Genetic differentiation and phylogeography of partially sympatric species complex Rhizophora mucronata Lam. and R. stylosa Griff. using SSR markers
| Autor: | Bayu Adjie, Norhaslinda Binti Malekal, Tadashi Kajita, M. Nazre Saleh, Yasuyuki Watano, Edward L. Webb, Jasher L. Chua, Orlex B. Yllano, Onrizal, Nguyen Xuan Tung, Erwin Riyanto Ardli, Sankararamasubramanian Halasya Meenakshisundaram, Takeshi Asakawa, Yoichi Tateishi, Khin Khin Soe, Alison K. S. Wee, Severino G. Salmo, Shigeyuki Baba, Koji Takayama, Sarawood Sungkaew |
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| Rok vydání: | 2015 |
| Předmět: |
Gene Flow
Conservation genetics Species complex Population genetics Rhizophora Genetic diversity Genetic drift Mangrove Indo-West Pacific Asia Southeastern Ecology Evolution Behavior and Systematics Coastal plants Rhizophora mucronata biology Ecology Genetic Drift Microsatellite Nuclear DNA biology.organism_classification Phylogeography Sympatry Biogeography Genetic structure Rhizophoraceae Microsatellite Repeats Research Article |
| Zdroj: | BMC Evolutionary Biology |
| ISSN: | 1471-2148 |
| DOI: | 10.1186/s12862-015-0331-3 |
| Popis: | Background Mangrove forests are ecologically important but globally threatened intertidal plant communities. Effective mangrove conservation requires the determination of species identity, management units, and genetic structure. Here, we investigate the genetic distinctiveness and genetic structure of an iconic but yet taxonomically confusing species complex Rhizophora mucronata and R. stylosa across their distributional range, by employing a suite of 20 informative nuclear SSR markers. Results Our results demonstrated the general genetic distinctiveness of R. mucronata and R. stylosa, and potential hybridization or introgression between them. We investigated the population genetics of each species without the putative hybrids, and found strong genetic structure between oceanic regions in both R. mucronata and R. stylosa. In R. mucronata, a strong divergence was detected between populations from the Indian Ocean region (Indian Ocean and Andaman Sea) and the Pacific Ocean region (Malacca Strait, South China Sea and Northwest Pacific Ocean). In R. stylosa, the genetic break was located more eastward, between populations from South and East China Sea and populations from the Southwest Pacific Ocean. The location of these genetic breaks coincided with the boundaries of oceanic currents, thus suggesting that oceanic circulation patterns might have acted as a cryptic barrier to gene flow. Conclusions Our findings have important implications on the conservation of mangroves, especially relating to replanting efforts and the definition of evolutionary significant units in Rhizophora species. We outlined the genetic structure and identified geographical areas that require further investigations for both R. mucronata and R. stylosa. These results serve as the foundation for the conservation genetics of R. mucronata and R. stylosa and highlighted the need to recognize the genetic distinctiveness of closely-related species, determine their respective genetic structure, and avoid artificially promoting hybridization in mangrove restoration programmes. Electronic supplementary material The online version of this article (doi:10.1186/s12862-015-0331-3) contains supplementary material, which is available to authorized users. |
| Databáze: | OpenAIRE |
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