Chromosome-level genome assembly of the Erythrina Gall Wasp, Quadrastichus erythrinae (Hymenoptera: Eulophidae)
Zhang, Y. M.; Merondun, J.; Corpuz, R. L.; Kauwe, A. N.; Geib, S. M.; Sim, S. B.
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The erythrina gall wasp, Quadrastichus erythrinae, is an invasive gall-inducing chalcidoid wasp and a major pest of the endemic wiliwili tree (Erythrina sandwicensis) in Hawai{square}i. As a foundation to associated research, we generated a chromosome-level genome assembly from a wild-collected female measuring <2 mm. The final assembly consists of five scaffolds representing the five autosomes totaling 399 Mb (N50 = 75.6 Mb) and one unplaced 16 kb contig. BUSCO analysis recovers 89.8% of conserved Hymenoptera orthologs, representing the first chromosome-scale genome for the genus Quadrastichus. Comparative genomic analyses reveal conservation across Hymenoptera despite deep evolutionary divergence, with strongest collinearity to the chalcidoid Nasonia vitripennis. Genome size variation is largely explained by repeat content, and Q. erythrinae exhibits high proportions of unclassified transposable elements similar to cynipid gall inducer. We also assembled a complete genome of its endosymbiont, Wolbachia pipientis. Together, these genomic resources provide a foundation for comparative, evolutionary, and applied research aimed at managing this invasive pest.
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