广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2014年
16期
103-104,169
,共3页
薛彬%梅光明%朱敬萍%金衍健%郭远明
薛彬%梅光明%硃敬萍%金衍健%郭遠明
설빈%매광명%주경평%금연건%곽원명
瓯江口%溶解氧%分布特征%环境意义
甌江口%溶解氧%分佈特徵%環境意義
구강구%용해양%분포특정%배경의의
Oujiang River estuary%dissolved oxygen%environmental significance
调查了瓯江口春季大小潮汛涨落潮时段共8个航次的表层水质指标,表层水溶解氧指标为研究目标,结合相关理化参数,研究了影响瓯江口区域主要环境因子,为该区域的环境保护措施办法提供参考。研究认为:(1)溶解氧的饱和度从外海向内河有减小的趋势,其形态受灵霓大堤、岛屿、堤坝的影响较大,瓯江北支为主要航道,水交换条件较好,瓯江南支水交换不畅,形成了局部低饱和区。总体而言,区域溶解氧饱和度范围从0.94~0.65,最低值出现在灵昆岛西南部,最高值分布在外海,处于近饱和状态;(2)溶解氧与其他水质参数的相关性,可以看到其与COD的负相关性最为明显,与叶绿素的含量呈正相关,与浮游生物也有显示正相关性;(3)瓯江口总体水质一般,总体水质为国家2类水体。
調查瞭甌江口春季大小潮汛漲落潮時段共8箇航次的錶層水質指標,錶層水溶解氧指標為研究目標,結閤相關理化參數,研究瞭影響甌江口區域主要環境因子,為該區域的環境保護措施辦法提供參攷。研究認為:(1)溶解氧的飽和度從外海嚮內河有減小的趨勢,其形態受靈霓大隄、島嶼、隄壩的影響較大,甌江北支為主要航道,水交換條件較好,甌江南支水交換不暢,形成瞭跼部低飽和區。總體而言,區域溶解氧飽和度範圍從0.94~0.65,最低值齣現在靈昆島西南部,最高值分佈在外海,處于近飽和狀態;(2)溶解氧與其他水質參數的相關性,可以看到其與COD的負相關性最為明顯,與葉綠素的含量呈正相關,與浮遊生物也有顯示正相關性;(3)甌江口總體水質一般,總體水質為國傢2類水體。
조사료구강구춘계대소조신창락조시단공8개항차적표층수질지표,표층수용해양지표위연구목표,결합상관이화삼수,연구료영향구강구구역주요배경인자,위해구역적배경보호조시판법제공삼고。연구인위:(1)용해양적포화도종외해향내하유감소적추세,기형태수령예대제、도서、제패적영향교대,구강북지위주요항도,수교환조건교호,구강남지수교환불창,형성료국부저포화구。총체이언,구역용해양포화도범위종0.94~0.65,최저치출현재령곤도서남부,최고치분포재외해,처우근포화상태;(2)용해양여기타수질삼수적상관성,가이간도기여COD적부상관성최위명현,여협록소적함량정정상관,여부유생물야유현시정상관성;(3)구강구총체수질일반,총체수질위국가2류수체。
The surface water quality indicators of Oujiang River estuary eight cruises tidal fluctuations in spring were investigated , surface water dissolved oxygen indicators research objectives , combined with relevant physical and chemical parameters, the influence of the main factors of the estuary region , the region's environmental protection measures and methods to provide a reference.Some conclusions were that the saturation of do turn lower from the sea to the estuary and is depended on hydrological dynamic conditions controlled by Ni -Ling dam and islands , between 0.94 to 0.65.The saturation was positive correlation with chlorophyll and plankton , opposite with COD significantly.The low saturation of Do was showed in south shore Oujiang River which may be due to industrial wastewater.All water quality factors were not bad to second class seawater of the national standard , but inorganic nitrogen , inorganic nitrogen data showed that it was controlled under flood and ebb tide , chemical oxygen demand and spring tide and low tide keeps correlation significantly.
