枸杞岛海藻场优势种鱼类群体特征及其在不同生境中的差异

为了解枸杞岛岩礁不同底栖海藻分布的海藻场区域鱼类优势群体组成和分布特征,于2009年2月—2010年2月对枸杞岛海藻场和沙地生境的鱼类进行了逐月采样,对其中的鱼类优势种群组成、生物学特征和摄食规律作了比较。结果表明,以大型底栖海藻铜藻为优势种和以孔石莼等小型底栖海藻为优势种的海藻场鱼类全年优势种皆为褐菖鲉、斑头鱼和黄姑鱼。褐菖鲉群体具有近岸活动频繁、群体低龄和小型化、丰度年间变化大的特点,通过性成熟提前、雌性比例远高于雄性、摄食对象多样化的方式应对生存压力,维持对整个群体的补充。斑头鱼和黄姑鱼群体都具有低龄化现象,群体补充主要受洄游群体影响。3种鱼类因生活习性和摄食对象的不同,表现出个体间的生长差异。同时,由于发育不同阶段的食性转化、体型变化和来自上层捕食者的捕食压力,褐菖鲉和黄姑鱼会随着发育阶段的变化,表现出对不同生境的选择利用。斑头鱼食性较为稳定,其活动区域由主要的摄食对象麦秆虫所主导,主要栖息于海藻场生境。

枸杞海藻场生态系统能量流动模型初探

海藻场是近岸典型生态系统,系统结构特殊,生物资源丰富,能流结构复杂且特征明显。本研究应用生态通道模型(Ecopath),构建枸杞海藻场生态系统能量流动模型,并做简单分析,通过对营养级、各级流量、生产量、系统总特征等方面的分析,结合海藻场自身生态系统特点,初步评估了海藻场生态系统状况,并探讨了其形成机制,得出枸杞海藻场内鱼类平均营养级为3.425,最高营养级为3.628,系统营养级较低。枸杞海藻场生态系统的总初级生产力为每年11 604.00 t/km2,枸杞海藻场生态系统总能量转换效率为12.7%,可以看出枸杞海藻场内初级生产力很高,转换效率也非常高,为藻场内生物资源提供了保障。枸杞海藻场生态系统的P/R比值是1.247,较同海区人工鱼礁生态系统和东海区平均水平更接近1,说明枸杞海藻场生态系统处在比较成熟,相对比较稳定的状态。

Land-Sea Interactions in Punta China(Baja California,Mexico):Addressing Anthropic and Natural Disturbances in a Retrospective Context

In extensive SCUBA-diving surveys of kelp forests along 350 km of the Baja California peninsula coastline from the US-México borderline to Sacramento Reef, benthic species richness has been satisfactorily explained by environmental structural features such as bottom rugosity. However, values at Punta China embayment (PCE) departed significantly from the model whereas the adjacent Santo Tomás cove (STC) did not. In addition, in August 20, 2011, visibility was under 1 m at PCE and over 10 m at STC;these conditions presumably reflect the influence of the limestone extraction industry located on land. In order to investigate the case allowing for temporal comparisons, we set a regional research scenario similar to a 1993 pioneer study, comprising PCE and two contrasting sites (STC to the North, and San José embayment, SJE, to the South). Land and sea side were addressed separately, and a 1950-2012 time-span period was set in order to perform the analysis of retrospective data. Our results suggest that the current scenario results from the combined influence of a local, anthropic and chronic land-based disturbance represented by the progressive expansion of limestone extraction industry, and the episodic influence of a natural, large scale and acute disturbance represented by the 1982-83 and 1997-98 El Nino events. The influence of both driving forces, however, is not necessarily equally distributed in space, yielding a regional mosaic of natural and social conditions. Our results confirm and expand previous knowledge in the area, and may contribute to?future basic and applied research.

枸杞岛海域春季异养浮游细菌和生态环境因子关系初步研究

为了查明海藻场和贻贝养殖场中均以γ变形菌为优势种的异养浮游细菌发挥不同生态作用的环境条件是否相同,以2009年5月底栖海藻和养殖贻贝快速生长期的实验数据为基础,研究枸杞岛海域表层水体异养浮游细菌与生态环境因子之间的关系。结果显示:春季异养浮游细菌在海藻场海域、贻贝养殖区海域和过渡海域丰度均值分别为1.60×108个/L、1.21×108个/L和1.56×108个/L,水平分布为海藻场高于过渡区域高于贻贝养殖场,且藻场中细菌数量约为贻贝场中的1.33倍。海藻场中异养浮游细菌与叶绿素显著正相关,与铵盐也呈现一定的相关性,这主要归因于大型海藻主要利用硝酸盐而浮游植物与细菌共同竞争铵盐,导致铵盐浓度降低,铵盐成为影响异养浮游细菌生长的限制因子;过渡海域异养浮游细菌和铵盐显著负相关,与溶解有机碳呈正相关;贻贝养殖区中细菌与生态环境因子的关系不明显。因此,叶绿素、铵盐、溶解有机碳是枸杞岛海域春季藻场内外海域制约异养浮游细菌现存量的重要控制因子。研究亮点:本文以异养浮游细菌优势种均为γ变形菌的天然海藻区和人工贻贝养殖场为研究区域,首次在不同生境海域开展异养浮游细菌生态作用的调查,试图理清不同生态群落的存在对异养浮游细菌发挥生态作用的影响机制,为近岸典型生境中微食物环的构建提供依据。