymenoptera, the parentage of males should be determin...
W. D. Hamilton famously suggested that the inflated relatedness of full sisters under haplodiploidy ...
The haplodiploid genetic system found in all Hymenopterans creates an asymmetry in genetic relatedne...
In many eusocial Hymenoptera, workers prevent each other from producing male offspring by destroying...
Hamilton's kin selection theory predicts conflicts of interest among relatives, even within hig...
Mutual policing is an important mechanism that maintains social harmony in group-living organisms by...
The generation-long primacy of kin selection in explaining the evolution of advanced eusociality in ...
<div><p>Mutual policing is an important mechanism that maintains social harmony in group-living orga...
In eusocial Hymenoptera with monogynous colonies and singly inseminated queens, workers are related ...
Social insects usually live in colonies comprising one or a small number of reproductive individuals...
Sex allocation data in eusocial Hymenoptera (ants, bees and wasps) provide an excellent opportunity ...