Abstract
BackgroundLife in the darkness of caves is accompanied, throughout phyla, by striking phenotypic changes including the loss or severe reduction in eyes and pigmentation. On the other hand, cave animals have undergone constructive changes, thought to be adaptive, to survive in this extreme environment. The present study addresses the question of the evolution of growth in caves, taking advantage of the comparison between the river-dwelling and the cave-dwelling morphs of the Mexican tetra, Astyanax mexicanus.ResultsA sclerochronology approach was undertaken to document the growth of the species in these two very distinct habitats. Scales from 158 wild Astyanax mexicanus specimens were analyzed from three caves (Pachón, Tinaja and Subterráneo) and two rivers (Rio Gallinas and Arroyo Lagarto) in San Luis Potosi and Tamaulipas, Mexico. A 10–13% reduction in scales size was observed in the cave morphs compared to the surface morphs. Age could be reliably inferred from annual growth increments on the scales from the two morphs of the species. Further comparisons with growth curves in laboratory conditions, obtained using the von Bertalanffy growth model, were also performed. In the wild and in the laboratory, cavefish originating from the Pachón cave reached smaller sizes than surface fish from three different locations: Rio Gallinas and Arroyo Lagarto (wild sampling) and Texas (laboratory population), respectively. Wild Pachón cavefish also seemed to grow to smaller sizes than the two other wild cavefish populations studied, Tinaja and Subterráneo. Finally, growth in the laboratory was faster than in the wild, particularly in the two first years of life.ConclusionsThese data suggest that cavefish originating from the Pachón cave are subjected to an intrinsic limitation of their final size, which is at least in part independent from energy/food availability. This growth limitation may be an advantageous way of limiting energy expenditure and food needs in the cave environment. Moreover, growth regulation evolved differently in independently evolved cave populations. These results are discussed with regard to the sources of energy or general ecological conditions present in caves, and to the differences in behavior or feeding skills known in cavefish.
Highlights
Life in the darkness of caves is accompanied, throughout phyla, by striking phenotypic changes includ‐ ing the loss or severe reduction in eyes and pigmentation
The largest sample came from the Pachón cave (n = 69)
Among the 12 fish sampled in the Tinaja cave, the Total length (TL) ranged from 3 to 9 cm (Fig. 1d)
Summary
Life in the darkness of caves is accompanied, throughout phyla, by striking phenotypic changes includ‐ ing the loss or severe reduction in eyes and pigmentation. The sources of energy in the subterranean habitats are mainly threefold: (1) external sources, such as those from animals that enter the caves and either deposit their feces or their cadavers, bat guano being a prime example, (2) streams flowing into caves that can bring dissolved organic carbon, and particulate organic matter, sometimes of considerably large size, and (3) percolating water charged with a variety of compounds containing organic carbon, microbes, soil particles and micro-arthropods. These energy sources are both spatially and temporally variable [7]. Each cave should probably be considered as a special case, and comparisons between different caves are probably as varied as the comparison between caves and rivers
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