Abstract
The Nicaraguan lakes represent an ideal continent-island-like setting to study the colonization patterns of both fish and their parasites. The dominant fish fauna are cichlids, particularly the Midas cichlid species complex Amphilophus spp., a well-studied model for recent sympatric speciation. Here, we characterized the Midas cichlid macroparasite diversity in Nicaraguan lakes. We evaluated patterns of parasite diversity across host populations. Morphological and molecular analyses were conducted, revealing a macroparasite fauna composed by 37 taxa, including platyhelminths, nematodes, copepods, branchiurans, hirudineans and oribatids. Three invasive species are reported for the first time. The Midas cichlid was infected by 22 parasite taxa, 18 shared with other cichlids. Eight taxa conformed the core parasite fauna of the Midas cichlid. The large lakes had higher parasite diversity than the smaller and isolated crater lakes, although parasite infracommunity diversity was lower. Environmental factors along with the differential distribution of intermediate hosts, the potential resistance gained by their hosts after colonization of new lakes, competitive exclusion among parasites, or the introduction of exotic fish, may determine the observed pattern of parasite heterogeneous distribution. Our study provides a ground to explore the evolutionary history of both, hosts and parasites within the context of speciation and diversification processes.
Highlights
The Nicaraguan lakes represent an ideal continent-island-like setting to study the colonization patterns of both fish and their parasites
A total of 754 cichlid fish were studied for parasites in seven Nicaraguan lakes, belonging to 20 fish taxa, 10 of which corresponded to the Midas cichlid species complex (509 individuals) and formed the largest portion of the sample (Supplementary Table S3)
We studied the macroparasites of this species in two Nicaraguan lakes, and found some African parasites that do not seem to have been transmitted to native cichlids
Summary
The Nicaraguan lakes represent an ideal continent-island-like setting to study the colonization patterns of both fish and their parasites. The dominant fish fauna are cichlids, the Midas cichlid species complex Amphilophus spp., a well-studied model for recent sympatric speciation. We characterized the Midas cichlid macroparasite diversity in Nicaraguan lakes. Parasites may exert strong selective pressures on host populations, regulating their populations in multiple ways[3], determining the presence of other parasites[4], modulating host behaviors[5–7], and influencing host range expansion[8] In this context, changes in parasite community composition and abundance might be an evolutionary driving force for their host populations[9–12]. The Midas cichlid independently colonized each of the crater lakes in the last few thousand years by fish stocks from the great Nicaraguan lakes[15–17]. Our recent investigation have already resulted in the description of two additional species of parasites from Nicaraguan crater lakes[36,37], and more are expected to be discovered and described
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