Correlation of self- and interspecific incompatibility among sympatric Hedyotis species (Rubiaceae) and consequences for hybridization

doi:10.1111/jse.12804

Abstract

Abstract:

Breakdown of self-incompatibility increases opportunities for both self-fertilization and interspecific hybridization, although the latter is dependent on the extent of competition between heterospecific and conspecific pollen. We investigate the mating system and pollination biology of five phylogenetically closely related species within a distylous species complex in Hedyotis L. (Rubiaceae) in southern China. The complex comprises Hedyotis acutangula Champ. ex Benth., Hedyotis shiuyingiae T.Chen, Hedyotis vachellii (Hook. & Arn.) Kuntze, and two putative hybrid species, Hedyotis bodinieri (H.Lév.) Chun and Hedyotis loganioides Benth., hypothesized to result from interbreeding between these species. We test the hypothesis that the breakdown of self- and interspecific incompatibilities in sympatric Hedyotis species might allow interspecific hybridization in natural populations. We assessed the extent of self- and interspecific incompatibility in sympatric populations, including investigations of spontaneous and artificial self-pollination, geitonogamy, inter- and intramorph xenogamy. Artificial interspecific crosses were undertaken between H. acutangula, H. shiuyingiae, and H. bodinieri, between H. acutangula and H. vachellii, and between H. acutangula and H. loganioides. Hedyotis acutangula is demonstrated to be self- and interspecific compatible, whereas H. vachellii, H. bodinieri, and H. loganioides are self-compatible and interspecific incompatible; H. shiuyingiae, in contrast, is strictly self- and interspecific incompatible. Comparisons of pollen tube growth rates in hybridizing species-pairs revealed that heterospecific pollen of H. shiuyingiae, H. vachellii, and H. bodinieri can compete with conspecific self-pollen of H. acutangula. Our study therefore indicates that the breakdown of self-incompatibility directly and indirectly facilitates interspecific hybridization and provides a platform for better understanding evolutionary directionality in Hedyotis.

Key words: Hedyotis, hybridization, interspecific incompatibility, self‐incompatibility

Mahadura A. Dias and Richard M. K. Saunders. Correlation of self- and interspecific incompatibility among sympatric Hedyotis species (Rubiaceae) and consequences for hybridization[J]. J Syst Evol, 2022, 60(5): 998-1011.

[1]	Li Hu, Rui Yang, Guo-Qian Yang, Gui-Ling Sun, and Xun Gong. Morphological distinctiveness of Ligularia tongolensis and L. cymbulifera is maintained between habitats despite bidirectional and asymmetrical introgression in multiple hybrid zones [J]. J Syst Evol, 2022, 60(6): 1319-1330.
[2]	Hua‐Jie Zhang, Xu Zhang, Jacob B. Landis, Yan‐Xia Sun, Jiao Sun, Tian‐Hui Kuang, Li‐Juan Li, Bashir B. Tiamiyu, Tao Deng, Hang Sun, and Heng‐Chang Wang. Phylogenomic and comparative analyses of Rheum (Polygonaceae, Polygonoideae) [J]. J Syst Evol, 2022, 60(6): 1229-1240.
[3]	Xiu-Rong Ke, Diego F. Morales-Briones, Hong-Xin Wang, Qing-Hui Sun, Jacob B. Landis, Jun Wen, and Hua-Feng Wang. Nuclear and plastid phylogenomic analyses provide insights into the reticulate evolution, species delimitation, and biogeography of the Sino-Japanese disjunctive Diabelia (Caprifoliaceae) [J]. J Syst Evol, 2022, 60(6): 1331-1343.
[4]	Angélica Gallego-Narbón, Jun Wen, Jing Liu, Virginia Valcárcel. Hybridization and genome duplication for early evolutionary success in the Asian Palmate group of Araliaceae [J]. J Syst Evol, 2022, 60(6): 1303-1318.
[5]	Quan‐Lan Liu, Lu Liu, Song Ge, Li‐Ping Fu, Shi‐Qie Bai, Xin Lv, Qian‐Kun Wang, Wang Chen, Fan‐Ye Wang, Li‐Hong Wang, Xue‐Bing Yan, and Bao‐Rong Lu. Endo-allopolyploidy of autopolyploids and recurrent hybridization—A possible mechanism to explain the unresolved Y-genome donor in polyploid Elymus species (Triticeae: Poaceae) [J]. J Syst Evol, 2022, 60(2): 344-360.
[6]	Shan-Shan Dong, Ya-Ling Wang, Nian-He Xia, Yang Liu, Min Liu, Lian Lian, Na Li, Ling-Fei Li, Xiao-An Lang, Yi-Qing Gong, Lu Chen, Ernest Wu, and Shou-Zhou Zhang. Plastid and nuclear phylogenomic incongruences and biogeographic implications of Magnolia s.l. (Magnoliaceae) [J]. J Syst Evol, 2022, 60(1): 1-15.
[7]	Chun-Lin Chen, Lei Zhang, Jia-Liang Li, Xing-Xing Mao, Lu-Shui Zhang, Quan-Jun Hu, Jian-Quan Liu, and Zhen-Xiang Xi. Phylotranscriptomics reveals extensive gene duplication in the subtribe Gentianinae (Gentianaceae) [J]. J Syst Evol, 2021, 59(6): 1198-1208.
[8]	Yves Bawin, Tom Ruttink, Ariane Staelens, Annelies Haegeman, Piet Stoffelen, Jean-Claude Ithe Mwanga Mwanga, Isabel Roldán-Ruiz, Olivier Honnay, and Steven B. Janssens. Phylogenomic analysis clarifies the evolutionary origin of Coffea arabica [J]. J Syst Evol, 2021, 59(5): 953-963.
[9]	Hong-Xin Wang, Diego F. Morales-Briones, Michael J. Moore, Jun Wen, and Hua-Feng Wang. A phylogenomic perspective on gene tree conflict and character evolution in Caprifoliaceae using target enrichment data, with Zabelioideae recognized as a new subfamily [J]. J Syst Evol, 2021, 59(5): 897-914.
[10]	Malene Nygaard, Petri Kemppainen, James D. M. Speed, Reidar Elven, Kjell Ivar Flatberg, Leif P. Galten, Narjes Yousefi, Heidi Solstad, and Mika Bendiksby. Combining population genomics and ecological niche modeling to assess taxon limits between Carex jemtlandica and C. lepidocarpa [J]. J Syst Evol, 2021, 59(4): 627-641.
[11]	Romana Urfusová, Václav Mahelka, František Krahulec, and Tomáš Urfus. Evidence of widespread hybridization among couch grasses (Elymus, Poaceae) [J]. J Syst Evol, 2021, 59(1): 113-124.
[12]	Hong-Mei Liu, Eric Schuettpelz, and Harald Schneider. Evaluating the status of fern and lycophyte nothotaxa in the context of the Pteridophyte Phylogeny Group classification (PPG I) [J]. J Syst Evol, 2020, 58(6): 988-1002.
[13]	Jennifer R. Ackerfield, David J. Keil, Wendy C. Hodgson, Mark P. Simmons, Shannon D. Fehlberg, and Vicki A. Funk. Thistle be a mess: Untangling the taxonomy of Cirsium (Cardueae: Compositae) in North America [J]. J Syst Evol, 2020, 58(6): 881-912.
[14]	Bin-Bin Liu, De-Yuan Hong, Shi-Liang Zhou, Chao Xu, Wen-Pan Dong, Gabriel Johnson, and Jun Wen. Phylogenomic analyses of the Photinia complex support the recognition of a new genus Phippsiomeles and the resurrection of a redefined Stranvaesia in Maleae (Rosaceae) [J]. J Syst Evol, 2019, 57(6): 678-694.
[15]	Víctor Lucía, M. Montserrat Martínez-Ortega, Enrique Rico, and Kesara Anamthawat-Jónsson. Discovery of the genus Pseudoroegneria (Triticeae, Poaceae) in the Western Mediterranean on exploring the generic boundaries of Elymus [J]. J Syst Evol, 2019, 57(1): 23-41.

Correlation of self- and interspecific incompatibility among sympatric Hedyotis species (Rubiaceae) and consequences for hybridization

HTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments