Abstract
Parasites can negatively affect the reproductive success of hosts. Placental species may be particularly susceptible, because parasite-induced stress during pregnancy could potentially influence embryo development. Here, we examine the consequences of a trematode infestation (black spot disease, BSD) for fetal development and adult behavior in 19 natural populations of the placental live-bearing fish species Poeciliopsis retropinna (Poeciliidae) in Costa Rica. First, we observed substantial variation in parasite infestation among populations which correlated with a number of local environmental conditions (elevation, river width, depth, and flow velocity). Furthermore, we observed substantial variation in parasite infestation among females within populations associated with maternal age and size. We found that the infestation rate significantly influenced embryonic development, with more heavily parasitized females producing smaller and worse-conditioned offspring at birth, possibly, because a costly immune response during pregnancy limits, either directly or indirectly, nourishment to developing embryos. Finally, a behavioral experiment in the field showed that the infestation rate did not affect an individual’s boldness. Our study indicates that in placental live-bearing fish parasite infestation leads to reduced embryo provisioning during pregnancy, resulting in a smaller offspring size and quality at birth potentially with negative implications for offspring fitness.
Highlights
The life history of individuals describes how resources are allocated to different functions such as maintenance, somatic growth and reproduction (Roff 1992; Stearns 1992)
Environmental sources of variation in black spot infestation among populations We found substantial variation in black spot infestation among and within the populations of Poeciliopsis retropinna (Fig. 1)
We examined the importance of black spot disease (BSD) in shaping life history and behavior in the placental live-bearing fish species Poeciliopsis retropinna
Summary
The life history of individuals describes how resources are allocated to different functions such as maintenance, somatic growth and reproduction (Roff 1992; Stearns 1992). Individuals have limited resources that must be competitively allocated to these different functions. A limiting set of possible life-history strategies (Braendle et al 2011). Parasites, which are ubiquitous in natural populations (Bush et al 2001), can act on these trade-offs and induce shifts in the optimum of life-history traits (Michalakis and Hochberg 1994; Sheldon and Verhulst 1996; Richner 1998). Studying the causes and consequences of parasite infestation is crucial for understanding the evolution of life histories
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