海洋科学
海洋科學
해양과학
MARINE SCIENCES
2014年
2期
63-70
,共8页
栗志民%刘志刚%梁春桥%彭海龙%宋慧歌%秦艳平%雷度运
慄誌民%劉誌剛%樑春橋%彭海龍%宋慧歌%秦豔平%雷度運
률지민%류지강%량춘교%팽해룡%송혜가%진염평%뢰도운
流沙湾%近岸海区%离岸海区%养殖环境%水质分析
流沙灣%近岸海區%離岸海區%養殖環境%水質分析
류사만%근안해구%리안해구%양식배경%수질분석
Liusha bay%Inshore sea areas%Offshore sea areas%Culture environment%Water quality analysis
2011年2月~2012年1月对广东流沙湾近岸和离岸育珠海区6个航次11个指标进行了调查。结果表明,近岸和离岸育珠海区水温、透明度、盐度和pH周年变化范围相似,水温呈现明显季节性变化,透明度、盐度和pH周年比较稳定,揭示目前流沙湾近岸和离岸育珠海区水流交换较好。近岸和离岸育珠海区叶绿素a和浮游植物细胞密度具有类似的周年变化规律,夏秋季高于冬春季。在4~7月份和9~10月份,近岸海区叶绿素 a 和浮游植物细胞密度呈现显著递增趋势,而10月份之后,显著递减。2~4月份,以及12月份至次年1月份,叶绿素a值和浮游植物细胞密度均较低。5~11月份,离岸海区叶绿素a 和浮游植物细胞密度均显著低于近岸海区。近岸和离岸育珠海区 COD 含量周年变化范围分别为0.2~0.7 mg/L 和0.1~0.8 mg/L,均达到国家一类水质标准。近岸海区和离岸海区无机氮( inorganic ni-trogen, IN)含量周年变化范围分别为1.9~8.0μmol/L和3.4~8.7μmol/L,均达到国家第二类水质标准。两个海区IN含量的周年变化趋势与叶绿素a值和浮游植物细胞密度的周年变化趋势相反,冬春季高于夏秋季。无机磷(inorganic phosphorus, IP)在流沙湾近岸和离岸海区含量具有相似的周年变化趋势,其季节性变化与无机氮恰好相反,表现为夏、秋季含量高于冬、春季。6~8月份,近岸海区 IP 超出国家二类水质标准分别达44.67%、96.33%和210%,离岸海区在相同的月份超出国家二类标准分别达75.67%、86%和230.67%。揭示在夏、秋季节应合理控制贝类养殖密度和流沙湾周边环境的污染。
2011年2月~2012年1月對廣東流沙灣近岸和離岸育珠海區6箇航次11箇指標進行瞭調查。結果錶明,近岸和離岸育珠海區水溫、透明度、鹽度和pH週年變化範圍相似,水溫呈現明顯季節性變化,透明度、鹽度和pH週年比較穩定,揭示目前流沙灣近岸和離岸育珠海區水流交換較好。近岸和離岸育珠海區葉綠素a和浮遊植物細胞密度具有類似的週年變化規律,夏鞦季高于鼕春季。在4~7月份和9~10月份,近岸海區葉綠素 a 和浮遊植物細胞密度呈現顯著遞增趨勢,而10月份之後,顯著遞減。2~4月份,以及12月份至次年1月份,葉綠素a值和浮遊植物細胞密度均較低。5~11月份,離岸海區葉綠素a 和浮遊植物細胞密度均顯著低于近岸海區。近岸和離岸育珠海區 COD 含量週年變化範圍分彆為0.2~0.7 mg/L 和0.1~0.8 mg/L,均達到國傢一類水質標準。近岸海區和離岸海區無機氮( inorganic ni-trogen, IN)含量週年變化範圍分彆為1.9~8.0μmol/L和3.4~8.7μmol/L,均達到國傢第二類水質標準。兩箇海區IN含量的週年變化趨勢與葉綠素a值和浮遊植物細胞密度的週年變化趨勢相反,鼕春季高于夏鞦季。無機燐(inorganic phosphorus, IP)在流沙灣近岸和離岸海區含量具有相似的週年變化趨勢,其季節性變化與無機氮恰好相反,錶現為夏、鞦季含量高于鼕、春季。6~8月份,近岸海區 IP 超齣國傢二類水質標準分彆達44.67%、96.33%和210%,離岸海區在相同的月份超齣國傢二類標準分彆達75.67%、86%和230.67%。揭示在夏、鞦季節應閤理控製貝類養殖密度和流沙灣週邊環境的汙染。
2011년2월~2012년1월대엄동류사만근안화리안육주해구6개항차11개지표진행료조사。결과표명,근안화리안육주해구수온、투명도、염도화pH주년변화범위상사,수온정현명현계절성변화,투명도、염도화pH주년비교은정,게시목전류사만근안화리안육주해구수류교환교호。근안화리안육주해구협록소a화부유식물세포밀도구유유사적주년변화규률,하추계고우동춘계。재4~7월빈화9~10월빈,근안해구협록소 a 화부유식물세포밀도정현현저체증추세,이10월빈지후,현저체감。2~4월빈,이급12월빈지차년1월빈,협록소a치화부유식물세포밀도균교저。5~11월빈,리안해구협록소a 화부유식물세포밀도균현저저우근안해구。근안화리안육주해구 COD 함량주년변화범위분별위0.2~0.7 mg/L 화0.1~0.8 mg/L,균체도국가일류수질표준。근안해구화리안해구무궤담( inorganic ni-trogen, IN)함량주년변화범위분별위1.9~8.0μmol/L화3.4~8.7μmol/L,균체도국가제이류수질표준。량개해구IN함량적주년변화추세여협록소a치화부유식물세포밀도적주년변화추세상반,동춘계고우하추계。무궤린(inorganic phosphorus, IP)재류사만근안화리안해구함량구유상사적주년변화추세,기계절성변화여무궤담흡호상반,표현위하、추계함량고우동、춘계。6~8월빈,근안해구 IP 초출국가이류수질표준분별체44.67%、96.33%화210%,리안해구재상동적월빈초출국가이류표준분별체75.67%、86%화230.67%。게시재하、추계절응합리공제패류양식밀도화류사만주변배경적오염。
In this paper, 11 factors including water temperature, transparency, salinity, pH, chlorophyll a, phyto-plankton cell density, COD, 4NH+-N, 3NO--N, 2NO--N and 34PO --P in inshore and offshore pearl-cultivating areas of Liusha bay in Guangdong from Feb. 2011 to Jan. 2012 were surveyed. The results showed that the annual variation ranges of water temperature, transparency, salinity and pH were similar. Water temperature exhibited sig-nificant seasonal variations, and transparency, salinity and pH were stable in anniversary, which revealed that water exchange in inshore and offshore pearl-cultivating sea areas of Liusha bay was better at present. Chl-a and phyto-plankton cell density have similar annual variation, with a higher value in summer and autumn than in winter and spring. From April to July, and from September to October, the chl-a and phytoplankton cell density showed a sig-nificant increasing trend, which significantly decreased after October. From Feb. to Apr. and from Dec. to next Jan, the chl-a and phytoplankton cell density were quite low. In addition, the chl-a and phytoplankton cell density in offshore sea areas were significantly lower than in inshore sea areas from May to November. The annual variation ranges of COD content in the inshore and offshore sea areas were 0.2-0.7 and 0.1-0.8 mg/L, respectively, reaching the first class water quality standard of the nation. The annual variation ranges of IN content in inshore and offshore sea areas were 1.9-8.0 and 3.4-8.7μmol·dm-3 respectively, both reaching the second class water quality standard of the nation. The IN content in inshore and offshore sea areas in winter and spring is higher than summer and autumn, which was opposite to the annual variation trend of chl-a and phytoplankton cell density. The IP content exhibited a similar annual variation in inshore and offshore sea areas, which was opposite to seasonal variation trend of IN, with a higher value in summer and autumn than in winter and spring. From June to August, the IP content in the inshore sea area beyond the second class water quality standard of the nation was up to 44.67%, 96.33%and 210%, respectively, and the IP content in the offshore sea area beyond the second class water quality standard of the nation was up to 75.67%, 86%and 230.67%, respectively, which revealed that breeding density of shellfish and surround-ing environment pollution should be reasonably controlled in summer and autumn.