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SRX10459607: RAD-Seq of Rhagoletis host associations
1 ILLUMINA (Illumina HiSeq 4000) run: 1.5M spots, 300.2M bases, 106Mb downloads

Design: Digestion of genomic DNA with EcoRI and MseI, ligation of Illumina compatible adapters, PCR amplification. An 8-10 bp inline barcode is included at the 5' end of these raw data. The barcodes associated with each sample ID can be found in Dryad (https://doi.org/10.5061/dryad.j9kd51cc1).
Submitted by: University of Notre Dame
Study: Divergent diapause life history timing drives both allochronic speciation and reticulate hybridization in an adaptive radiation of Rhagoletis flies
show Abstracthide Abstract
Divergent adaptation to new ecological opportunities can be an important factor initiating speciation. However, as niches are filled during adaptive radiations, trait divergence driving reproductive isolation between sister taxa may also result in trait convergence with more distantly related taxa, increasing the potential for reticulated gene flow across the radiation. Here, we demonstrate such a scenario in a recent adaptive radiation of Rhagoletis fruit flies, specialized on different host plants. Throughout this radiation, shifts to novel hosts are associated with changes in diapause life history timing, which act as "magic traits" generating allochronic reproductive isolation and facilitating speciation-with-gene-flow. Evidence from laboratory rearing experiments measuring adult emergence timing and genome-wide DNA-sequencing surveys supported allochronic speciation between summer-fruiting Vaccinium spp.-infesting Rhagoletis mendax and its hypothesized and undescribed sister taxon infesting fall-fruiting sparkleberries. The sparkleberry fly and R. mendax were shown to be genetically discrete sister taxa, exhibiting no detectable gene flow and allochronically isolated by a two-month average difference in emergence time corresponding with host availability. At sympatric sites across the southern USA, the later fruiting phenology of sparkleberries overlaps with that of flowering dogwood, the host of another more distantly related and undescribed Rhagoletis taxon. Laboratory emergence data confirmed broadly overlapping life history timing and genomic evidence supported on-going gene flow between sparkleberry and flowering dogwood flies. Thus, divergent phenological adaptation can drive the initiation of reproductive isolation, while also enhancing genetic exchange across broader adaptive radiations, potentially serving as a source of novel genotypic variation and accentuating further diversification.
Sample:
SAMN18512058 • SRS8590559 • All experiments • All runs
Library:
Name: M06.A.49
Instrument: Illumina HiSeq 4000
Strategy: RAD-Seq
Source: GENOMIC
Selection: Restriction Digest
Layout: PAIRED
Runs: 1 run, 1.5M spots, 300.2M bases, 106Mb
Run# of Spots# of BasesSizePublished
SRR140852101,501,118300.2M106Mb2022-04-01

ID:
13872263

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