海洋学报(中文版)
海洋學報(中文版)
해양학보(중문판)
ACTA OCEANOLOGICA SINICA
2014年
8期
122-129
,共8页
蓝文陆%李天深%郑新庆%施晓峰%黎明民%陆建军%李波
藍文陸%李天深%鄭新慶%施曉峰%黎明民%陸建軍%李波
람문륙%리천심%정신경%시효봉%려명민%륙건군%리파
光合色素%浮游植物%群落结构%枯水期%钦州湾
光閤色素%浮遊植物%群落結構%枯水期%欽州灣
광합색소%부유식물%군락결구%고수기%흠주만
photosynthetic pigments%phytoplankton%community structure%dry season%Qinzhou Bay
应用浮游植物特征光合色素的分析方法,研究了2011年枯水期钦州湾浮游植物的结构组成与分布特征。结果表明:枯水期含量较高的浮游植物光合色素按含量高低依次为叶绿素 a、岩藻黄素、叶绿素 b、青绿素和多甲藻素,其他特征光合色素的含量很低。经 CHEMTAX 对光合色素转化计算,枯水期普遍检出的浮游植物类群为硅藻、青绿藻和甲藻,是枯水期浮游植物的优势类群,其生物量的平均值(±标准差)分别为(2.36±2.38)μg/L、(0.87±0.53)μg/L、(0.13±0.14)μg/L,变化范围为0.18~7.45μg/L、0.10~1.80μg/L 和0.02~0.60μg/L。硅藻、青绿藻和甲藻占枯水期浮游植物生物量比例的平均值(±标准差)分别为59%±21%、30%±16%、6%±4%,占比变化范围为29%~96%、1%~53%和0.4%~14%,其他藻类所占比例很低。河口和外湾靠外海域两个区域以硅藻为优势类群,内湾及外湾近岸硅藻和青绿藻共同为优势类群。河流营养盐输入量和比例的不同决定了钦州湾河口海区浮游植物群落结构的差异,大面积贝类养殖导致了内湾至外湾近岸海区硅藻比例的降低,而外湾水温的增加引起暖水性硅藻大量增长成为优势类群,在温度进一步增加和营养盐持续输入等条件下存在会发生硅藻赤潮的风险。
應用浮遊植物特徵光閤色素的分析方法,研究瞭2011年枯水期欽州灣浮遊植物的結構組成與分佈特徵。結果錶明:枯水期含量較高的浮遊植物光閤色素按含量高低依次為葉綠素 a、巖藻黃素、葉綠素 b、青綠素和多甲藻素,其他特徵光閤色素的含量很低。經 CHEMTAX 對光閤色素轉化計算,枯水期普遍檢齣的浮遊植物類群為硅藻、青綠藻和甲藻,是枯水期浮遊植物的優勢類群,其生物量的平均值(±標準差)分彆為(2.36±2.38)μg/L、(0.87±0.53)μg/L、(0.13±0.14)μg/L,變化範圍為0.18~7.45μg/L、0.10~1.80μg/L 和0.02~0.60μg/L。硅藻、青綠藻和甲藻佔枯水期浮遊植物生物量比例的平均值(±標準差)分彆為59%±21%、30%±16%、6%±4%,佔比變化範圍為29%~96%、1%~53%和0.4%~14%,其他藻類所佔比例很低。河口和外灣靠外海域兩箇區域以硅藻為優勢類群,內灣及外灣近岸硅藻和青綠藻共同為優勢類群。河流營養鹽輸入量和比例的不同決定瞭欽州灣河口海區浮遊植物群落結構的差異,大麵積貝類養殖導緻瞭內灣至外灣近岸海區硅藻比例的降低,而外灣水溫的增加引起暖水性硅藻大量增長成為優勢類群,在溫度進一步增加和營養鹽持續輸入等條件下存在會髮生硅藻赤潮的風險。
응용부유식물특정광합색소적분석방법,연구료2011년고수기흠주만부유식물적결구조성여분포특정。결과표명:고수기함량교고적부유식물광합색소안함량고저의차위협록소 a、암조황소、협록소 b、청록소화다갑조소,기타특정광합색소적함량흔저。경 CHEMTAX 대광합색소전화계산,고수기보편검출적부유식물류군위규조、청록조화갑조,시고수기부유식물적우세류군,기생물량적평균치(±표준차)분별위(2.36±2.38)μg/L、(0.87±0.53)μg/L、(0.13±0.14)μg/L,변화범위위0.18~7.45μg/L、0.10~1.80μg/L 화0.02~0.60μg/L。규조、청록조화갑조점고수기부유식물생물량비례적평균치(±표준차)분별위59%±21%、30%±16%、6%±4%,점비변화범위위29%~96%、1%~53%화0.4%~14%,기타조류소점비례흔저。하구화외만고외해역량개구역이규조위우세류군,내만급외만근안규조화청록조공동위우세류군。하류영양염수입량화비례적불동결정료흠주만하구해구부유식물군락결구적차이,대면적패류양식도치료내만지외만근안해구규조비례적강저,이외만수온적증가인기난수성규조대량증장성위우세류군,재온도진일보증가화영양염지속수입등조건하존재회발생규조적조적풍험。
Photosynthetic pigment analysis method was used to analyze the structure and distribution of phytoplank-ton community in the Qinzhou Bay in the dry season of 2011.Data showed that the major phytoplankton pigments were chlorophyll a,fucoxanthin,chlorophyll b,prasinoxanthin and peridinin,while the levels of other photosyn-thetic pigments were very low.Bacillariophyta,Prasinophyceae and Dinoflagellates were detected as dominant phy-toplankton groups during the dry season by converting signal changes into phytoplankton spectra-dynamics with CHEMTAX software.The mean biomass of three groups phytoplankton were (2.36±2.38)μg/L,(0.87±0.53)μg/L,and (0.13±0.14)μg/L,ranging from 0.18 μg/L to 7.45 μg/L,from 0.10 μg/L to 1.80 μg/L,and from 0.02 μg/L to 0.60 μg/L,respectively.The Bacillariophyta,Prasinophyceae and Dinoflagellates occupied the total biomass of phytoplankton by 59%±21%,30%±16% and 6%±4%,ranging from 29% to 96%,1% to 53%and 0.4% to 53%,respectively.Bacillariophyta dominated in the Maolingjiang Estuary and its adjacent areas, while both Bacillariophyta and Prasinophyceae dominated in the inner and outer bay areas.The community struc-ture and distribution of the phytoplankton were influenced by river floods,salinity,and nutrients.Large-scale oys-ter aquaculture might lead to decrease of Bacillariophyta ratio in inner and outer bay areas,while increased water temperature in the outer bay might make Bacillariophyta largely grow and be the dominant group.The diatom red tide might occur under the condition of further increase in temperature and nutrient input.