大亚湾人工鱼礁附着生物的初步研究

1988年8月至1989年7月在大亚湾鱼礁区进行附着生物调查研究,记录79种生物,大约有82.7％的生物种类是鱼礁区鱼虾的饵料生物(包括35种不带壳和32种带壳的饵料生物),有17.3％的生物种类为非饵料生物。礁区附着生物种类多,附着量大,生长迅速,投礁半年后100％被生物覆盖,附着厚度30mm,附着量达17.487kg/m~2。礁区生物一年四季都能繁殖附着,主要附着期4—10月,高峰期7、8、9三个月,是投礁的最佳时间。     

大亚湾杨梅坑人工鱼礁区生态系统健康评价

以大亚湾杨梅坑人工鱼礁区海域2007～2009年间6个航次生态环境调查数据为基础,运用所建立的生态系统健康综合评价模型对该海域生态系统健康状况进行了综合评价。研究结果表明:(1)人工鱼礁区生态系统健康综合指数平均为0.794,生态系统健康总体状况处于较健康水平;(2)投礁后人工鱼礁区生态系统的健康状况明显提高,6个航次生态系统健康综合指数分别为0.713、0.807、0.830、0.841、0.759、0.815;(3)不同季节,生态系统健康水平呈现一定变化,总体以春、夏季节健康状况略优于秋、冬季节:(4)影响该海区生态系统健康的主要因素为海水总无机氮和沉积物无机碳。研究结果对于人工鱼礁区生态系统的管理、保护和规划具有参考意义。     

大亚湾浮游植物群落特征

于2002年冬、春、夏和秋季对大亚湾浮游植物进行采样调查,分析了浮游植物的种类组成、丰度、优势种、多样性及群落结构的季节变化特征和平面分布特征。并讨论了浮游植物与营养盐、水温及环流等环境因子之间的关系。2002年大亚湾浮游植物共鉴定出48属114种(包括变型和变种),丰度范围在5.79×104~5.37×106cells/m3之间,平均值为1.14×106cells/m3。其中硅藻共37属84种,其种数和细胞丰度都占绝对优势,平均丰度为1.08×106cells/m3,其次为甲藻,9属23种,平均丰度为9.91×104cells/m3。此外还鉴定出蓝藻和金藻。大亚湾浮游植物丰度变化呈单一周期型,春夏季高,秋冬季节低。虽然硅藻的丰度占优势,但秋季硅藻丰度降低(占总丰度75.8%)使甲藻和蓝藻所占比例上升。研究得出春夏季大亚湾浮游植物主要以沿岸暖水性种类为主,秋季和冬季除沿岸暖水种之外,广布种和大洋种也较多,尤其在冬季后者占优势。大亚湾浮游植物优势种类多,不同季节既有交叉又有演替。与以往调查资料相比,部分优势种发生变化,优势程度顺序和细胞丰度发生了一定改变,个体较大的细胞丰度优势逐渐增加。另外,受季风、潮流、地理位置及人类活动影响,大亚湾浮游植物丰度和群落结构有一定的季节和平面分布特征。大亚湾浮游植物的多样性在夏季偏低,尤其在大亚湾核电站和大鹏澳养殖区附近表现明显。大亚湾浮游植物的丰度、种数、优势种演替及群落结构等其它群落特征与营养盐尤其是氮、磷和N/P、水温、环流等环境因子密切相关。     

海州湾人工鱼礁二期工程海域大型底栖生物初步研究

2005、2007、2008年每年2月、5月和8月按《海洋监测规范》中大型底栖动物调查方法,分别对海州湾人工鱼礁二期工程施工海域(34°52′~30°55′N、119°25′34″~119°26′34″E)采用阿氏拖网进行了调查。监测结果显示,底栖动物的种类数较投放前有所增加;底栖动物年均总生物量逐年降低,2005年(1.0016g/m2)>2007年(0.9681g/m2)>2008年(0.7327g/m2);底栖生物群落生物多样性指数(H′)和丰富度(d)年均值呈逐年上升趋势,并且具有明显的季节性变化,春季最高,夏季次之,秋季最低;投礁前夏季的底栖动物的群落处于稳定状态而投礁后处于中度扰动状态。监测结果表明,鱼礁工程建设已经对投礁海域的底栖动物种类数、总生物量、多样性指数以及群落稳定性产生了一定程度的影响。     

人工鱼礁建设对浙江嵊泗海域营养盐与水质的影响

根据2003-2007年对嵊泗人工鱼礁海域11个航次调查所获得的实验数据,运用鱼礁区和对照区相比较的方法,分析了该海域不同季节氮、磷营养盐和水质在投放人工鱼礁后的变化,并对海域水质状况进行评价。结果表明,无机氮大多数处于阈值范围或低于最小阈值,活性磷酸盐含量则严重超标,N/P值范围为0.6280-14.8273,嵊泗海域处于氮限制,溶解氧不成为该海域浮游生物的生长限制因子。投放人工鱼礁后,生态效应不能在短期里得以体现,鱼礁区的水质情况要好于对照区,海域对P的富集强度大于N,人工鱼礁建设对再生生产力影响较大,对新生产力的贡献很小。       

富营养水体生物修复中浮游植物的群落特征

通过对生物修复中富营养小水体浮游植物群落的分析,探讨了生物修复对浮游植物的影响以及浮游植物对环境因子改变的响应。生物修复实施后的浮游植物种类数比实施前多;浮游植物细胞数和生物量却有明显的下降;而对于Shannon Weaver多样性指数,实施后较实施前有明显的上升;生物修复过程中美丽胶网藻水华得到控制,优势种的指示性由中污变为寡污,优势度也由极度的高优势变为中低度优势,水体治理的前期阶段浮游植物群落的种类组成和结构有明显的改变;浮游植物种类数分别与正磷酸盐和氮磷比呈显著负、正相关,正磷酸盐的浓度与氮磷比的大小对水体浮游植物的种群结构变化具有重要影响。       

象山港海域不同生境细菌群落结构与多样性

海洋环境中微生物群落结构和多样性是海洋生态系统结构和功能评估的重要指标.为了解象山港海域浮游细菌的群落特征,比较不同生境类型中菌落组成和结构差异,进而分析不同生境水体中菌落差异的形成原因,本研究利用16S rRNA高通量测序技术评估了象山港海域的网箱养殖区、牡蛎养殖区、人工鱼礁区和天然对照区等4种生境类型中海水细菌的群...     

环境因子对大亚湾人工鱼礁上附着生物分布的影响

通过对深圳大亚湾人工鱼礁区7个月(2008-04～2008-10)挂板实验,同时监测相应的环境因子指标.以附着生物丰度数据进行了除趋势对应分析(DCA),并根据附着生物丰度数据和7个环境因子进行了典范对应分析(CCA).共鉴定出附着生物54种,物种鉴定结果表明实验试板上的常见种有华美盘管虫 (Hydroides elegans)、三角藤壶( Balanus trigonus)、细肋肌蛤(Musculus mirandus)等.DCA种类排序图可明显地看出每种附着生物都有自己的分布中心和分布区域;CCA分析结果表明深度、透明度、溶解氧是影响附着生物群落变化的最主要环境因子,其次是盐度和温度.CCA排序图较好地反映了人工鱼礁上附着生物分布与各环境因子的相互关系.     

象山港人工鱼礁区的网采浮游植物群落组成及其与环境因子的关系

根据2010年1月(冬)、4月(春)、7月(夏)和11月(秋)对象山港人工鱼礁区及其邻近海域的网采浮游植物样品,共鉴定出浮游植物8门74属220种,主要由硅藻(168种)和甲藻(38种)组成。春、秋、冬季全区浮游植物丰度(分别为67.85、65.88和56.77×104个/m3)显著高于夏季(7.19×104个/m3),优势种主要有琼氏圆筛藻(Coscinodiscus jonesianus)、大洋角管藻(Cerataulina pelagica)、洛氏角毛藻(Chaetoceros lorenzianus)和罗氏角毛藻(C.lauderi)等,其中琼氏圆筛藻为全年的优势种,且在春、冬季为该海域的绝对优势种。浮游植物群落参数(丰度、chl a浓度、种类数、Shannon-Wiener多样性、Pielou均匀度和Margalef丰富度等指数)和环境因子(温度、盐度、透明度、pH值、DO、悬浮物、DIN、PO4-P和SiO3-Si浓度)均存在极显著的季节变化(P<0.001),但区域(鱼礁区与对照区)间基本无显著差异。聚类、多维尺度和相似性分析结果也表明,浮游植物群落组成存在显著季节差异(P=0.001),但区域间无显著差异。可见,人工鱼礁投放对网采浮游植物群落无显著影响。究其原因:(1)可能是该海域人工鱼礁投放数量不多,仅有230个水泥鱼礁体(共5000空立方),建礁时间也较短,导致其生态效应在短期内难以显著体现;(2)对照区与人工鱼礁区的距离较近,且采样站位均靠近岛屿,潮流和岛屿对浮游植物的影响可能超过了人工鱼礁投放对其的影响。典范对应分析(Canonical correspondence analysis,CCA)显示,影响浮游植物群落的主要因子依次为温度、营养盐、盐度和悬浮物。     

Dynamic analysis of phytoplankton community characteristics in Daya Bay, China

Daya Bay is a large bay along the southern coast of China. The composition, abundance, community structure and diversity of phytoplankton in Daya Bay were investigated to assess its status in different seasons in 2002, and a total of 48 genera and 114 species of phytoplankton were identified. The cell abundance of phytoplankton varied from 5.79 × 10⁴ cells/m³ to 5.37 × 10⁶ cells/m³ with an average of 1.14×10⁶ cells/m³. The largest community was Bacillariophyta containing 84 taxa, and its average abundance was 1.08 × 10⁶ cells/m³. Annual abundance variations show a typical one-peak cycle, with the highest peak recorded during summer and the lowest recorded during autumn. The ecotypes of phytoplankton were mostly alongshore warm-water species; however, marine warm-water species and eurytopic species during winter and autumn are more abundant than during the other seasons. The dominant species were diverse and varied with seasons. The species diversity index of phytoplankton in Daya Bay was low during summer, especially near the nuclear power station (NPS) and the aquaculture farms during summer and autumn. Community structure and cell abundance were categorized in relation to monsoon, current and anthropological activities. It is presented that the temperature and hydrodynamics in conjunction with the pattern of nutrients (DIN, DIP and N/P) availability and depletion affect the composition, abundance, community structure, community succession and diversity of phytoplankton.     

Dynamic analysis of phytoplankton community characteristics in Daya Bay, China

Daya Bay is a large bay along the southern coast of China. The composition, abundance, community structure and diversity of phytoplankton in Daya Bay were investigated to assess its status in different seasons in 2002, and a total of 48 genera and 114 species of phytoplankton were identified. The cell abundance of phytoplankton varied from 5.79 × 10⁴ cells/m³ to 5.37 × 10⁶ cells/m³ with an average of 1.14×10⁶ cells/m³. The largest community was Bacillariophyta containing 84 taxa, and its average abundance was 1.08 × 10⁶ cells/m³. Annual abundance variations show a typical one-peak cycle, with the highest peak recorded during summer and the lowest recorded during autumn. The ecotypes of phytoplankton were mostly alongshore warm-water species; however, marine warm-water species and eurytopic species during winter and autumn are more abundant than during the other seasons. The dominant species were diverse and varied with seasons. The species diversity index of phytoplankton in Daya Bay was low during summer, especially near the nuclear power station (NPS) and the aquaculture farms during summer and autumn. Community structure and cell abundance were categorized in relation to monsoon, current and anthropological activities. It is presented that the temperature and hydrodynamics in conjunction with the pattern of nutrients (DIN, DIP and N/P) availability and depletion affect the composition, abundance, community structure, community succession and diversity of phytoplankton.     

大亚湾西北部春季大型底栖动物群落特征

利用2008年春季在大亚湾西北部海域开展的12个测站的大型底栖动物调查资料,对该海域大型底栖动物的群落特征进行分析.结果表明该海域内大型底栖动物优势种由粗帝汶蛤(Timoclea scabra)、波纹巴非蛤(Paphia undulata)、上野蜾嬴蜚(Corophium uenoi)、方背鳞虫(Lepidonotus squamatus)、刀明樱蛤(Moerella culter)和角海蛹(Ophelia acuminata)等6种组成;可划分为4个群落,群落Ⅱ和群落Ⅰ为主体群落,群落Ⅲ和群落Ⅳ分布区较小,群落间差异较大.大型底栖动物数量上以个体较大的软体动物占优,但群落的组成则以多毛类和甲壳类为主,其组成情况基本上反映了群落的特征.群落Ⅰ以多毛类-甲壳类为表征,群落Ⅱ则以甲壳类-多毛类-软体动物为表征.栖息环境的差异,是造成群落间差异的主要原因;群落多样性水平呈群落Ⅲ＞群落Ⅱ＞群落Ⅰ＞群落Ⅳ,沉积环境的污染状况和人为扰动是影响多样性水平的主要因素;群落整体的稳定性较好,未受到明显的扰动,但分布于航道区域和渔业生产作业区的群落Ⅳ和群落Ⅲ,在航道建设、疏浚和渔业生产的影响下,群落受到一定程度的扰动,稳定性较弱.     

大亚湾大型底栖动物的群落结构

利用2004年3月、5月、9月和12月的大型底栖动物定量采样数据,对大亚湾大型底栖动物的群落结构进行研究.结果表明,大亚湾大型底栖动物大致可分为3个群落,分别分布于湾顶及湾中大部分海域、湾中部和湾口海域,湾中部海域群落的变化较为显著.大型底栖动物整体群落结构的季节变化总体较小,但雨季对大型底栖动物群落的影响较大,存在较明显的干湿季差异.大亚湾海域生态环境受到明显的扰动,处于扰动状态中的大型底栖动物群落稳定性较差;湾顶和湾中大部分海域内的群落Ⅰ,为大亚湾的主体群落,以软体动物为主,种类组成单一、季节变化小,以小鳞帘蛤Veremolpa micra和粗帝汶蛤Timoclea scabra 为特征种.该群落的稳定性最差,处于较强烈的扰动之中;稳定分布于湾口的群落Ⅲ稳定性最好,未受到扰动,以多毛类为主,种类组成较为复杂、变化较大;湾中部海域大型底栖动物群落结构变化较为复杂,主要变化区域为马鞭州附近海域.该群落系经强烈的人为扰动后,经次生演替而形成的新群落,其种类组成的季节变化非常显著,各季的种类几乎完全不同,群落的独立性和抗干扰能力均较弱;与1980's相比,大亚湾大部分区域内大型底栖动物基本保持了原有的群落,但群落稳定性大幅下降,群落的分布范围和种类组成发生较大程度的改变,主体群落组成呈明显的简单化趋势.在人类活动影响下,湾内同一区域内群落完全演替、湾中部海域出现新的群落.     

大亚湾春季溶解无机碳的分布特征

于2010年5月对大亚湾溶解无机碳(DIC)进行采样调查,分析了大亚湾溶解无机碳空间分布特征,并讨论了大亚湾溶解无机碳与各环境要素(pH、水温、溶解氧和叶绿素a等)的相关性。大亚湾表层水域的DIC含量在24.26～26.13mg.L-1之间;底层水域的DIC含量在24.06～26.89mg.L-1之间。大亚湾表层水体中DIC含量的高值区集中在大辣甲-桑洲连线以北水域,然后呈现出向四周逐渐递减的分布趋势;底层水体中DIC含量高值区集中于西南部水域(大辣甲南部),总体呈现出由南部向北部逐渐递减的分布趋势。大亚湾DIC与水温和叶绿素a呈现负相关系,与pH、DO和盐度呈现正相关关系,但从相关的显著性来看,DIC与以上各环境因子的相关系数均不高。     

Composition and distribution of ciliates inner and outer of Daya Bay, China

Daya Bay was undergoing eutrophication process by increased nutrient loading, and the changes in nutrients have strongly influenced the phytoplankton community structure. Ciliates are common component of planktonic community, what role do ciliates play in Daya Bay was still unknown. In this study, ciliates were enumerated and identified from the inner and outer Daya Bay during three seasons. Thirty-one species belong to 16 genera of ciliates were recorded, and Cyclotrichida, Strombidiida, Tintinnida were most common. In spring, ciliates abundance of D2 was lower than D1 and D3, abundance in the surface of D1 and D3 were higher than in the bottom, while D2 showed the opposite character. The lowest ciliate abundance was found in the E1 in summer. In fall, Ciliates abundance of D3 was lower than in fall, and abundance in the surface was lower than in the bottom, which was different compared to in spring. Different hydrographic character was shown between the surface (high temperature, low salinity and nutrients) and bottom layer (low temperature, high salinity and nutrients) at E1 in summer. Ciliate abundance had no significant variation between the surface and bottom at E1 in summer, but ciliates community structure changed a lot.     

大亚湾澳头水域浮游植物群落结构及周年数量动态

对1997年至1998年广东省大亚湾澳头水域的浮游植物群落进行调查和分析。结果发现浮游植物65属198种;硅藻在种类组成和数量上都比甲藻占有优势,存在春季和秋季高峰,主要优势类群依次是角毛藻、骨条藻、拟菱形藻等;甲藻只存在春季高峰,代表种类有裸甲藻、原甲藻等。主要优势种类的生长与调查水域的盐度没有明显关系,但全年水温的季节性变化对优势种类的消长影响显著。Simpson多样性指数、Shannon-Weaver多样性指数、均匀度的年平均值分别是0.611、2.107、0.557,多样性指数没有明显的季节变化规律和水平分布规律。       

Composition and distribution of ciliates inner and outer of Daya Bay, China

Daya Bay was undergoing eutrophication process by increased nutrient loading, and the changes in nutrients have strongly influenced the phytoplankton community structure. Ciliates are common component of planktonic community, what role do ciliates play in Daya Bay was still unknown. In this study, ciliates were enumerated and identified from the inner and outer Daya Bay during three seasons. Thirty-one species belong to 16 genera of ciliates were recorded, and Cyclotrichida, Strombidiida, Tintinnida were most common. In spring, ciliates abundance of D2 was lower than D1 and D3, abundance in the surface of D1 and D3 were higher than in the bottom, while D2 showed the opposite character. The lowest ciliate abundance was found in the E1 in summer. In fall, Ciliates abundance of D3 was lower than in fall, and abundance in the surface was lower than in the bottom, which was different compared to in spring. Different hydrographic character was shown between the surface (high temperature, low salinity and nutrients) and bottom layer (low temperature, high salinity and nutrients) at E1 in summer. Ciliate abundance had no significant variation between the surface and bottom at E1 in summer, but ciliates community structure changed a lot.