Abstract
BackgroundAquatic habitats have been altered over the past century due to a variety of anthropogenic influences. Ecomorphology is an area of aquatic ecology that can both directly and indirectly assess the effects of habitat alterations on organisms. However, few studies have explored long term trends in morphological variation. Long term changes in morphology can potentially impact niche and ultimately contribute to organismal success and the ecosystem. Therefore, in this study we assessed long term morphological variation with body size, sex, time, and hydrology using museum collections of five species of Cyprinidae (Minnows) from lentic and lotic systems over the past 100 years to gain insight into long term patterns in morphology.ResultsVariation in Cyprinidae morphology tended to relate to: body size—indicating strong allometric growth patterns with robustness of larger individuals; sex—indicating a level of fecundity selection for deeper bodies in females compared with males; and year—indirectly suggesting responses to habitat changes over the past century. In lotic ecosystems, Cyprinidae morphology tended to be more fusiform in conjunction with lower mean annual discharge or higher variation in discharge. In lentic ecosystems, change in morphology was observed but no historic habitat variables were available to discern potential mechanisms. Interestingly, not all species responded in the same magnitude or directionality.ConclusionsLong term changes in morphological variation provide a link to exploring functional relationships between taxa and their environment and have implications for understanding ecosystem attributes, community assembly patterns, and conservation.
Highlights
Aquatic habitats have been altered over the past century due to a variety of anthropogenic influences
Cyprinidae morphology was related to a combination of variables and interaction terms, including body size, sex, hydrology, and time but was not uniformly consistent across species (Tables 3, 4)
Discerning linkages between morphology and hydrology has conservation applications for understanding the capacity of species to respond to changing ecosystems
Summary
Aquatic habitats have been altered over the past century due to a variety of anthropogenic influences. Long term changes in morphology can potentially impact niche and contribute to organismal success and the ecosystem. Central to understanding the impact of changes to habitats over the past century are species-environment relationships [4], how organismal morphology may play a part in the functional role of an individual in an ecosystem. These larger scale relationships between morphology and environment can improve predictability and understanding of potential assemblage and ecosystem level attributes [5,6,7]. The purpose of this study was to apply an exploratory technique incorporating a suite of tests to identify potential morphological covariates in fishes over the past century
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