Morphometric and genetic differences were analysed for two closely related damselflies, Chalcolestes viridis and C. parvidens. A total of 305 male individuals were collected from six European countries (Austria, Croatia, Germany, Greece, Hungary and Portugal). Measurements from a total of 28 populations of C. viridis and C. parvidens and several intermediate forms were collected to determine if they can be definitely distinguished using simple morphometric characters. DNA sequences from two independent loci (nuclear ribosomal ITS region and mitochondrial cytochrome oxidase I gene) were analysed to test whether these taxa represent separate monophyletic groups as well as to compare the genetic distance with those found between well-accepted European Lestes species. Discriminant analysis revealed that C. viridis and C. parvidens are differentiated in morphometric space. Individuals with intermediate anal appendage traits overlapped with both C. viridis and C. parvidens which raised the possibility that they are merely subspecies of a single species. However, genetic analysis of both investigated DNA regions showed that the two Chalcolestes taxa did not share haplotypes, indicating their status as true species. Furthermore, they formed a monophyletic group separated from the investigated Lestes species, supporting the recognition of the genus Chalcolestes. The two Chalcolestes species are very closely related compared with European Lestes species, suggesting that their divergence occurred relatively recently.
Handling Editor: Mario BraunsAlthough the influence of invasive species on the distribution of native species is well-studied, our knowledge on the processes driving the co-occurrence of native gammarid species is limited. We studied the co-occurrence of two common European gammarids, Gammarus fossarum and Gammarus roeselii, along a stream continuum in Mecsek Mountains, SW Hungary.We hypothesized that (1) the large scale distribution is influenced by microhabitat diversity;(2) the distribution of each species is equal among the available microhabitats in the absence of a competitor; (3) microhabitat preference is evident in the case of coexistence; and (4) the mesohabitat structure influences the microhabitat preference. A longitudinal gradient was observed along the stream: The dominance of G. fossarum at upstream sections continuously transitioned into the dominance of G. roeselii through an intermediate section, where both species coexisted. This distribution cannot be completely explained by the microhabitat diversity. In cases of single species occurrences, no microhabitat preference was found in G. fossarum, whereas G. roeselii preferred lithal and biotic microhabitats. The presence of a competitor significantly modified the microdistribution: G. roeselii retreated from lithal microhabitats and G. fossarum almost disappeared from gravel. Moreover, the location of microhabitats within mesohabitats significantly affected the distribution of gammarids. Both species occurred in meso-and microhabitat combination resembling their habitat usually occupied along the stream continuum: G. fossarum was an indicator species for the fast-flowing shallow riffles with the dominance of lithal microhabitat, whereas G. roeselii was abundant in the slow-flowing deeper pools usually characterized by vegetation or organic matter. Our results suggest that, beyond the large scale longitudinal distributional pattern and species-specific lifecycles, the meso-and microhabitat characteristics of a stream can drive stable and long-term coexistence among G. fossarum and G. roeselii. K E Y W O R D S co-occurrence, Gammarus fossarum, Gammarus roeselii, habitat segregation, microhabitat preference
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