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Bacterioplankton, Picoeukaryotes and Synechococcus Distribution Associated with Seagrass in South Coast of Hainan Island, China

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DOI: 10.4236/nr.2014.59042    2,213 Downloads   2,598 Views   Citations

ABSTRACT

Seagrass ecosystem is a potential bank for carbon sink. In the paper, we compared the distribution of bacterioplankton, picoeukaryotes and Synechococcus in seagrass ecosystem in Xincun Bay and coral ecosystem in Sanya Bay and found that quantity of bacterioplankton was higher in seagrass ecosystem, and picoeukaryotes had similar distribution pattern with that of bacterioplankton. However, quantity of Synechococcus distribution was higher in coral ecosystem and higher in Sanya Bay. Comparing the unit of quantity of bacterioplankton, picoeukaryotes and Synechococcus in Xincun Bay with that of Sanya Bay, open sea of the South China Sea and Indian Ocean, results showed that the highest quantity of bacterioplankton was in Xincun Bay, and the lowest was in open sea of the South China Sea. The quantity of picoeukaryotes had the similar pattern with that of bacterioplankton. Pattern of Synechococcus quantity was different, which was the highest in Sanya Bay. These results indicated that seagrass ecosystem was more suitable for bacterioplankton and picoeukaryotes growth.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

Yang, D. , Shan, X. and Liu, S. (2014) Bacterioplankton, Picoeukaryotes and Synechococcus Distribution Associated with Seagrass in South Coast of Hainan Island, China. Natural Resources, 5, 454-461. doi: 10.4236/nr.2014.59042.

References

[1] Konopka, A. (2009) What Is Microbial Community Ecology? The ISME Journal, 3, 1223-1230.
http://dx.doi.org/10.1038/ismej.2009.88
[2] Fourqurean, J.W., Duarte, C.M., Kennedy, H., Marbà, N., Holmer, M., Mateo, M.A., Apostolaki, E.T., Kendrick, G.A., Krause-Jensen, D., McGlathery, K.J., and Serrano, O. (2012) Seagrass Ecosystems as a Globally Significant Carbon Stock. Nature Geoscience, 5, 505-509.
http://dx.doi.org/10.1038/ngeo1477
[3] Phillips, R.C. and Mcroy, C.P. (1980) Handbook of Seagrass Biology. Garland STPM Press, New York, 353.
[4] Borowitzka M.A. And Lethbridge, R.C. (1989) Seagrass Epiphytes. In: Larkum, A.W.D., McComb, A.J. and Shepherd, S.A., Eds., Biology of Seagrasses, Elsevier, Amsterdam, 458-499.
[5] Moncreiff, C.A., Sullivan, M.J. and Daehnick, A.E. (1992) Primary Production Dynamics in Seagrass Beds of Mississippi Sound: The Contributions of Seagrass, Epiphytic Algae, Sand Microflora and Phytoplankton. Marine Ecology Progress Series, 87, 161-171.
http://dx.doi.org/10.3354/meps087161
[6] Kaldy, J.E., Eldridge, P.M., Onuf, C.P., et al. (2002) Carbon Budget for a Sub-Tropical Seagrass Dominated Coastal Lagoon: How Important Are Seagrasses to Total Ecosystem Net Primary Production? Estuaries, 25, 528-539.
http://dx.doi.org/10.1007/BF02804888
[7] Jones, R.D., Bugden, J.B.C. and Guerrero, M.A.J. (1998) Spatial and Temporal Variation of Marine Bacterioplankton in Florida Bay, USA. Journal of Coastal Research, 14, 1304.
[8] Delille, D., Canon, C. and Windeshausen, F. (1996) Comparison of Planktonic and Benthic Bacterial Communities Associated with a Mediterranean Posidonia Seagrass System. Botanica Marina, 39, 234-249.
http://dx.doi.org/10.1515/botm.1996.39.1-6.239
[9] Jones, W.B., Cifuentes, L.A. and Kaldy, J.E. (2003) Stable Carbon Isotope Evidence for Coupling between Sedimentary Bacteria and Seagrasses in a Sub-Tropical Lagoon. Marine Ecology Progress Series, 255, 15-25.
http://dx.doi.org/10.3354/meps255015
[10] Moriarty, D.J.W. and Pollard, P.C. (1982) Diel Variation of Bacterial Productivity in Seagrass (Zostera capricorni) Beds Measured by Rate of Thymidine Incorporation into DNA. Marine Biology, 72, 165-173.
http://dx.doi.org/10.1007/BF00396917
[11] Llabrés, M.M. and Agustí, S. (2006) Picophytoplankton Cell Death Induced by UV Radiation: Evidence for Oceanic Atlantic Communities. Limnology and Oceanography, 51, 21-29.
http://dx.doi.org/10.4319/lo.2006.51.1.0021
[12] Wit, R., Troussellier, M., Courties, C., Buffan-Dubau, E. and Lemaire, E. (2012) Short-Term Interactions between Phytoplankton and Intertidal Seagrass Vegetation in a Coastal Lagoon (Bassin d’Arcachon, SW France), Hydrobiologia, 699, 55-68.
[13] Yang, D.T. and Yang, C.Y. (2009) Detection of Seagrass Distribution Changes from 1991 to 2006 in Xincun Bay, Hainan, with Satellite Remote Sensing. Sensors, 9, 830-844.
http://dx.doi.org/10.3390/s90200830
[14] Yang, Z.D. (1979) The Geographical Distribution of Seagrass. Bulletin of Limnology and Oceanography, 2, 41-46. (in Chinese)
[15] Hamisi, M.I., Lyimo, T.J. and Muruke, M.H.S. (2004) Cyanobacterial Occurrence and Diversity in Seagrass Meadows in Coastal Tanzania. Western Indian Ocean Journal of Marine Science, 3, 113-122.

  
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