Oceanic currents, not land masses, maintain the genetic structure of the mangrove Rhizophora mucronata Lam. (Rhizophoraceae) in Southeast Asia

Wee, A. K. S., Takayama, K., Asakawa, T., Thompson, B., Onrizal, Sungkaew, S., Tung, N. X., Nazre, M., Soe, K. K., Tan, H. T. W., Watano, Y., Baba, S., Kajita, T., Webb, E. L. (2014), Oceanic currents, not land masses, maintain the genetic structure of the mangrove Rhizophora mucronata Lam. (Rhizophoraceae) in Southeast Asia. Journal of Biogeography. doi: 10.1111/jbi.12263

Abstract

Aim

Mangroves are intertidal plants with sea-dispersed propagules, hence their population structure can offer valuable insights into the biogeographical processes driving population subdivision in coastal species. In this study, we used molecular markers and ocean circulation simulations to examine the effects of ocean currents and land masses on the genetic structure of the major mangrove speciesRhizophora mucronata.

Location

Southeast Asia.

Methods

We assessed the genetic structure of 13 R. mucronata populations from continental Southeast Asia and Sumatra using 10 microsatellite loci. We first examined the relative effects of geographical distance and land mass (the Malay Peninsula) in shaping the genetic structure of R. mucronata in Southeast Asia. We then characterized the genetic structure of R. mucronata and compared it to the simulated ocean circulation patterns within our study region.

Results

Despite the low genetic diversity, significant genetic structuring was detected across R. mucronata populations. Contrary to observations on other mangrove species, genetic differentiation in R. mucronata was not found across the coasts of the Malay Peninsula, nor was it correlated with geographical distance. Instead, the most distinct genetic discontinuity was found at the boundary between the Andaman Sea and the Malacca Strait, and this can be explained by the prevailing ocean currents in this region.

Main conclusions

Our study presents novel evidence that the genetic structure of R. mucronata is maintained by ocean current-facilitated propagule dispersal.

Link: http://onlinelibrary.wiley.com/doi/10.1111/jbi.12263/abstract

 

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2nd Exchange Program for East Asian Young Researchers: Conservation Genetics of Mangroves

The great value of mangrove ecosystem is today widely recognized, but mangrove forests are exploited very rapidly by human activities. Habitat degradation and fragmentation of mangrove forests are of global concerns, but we still do not know how genetic diversity of mangroves are influenced. The distribution range of mangrove species are generally very wide and over many different countries. To assess current genetic diversity of mangrove species, international cooperation is highly required. For this purpose, we established a research network for conservation genetics of mangrove in 2010, supported by Japan-East Asia Network of Exchange for Students and Youths (JENESYS) Programme promoted by the Japan Society for the Promotion of Science (JSPS). Graduate School of Science,Chiba University hosted the exchange program. As a part of the exchange program, an International Workshop for Conservation Genetics of Mangroves will be held in Iriomote Island which will be co-organized with the Iriomote Station of the Tropical Biosphere Research Center, the University of the Ryukyus, and International Society for Mangrove Ecosystem (ISME).

For more information: please visit at http://bean.bio.chiba-u.jp/eng/index.php?Plant_Systematics_lab

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