人类活动对海南省小海泻湖沉积环境的影响
ANTHROPOGENIC IMPACT ON THE SEDIMENTARY ENVIRONMENT OF XIAOHAI LAGOON,HAINAN ISLAND
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摘要: 根据小海泻湖XHK04-01沉积物柱状样的210Pb定年以及总有机碳和总氮含量分析,探讨了人类活动对小海沉积环境的影响.分析表明:1988年以前,总有机碳和总氮的含量稳定在0.6%和0.04%,TOC/TN为14左右,沉积物的有机质主要来自陆地,陆源有机碳的含量占到总有机碳含量的80%,人类活动对沉积环境的影响变化较小;而1988年之后,由于人类活动的加剧,小海沉积物中总有机碳和总氮的含量迅速上升,到表层时总有机碳和总氮的含量均达到最高值,分别为1.2%和0.13%,TOC/TN下降到9,沉积物中小海自生来源的有机碳的比例显著增加,陆源有机碳的比例相对下降到45%.小海沉积物中营养元素的增加,导致小海水质的恶化.人类活动的影响在沉积速率上也有反映,在18cm以下沉积速率为0.46cm·a-1,0—18cm沉积速率为1.26cm·a-1.Abstract: Based on 210Pb chronology,sediment core profiles of total organic carbon(TOC),total nitrogen(TN),TOC/TN ratio were used to indicate the anthropogenic impacts on the sediment environment of Xiaohai lagoon.The profiles with time reveal that:(1)before 1988,the concent of TOC and TN were quite stable,about 0.6% and 0.04%,respectively.TOC/TN was about 14,The organic matter of Xiaohai Lagoon was mainly terrigenous provenance.(2)since 1988,the concent of TOC,TN have risen rapidly with the local development.The concent of TOC,TN in the surface are the top values in the sediment core profiles,about 1.2% and 0.13%,respctively.TOC/TN is 9.The relative proportion of autogenous organiccarbon has risen obviously,and the terrigenous organic carbon has been correspondingly decreased to 45%.Water quality of Xiaohai lagoon has deteriorated for increase of its nutrition element content.The change of sedimentation rate also indicates anthropogenic impact.The sedimentation rates are 0.46cm·a-1 from 160 cm to 18cm,and 1.26cm·a-1 from 18cm to surface.The increased sedimentation rate in recent years has accelerated the siltation in Xiaohai lagoon.
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Key words:
- TOC /
- TN /
- sediment /
- Xiaohai lagoon
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[1] 王世俊,李春初,田向平,海南岛小海沙坝-泻湖-潮汐通道体系自动调整及恶化.台湾海峡,2003,22(2):248-253
[2] 喻国华,陆培东,乔树梁,海南省万宁市小海环境变化及治理,海洋地质动态.2002,18(3):39-40
[3] 葛晨东,Slaymaker O Pedersom T F,海南岛万泉河口沉积环境的演变.科学通报,2003,48(19):2079-2083
[4] 钱君龙,王苏民,薛斌等,湖泊沉积中一种定量估算陆源有机碳的方法.科学通报,1997,42(5):1655-1658
[5] 陈巧云,徐胜利,海洋现代沉积速率210Pb-210Bi法的射线测定研究.海洋环境科学,1996,15(4):38-42
[6] 王永红,沈焕庭,河口海岸环境沉积速率研究方法.海洋地质与第四纪地质,2002,22(2):115-120
[7] Meyer P A,Ishiwatari R,Laucustrine Organic Geochemistry:An Overview of Indicators of Organic Matter Sources and Diagenesis in Lake Sediments.Organic Geochemistry,1993,20(9):867-900
[8] Hedges J I,Oades J M,Comparative Organic Geochemistries of Soils and Marine Sediments.Organic Geochemistry,1997,11:319-361
[9] Ruiz-Fernandez A C,Recent Sedimentary History of Anthropogenic Impacts on the Culiacan River Estuary,Northwestern Mexico:Geochemical Evidence from Organic Matter and Nutrients.Environmental Pollution,2002,118:365-377
[10] McKay J L,Pedersen T F,Organic Carbon Accumulation over the Last 16kyr off Vancouver Island,Canada:Evidence for Increased Marine Productivity during the Deglacial.Quaternary Science Reviews,2004,23:261-281
[11] Ruttenberg K C,Goni M A,Phosphorus Distribution,C:N:P Ratios,and δ13C in Arctic,Temperate,and Tropical Coastal Sediments:Tools for Characterizing Bulk Sedimentary Organic Matter[J].Marine Geology,1997,139:123-145
[12] Mayer L M,Macko S A,Cammen L,Provenance Concentrations and Nature of Sedimentary Organic Nitrogen in the Gulf of Marine.Marine Chemistry,1988,25:291-304 -
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