Distribution characteristics and pollution evaluation of nutrient salts in typical wetland sediment in Huai'an, Jiangsu Province
-
摘要: 江苏淮安具有丰富的湿地资源。文章基于区内典型湿地底泥调查结果,开展营养盐含量特征及污染评价研究。结果表明:湿地底泥总氮、总磷、有机质含量分别为0.26~6.51 g/kg、0.36~3.98 g/kg、0.52%~10.17%,具有较大变异性;总体来看,公园池塘、湖泊底泥的营养盐含量最高,沟渠、水产养殖场底泥中营养盐含量次之,河流水系沉积物中营养盐含量最低。湿地底泥有机碳、总氮、总磷含量之间均呈显著正相关,反映它们的来源、迁移转换过程具有一定的相似性。其中,湖泊底泥C/N平均值(8.6)较小,有机物主要来源于湖泊内水生藻类植物;公园池塘、河流、沟渠、水产养殖场底泥具有较大的C/N平均值(9.9~11.9),有机物来源主要受陆源物质影响。底泥中有机氮、有机指数和污染指数的评价结果显示,研究区底泥受到不同程度的污染,成因与区内畜禽养殖、农田施肥等农业活动密切相关。建议推进研究区畜禽养殖污染和粪污资源化利用,实施科学施肥,减少化肥使用量。Abstract: There is abundant wetland resource in Huai'an, Jiangsu Province. The distribution characteristics and pollution evaluation of nutrient salts in typical wetland sediment in the study area have been analyzed, and the results show that the concentration of total nitrogen, total phosphorus, and organic matter has wide range between 0.26~6.51 g/kg, 0.36~3.98 g/kg, 0.52%~10.17% respectively, indicating great spatial variability of the nutrient salts. Overall, park ponds and lakes have the highest contents of nutrient salts, followed by ditches and aquaculture farms, and rivers have the lowest contents of nutrient salts. There are significant positive correlations among the contents of organic matter, total nitrogen, and total phosphorus in wetland sediment, which implies a certain similarity in their sources, migration and transformation processes. The lake sediments have relatively lower ratios of C/N (8.6) and their organic matters mainly sourced from aquatic algae and plants. However, sediments in park ponds, rivers, ditches and aquaculture farms have much higher mean ratios of C/N (9.9~11.9) and their organic matters are mainly affected by terrestrial materials in origin. The evaluation results of organic nitrogen, organic index, and pollution index on nutrient salts in sediments are relatively consistent, which implies that the wetland sediment in the study area have been polluted to some extent, closely associated with the local agricultural activities such as livestock and poultry breeding and farmland fertilization. It is suggested to promote resource utilization by transforming the waste of livestock and poultry breeding into fertilizers, so as to implement scientific fertilization and reduce the usage of chemical fertilizers in the study area.
-
Key words:
- wetland sediment /
- nutrient salts /
- pollution evaluation /
- Huai'an, Jiangsu Province
-
-
[1] MITSH W J, GOSSELIN T G. Wetlands[M]. New York:Van Nostrand Reinhold Company Inc, 2000:89-125.
[2] 龚小杰,王晓锋,刘婷婷,等.流域场镇发展下三峡水库典型入库河流水体碳、氮、磷时空特征及富营养化评价[J].湖泊科学,2020,32(1):111-123.
GONG X J, WANG X F, LIU T T, et al. Spatial-temporal characteristics of carbon, nitrogen and phosphorus and eutrophication assessment in a typical river of Three Gorges reservoir under the development of field towns[J].Journal of Lake Sciences,2020,32(1):111-123.
[3] 盛路遥,魏佳豪,兰林,等.洪泽湖湖滨带表层沉积物氮、磷、有机质分布及污染评价[J].环境监控与预警,2022,14(3):13-18.
SHENG L Y, WEI J H, LAN L, et al. Distribution characteristics and pollution assessment of nitrogen, phosphorus and organic matter in surface sediments in littoral zone of lake Hongze[J].Environmental Monitoring and Forewarning,2022,14(3):13-18.
[4] 李强,韩成银,戴小琳,等.白马湖西北部湖区表层沉积物氮、磷形态分布特征及污染评价[J].江苏水利,2019(12):11-17,22.
LI Q, HAN C Y, DAI X L, et al. Distribution characteristics and pollution evaluation of nitrogen and phosphorus forms in surface sediments in the northwest lake area of Baima lake. Jiangsu Water Resources,2019(12):11-17,22.
[5] 中华人民共和国国土资源部. DZ/T 0258-2014多目标区域地球化学调查规范(1:250000)[S].2014. Ministry of Land and Resources of the People's Republic of China. DZ/T 0258-2014 Specification of multi-purpose regional geochemical survey (1:250000)[S].2014.
[6] 中国地质调查局. DD2005-03生态地球化学评价样品分析技术要求[S].2005. China Geological Survey. DD2005-03 Technical requirements for analysis of ecological geochemical evaluation samples[S].2005.
[7] 邱祖凯,胡小贞,姚程,等.山美水库沉积物氮磷和有机质污染特征及评价[J].环境科学,2016,37(4):1389-1396.
QIU Z K, HU X Z, YAO C, et al. Pollution characteristics and evaluation of nitrogen, phosphorus and organic matter in sediments of Shanmei reservoir in Fujian, China[J]. Environmental Science,2016,37(4):1389-1396.
[8] 吕豪朋,申丽娜.天津于桥水库流域河流表层沉积物中碳、氮、磷分布及污染评价[J].安徽农业科学,2017,45(27):98-102.
LV H P, SHEN L N. Distribution characteristics of carbon, nitrogen and phosphorous of river surface and pollution status evaluation of sediments in Yuqiao reservoir basin, Tianjin[J].Journal of Anhui Agricultural Sciences,2017,45(27):98-102.
[9] 张为,胡园,陶晶祥,等.洋澜湖沉积物中磷的分布及污染评价[J].长江科学学院院报,2021,38(9):35-39.
ZHANG W, HU Y, TAO J X, et al. Distribution and pollution assessment of phosphorus in sediment of Yanglan lake[J]. Journal of Yangtze River Scientific Research Institute,2021,38(9):35-39.
[10] 朱鑫,汪实,陈恩.雷州半岛土壤地球化学基准值研究[J].华东地质,2021,42(4):429-437.
ZHU X, WANG S, CHEN E, et al. Study on soil geochemical reference value in Leizhou Peninsula[J].East China Geology,2021,42(4):429-437.
[11] HUANG S S, TU J, JIN Y, et al. Contamination assessment and source identification of heavy metals in river sediments in Nantong, Eastern China[J]. International Journal of Environmental Research,2018,12(3):373-389.
[12] 张婧,王淑秋,谢琰,等.辽河水系表层沉积物中重金属分布及污染特征研究[J].环境科学,2008,29(9):2413-2418.
ZHANG J, WANG S Q, XIE Y, et al. Distribution and pollution character of heavy metals in the surface sediments of Liao River[J].Environmental Science,2008,29(9):2413-2418.
[13] 邴海健,吴艳宏,刘恩峰,等.长江中下游不同湖泊沉积物中重金属污染物的累积及其潜在生态风险评价[J].湖泊科学,2010,22(5):675-683.
BING H J, WU Y H, LIU E F, et al. The accumulation and potential ecological risk evaluation of heavy metals in the sediment of different lakes within the middle and lower reaches of Yangtze River[J].Journal of Lake Sciences,2010,22(5):675-683.
[14] 李文朝.东太湖沉积物中氮的积累和水生植物沉积[J].中国环境科学,1997,17(5):418-421.
LI W C. Nitrogen accumulation in the sediment of East Taihu Lake and biological sedimentation of aquatic plants[J].China Environmental Science,1997,17(5):418-421.
[15] 王书锦,刘云根,张超,等.洱海流域入湖河口湿地沉积物氮、磷、有机质分布及污染风险评价[J].湖泊科学,2017,29(1):69-77.
WANG S J, LIU Y G, ZHANG C, et al. Distribution and pollution risk assessment of nitrogen, phosphorus and organic matter in inlet rivers of Erhai Basin[J].Journal of Lake Sciences,2017,29(1):69-77.
[16] 江苏省地质调查研究院.江苏省1:250000多目标区域地球化学调查报告[R].南京:江苏省地质调查研究院,2007. Geological Survey of Jiangsu Province. 1:250000 multi-target regional geochemical survey report in Jiangsu Province[R].Nanjing:Geological Survey of Jiangsu Province,2007.
[17] 王纬奇,仝川,曾从盛.不同质地湿地土壤碳、氮、磷计量学及厌氧碳分解特征[J].中国环境科学,2010,30(10):1369-1374.
WANG W Q, TONG C, ZENG C S. Stoichiometry characteristics of carbon, nitrogen, phosphorus and anaerobic carbon decomposition of wetland soil of different texture[J].China Environmental Science,2010,30(10):1369-1374.
[18] 苗慧,沈铮,蒋豫,等.巢湖表层沉积物氮、磷、有机质的分布及污染评价[J].生态环境学报,2017,26(12):2120-2125.
MIAO H, SHEN Z, JIANG Y, et al. Distribution characteristics and pollution assessment of nitrogen, phosphorus and organic matter in surface sediments of Chaohu lake[J].Ecology and Environmental Sciences, 2017,26(12):2120-2125.
[19] 杨洋,刘其根,胡忠军,等.太湖流域沉积物碳氮磷分布与污染评价[J].环境科学学报,2014,34(12):3057-3064.
YANG Y, LIU Q G, HU Z J, et al. Spatial distribution of sediment carbon, nitrogen and phosphorus and pollution evaluation of sediment in Taihu Lake Bas-in[J].Acta Scientiae Circumstantiae,2014,34(12):3057-3064.
[20] MEYES P A. Preservation of elemental and isotopic source identification of sedimentary organic matter[J].Chemical Geology,1994,114(3):289-302.
[21] TALBOT M. A review of the palaeohydrological interpretation of carbon and oxygen istopic ratios in primary lacustrine carbonates[J].Chemical Geology:Isotope Geoscience Section,1990, 80(4):261-279.
[22] CAMBRA-LóPEZ M, AMINK A J A, ZHAO Y, et a1. Airborne particulate matter from livestock production systems:A review of all air pollution problem[J]. Environmental Pollution,2010,158(1):1-17.
[23] 杨飞,杨世琦,诸云强,等.中国近30年畜禽养殖量及其耕地氮污染负荷分析[J].农业工程学报,2013,29(5):1-11.
YANG F, YANG S Q, ZHU Y Q, et al. Analysis on livestock and poultry production and nitrogen pollution load of cultivated land during last 30 years in China[J]. Transactions of the Chinese Society of Agricultural Engineering,2013,29(5):1-11.
[24] 沈根祥,汪雅谷.上海市郊农田畜禽粪便负荷量及其警报与分级[J].上海农业学报,1994(A1):6-11.
SHEN G X, WANG Y G. Loading amounts of animal feces and their alarming values and classification grades in Shanghai suburbs[J].Acta Agricul Turae Shanghai,1994(A1):6-11.
[25] 江苏省地质调查研究院.淮安城市地质调查土地资源调查与评价专题报告[R].南京:江苏省地质调查研究院,2021. Geological Survey of Jiangsu Province. Special report on land resources investigation and evaluation of Huai'an urban geological survey[R]. Nanjing:Geological Survey of Jiangsu Province,2021.
[26] 阎波杰,赵春江,潘瑜春,等.大兴区农用地畜禽粪便氮负荷估算及污染风险评价[J].环境科学,2010,31(2):437-443.
YAN B J, ZHAO C J, PAN Y C, et al. Estimation of livestock manure nitrogen load and pollution risk evaluation of farmland in Daxing district[J]. Environmental Science,2010,31(2):437-443.
[27] 刘钦普.江苏省化肥使用的时空变化及环境安全使用量探讨[J].江苏农业科学,2012,40(10):7-9.
LIU Q P. Discussion on the spatiotemporal changes and environmental safety usage of fertilizer in Jiangsu Province[J]. Jiangsu Agricultural Sciences,2012,40(10):7-9.
[28] 朱兆良,DAVID NORSE,孙波.中国农业面源污染控制对策[M].北京:中国环境科学出版社,2006. ZHU Z L, DAVID N, SUN B. Countermeasures for controlling agricultural non-point source pollution in China[M].Beijing:China Environmental Science Press,2006.
[29] 夏品华,薛飞,孔祥亮,等.贵州草海湿地农田渠系水质空间分异特征及影响分析[J].环境化学,2012,31(8):1201-1207.
XIA P H, XUE F, KONG X L, et al. Spatial characteristics and impact of water quality in agricultural ditch systems of Caohai wetland in the Guizhou plateau, China[J]. Environmental Chemsitry,2012,31(8):1201-1207.
-
计量
- 文章访问数: 451
- PDF下载数: 73
- 施引文献: 0
下载: