Abstract
The importance of dissolved organic phosphorus (DOP) as a potential nutrient source for primary producers in marine systems has been recognized for up to eight decades, but currently, the understanding of the biogeochemistry of DOP is in its infancy. In the present study, monthly data between 2000 and 2014 were used to analyze the temporal and spatial distributions of DOP in the Mir Bay, the northern South China Sea. The DOP residence time (TDOP) was also investigated using a simple regression analysis in combination with chlorophyll a (Chl a) measurements while excess DOP (ΔDOP), produced by the biogeochemical processes of autotrophic production and heterotrophic removal, was determined using a two-component mixing mass-balance model in combination with salinity measurements. The results showed that the DOP concentration was (0.017±0.010) mg/L higher in the surface-water compared with the bottom-water and higher in the inner Tolo Harbour and waters adjacent to Shatoujiao compared with the main zone of the bay. Although seasonal changes and annual variability in the DOP were small, the surface DOP concentration was higher in the wet season (April-September) than in the dry season (October-March) due to the impacts of seaward discharges and atmospheric deposition into the bay. Measurement and regression results showed that the DOP release rate from phytoplankton production was about 1.83 (g P)/(g Chl a) and the TDOP was about 7 d, which implied that the DOP cycle in the bay was rapid. The ΔDOP was calculated from the model to be about 0.000 mg/L in the main zone of the bay and about 0.002 mg/L in the inner Tolo Harbour and waters adjacent to Shaotoujiao, suggesting that the autotrophic production of DOP was almost balanced by the heterotrophic removal in the main zone of the bay and dominated in the inner Tolo Harbour and waters adjacent to Shaotoujiao. In conclusion, the Mirs Bay is very productive and fairly heterotrophic.
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References
Anderson G C, Zeutschel R P. 1970. Release of dissolved organic matter by marine phytoplankton in coastal and offshore areas of the Northeast Pacific Ocean. Limnology and Oceanography, 15(3): 402–407, doi: 10.4319/lo.1970.15.3.0402
APHA. 1998a. 10200H 2. In: Standard Methods for the Examination of Water and Wastewater. 20th ed. Washington: American Public Health Association
APHA. 1998b. 4500-P G&H. In: Standard Methods for the Examination of Water and Wastewater. 20th ed. Washington: American Public Health Association
Azam F, Fenchel T, Field J G, et al. 1983. The ecological role of watercolumn microbes in the sea. Marine Ecology Progress Series, 10: 257–263, doi: 10.3354/meps010257
Bentzen E, Taylor W D, Millard E S. 1992. The importance of dissolved organic phosphorus to phosphorus uptake by limnetic plankton. Limnology and Oceanography, 37(2): 217–231, doi: 10.4319/lo.1992.37.2.0217
Björkman K M, Karl D M. 2003. Bioavailability of dissolved organic phosphorus in the euphotic zone at Station ALOHA, North Pacific Subtropical Gyre. Limnology and Oceanography, 48(3): 1049–1057, doi: 10.4319/lo.2003.48.3.1049
Cadée G C, Hegeman J. 1974. Primary production of phytoplankton in the Dutch Wadden Sea. Netherlands Journal of Sea Research, 8(2-3): 240–259
Chen Jin, Lu Ping, Chen Zhongying, et al. 2014. Atmospheric deposition of nitrogen and phosphorus at Daya Bay in Huizhou during spring and summer. Journal of Tropical Oceanography (in Chinese), 33(2): 109–114
Clark L L, Ingall E D, Benner R. 1999. Marine organic phosphorus cycling; novel insights from nuclear magnetic resonance. American Journal of Science, 299(7-9): 724–737
Cotner J B, Biddanda B A. 2002. Small players, large role: microbial influence on biogeochemical processes in pelagic aquatic ecosystems. Ecosystems, 5(2): 105–121, doi: 10.1007/s10021-001-0059-3
EPD. 2018. Marine water quality in Hong Kong in 2017. Hong Kong: Environmental Protection Department, the government of the Hong Kong special administrative region. https://www.epd.gov.hk/epd/sites/default/files/epd/english/environmentinhk/water/hkwqrc/files/waterquality/annual-report/marinereport2017.pdf [2018-11-01/2019-02-18]
Glibert P M, Seitzinger S, Heil C A, et al. 2005. The role of eutrophication in the global proliferation of harmful algal blooms. Oceanography, 18(2): 195–209
Guan Zujie, Young E C M, Yu K N, et al. 1995. Determination of sedimentation rates in the Mirs Bay sea areas with Gamma spectrometry. Acta Scientiarum Naturalium Universitatis Sunyatseni (in Chinese), 34(2): 32–37
He Tong, Xie Jian, Yu Hansheng, et al. 2010. Exchange rates of nutrients at sediment-seawater interface in Daya Bay in spring. Marine Environmental Science (in Chinese), 29(2): 179–182
Hong Kong Observatory. 2015. Monthly Meteorological Normals for Hong Kong (1981–2010). Hong Kong, China: Hong Kong Observatory. http://www.weather.gov.hk/cis/normal/1981_2010/normals_e.htm [2015-3-23/2018-1-10]
Hu Shuhua, Smith W O Jr. 1998. The effects of irradiance on nitrate uptake and dissolved organic nitrogen release by phytoplankton in the Ross Sea. Continental Shelf Research, 18(9): 971–990, doi: 10.1016/S0278-4343(98)00021-1
Jackson G A, Williams P M. 1985. Importance of dissolved organic nitrogen and phosphorus to biological nutrient cycling. Deep Sea Research Part A. Oceanographic Research Papers, 32(2): 223–235, doi: 10.1016/0198-0149(85)90030-5
Jin Jie, Liu Sumei. 2013. Advances in studies of phosphorus utilization by marine phytoplankton. Advances in Earth Science (in Chinese), 28(2): 253–261
Karl D M, Tien G. 1997. Temporal variability in dissolved phosphorus concentrations in the subtropical North Pacific Ocean. Marine Chemistry, 56(1-2): 77–96
Lee E S, Krothe N C. 2001. A four-component mixing model for water in a karst terrain in south-central Indiana, USA. Using solute concentration and stable isotopes as tracers. Chemical Geology, 179(1-4): 129–143
Leng Keming, Jiang Tianjiu. 2004. Analysis on characters of red tide in Shenzhen coastal waters during last more than 20 years. Ecologic Science (in Chinese), 23(2): 166–170, 174
Li Xulu, Shi Huaming, Xia Huayong, et al. 2014. Seasonal hypoxia and its potential forming mechanisms in the Mirs Bay, the northern South China Sea. Continental Shelf Research, 80: 1–7, doi: 10.1016/j.csr.2014.03.003
Li Xulu, Zhang Junxiao, Zhou Yipin, et al. 2013a. Temporal and spatial distributions of dissolved organic nitrogen in the Mirs Bay from 2000 to 2010. China Environmental Science (in Chinese), 33(10): 1799–1807
Li Xulu, Zhou Yipin, Xia Huayong. 2012. Multi-year measurements of carbon, nitrogen and phosphorus and sources of organic matter in the surface sediments of the Mirs Bay. Acta Scientiae Circumstantiae (in Chinese), 32(5): 1113–1119
Li Xulu, Zhou Yipin, Xia Huayong. 2013b. Intra-and inter-annual variabilities of particulate organic matter in the Mirs Bay from 2000 to 2010. Environmental Science (in Chinese), 34(3): 857–863
Liu Kon-Kee, Lai Zir-Lyang, Gong Gwo-Ching, et al. 1995. Distribution of particulate organic matter in the southern East China Sea: implications in production and transport. Terrestrial, Atmospheric and Oceanic Sciences, 6(1): 27–45, doi: 10.3319/TAO.1995.6.1.27(KEEP-MASS)
Monaghan E J, Ruttenberg K C. 1999. Dissolved organic phosphorus in the coastal ocean: Reassessment of available methods and seasonal phosphorus profiles from the Eel River Shelf. Limnology and Oceanography, 44(7): 1702–1714, doi: 10.4319/lo.1999.44.7.1702
Orrett K, Karl D M. 1987. Dissolved organic phosphorus production in surface seawaters. Limnology and Oceanography, 32(2): 383–395, doi: 10.4319/lo.1987.32.2.0383
Pan Jianming, Zhou Huaiyang, Hu Chunyu, et al. 2002. Nutrient profiles in interstitial water and flux in water-sediment in terface of Zhujiang Estuary of China in summer. Haiyang Xuebao (in Chinese), 24(3): 52–59
Paytan A, McLaughlin K. 2007. The oceanic phosphorus cycle. Chemical Reviews, 107(2): 563–576, doi: 10.1021/cr0503613
Redfield A C, Ketchum B H, Richards F A. 1963. The influence of organisms on the composition of seawater. In: Hill M N, ed. The Sea. New York: Wiley-Interscience, 26–77
Redfield A C, Smith H P, Ketchum B. 1937. The cycle of organic phosphorus in the Gulf of Maine. Biological Bulletin, 73(3): 421–443, doi: 10.2307/1537605
Ruttenberg K C, Dyhrman S T. 2005. Temporal and spatial variability of dissolved organic and inorganic phosphorus, and metrics of phosphorus bioavailability in an upwelling-dominated coastal system. Journal of Geophysical Research, 110(C10): C10S13, doi: 10.1029/2004JC002837
Ryther J H, Yentsch C S. 1957. The estimation of phytoplankton production in the ocean from chlorophyll and light data. Limnology and Oceanography, 2(3): 281–286, doi: 10.1002/lno.1957.2.3.0281
Ward B B, Bronk D A. 2001. Net nitrogen uptake and DON release in surface waters: importance of trophic interactions implied from size fractionation experiments. Marine Ecology Progress Series, 219: 11–24, doi: 10.3354/meps219011
Xu Chunling, Li Xulu, Lin Fan. 2017. Distributions of carbon, nitrogen and phosphorus in the surface sediments of the Shenzhen Bay and adjacent coastal area. China Environmental Science (in Chinese), 37(7): 2691–2698
Yamaguchi Y, Ichimura S E. 1972. Dynamic status of primary production in Lake Yunoko, a small eutrophic subalpine lake in central Japan. The Botanical Magazine, 85(3): 157–176, doi: 10.1007/BF02489209
Zhou Yipin, Li Xulu, Xia Huayong. 2011. Variation of distribution of dissolved inorganic nitrogen and phosphorus in seawater in Mirs Bay. Journal of Guangdong Ocean University (in Chinese), 31(3): 50–55
Zhou Yipin, Li Xulu, Zhang Junxiao, et al. 2012. Analysis of multi-year measurements of dissolved total nitrogen and phosphorus in the Mirs Bay. Ecology and Environmental Sciences (in Chinese), 21(4): 706–710
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We thank the Environmental Protection Department of the Hong Kong Government for providing the relative data.
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Foundation item: The National Key Basic Research Special Foundation of China under contract No. 2013CB965101; the Marine Science and Technology Foundation of the South China Sea Sub-administration, SOA, China under contract No. 1624.
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Shi, H., Ma, Y., Li, X. et al. Distribution, residence time, autotrophic production, and heterotrophic removal of DOP in the Mirs Bay, northern South China Sea. Acta Oceanol. Sin. 38, 17–26 (2019). https://doi.org/10.1007/s13131-019-1384-8
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DOI: https://doi.org/10.1007/s13131-019-1384-8