The cost of metamorphosis in amphibians
Findings that shed new light on the evolutionary mechanisms governing the persistence or loss of metamorphosis, particularly in the context of climate change
image:
Paedomorphic palmate newt
view moreCredit: University of Liège / M.Denoël / BMC Biology
Metamorphosis, that profound transformation enabling certain animals to shift between habitats such as from an aquatic to a terrestrial environment, is generally viewed in terms of its benefits. A team of researchers from the University of Liège has now demonstrated that it also entails a direct and immediate cost for the individuals undergoing it, a cost that varies by sex and could influence long-term evolutionary trade-offs.
In many amphibian species, some individuals retain their gills and aquatic lifestyle into adulthood without ever undergoing metamorphosis; this is known as paedomorphosis. In the palmate newt (Lissotriton helveticus), this process is optional: depending on environmental conditions, a single individual may remain in a paedomorphic state or undergo metamorphosis. This plasticity makes it an ideal model for studying the direct consequences of metamorphosis, as it is possible to compare individuals at the same stage of their life cycle (reproductive adults) depending on whether or not they undergo this transition.
The team led by Prof. Mathieu Denoël, Director of the Laboratory of Ecology and Conservation of Amphibians (LECA) at the University of Liège, has taken benefits of the exceptional properties of the palmate newt (Lissotriton helveticus). "In this species, paedomorphic adults, which have gills and are capable of reproduction, can still, under certain conditions, undergo metamorphosis," explains Mathieu Denoël. "This unique trait allows us to compare individuals at the same biological stage depending on whether or not they undergo metamorphosis, while avoiding the confounding effects associated with reproductive development that would arise when studying larval forms. Here, the individuals are already adults and capable of reproduction, which allows us to isolate the direct cost of metamorphosis."
Eighty adult pedomorphic newts were placed in experimental conditions varying in water level and temperature, in order to induce or prevent metamorphosis and thus replicate the variations in conditions observed in the natural environment. Their weight was monitored individually over 85 days. "The results are quite clear," the researcher continues, "all individuals that completed metamorphosis lost a significant amount of weight, whereas those that remained paedomorphic did not experience any net weight loss." This loss of mass cannot be explained solely by internal physiological changes; newts approaching metamorphosis also reduce their food intake, even when food is available in abundance. The transformation process therefore involves both a costly bodily reorganisation and a reduction in energy intake.
The study also highlighted significant differences between males and females. Females begin to lose weight earlier, lose more weight and complete their metamorphosis later. These results shed further light on the ‘male escape’ hypothesis. “If males are more frequently observed undergoing metamorphosis in natural populations, it is likely partly because this transition costs them proportionally less. Taking the sex of individuals into account is essential for understanding their developmental trajectories and population ecology,” explains the researcher.
These findings take on added significance in the face of current climate disturbances. The gradual drying up of shallow wetlands, exacerbated by droughts, is driving more and more individuals to metamorphose. However, in doing so, they lose their energy reserves, which could compromise their reproductive success in the following season. The study therefore calls for the cost of the transition itself to be incorporated into evolutionary models that assess the trade-offs between aquatic and terrestrial life, and more broadly into analyses of the impact of global change on amphibian populations.
Journal
BMC Biology
Article Title
The direct cost of amphibian metamorphosis: insights from body weight loss in facultative paedomorphs
Article Publication Date
4-May-2026
No comments:
Post a Comment