 |
 |
 |
 |
 |
 |
Sains Malaysiana 47(4)(2018): 651-659 http://dx.doi.org/10.17576/jsm-2018-4704-02
Distribution and Behaviour of Nitrogen
Compounds in the Surface Water of Sungai Terengganu Estuary, Southern Waters of
South China Sea, Malaysia
(Taburan
dan Perlakuan Sebatian Nitrogen di Permukaan Air Muara Sungai Terengganu,
Perairan Selatan Laut China Selatan, Malaysia)
SUHAIMI SURATMAN1,2*, AZYYATI ABDUL AZIZ11, NORHAYATI MOHD TAHIR1,2 & LEE HIN LEE3
1Institute of Oceanography and Environment, Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman Malaysia
2Institute of Tropical Biodiversity and Sustainable Development, Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman, Malaysia
3School of Marine and Environment Sciences, Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman Malaysia
4Water Quality and Environment Research Centre, National Hydraulic Research Institute for Malaysia, 43300 Seri Kembangan, Selangor Darul Ehsan, Malaysia
Received: 30 December 2016/Accepted: 27 October 2017
ABSTRACT
A study was carried out to determine the distribution and behaviour of nitrogen (N) compounds (nitrite, nitrate, ammonia,
dissolved and particulate organic nitrogen) in Sungai Terengganu estuary (TRE). Surface water samples were collected
during ebb neap and spring tides for the longitudinal survey along the salinity gradient. The results indicated that all N compounds behave non-conservatively with addition during both tidal cycles, except for nitrate which exhibited removal behaviour during spring tide. In general, higher concentration of N compounds was observed during spring tide compared to neap tide. It is suggested that during spring tide, stronger water
turbulence resulted in resuspension of nutrients in bottom sediment and lead to the increase in N compounds concentrations in the surface water. The diurnal survey for the freshwater station showed that the concentrations of N compounds follow the ebb and flood variations, whereas for the coastal station the reverse trend was observed. Comparisons with a previous study under similar tidal conditions show there was an increase in nitrite and
ammonia concentrations in TRE, which was probably due to increase in discharge
from the rapid development activities around this area. In addition, the
presence of a breakwater at the lower part of the estuary may also contribute
to the high nutrient content in the estuary due to restricted outflow of
nutrients to the coastal area. Overall, the results from this study highlighted
the importance of monitoring the N compounds for future protection of the estuary.
Keywords:
Distribution and behaviour; nitrogen compounds; spring-neap tides; Sungai Terengganu
estuary; surface water
ABSTRAK
Suatu kajian telah dijalankan untuk menentukan taburan dan perlakuan sebatian nitrogen (N) (nitrit, nitrat, ammonia, nitrogen
organik terlarut dan partikulat) di muara Sungai Terengganu (TRE). Sampel permukaan air telah diambil sepanjang
cerun saliniti ketika air surut semasa pasang-surut perbani dan purnama.
Keputusan kajian menunjukkan semua sebatian N berkelakuan tidak konservatif iaitu
tambahan untuk kedua-dua kitaran pasang-surut, kecuali nitrat yang menunjukkan perlakuan singkiran semasa pasang-surut purnama. Secara umumnya, kepekatan sebatian N adalah tinggi semasa pasang-surut purnama
berbanding pasang-surut perbani. Adalah dicadangkan semasa pasang-surut
purnama, berlakunya kegeloraan air yang kuat menyebabkan nutrien dalam sedimen
di dasar sungai akan terampai dan seterusnya meninggikan kepekatan sebatian N
di permukaan air. Persampelan diurnal
untuk stesen air tawar menunjukkan kepekatan sebatian N mengikut variasi air
pasang dan surut, manakala untuk stesen di kawasan pantai, corak yang bertentangan adalah diperhatikan. Perbandingan dengan kajian terdahulu di kawasan dan keadaan pasang- surut yang sama, menunjukkan terdapatnya peningkatan kepekatan nitrit dan ammonia di TRE yang mungkin disebabkan bertambahnya pembuangan daripada aktiviti-aktiviti pembangunan yang pesat di sekitar kawasan kajian. Tambahan lagi, kehadiran benteng pemecah ombak di kawasan hilir muara mungkin
turut menyumbang kepada tingginya kandungan nutrien di dalam muara disebabkan pergerakan keluar nutrien ke kawasan pantai yang terhad. Secara keseluruhannya,
keputusan daripada kajian ini menekankan kepentingan pemantauan sebatian N
untuk pemeliharaan muara sungai pada masa hadapan.
Kata kunci: Muara Sungai Terengganu; pasang surut perbani-purnama; permukaan air; sebatian nitrogen; taburan dan perlakuan
REFERENCES
Anand, S.S., Anju, K.J., Mathew, D. & Kumar, M.D. 2014. Sub- hourly changes in biogeochemical properties in surface waters of Zuari estuary, Goa. Environmental Monitoring and Assessment 186: 719-724. Bukaveckas, P.A., Barry, L.E., Beckwith, M.J., David, V. & Lederer, b. 2011. Factors determining the location of the chlorophyll maximum and the fate of algal production within the tidal freshwater James River. Estuaries and Coasts 34: 569-582. Chen, H., Yu, Z., Yao, Q., Mi, T. & Liu, P. 2010. Nutrient concentrations and fluxes in the Changjiang estuary during summer. Acta Oceanologica Sinica 29: 107-119. Chen, y., Liu, R., Sun, C., Zhang, p., Feng, C. & Shen, Z. 2012. Spatial and temporal variations in nitrogen and phosphorous nutrients in the Yangtze River Estuary. Marine Pollution Bulletin 64: 2083-2089. Dahnke, K., Bahlmann, E. & Emeis, K. 2008. A nitrate sink in estuaries? An assessment by means of stable nitrate isotopes in the Elbe estuary. Limnology and Oceanography 53: 1504-1511. Driscoll, C.T., Chen, C.Y., Hammerschmidt, C.R., Mason, R.p., Gilmour, C.C., Sunderland, e.m., Greenfield, b.K., Buckman, K.L. & Lamborg, C.H. 2012. Nutrient supply and mercury dynamics in marine ecosystems: A conceptual model. Environmental Research 119: 118-131. Eliani-Russak, E., Herut, B. & Sivan, O. 2013. The role of highly sratified nutrient-rich small estuaries as a source of dissolved inorganic nitrogen to coastal seawater, the Qishon (SE Mediterranean) case. Marine Pollution Bulletin 71: 250-258. Garcia, J.C., Ketover, R.D.J., Loh, A.N., Parsons, M.L. & urakawa, H. 2014. Influence of freshwater discharge on the microbial degradation processes of dissolved organic nitrogen in a subtropical estuary. Antonie van Leeuwenhoek 107: 613-632. Gianesella, S.m.F., Saldanha-Corrêa, F.m.p., miranda, L.b., De Corrêa, M.A. & moser, G.A.O. 2005. Short-term variability and transport of nutrients and Chlorophyll-a in Bertioga Channel, São Paulo State, Brazil. Brazilian Journal of Oceanography 53: 99-114. Gilbert, M., Needoba, J., Koch, C., Barnard, A. & Baptista, A. 2013. Nutrient loading and transformations in the Columbia River estuary determined by high-resolution in situ sensors. Estuaries and Coasts 36: 708-727. Grasshoff, K., Ehrhardt,
M. & Kremling, K. 1983. Methods of
Seawater Analysis. 2nd ed. Florida: verlag Chemie. p. 419. Ismail, W.R. & Ibrahim, M.N. 2015. An assessment of sediment and nitrogen input into the upper Merbok estuary, Kedah, Malaysia. Water Quality, Exposure and Health 7: 79-88.
Jan, J.K. 2002. Distribution and fluxes of dissolved carbon, nitrogen and phosphorus in Terengganu
River estuary. Thesis of Degree of master Science, universiti putra malaysia.
p. 140 (unpublished).
Jickells, T.D., Andrews, J.E., Parkes, D.J., Suratman, S., Aziz, A.A. & Hee, Y.Y. 2014. Nutrient transport through estuaries: The importance of the estuarine geography. Estuarine, Coastal and Shelf Science 150: 215-229. Li, R., Liu, S., Zhang, G., Ren, J. & Zhang, J. 2013. Biogeochemistry of nutrients in an estuary affected by human activities: The Wanquan River estuary, eastern Hainan Island, China. Continental Shelf Research 57: 18-31. Liss, P.S. 1976. Conservative and non-conservative behaviour of dissolved constituents during estuarine mixing. In Estuarine Chemistry, edited by Burton, J.D. & Liss, P.S. London: Academic Press. p. 229. Liu, S.M., Li, R.H., Zhang, G.L., Wang, D.R., Du, J.Z., Herbeck, L.S. & Ren, J.L. 2011. The impact of anthropogenic activities on nutrient dynamics in the tropical Wenchanghe and Wenjiaohe Estuary and Lagoon system in East Hainan, China. Marine Chemistry 125: 49-68. Neal, C., Davies, H. & Neal, M. 2008. Water quality, nutrients and the water framework directive in an agricultural region: The lower Humber Rivers, northern England. Journal of Hydrology 350: 232-245. Pasquer, B., Mongin, M., Johnston, N. & Wright, S. 2010. Distribution of particulate organic matter (POM) in the Southern ocean during bRoKe-West (30°e - 80°e). Deep- Sea Research Part II: Topical Studies in Oceanography 57: 779-793. Ryther, J.H. & Dunstan, W.M. 1971. Nitrogen, phosphorus and eutrophication in the coastal marine environment. Science 171: 1008-1112. Salum, S.S. 2015. Distribution and behaviour of phosphorus- and silicate-based nutrients with respect to tidal variation in the surface water of the Terengganu River estuary. Thesis of Degree of master Science, universiti malaysia Terengganu. pp. 83-84 (unpublished). Seitzinger, S.P., Harrison, J.A., Dumont, E., Beusen, A.H.W. & bouwman, a.F. 2005. Sources and delivery of carbon, nitrogen, and phosphorus to the coastal zone: An overview of Global NEWS models and their application. Global Biogeochemical Cycles 19. http://dx.doi. org/10.1029/2005GB002606 (GB4S01). Senthilkumar, B., Purvaja, R. & Ramesh, R. 2008. Seasonal and tidal dynamics of nutrients and chlorophyll a in a tropical mangrove estuary, southeast coast of India. Indian Journal of Marine Sciences 37: 132-140. Shaha, D.C., Cho, Y.K., Seo, G.H., Kim, C.S. & Jung, K.T. 2010. Using flushing rate to investigate spring-neap and spatial variations of gravitational circulation and tidal exchanges in an estuary. Hydrology and Earth System Sciences 14: 1465-1476. Sharples, J., Tweddle, J.F., mattias Green, J.a., palmer, m.R., Kim, Y.N., Hickman, A.E., Holligan, P.M., Moore, C.M., Rippeth, T.P., Simpson, J.H. & Krivtsov, V. 2007. Spring- neap modulation of internal tide mixing and vertical nitrate fluxes at a shelf edge in summer. Limnology and Oceanography 52: 1735-1747. Statham, P.J. 2012. Nutrients in estuaries - An overview and the potential impacts of climate change. Science of the Total Environment 434: 213-227. Suratman, S., Che Zan, N.H. & Mohd Tahir, N. 2012. A dissolved and particulate Zn in Terengganu River estuary, Southern South China Sea (Malaysia). Journal of Sustainability Science and Management 7: 124-127. Suratman, S., Weston, K., Greenwood, N., Sivyer, D.B.,
Pearce, D.J. & Jickells,
T. 2010. High frequency measurements of dissolved inorganic and
organic nutrients using instrumented moorings in the southern
and central North
Sea. Estuarine,
Coastal and Shelf Science 87: 631-639.
Tahir, N.M., Suratman, S., Shazili, M.A.M., Ariffin, M.M., Amin, M.S.M. & Ariff, N.F.M.N.I. 2008. behaviour of water quality parameters during ebb tide in Dungun River estuary, Terengganu. Journal of Sustainability Science and Management 3: 1-10. Theivanan, G. 2009. A Preliminary study on the distribution of nitrogen compounds in Terengganu River estuary. Thesis of Degree of Bachelor Science. Universiti Malaysia Terengganu. p. 50. Wen, L.S., Jiann, K.T. & Liu, K.K. 2008. Seasonal variation and flux of dissolved nutrients in the Danshuei estuary, Taiwan: A hypoxic subtropical mountain river. Estuarine, Coastal and Shelf Science 78: 694-704. Yang, X., Lin, Q., Fu, G., He, y., Luo, X. & Zheng, Z. 2016. Spatiotemporal patterns and source attribution of nitrogen load in a river basin with complex pollution sources. Water Research 94: 187-199.
*Corresponding author; email: miman@umt.edu.my
|
|||
|
