Cryptic elevational zonation in trapdoor spiders (Araneae, Antrodiaetidae, Aliatypus janus complex) from the California southern Sierra Nevada

[Display omitted] •Coalescent analyses reveal cryptic species within Aliatypus janus.•Two lineages meet along an elevational gradient in the Sierra Nevada Mountains.•Ecological niche models indicate long-standing, minimal overlap.•Coalescent based tests do not support lineages conforming to riverine...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2018-01, Vol.118, p.403-413
Main Authors: Starrett, James, Hayashi, Cheryl Y., Derkarabetian, Shahan, Hedin, Marshal
Format: Article
Language:English
Subjects:
Animals
California
Cryptic speciation
Ecological and Environmental Phenomena
Ecological niche modeling
Electron Transport Complex IV - chemistry
Electron Transport Complex IV - classification
Electron Transport Complex IV - genetics
Elevational zonation
Genetic Speciation
Montane divergence
Nevada
Parapatric speciation
Phylogeny
Riverine barrier
RNA, Ribosomal, 28S - chemistry
RNA, Ribosomal, 28S - classification
RNA, Ribosomal, 28S - genetics
Spiders - classification
Spiders - genetics
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Summary:[Display omitted] •Coalescent analyses reveal cryptic species within Aliatypus janus.•Two lineages meet along an elevational gradient in the Sierra Nevada Mountains.•Ecological niche models indicate long-standing, minimal overlap.•Coalescent based tests do not support lineages conforming to riverine barriers.•Hypothesis tests support maintenance of cryptic species by elevational tiering. The relative roles of ecological niche conservatism versus niche divergence in promoting montane speciation remains an important topic in biogeography. Here, our aim was to test whether lineage diversification in a species complex of trapdoor spiders corresponds with riverine barriers or with an ecological gradient associated with elevational tiering. Aliatypus janus was sampled from throughout its range, with emphasis on populations in the southern Sierra Nevada Mountains of California. We collected multi-locus genetic data to generate a species tree for A. janus and its close relatives. Coalescent based hypothesis tests were conducted to determine if genetic breaks within A. janus conform to riverine barriers. Ecological niche models (ENM) under current and Last Glacial Maximum (LGM) conditions were generated and hypothesis tests of niche conservatism and divergence were performed. Coalescent analyses reveal deeply divergent genetic lineages within A. janus, likely corresponding to cryptic species. Two primary lineages meet along an elevational gradient on the western slopes of the southern Sierra Nevada Mountains. ENMs under both current and LGM conditions indicate that these groups occupy largely non-overlapping niches. ENM hypothesis testing rejected niche identity between the two groups, and supported a sharp ecological gradient occurring where the groups meet. However, the niche similarity test indicated that the two groups may not inhabit different background niches. The Sierra Nevada Mountains provide a natural laboratory for simultaneously testing ecological niche divergence and conservatism and their role in speciation across a diverse range of taxa. Aliatypus janus represents a species complex with cryptic lineages that may have diverged due to parapatric speciation along an ecological gradient, or been maintained by the evolution of ecological niche differences following allopatric speciation.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2017.09.003