Abstract
Patterns in parasite community structure are often observed in natural systems and an important question in parasite ecology is whether such patterns are repeatable across time and space. Field studies commonly look at spatial or temporal repeatability of patterns, but they are rarely investigated in conjunction. We use a large dataset on the macroparasites of the three-spined stickleback, Gasterosteus aculeatus L., collected from 14 locations on North Uist, Scotland over an 8-year period to investigate: (1) repeatability of patterns in parasite communities among populations and whether variation is consistent across years, (2) whether variation between years can be explained by climatic variation and progression of the season and (3) whether variation in habitat characteristics explain population differences. Differences in relative abundance and prevalence across populations were observed in a number of parasites investigated indicating a lack of consistency across years in numerous parasite community measures; however, differences between populations in the prevalence and abundance of some parasites were consistent throughout the study. Average temperature did not affect parasite community, and progression of the season was only significant for two of 13 community measures. Two of the six habitat characteristics investigated (pH and calcium concentration) significantly affected parasite presence.
Highlights
A key goal of many scientific disciplines is the identification of general laws or principles based upon recurring and predictable patterns (Poulin, 2007)
Finding laws which can be applied in all cases is difficult in ecology as the complexity of natural systems results in identification of circumstantial patterns which are not applicable in all situations (Poulin, 2007)
Comparison of the macroparasites communities of three-spined sticklebacks collected from 14 populations across five years was used to look for spatiotemporal patterns in parasite occurrence and suggest possible mechanistic explanations behind observed patterns
Summary
A key goal of many scientific disciplines is the identification of general laws or principles based upon recurring and predictable patterns (Poulin, 2007). Such patterns can be used to formulate laws explaining observations in nature and their underlying mechanisms, and as a basis for testable hypotheses (Lawton, 1999; Poulin, 2007). Identifications of patterns in parasite occurrences may provide valuable insights into the shaping of parasite communities and interactions, as well as the dynamics of host-parasite relationships (Behnke, 2008; de Roij and MacColl, 2012)
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