YAO Jinglong, YANG Lei, SHU Yeqiang, ZENG Lili, SHI Rui, CHEN Ju, ZU Tingting, CHEN Chuqun. Comparison of summer chlorophyll a concentration in the South China Sea and the Arabian Sea using remote sensing data[J]. Acta Oceanologica Sinica, 2017, 36(11): 61-67. doi: 10.1007/s13131-017-1138-4
Citation: YAO Jinglong, YANG Lei, SHU Yeqiang, ZENG Lili, SHI Rui, CHEN Ju, ZU Tingting, CHEN Chuqun. Comparison of summer chlorophyll a concentration in the South China Sea and the Arabian Sea using remote sensing data[J]. Acta Oceanologica Sinica, 2017, 36(11): 61-67. doi: 10.1007/s13131-017-1138-4

Comparison of summer chlorophyll a concentration in the South China Sea and the Arabian Sea using remote sensing data

doi: 10.1007/s13131-017-1138-4
  • Received Date: 2016-08-09
  • Rev Recd Date: 2017-03-11
  • The South China Sea (SCS) and the Arabian Sea (AS) are both located roughly in the north tropical zone with a range of similar latitude (0°-24°N). Monsoon winds play similar roles in the upper oceanic circulations of the both seas. But the distinct patterns of chlorophyll a (Chl a) concentration are observed between the SCS and the AS. The Chl a concentration in the SCS is generally lower than that in the AS in summer (June-August); the summer Chl a concentration in the AS shows stronger interannual variation, compared with that in the SCS; Moderate resolution imaging spectroradiometer (MODIS)-derived data present higher atmospheric aerosol deposition and stronger wind speed in the AS. And it has also been found that good correlations exist between the index of the dust precipitation indicated by aerosol optical thickness (AOT) and the Chl a concentration, or between wind and Chl a concentration. These imply that the wind and the dust precipitation bring more nutrients into the AS from the sky, the sub-layer or coast regions, inducing higher Chl a concentration. The results indicate that the wind velocity and the dust precipitation can play important roles in the Chl a concentration for the AS and the SCS in summer. However aerosol impact is weak on the biological productivity in the west SCS and wind-induced upwelling is the main source.
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  • Baker A R, Kelly S D, Biswas K F, et al. 2003. Atmospheric deposition of nutrients to the Atlantic Ocean. Geophys Res Lett, 30(24):2296, doi: 10.1029/2003GL018518
    Banzon V F, Evans R E, Gordon H R, et al. 2004. SeaWiFS observations of the Arabian Sea southwest monsoon bloom for the year 2000. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 51(1–3):189-208
    Bartolacci D M, Luther M E. 1999. Patterns of co-variability between physical and biological parameters in the Arabian Sea. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 46(8–9):1933-1964
    Baumgartner A, Reichel E. 1975. World Water Balance:Mean Annual Global, Continental and Maritime Precipitation, Evaporation and Runoff,
    Cropp R A, Gabric A J, McTainsh G H, et al. 2005. Coupling between ocean biota and atmospheric aerosols:dust, dimethylsulphide, or artifact?.. Glob Biogeochem Cy, 19(4):GB4002, doi: 10.1029/2004GB002436
    Duce R A, Tindale N W. 1991. Atmospheric transport of iron and its deposition in the ocean. Limnol Oceanogr, 36(8):1715-1726
    Erickson D J Ⅲ, Hernandez J L, Ginoux P, et al. 2003. Atmospheric iron delivery and surface ocean biological activity in the Southern Ocean and Patagonian region. Geophys Res Lett, 30(12):1609, doi: 10.1029/2003GL017241
    Fan Songmiao, Moxim W J, Levy H Ⅱ. 2006. Aeolian input of bioavailable iron to the ocean. Geophys Res Lett, 33(7):L07602, doi: 10.1029/2005GL024852
    Fischer A S, Weller R A, Rudnick D L, et al. 2002. Mesoscale eddies, coastal upwelling, and the upper-ocean heat budget in the Arabian Sea. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 49(12):2231-2264
    Hutchins D A, Bruland K W. 1998. Iron-limited diatom growth and Si:N uptake ratios in a coastal upwelling regime. Nature, 393(6685):561-564
    Jickells T D, An Z S, Andersen K K, et al. 2005. Global iron connections between desert dust, ocean biogeochemistry, and climate. Science, 308(5718):67-71,, doi: 10.1126/science.1105959
    Kayetha V K, Senthil K J, Prasad A K, et al. 2007. Effect of dust storm on ocean color and snow parameters. J Indian Soc Remote Sens, 35(1):1-9
    Lee C M, Jones B H, Brink K H, et al. 2000. The upper-ocean response to monsoonal forcing in the Arabian Sea:seasonal and spatial variability. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 47(7–8):1177-1226
    Li Xiaobin, Chen Chuqun, Shi Ping, et al. 2006. Estimation of primary production of South China Sea from 1998 to 2002 by remote sensing and its spatio-temporal variation mechanism. J Trop Oceanogr (in Chinese), 25(3):57-62
    Lin I I, Chen J P, Wong G T F, et al. 2007. Aerosol input to the South China Sea:results from the MODerate resolution imaging spectro-radiometer, the quick scatterometer, and the measurements of pollution in the troposphere sensor. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 54(14–15):1589-1601
    Lin I I, Wong G T F, Lien C C, et al. 2009. Aerosol impact on the South China Sea biogeochemistry:an early assessment from remote sensing. Geophys Res Lett, 36(17):L17605, doi: 10.1029/2009GL037484
    Liu K K, Chao S Y, Shaw P T, et al. 2002. Monsoon-forced chlorophyll distribution and primary production in the South China Sea:observations and a numerical study. Deep-Sea Res:Part I. Oceanogr Res Papers, 49(8):1387-1412
    Liu T W, Xie Xiaosu, Polito P S, et al. 2000. Atmospheric manifestation of tropical instability wave observed by QuikSCAT and tropical rain measuring mission. Geophys Res Lett, 27(16):2545-2548
    Luis A J, Kawamura H. 2002. Mechanism for sea surface temperature cooling in the Gulf of Oman during winter. Geophys Res Lett, 29(11):16-1-16-4,, doi: 10.1029/2001GL014148
    Madhupratap M, Kumar S P, Bhattathiri P M A, et al. 1996. Mechanism of the biological response to winter cooling in the northeastern Arabian Sea. Nature, 384(6609):549-552
    Mahowald N M, Baker A R, Bergametti G, et al. 2005. Atmospheric global dust cycle and iron inputs to the ocean. Global Biogeochem Cycles, 19(4):GB4025, doi: 10.1029/2004GB002402
    Meskhidze N, Chameides W L, Nenes A. 2005. Dust and pollution:a recipe for enhanced ocean fertilization?.. J Geophys Res, 110(D3):D03301, doi: 10.1029/2004JD005082
    Patra P K, Kumar M D, Mahowald N, et al. 2007. Atmospheric deposition and surface stratification as controls of contrasting chlorophyll abundance in the North Indian Ocean. J Geophys Res, 112(C5):C05029, doi: 10.1029/2006JC003885
    Singh R P, Prasad A K, Kayetha V K, et al. 2008. Enhancement of oceanic parameters associated with dust storms using satellite data. J Geophys Res, 113(C11):C11008, doi: 10.1029/2008JC004815
    Smith S L, Madhupratap M. 2005. Mesozooplankton of the Arabian Sea:patterns influenced by seasons, upwelling, and oxygen concentrations. Prog Oceanogr, 65(2–4):214-239
    Sunda W G, Huntsman S A. 1997. Interrelated influence of iron, light and cell size on marine phytoplankton growth. Nature, 390(6658):389-392
    Tang Danling, Kawamura H, Luis A J. 2002. Short-term variability of phytoplankton blooms associated with a cold eddy in the northwestern Arabian Sea. Remote Sens Environ, 81(1):82-89
    van Couwelaar M. 1997. Zooplankton and micronekton biomass off Somalia and in the southern Red Sea during the SW monsoon of 1992 and the NE monsoon of 1993. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 44(6–7):1213-1234
    Wentz F J, Gentemann C, Smith D, et al. 2000. Satellite measuresments of sea surface temperature through clouds. Science, 288(5467):847-850,, doi: 10.1126/science.288.5467.847
    Woodward E M S, Rees A P, Stephens J A. 1999. The influence of the south-west monsoon upon the nutrient biogeochemistry of the Arabian Sea. Deep-Sea Res:Part Ⅱ. Top Stud Oceanogr, 46(3–4):571-591
    Xie Shangping, Xie Qiang, Wang Dongxiao, et al. 2003. Summer upwelling in the South China Sea and its role in regional climate variations. J Geophys Res, 108(C8):3261, doi: 10.1029/2003JC001867
    Yuan Wei, Zhang Jing. 2006. High correlations between Asian dust events and biological productivity in the western North Pacific. Geophys Res Lett, 33(7):L07603, doi: 10.1029/2005GL025174
    Zhao Hui, Tang Danling. 2007. Effect of 1998 El Niño on the distribution of phytoplankton in the South China Sea. J Geophys Res, 112(C2):C02017, doi: 10.1029/2006JC003536
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