10.5061/DRYAD.ZCRJDFN7M
Wang, Gang
0000-0003-1834-9561
Chinese Academy of Sciences
Zhang, Xingtan
Chinese Academy of Agricultural Sciences
Herre, Edward
0000-0003-0134-035X
Smithsonian Tropical Research Institute
Cannon, Charles
Morton Arboretum
McKey, Doyle
University of Montpellier
Machado, Carlos
0000-0003-1546-7415
University of Maryland, College Park
Yu, Wen-Bin
Chinese Academy of Sciences
Arnold, Michael
University of Georgia
Pereira, Rodrigo
University of Sao Paulo
Ming, Ray
University of Illinois at Urbana Champaign
Liu, Yi-Fei
Hubei University of Chinese Medicine
Wang, Yibin
Fujian Agriculture and Forestry University
Ma, Dongna
Xiamen University
Chen, Jin
Chinese Academy of Sciences
Data from: Genomic evidence of prevalent hybridization throughout the
evolutionary history of the fig-wasp pollination mutualism
Dryad
dataset
2020
National Natural Science Foundation of China
https://ror.org/01h0zpd94
31870359, 31400329
National Natural Science Foundation of China
https://ror.org/01h0zpd94
U1402264
National Natural Science Foundation of China
https://ror.org/01h0zpd94
2014FB185
Youth Innovation Promotion Association
https://ror.org/031141b54
2020392
2020-12-15T00:00:00Z
2020-12-15T00:00:00Z
en
https://doi.org/10.1038/s41467-021-20957-3
https://doi.org/10.5281/zenodo.4308886
44747735 bytes
12
CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
Ficus (figs) and their agaonid wasp pollinators present an ecologically
important mutualism that also provides a rich comparative system for
studying functional co-diversification throughout its coevolutionary
history (~75 million years). We obtained entire nuclear, mitochondrial,
and chloroplast genomes for 15 species representing all major clades
of Ficus. Multiple analyses of these genomic data suggest that
hybridization events have occurred throughout Ficus evolutionary history.
Furthermore, cophylogenetic reconciliation analyses detect significant
incongruence among all nuclear, chloroplast, and mitochondrial-based
phylogenies, none of which correspond with any published phylogenies of
the associated pollinator wasps. These findings are most consistent with
frequent host-switching by the pollinators, leading to fig hybridization,
even between distantly related clades. Here, we suggest that these
pollinator host-switches and fig hybridization events are a dominant
feature of fig/wasp coevolutionary history, and by generating novel
genomic combinations in the figs have likely contributed to the remarkable
diversity exhibited by this mutualism.
Data from: "Genomic evidence of prevalent hybridization throughout
the evolutionary history of the fig-wasp pollination mutualism,"
which will be published in Nature Communications by Wang et
al. (NCOMMS-19-539420C). Detail information as: Appendix 1: Results for
tree construction under ASTRAL Appendix 2: Results of analyses under BUCKy
Appendix 3: Results for Ficus divergence times under MCMCTree Appendix 4:
Results for reconstruction of ancestral distributions of Ficus lineages
under all six models in BioGeoBEARS Appendix 5: Chloroplast and
mitochondrial genomic sequences and ML phylogenies Appendix 6: Results for
hybridization detection under PhyloNetworks Appendix 7: JANE analyses data
and phylogenies used Appendix 8: Chloroplast phylogeny of 59 figs studied
by Bruun-Lund et al. 2017