上海海洋大学学报
上海海洋大學學報
상해해양대학학보
JOURNAL OF SHANGHAI OCEAN UNIVERSITY
2010年
1期
91-97
,共7页
陈雷%徐兆礼%陈胜%蔡圣伟%吕宝强%鲍旭平
陳雷%徐兆禮%陳勝%蔡聖偉%呂寶彊%鮑旭平
진뢰%서조례%진성%채골위%려보강%포욱평
富营养化%有机污染%营养盐%叶绿素%潮流场%乐清湾
富營養化%有機汙染%營養鹽%葉綠素%潮流場%樂清灣
부영양화%유궤오염%영양염%협록소%조류장%악청만
eutrophication%organic pollution%nutrients%chlorophyll%tidal current field%Yueqing Bay
依据2007年4月和8月在乐清湾28°05'~28°35'N、121°00'~121°20'E海域进行海洋综合调查,对乐清湾营养水平指标(E)和有机污染指数(A)值的空间分布特征进行研究,讨论这些分布特征与营养盐、潮流场、污染源和叶绿素之间的联系.结果表明,乐清湾E值和A值分布趋势基本相同,都是由内湾向外湾数量逐渐减少.相关分析表明: 溶解态磷酸盐(DIP)和溶解态无机氮(DIN)与E值、A值之间都有密切的相关关系(P=0.000 0),因而是污染乐清湾水体的主要因子.营养盐分布特征的形成,主要由乐清湾地形、潮流、污染源和叶绿素特征决定的,在乐清湾海域,沿外湾东部的海槽是乐清湾中湾和外湾涨落潮的主要路径,形成外湾较低的DIP和DIN值.而养殖污染带来总氮和总磷的数量分别接近和超过50%,因而是乐清湾水体变劣的重要外源性污染物,其次是生活污水和化肥的输入.夏季,浮游植物对营养盐大量利用,有效地减少了乐清湾营养盐的含量,进一步导致水体营养水平指标(E)和有机污染指数(A)值的降低.4月乐清湾水体处于富营养化、严重污染和亚健康状态.8月,内湾和中湾属于污染海域,处于亚健康状态.外湾大部分属于较清洁海域,处于健康状态.
依據2007年4月和8月在樂清灣28°05'~28°35'N、121°00'~121°20'E海域進行海洋綜閤調查,對樂清灣營養水平指標(E)和有機汙染指數(A)值的空間分佈特徵進行研究,討論這些分佈特徵與營養鹽、潮流場、汙染源和葉綠素之間的聯繫.結果錶明,樂清灣E值和A值分佈趨勢基本相同,都是由內灣嚮外灣數量逐漸減少.相關分析錶明: 溶解態燐痠鹽(DIP)和溶解態無機氮(DIN)與E值、A值之間都有密切的相關關繫(P=0.000 0),因而是汙染樂清灣水體的主要因子.營養鹽分佈特徵的形成,主要由樂清灣地形、潮流、汙染源和葉綠素特徵決定的,在樂清灣海域,沿外灣東部的海槽是樂清灣中灣和外灣漲落潮的主要路徑,形成外灣較低的DIP和DIN值.而養殖汙染帶來總氮和總燐的數量分彆接近和超過50%,因而是樂清灣水體變劣的重要外源性汙染物,其次是生活汙水和化肥的輸入.夏季,浮遊植物對營養鹽大量利用,有效地減少瞭樂清灣營養鹽的含量,進一步導緻水體營養水平指標(E)和有機汙染指數(A)值的降低.4月樂清灣水體處于富營養化、嚴重汙染和亞健康狀態.8月,內灣和中灣屬于汙染海域,處于亞健康狀態.外灣大部分屬于較清潔海域,處于健康狀態.
의거2007년4월화8월재악청만28°05'~28°35'N、121°00'~121°20'E해역진행해양종합조사,대악청만영양수평지표(E)화유궤오염지수(A)치적공간분포특정진행연구,토론저사분포특정여영양염、조류장、오염원화협록소지간적련계.결과표명,악청만E치화A치분포추세기본상동,도시유내만향외만수량축점감소.상관분석표명: 용해태린산염(DIP)화용해태무궤담(DIN)여E치、A치지간도유밀절적상관관계(P=0.000 0),인이시오염악청만수체적주요인자.영양염분포특정적형성,주요유악청만지형、조류、오염원화협록소특정결정적,재악청만해역,연외만동부적해조시악청만중만화외만창락조적주요로경,형성외만교저적DIP화DIN치.이양식오염대래총담화총린적수량분별접근화초과50%,인이시악청만수체변렬적중요외원성오염물,기차시생활오수화화비적수입.하계,부유식물대영양염대량이용,유효지감소료악청만영양염적함량,진일보도치수체영양수평지표(E)화유궤오염지수(A)치적강저.4월악청만수체처우부영양화、엄중오염화아건강상태.8월,내만화중만속우오염해역,처우아건강상태.외만대부분속우교청길해역,처우건강상태.
Based on the data from an oceanographic census at the Yueqing Bay(28°05'-28°35'N, 121°00'-121°20'E) in April and August of 2007, this paper discussed the distribution of eutrophication index(value E) and organic pollution index(value A) in the waters, then analyzed relationship among the distribution and nutrient salts, tidal current field, pollution sources and chlorophyll. Results showed the similar trend of the distribution between value E and value A, whose concentration all decreased from inner bay to outer bay. There was the linear correlation between value E, value A with dissolved inorganic phosphorus(DIP) and nitrogen(DIN)(P=0.000 0). These tell us that eutrophication in the Yueqing Bay affected by DIP and DIN were determined by the background of topography and geomorphy, the distribution of tidal current field, pollution sources and chlorophyll in the Yueqing Bay. For the waters, marine trough along eastern water of outer bay was main path for flood and neap currents, the latter caused low DIP and DIN value there. Pollution from aquaculture was main reasons for eutrophication because 50% DIP and DIN came from the source, then living pollution water and chemical fertilizer pollution. Low DIP and DIN in August came from the utilization of phytoplankton to the nutrient salts, further decreased the value E and value A. In April, water quality of the Yueqing Bay was defined as eutrophication, heavy pollution and sub-health state, but in August, the water quality was defined as common pollution and sub-health state in inner and middle bays, better clean water quality and health state in outer bay.
