有益菌与大型藻类净化集约化养殖废水的展望

随着我国集约化养殖的发展,其废水污染问题日益凸现。国外大多采用生物转盘,生物接触池,生物滤池,机械过滤装置等方法处理,但造价太高,不适合我国国情。微生态制剂和大型藻类以其独特的优势,在水产养殖废水处理方面具有很好的应用前景。本文阐述了光合细菌和芽孢杆菌作用机理,介绍了目前在处理养殖废水中江蓠等大型藻类的应用,并分别对有益菌之间,有益菌与江蓠之间的协同作用前景作了展望。     

浙江6个列岛大型底栖藻类分类多样性

本文基于对七星列岛大型底栖藻类的实地调查,结合浙南3个列岛(七星列岛、南麂列岛和洞头列岛)和浙北3个列岛(渔山列岛、中街山列岛和马鞍列岛)大型底栖藻类物种组成的有关文献,构建大型底栖藻类基础数据库。采用平均分类差异指数△~+、分类差异变异指数∧~+、G-F多样性测度指数和相似性系数开展分类多样性研究。结果显示:6个列岛藻类在目级和科级的相似性很高,其值均在0.800以上;洞头列岛的△~+值最高(77.42),中街山列岛最低(72.65),这表明洞头列岛大型底栖藻类类群间的亲缘关系较远,中街山列岛藻类类群间的亲缘关系较近;七星列岛的∧~+值最高,达942.00,南麂列岛最低,仅865.12,这表明南麂列岛大型底栖藻类在不同分类阶元分布最均匀,七星列岛的藻类分布较集中;南麂列岛无论是F指数、G指数还是G-F指数的值均比其他5个列岛高,依次为18.62,4.40和0.76,这说明南麂列岛藻类的生态位分化程度较高。本研究构建了6个列岛大型底栖藻类资源与分类多样性基础数据库,为有效保护和管理大型底栖藻类提供了理论依据。     

深圳湾北岸泥滩大型底栖动物次级生产力研究

根据2005年3、6、9月和12月在深圳湾北岸泥滩9个取样站采集的大型底栖动物4个季度的定量样品,运用Brey(1990)的经验公式进行了大型底栖动物栖息丰度、生物量、次级生产力和P/B值的研究计算.整个研究区域大型底栖动物年次级生产力平均值(去灰干重)为54.55g/(m2.a),其中观鸟屋附近泥滩(A断面)较高,为68.85g/(m2.a),凤塘河口附近泥滩(H断面)为50.62g/(m2.a)次之,沙嘴码头附近泥滩(F断面)较低,为44.18g/(m2.a),深圳湾北岸泥滩大型底栖动物年平均P/B为2.95.可见,大型底栖动物次级生产力越靠近深圳河河口越低,这与越靠近深圳河河口,大型底栖动物个体越小、生活史更短的结果是一致的.     

中沙大环礁四种大型海藻的光生理特征比较及其对升温的响应*

生活于珊瑚礁区的大型海藻可以与珊瑚一起为礁栖生物提供食物和栖息地, 它们在维护珊瑚礁生态系统生物多样性中起着极为重要的作用。本论文比较研究了生活于我国南海中沙大环礁区4种优势海藻的生化组分、光合特征及其对海水升温的生理响应,其中厚膜藻(Grateloupia ellipitica)和粉枝藻(Liagora samaensis)为红藻, 钙扇藻(Udotea flabellum)和仙掌藻(Halimeda discoidea)为绿藻。结果显示, 与绿藻相比, 红藻藻体叶绿素(Chl a)和类胡萝卜素含量更低且含有藻胆素, 红藻的光补偿点(E_C)和呼吸速率(R_d)均显著低于绿藻。海水升温提高了4种海藻的光能利用效率(α)、E_C、R_d和日净光合固碳量; 同时, 升温还降低红藻的饱和光强(E_K)、提高绿藻的最大光合放氧速率(P_max)。结果还显示, 海水升温在光强较低时提高红藻的光合放氧速率, 光强较高时则降低其放氧速率; 升温也提高绿藻的光合放氧速率, 但光强变化对升温效应的影响不显著。基于4种海藻的光生理特征以及升温效应的种间差异性可见, 短时间升温(~4℃)有利于中沙大环礁区海藻的光合作用; 与绿藻相比, 该升温效应更有利于红藻。     

秦皇岛市潮间带大型海藻的种类分析和季节演替

2017年2-11月,对河北省秦皇岛市山海关、海港和北戴河潮间带大型海藻的组成、分布和季节演替情况展开了调查研究工作。调查结果显示:此次共采集到隶属3门23属的41种大型海藻,其中红藻门13属20种,褐藻门7属9种,绿藻门3属12种,分别占总采集种数的48.78%,21.95%和29.27%;海港大型海藻种类最多为35种,其次是北戴河20种,山海关最少为19种,分别占总采集种数的85.37%,48.78%和46.34%;春季优势种类为长石莼(Ulva linza)、多管藻(Polysiphonia senticulosa)、裙带菜(Undaria pinnatifida)、绳藻(Chorda filum)、酸藻(Desmarestia viridis)和海黍子(Sargassum muticum),夏季优势种类为长石莼、孔石莼(U.Pertusa)、刺松藻(Codium fragile)、海黍子、小石花菜(Gelidium divaricatum)、亚栉状蜈蚣藻(Grateloupia subpectinata)和假根羽藻(Bryopsis corticulans),秋季优势种类为长石莼和裂片石莼(U. fasciata),冬季优势种类为长石莼。优势种类生物量测定结果表明,优势种类生物量在不同采样点、不同季节表现出明显差异,如海港春季的裙带菜生物量最大(4 110.8 g·m-2),绳藻的生物量最小(92.32 g·m-2)。     

近岸海域大型水母来源与迁移路径分析——以红沿河电厂海域为例

近岸海域水母暴发可导致滨海火/核电厂取水口堵塞,对电厂安全运行造成潜在威胁。寻找水母源地及其迁移路径是水母治理的基础。本文基于拉格朗日质点追踪方法(LTRANS)建立反向追踪模型,并结合水母生态学特性对2015年6—9月聚集在红沿河电厂海域的大型水母进行溯源,获得水母源地及迁移路径,可以为螅状体栖息地寻找和水母拦截打捞提供依据,对近岸海域水母灾害防治具有重要指导意义。溯源结果表明:(1)红沿河电厂及其邻近海域的水母可能来自多个不同源区,辽东湾西部、北部及电厂南北两侧等海域的水母均有可能迁移至电厂附近;(2)受水温和环流影响,6—9月期间到达电厂附近的水母主要源区及迁移路径不同,早期出现在电厂海域的水母很可能是局地产生的,而7—9月持续的高风险水母灾害则主要取决于渤海不同源区水母的物理聚集;(3)根据水母的主要迁移路径,建议在电厂取水口约15km的海域设置一条封闭监测断面,对水母进行实时监测;在距离取水口约30km的外侧海域设置一条调查断面,于7月初至8月中旬,每5天进行一次定点拖网调查。此外,在距离电厂取水口15—20km的西南方向上,对水母进行拦截打捞可大大降低水母入侵风险。     

粤西海陵湾养殖区邻近海域大型底栖动物生态学特征

根据2014—2016年粤西海陵湾养殖区湾内和湾外邻近海域21°27′—21°38′N、111°42′—111°57′E 4个航次调查资料,对其大型底栖动物生态学特征进行了研究。结果表明,共鉴定大型底栖动物64种,春季种类最多为39种,秋季最低为17种。4季均以环节动物种类数最多,软体动物次之。不同季节间优势种有所差异,仅倍棘蛇尾Amphioplus sp.为周年优势种。春、夏、秋和冬季第一优势种分别为倍棘蛇尾、菲律宾蛤仔Ruditapes philippinarum、短吻铲荚螠Listriolobus brevirostris和平蛤蜊Mactra mera。平均丰度和生物量分别为213ind./m~2和15.4g/m~2,其中丰度以春季最高为248ind./m~2,夏季最低为167ind./m~2,而生物量则以秋季最高为28.0g/m~2,春季最低为2.4g/m~2;平面分布总体呈现湾外高于湾内的趋势。底栖动物Pielou均匀度和Shannon-Wiener多样性指数分别为0.95—1.00和1.56—4.07,其中时间分布规律明显,春季最高,秋季最低;空间上,两者无明显分布差异。群落结构时空差异显著,为沉积物类型、水深、底层无机氮和悬浮物以及捕食压力等因素共同影响的结果。     

白令海大型底栖动物群落结构及其空间分布格局

Due to its unique geological location, the Bering Sea is an ideal place to investigate the water exchange and ecosystem connectivity of the Pacific Ocean–Arctic Ocean and subarctic–Arctic region. Based on a number of summer surveys(July to September, 2010, 2012 and 2014), macrobenthic communities and their spatial-temporal patterns are exhibited for the majority of the Bering Sea(53°59′–64°36′N). The results show that the macrobenthic communities were dominated by northern cold-water species and immigrant eurythermic species, and the communities assumed a dispersed and patchy distribution pattern. Polychaetes(Scoloplos armiger), crustaceans(Ceradocus capensis) and sea urchins(Echinarachnius parma) were the main dominant groups in the shallow shelves; the sea star(Ctenodiscus crispatus) and the brittle star(Ophiura sarsii) were the main dominant groups in the continental slope; whereas small polychaetes(Prionospio malmgreni) dominated the basin area. Sediment type, water depth, and currents were the major factors affecting the structure and spatial distribution of the macrobenthic communities. Compared with other seas, the shallow areas of the Bering Sea showed an extremely high-standing biomass. In particular, the northern shelf area(north of St. Lawrence Islands and west of 170°W),which is primarily controlled by Anadyr Water, is an undersea oasis. In contrast, a deficiency in the downward transport of particulate organic carbon has resulted in a desert-like seabed in the basin area. By comparing our results to previous studies, we found that macrobenthic communities of the Bering Sea have undergone significant structural changes in recent decades, resulting in a decrease in abundance and an increase in biomass.In addition, populations of amphipods and bivalves in the northern shelves have decreased significantly and have been gradually replaced by other species. These changes might be associated with advanced seasonal ice melting,changes in organic carbon input, and global warming, indicating that large-scale ecosystem changes have been occurring in the Bering Sea.     

2009—2012年泉州湾大型底栖生物多样性研究

文章根据2009—2012年泉州湾4个航次的调查资料,对比分析了4年间大型底栖生物的种类数、生物量、栖息密度、生物多样性的变化趋势。结果表明：泉州湾大型底栖生物有103种,其中多毛类48种,软体动物25种,甲壳动物18种,棘皮动物6种和其他动物6种。多毛类、软体动物、甲壳动物占总种数的88.3%,三者构成大型底栖生物的主要类群。泉州湾大型底栖生物平均生物量为7.77 g/m2,平均栖息密度76个/m2;数量组成,生物量以甲壳动物居首位2.40 g/m2;栖息密度以多毛类占第一位38个/m2。泉州湾大型底栖生物种类数、生物量、栖息密度、生物多样性均为湾中部及湾外较好,湾顶较差;从2009—2012年际变化来看,生物种类数、平均生物量、平均栖息密度均为2009年最好,2012年相对较差,生物多样性年际变化不大,说明泉州湾的大型底栖生物环境受到了一定的影响。     

The relationship between soft-bottom macrobenthic communities and environmental variables off Ningjin, eastern Shandong Peninsula

Macrobenthic infauna and associated environmental factors influencing the benthic community in the eastern coastal region of Shandong Peninsula were analyzed in four seasonal surveys from January 2007 to October 2007 (30 stations in winter, 20 stations in other three seasons), in order to understand the community structure and the factors unfluencing the benthic distribution. PRIMER 6.0 and SPSS 15.0 software packages were adopted to analyze the environmental and macrobenthic data. The results show that there were 260 macrobenthic species in total collected from the research region. The composition of species is:Polychaeta (94 species), Crustacea (75), Mollusca (56) and Echinoderm (12), among which, only 23 species were common species in the cruises of every season. The dominant species varied from season to season; however, the polychaete species Paralacydonia paradoxa Fauvel and Echinoderm species Amphioplus japonicus (Matsumoto) were always present year-round. The abundance and biomass of the macrobenthos in the research region were variable from season to season. The results of CLUSTER and MDS analysis show that the similarities of macrobenthic structures between the stations were low; most of the similarities were at about 30% of similarity value, only two stations were up to 70%. In accordance with the similarity values of the macrobenthic structures, we divided the 20 stations into five groups by arbitrary similarity level of 30%. The ABC curve indicates that the marcofauna communities in the research region had not been disturbed massively, except two stations, SB1 and SB3. Ecologically, benthos were controlled by a combination of factors such as salinity, phytoplankton, zooplankton, SiO₃-Si and temperature, and no single factor could be considered as an ecological master factor.