|Table of Contents|

Petroleum Hydrocarbon Content in Oyster and Purifying Effect of Mangrove in Mangrove Plantation - Aquaculture Coupling Systems(PDF)

Chinese Journal of Applied & Environmental Biology[ISSN:1006-687X/CN:51-1482/Q]

2012 03
Research Field:
Publishing date:


Petroleum Hydrocarbon Content in Oyster and Purifying Effect of Mangrove in Mangrove Plantation - Aquaculture Coupling Systems
LI Fei LIU Yu CHEN Guanqiu SHE Zhongming WU Kalan
(1School of Environmental Science and Engineering, Sun Yat-Sen University, Guangzhou 510275,China)
(2Shenzhen Bao’an Fisheries Research Institute, Shenzhen 518104, Guangdong, China)
(3Shenzhen Waterlands Tourism Development Co., Ltd., Shenzhen 518104, Guangdong, China)
oyster beach aquaculture petroleum hydrocarbon pollution mangrove water purification plantation- aquaculture coupling Pearl River Estuary
S967.5 : X55

With the rapid development of marine transportation and oil storage industry, near shore petroleum hydrocarbon (PH) pollution has increased prominently. It is an urgent subject to delete PH pollution in beach aquaculture areas and improve the quality of aquatic products. Seven ponds in A and B systems of the mangrove plantation-aquaculture coupling systems, including single or mixed planting Aegiceras corniculatum, Bruguiera gymnorhiza, Kandelia candel and Rhizophora stylosa, were established in the Pearl River Estuary, China. Fluorescence spectrophotometry method was used to detect the PH contents in water, in sediment samples and in the tissues of oyster (Ostrea rivularis). The results showed that the contents of PH in oysters was 11.10~29.3 mg/kg and positively correlated with that in waters (r = 0.88), which suggested that oysters could be as a good indicator of water quality conditions. The different planting pattern (single or mixed plantation) decreased the PH contents in water by 50%~80% compared with CK, and decreased the PH contents in oysters by 20%~60% compared with CK. The average contents of PH in oysters in B. gymnorhiza and A. corniculatum ponds were 11.20 mg/kg and 14.13 mg/kg, respectively, which satisfied the pollution-free standards for aquatic products in China. Thus, the co-effects of the “Planting island matrix - mangrove - microorganisms” in the mangrove plantation - aquaculture ponds could reduce the PH contents physically, chemically and biologically, and enhance the quality of aquatic products effectively.


1 Cheng SH (程胜华), Xu YX (徐轶肖), Jing TJ (江天久), Leng KM (冷科明). The pollutants within oyster cultured in the coastal zones of Shenzhen. Ecol Sci (生态科学), 2004, 23 (1): 20~24
2 Lu CH (陆超华), Xie WZ (谢文造), Zhou GJ (周国君). Study on Crassostrea rivularis as a biomonitor for copper pollution in sea water. Mar Environ Sci (海洋环境科学), 1998, 17 (2): 17~23
3 Lu CH (陆超华), Xie WZ (谢文造), Zhou GJ (周国君). Studies on Crassostrea rivularis as a biological indicator of cadmium pollution. Fish Sci China (中国水产科学), 1998, 5 (2): 79~83
4 Lu CH (陆超华), Xie WZ (谢文造), Zhou GJ (周国君). Crassostrea rivularis as a biomonitor of zinc pollution of sea water. China Environ Sci (中国环境科学), 1998, 18 (6): 527~530
5 Jeng MS, Jeng WL, Hung TC, Yeh CY, Tseng RJ, Meng PJ, Han BC. Mussel Watch: A review of Cu and other metals in various marine organisms in Taiwan, 1991-98. Environ Pollut, 2000, 110 : 207~215
6 Ma JZ (马继臻), Yuan J (袁骐), Jiang M (蒋玫), Shen XQ (沈新强). Distribution feature and assessment of petroleum hydrocarbon in the shellfish from the east China sea coast. Mar Sci Bull (海洋通报), 2008, 27 (2): 73~78
7 Kim SK, Oh JR, Shim WJ, Lee DH, Yim UH, Hong SH, Shin YB, Lee DS. Geographical distribution and accumulation features of organochlorine contents in bivalves from coastal areas of south Korea. Mar Pollut Bull, 2002, 45: 268~279
8 Jiang CJ (姜朝军), Qiao QL (乔庆林), Cai YQ (蔡友琼), Xu J (徐捷). Kinetic features and threshold value of petroleum hydrocarbons for Ruditapes philippinarum. Mar Fish (海洋渔业), 2006, 28 (4): 314~320
9 Qiao QL (乔庆林). Research progress in special food-born hazards and controls in fishery products. Mod Fish Inform (现代渔业信息), 2009, 24 (6): 9~15
10 Zhang JH (章金鸿), Li M (李玫), Chen GZ (陈桂珠). The absorption and the potential capability in purificating N &P in sugar wastewater by mangrove wetland. Chongqing Environ Sci (重庆环境科学), 1999, 21 (6): 39~41
11 Ye Y (叶勇), Tan FY (谭凤仪), Lu CY (卢昌义). Removal of livestock wastewater nutrient by mangrove systems. Acta Sci Circumst (环境科学学报), 2001, 21 (2): 224~228
12 Song N (宋南), Weng LJ (翁林捷), Guan YH (关熠航), Chen R (陈忍). The study of purification of heavy metal elements in mangrove ecosystems. Chin AgricSci Bull (中国农学通报), 2009, 25 (21): 305~309
13 Kipopoulou AM, Manoli E, Samara C. Bioconcentration of polycyclic aromatic hydrocarbons in vegetables grown in an industrial area. Environ Pollut, 1999, 106 (3): 369~380
14 Zhuang TC (庄铁诚), Lin P (林鹏). The degradation of diesel oil micro-organisms in the mangrove soil. J Xiamen Univ Nat Sci (厦门大学学报 自然科学版), 1995, 34 (3) : 443~447
15 Brito EM, Guyoneaud R, Goni-urriza M, Ranchou-Peyruse A, Verbaere A, Crapez AC M, Wasserman ACJ, Duran R. Characterization of hydrocarbonoclastic bacterial communities from mangrove sediments in Guanabara Bay, Brazil. Res Microbiol, 2006, 157 (8): 752~762
16 Yu SH, Ke L, Wong YS, Tam NFY. Degradation of polycyclic aromatic hydrocarbons (PAHs) by a bacterial consortium enriched from mangrove sediments. Environ Int, 2005, 31: 149~154
17 GB 17387.4-2007 海洋监测规范. Beijing: Chinese Standard Publishing House (北京: 中国标准出版社), 2008
18 Cai YQ (蔡友琼), Qiao QL (乔庆林), Xu J (徐捷). Test of threshold concentration on petroleum hydrocarbon in molluscan shellfish. J Shanghai Fish Univ (上海水产大学学报), 2001, 10 (2): 176~178
19 NY 5073-2006 无公害食品 水产品中有毒有害物质限量. Beijing, Chinese Standard Publishing House (北京: 中国标准出版社), 2006
20 国家质量监督检验检疫总局. 海洋生物质量. Beijing: Chinese Standard Publishing House (北京: 中国标准出版社), 2002
21 GB3097-1997 海水水质标准. Beijing: China Environmental Science Press (北京: 环境科学出版社), 2004
22 Zhang WH (张文浩), Wang JT (王江涛), Tan LJ (谭丽菊). Petroleum pollution condition in seawater and animals offshore southern Shandong peninsula. Mar Environ Sci (海洋环境科学), 2010, 29 (3): 378~381
23 Shang LS (尚龙生), Sun X (孙茜), Xu HZ (徐恒振), Xu XR (徐学仁). The marine oil pollution and determination. Mar Environ Sci (海洋环境科学), 1997, 16 (1): 16~21
24 Xia WX, Zhang XL, Li JC . Degradation of crude oil by indigenous microorganisms supplemented nutrients. J Environ Sci, 2005, 17 (4): 659~661
25 Li JC (李金成), Xia WX (夏文香), Zheng XL (郑西来), Zhao BC (赵丙辰), Lin GQ (林国庆). Degradation and adsorption of dissolved petroleum in the water body of sandy beach. Mar Sci Bull (海洋通报), 2007, 26 (2): 28~32
26 Zhang J (张军). Study on concentration, source and transportation of PAHs in typical coastal mangrove swamps: [Doctor Degree Dissertation]. Xiamen: Xiamen University (厦门: 厦门大学), 2006. 85~90
27 Luo YR (骆苑蓉),Hu Z (胡忠), Zheng TL (郑天凌),Huang X (黄栩). Biodegradation of benzoa pyrene by mangrove microbial consortium. J Xiamen Univ Nat Sci (厦门大学学报自然科学版), 2005, 44 (Suppl.): 75~79
28 Ji GD (籍国东), Ni JR (倪晋仁). Mechanisms of constructed wetland wastewater ecological treatment systems. Tech & Equipment Environ Poll Control (环境污染治理技术与设备), 2004, 5 (6): 71~76
29 Marchand C, Disnar JR, Lallier-Vergs E, Lottier N. Early diagenesis of carbohydrates and lignin in mangrove sediments subject to variable redox conditions (French Guiana). Geochim Cosmochim Acta, 2005, 69 (1): 131~142


Last Update: 2012-06-19