2020
DOI: 10.1111/jzs.12395
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A molecular phylogeny of the freshwater‐fish genusRasbora(Teleostei: Cyprinidae) in Sri Lanka reveals a remarkable diversification—And a cryptic species

Abstract: The diversity of the freshwater‐fish genus Rasbora (Cyprinidae) on Sri Lanka (five species) is high compared with the four species reported from the peninsula of India, from which the island's cyprinid fauna is derived. The paucity of characters by which species of Rasbora can be phenotypically distinguished renders field identification difficult, adversely affecting the estimation of populations and distributions, with consequences for conservation and management, increasing also the risk of taxonomic inflati… Show more

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Cited by 16 publications
(25 citation statements)
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“…Nevertheless, perhaps owing to the wet zone's greater topographic complexity [51], and despite its extent being only about a quarter that of the dry zone, nucleotide and haplotype diversity in the wet-zone endemics P. nigrofasciata, P. cumingii and P. reval are greater than in P. melanomaculata. This phenomenon has been observed previously in species pairs in which one is confined to the wet zone while the other is distributed across the dry zone, such as Devario micronema vs D. malabaricus, Laubuka varuna vs. L. lankensis, Systomus pleurotaenia vs S. sarana, and Rasbora wilpita vs R. dandia [11,14,15,39]. As Potter et al [52] show, genetic diversity in low-dispersal vertebrate species tends to be higher in mesic, topographically complex biomes, compared to that of species inhabiting dry and topographically less complex biomes.…”
Section: Phylogeographysupporting
confidence: 78%
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“…Nevertheless, perhaps owing to the wet zone's greater topographic complexity [51], and despite its extent being only about a quarter that of the dry zone, nucleotide and haplotype diversity in the wet-zone endemics P. nigrofasciata, P. cumingii and P. reval are greater than in P. melanomaculata. This phenomenon has been observed previously in species pairs in which one is confined to the wet zone while the other is distributed across the dry zone, such as Devario micronema vs D. malabaricus, Laubuka varuna vs. L. lankensis, Systomus pleurotaenia vs S. sarana, and Rasbora wilpita vs R. dandia [11,14,15,39]. As Potter et al [52] show, genetic diversity in low-dispersal vertebrate species tends to be higher in mesic, topographically complex biomes, compared to that of species inhabiting dry and topographically less complex biomes.…”
Section: Phylogeographysupporting
confidence: 78%
“…4) recovered P. nigrofasciata as two well-supported, sympatric subclades, one spanning the distribution of the species in Sri Lanka, from the Attanagalu to the Walawe basins, and the other confined to the region between the Kalu and Gin basins, inclusive. Such a pattern has not been observed in the other phylogeographic studies of Sri Lankan cyprinids published so far [5,11,14,15,39]. Given that our genetic dataset is limited, it is difficult to offer an explanation for this observation.…”
Section: Phylogeographymentioning
confidence: 62%
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“…While haplotypes are not shared between these four haplogroups, compared with S. pleurotaenia , their haplotype and nucleotide diversities are low. Such a phylogeographic pattern has been observed also in other Sri Lankan cyprinids, such as Laubuka, Rasbora and Devario (Sudasinghe, Pethiyagoda, & Meegaskumbura, 2020a; 2020b; Sudasinghe, Pethiyagoda, Ranasinghe, et al, 2020). Given that S. sarana are abundant in both lotic and lentic waters in the lowland floodplain that surrounds the island's central mountains, the barriers to dispersal across the basins remain to be determined.…”
Section: Discussionsupporting
confidence: 52%
“…Studies on the genetic diversity of widespread freshwater taxa, largely applying DNA barcoding methods, are increasingly revealing complex patterns of cryptic variation. Apart from investigations of freshwater fishes [2] and other macroscopic taxa [3], studies on the phylogeny of smaller freshwater crustaceans, such as cladocerans [4][5][6], isopods [7], amphipods [8][9][10], and copepods [11] have demonstrated the presence of hidden genetic diversity and occurrence of cryptic species across presumed conspecific populations.…”
Section: Introductionmentioning
confidence: 99%