Body Size of the Monomorphic Ant Lasius niger

Metal pollution may cause the decrease in the individual body size. In ants, the morphological diversity within and between colonies may be much higher than that considered before, even in monomorphic ants. In this study we measured the body size, expressed as head width, of Lasius niger workers collected from 44 young colonies in their ergonomic stage along a well-known gradient exhibiting chronic metal pollution. We calculated statistics describing the body size distribution curve, namely, average, median, data range, skewness, and kurtosis. None of these statistics correlated with the pollution level. Contrary to our previous study performed on mature colonies, workers from young colonies do not display pollution-related morphological changes. The results stress the importance of developmental stage of colony on diversifying body size of the worker cast, in monomorphic ants living in metal-polluted areas

Thermal tolerance of monomorphic ants: the importance of body size

<p>The file presents the data collected in order to compare the body size of <em>Lasius niger</em> ant foraging in the morning with that foraging in the afternoon. The ant were collected in 2022 in the vicinity of Cracow, Poland. <br>The meaning of variables follow:<br><strong>Colony ID</strong> - the identification number (1-10) of the colony used to collect the ants<br><strong>Sampling event</strong> - time of day when the ants were collected (morning, afternoon). Morning sample was performed between 08:00-09:00 while, afternoon sampling between 14:00-15:00.<br><strong>Head width</strong> - individual width of head measured using microscopic methods<br><strong>Residuals</strong> - the differences between values predicted by GLM analysis and the observed values.<br><br></p&gt

Body size differences between foraging and intranidal workers of the monomorphic ant Lasius niger

The association between the division of labour and worker body size of ants is typical for species that maintain physical castes. Some studies showed that this phenomenon can be also observed in the absence of distinct morphological subcastes among workers. However, the general and consistent patterns in the size-based division of labour in monomorphic ants are largely unidentified. In this study, we performed a field experiment to investigate the link between worker body size and the division of labour of the ant Lasius niger (Linnaeus, 1758), which displays limited worker size variation. We demonstrated that the body size of workers exploring tuna baits is slightly but significantly smaller than the size of workers located in the upper parts of the nest. Comparing the present results with existing studies, large workers do not seem to be dedicated to work outside the nest. We suggest that monomorphic workers of certain body sizes are flexible in the choice of task they perform, and food type may be the important determinant of this choice

Body size in males of the ant Lasius niger (Hymenoptera : Formicidae) along a metal pollution gradient

Environmental stress can lead to a decrease in the body size of insects. As social insects, ants have a complex caste system; each caste has its own morphological traits and functions in the colony, hence the effects of stress may manifest differentially among different ant castes. Here we investigated the body size of males of the common garden ant, Lasius niger L., 1758, living in a postmining area polluted mainly by Zn, Cd, and Pb. We examined if individual body size decreases with the pollution gradient. The ants were sampled from 39 wild colonies originating from 17 sites located along the metal pollution gradient; head width was used as the estimator of body size. We failed to show a significant correlation between pollution and male body size, indicating no direct effect of pollution on the body size of males of the investigated ant. However, we found a significant dependence with the colony of origin, which is in line with a previous study performed on this species in unpolluted sites. These results further strengthen a general conclusion that morphological traits in ants, such as body size or fluctuating asymmetry, are relatively invariable and stable across gradients of metal pollution