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大连湾水域浮游桡足类的分布 总被引:6,自引:1,他引:6
本文根据1982年4月至1983年5月在大连湾周年生态调查中获得的资料,分析了大连湾浮游桡足类的数量分布和季节变化。结果表明,大连湾共有浮游桡足类22种,其中优势种大网为中华哲水蚤Calanussinicus;中网为小拟哲小蚤Parucalaunsparuns、拟长腹剑水蚤Oithonasimilis、短角长腹剑水蚤Oithonabrevicornis。桡足类总量年高峰,大、中网各有2次,最高峰分 相似文献
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福建罗源湾浮游桡足类的分布 总被引:3,自引:2,他引:3
本文利用1986年11月至1987年10月在福建罗源湾采集的浮游生物样品,分析研究了该海区桡足类的种类组成和数量分布。结果表明,其优势种大网为中华哲水蚤、亚强真哲水蚤、真刺唇角水蚤和太平洋纺锤水蚤,中网为强额拟哲水蚤、小型拟哲水蚤、短角长腹剑水蚤。桡足类总量年高峰大、中网分别为2个和1个。中网桡足类与叶绿素a、温度和盐度等因素显著相关。 相似文献
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2000—2002年6月在黄海西南侧、山东半岛南部鳀鱼产卵场专项调查中,由底至表垂直拖网获得浮游生物中网(网孔径160μm)浮游动物样品,作者就该产卵场内四种主要小型桡足类(体长<1mm)双刺纺锤水蚤、小拟哲水蚤、拟长腹剑水蚤和近缘大眼剑水蚤的数量分布进行分析。在连续三年的6月,测区内均以小拟哲水蚤和拟长腹剑水蚤数量最多。四种小型桡足类的数量空间分布虽有一定的种间、年间差异,但总体上来说,四种小型桡足类的密集中心大多分布于山东半岛沿岸或近苏北浅滩沿岸水域。相关性分析表明,双刺纺锤水蚤和近缘大眼剑水蚤与底层水温呈正相关,与盐度呈负相关,拟长腹剑水蚤与底层水温呈负相关,与盐度呈正相关。小拟哲水蚤与温度的相关性较大。双刺纺锤水蚤和小拟哲水蚤与鳀鱼仔、稚鱼的数量分布有着较为显著的正相关。 相似文献
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温度对中华哲水蚤代谢率的影响 总被引:10,自引:0,他引:10
海洋生态系统的能流和物流是海洋生态学研究的重要内容。中华哲水蚤 (Calanussinicus)是中国黄、渤海桡足类的优势种 ,本文研究了中华哲水蚤的代谢率 ,为研究海洋生态系统的能流和物流积累资料。1材料和方法1997年12月26日到1998年1月17日在中科院海洋研究所研究了温度对中华哲水蚤耗氧率和排氨率的影响。1997年6月渤海调查时 ,在“科学1号”调查船上研究了温度对中华哲水蚤耗氧率的影响。中华哲水蚤1997年12月26日到1998年1月17日实验用中华哲水蚤采自青岛汇泉湾 ,用浅水 I型网在中… 相似文献
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中华哲水蚤不同地理种群苹果酸脱氢酶(MDH)的比较 总被引:7,自引:0,他引:7
中华哲水蚤 (CalanussinicusBrodsky)是属于甲壳纲 (Crustacea)桡足亚纲 (Copopeda)哲水蚤目(Calanoida)哲水蚤属(CalanusLeach)的一类浮游动物 ,为暖温带种 ,广泛分布于我国渤、黄海和东海沿岸区 ,为这些水域的优势种[1]。有关中华哲水蚤的研究国内有过许多报道 :李少菁[2]、陈清潮[3]、林元烧等[4]曾分别对该种类生活习性、摄食、生殖及生活史进行过研究 ,林元烧、曹文清等[5]也曾对厦门港不同月份采集的中华哲水蚤染色体组型进行了分析。而不同地理种群… 相似文献
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南黄海浮游动物群落结构研究 总被引:7,自引:2,他引:5
根据2014年春、秋季南黄海16个站位的生物样品进行了浮游动物群落结构研究。共鉴定出99种浮游动物,其中春季68种,秋季78种。除浮游幼虫外,种类较多的类群是桡足类(34种,占总种类数的34.3%)、水螅水母(13种,13.1%)和端足类(5种,5.0%)。春季优势种为夜光虫(Y=0.259 7)、桡足幼体(Y=0.135 3)、拟长腹剑水蚤(Y=0.060 8)和伪长腹剑水蚤(Y=0.022 4),秋季时桡足幼体(Y=0.335 9)、伪长腹剑水蚤(Y=0.115 7)、强额拟哲水蚤(Y=0.053 3)、桡足类无节幼虫(Y=0.051 4)和拟长腹剑水蚤(Y=0.041 0)是优势种。春季浮游动物平均生物量为1 555.1 mg/m~3,秋季为425.8 mg/m~3。春季平均丰度为9 551.4个/m~3,秋季为2 103.7个/m~3。秋季香农-威纳指数、丰富度和均匀度结果皆比春季的高。浮游动物生物量与温度和水深相关性更高;丰度和温度相关性最高,其次和水深相关。 相似文献
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西湖硅藻对桡足类浮游动物繁殖的影响 总被引:7,自引:0,他引:7
本文报道从杭州西湖筛选分离的两种淡水硅藻,即尖针杆藻Synedraacus和谷皮菱形藻Nitzschiapalea对西湖两种淡水浮游桡足类,即近亲拟剑水蚤Paracyclopsaffinis和大尾真剑水蚤Eucyclopsmucrroides卵孵化率的影响。结果表明,在较高密度的硅藻培养液(1.2×104~5.4×104个/cm3)中培养的桡足类动物,其卵的孵化率比生活在自然水体中的有明显降低,并发现该密度的实验硅藻对其摄食者——桡足类的母体也产生一定的毒害作用。该实验结果与已报道的某些海洋硅藻对海洋桡足类存在毒害作用的结果,对水域生态系食物链(网)中硅藻作用的传统概念提出了挑战,对水域生态学研究提出了新课题。 相似文献
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小型桡足类在海洋生态系统中的功能作用 总被引:32,自引:10,他引:32
依据渤海周年的中型浮游动物网样品 ,研究了小型桡足类的优势种小拟哲水蚤(Paracalanusparvus)、强额拟哲水蚤 (Paracalanuscrassirostris)和双刺纺锤水蚤 (Acartiabifilosa)生物量的季节变动、分布和年产量 ,并与渤海大型桡足类的优势种中华哲水蚤 (Calanussinicus)进行了比较。结果表明 ,三种小型桡足类成体的年产量分别为 2 4 .89、1 0 .83和 1 9.5 4mgC/(m3·a) ,中华哲水蚤的年产量为 1 8.30mgC/(m3·a)。小型桡足类主要分布在近岸 ,特别是渤海湾和莱州湾 ,这里正好是许多经济鱼类的产卵场和育幼场 ;而中华哲水蚤主要分布在中央水域。小型桡足类的高峰季节持续时间长 ,从 4月到 1 0月 ,覆盖了几乎所有仔稚鱼大量出现的月份 ;而中华哲水蚤高峰季节持续时间短 ,仅 6月和 7月。另外 ,在粒度上 ,小型桡足类的卵、无节幼体、桡足幼体和成体都比中华哲水蚤等大型桡足类小了一个数量级 (按体积计 ) ,特别适合作为仔稚鱼的饵料。因此认为 ,在近海生态系统中 ,小型桡足类较之大型桡足类起更为重要的作用 相似文献
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2009-08对乐清湾进行了生物调查。共鉴定浮游动物66种,浮游幼虫15类,分为半咸水河口类群、近海暖温带类群、近海暖水类群和大洋广布类群,其中近海暖水类群占主导地位。Ⅰ型网主要优势种有针刺拟哲水蚤、汤氏长足水蚤、太平洋纺锤水蚤、刺尾纺锤水蚤等;Ⅱ型网主要优势种有针刺拟哲水蚤、强额拟哲水蚤、太平洋纺锤水蚤、刺尾纺锤水蚤、短角长腹剑水蚤、简长腹剑水蚤、小长腹剑水蚤等。浮游动物优势种分布有明显差别,太平洋纺锤水蚤分布仅限于湾顶海区,小长腹剑水蚤密集区也在此区域,其它优势种则分布于乐清湾中部和湾口海区。浮游动物平均生物量为125.05mg/m3,平均丰度为234.00个/m3,数量分布呈现出从湾顶向湾口逐渐降低的趋势。 相似文献
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本文根据2007年3月至2008年2月期间在泉州地区3个海湾的调查资料,对其浮性鱼卵和仔稚鱼的种类组成与数量分布特点进行初步研究和探讨.结果表明,本调查海域共出现鱼卵和仔稚鱼51种(含未定种),隶属于21科,主要是近岸底层鱼类、近海中上层鱼类和港湾河口型鱼类三个生态类型.各站鱼卵总平均丰度是81.2彬网,仔稚鱼总平均丰度31.0个/网.数量平面分布呈现优势种明显,占总量比例大,不同季节不同海湾差别较大,规律性不强等特点.整体数量上与往年比有下降趋势. 相似文献
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Community grazing rates of copepods were estimated from data taken during three cruises in Tokyo Bay, based on bottle incubations and a temporal variation of gut fluorescence. Special attention was paid to the feeding selectivity in the estimations. Differential grazing was observed in the copepod communities:Acartia omorii, abundant in February, selectively fed on the particles of dominant size classes, whileOithona davisae, dominant throughout the year, andCentropages abdominalis selected large particles (>20µm). The maximum filtering rates on certain size classes were several times the average. In addition, a 34-hr investigation of the gut fluorescence of copepods revealed nocturnal feeding inParacalanus spp.,Pseudodiaptomus marinus andOithona davisae.Copepod communities collected with a net (95-µm mesh opening) were estimated to graze, in February 3.0%, in August 3.1–4.5% and in November 4.2–11.9% of the standing crops of phytoplankton or suspended particles per day. 相似文献
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Three representative copepods occurring in the southern Patagonian shelf, i.e., Calanus australis, Drepanopus forcipatus and Oithona helgolandica were sampled by the first time with paired nets of 66 and 150 µm mesh size. The stage-specific estimates of abundance of their populations were statistically analyzed to assess differences in the catchability by both plankton nets. Differences between nets were significant only for smaller developmental stages and species, with higher catchabilities by the 66 µm net, while no differences were detected for most of the stages of the medium and large size species. A significant effect of the spatial distribution on the estimates of abundance was detected for the majority of the species and stages but the interaction between mesh size and spatial distribution was not significant. This means that differences between both nets were maintained across the latitudinal gradient. Our results strongly suggest the convenience of using the 66 µm plankton net to estimate the abundance of the three copepods' populations. Furthermore, we propose a correction factor to adjust past estimates of abundances from 150 µm mesh collections. 相似文献
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The materials were obtained from the survey conducted in the Kuroshio area of the East China Sea to the Southwest of Kyushu in Japan (29°30'-32°00', 128°00'-130°'00'E) on board the R. V. Yoko Maru of Seikai Regional Fisheries Lab, Fisheries Agency, Japan in June 15~28, 1988 during China-Japan Joint Research on the Kuroshio. Zoo-plankton was collected by means of the North Pacific Net with model TSK flowmeter through vertical haul from 50 -Om. Temperature and salinity were measured with CTD. 134 species (including 4 spp. ) of planktonic copepods were preliminarily identified in the survey area. Most of them belonged to the tropical and subtropical species and a few of them were the warm-temperate species and eurytopic species. The main dominant species vteieOncaea venusta, Oithona plumifera, Clausocalanus furcatus, C. Arcuicornis, Paracaianus dculeatus, Oithona similis, Temara turbinata, Oncaea media, Undinula danvinii, Acartia negligent, Corycaeus speciosus, Scolecithrix danae, etc. The total number 相似文献
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1 IntroductionMesozooplankton (0.2 ~20 mm) are hetero-trophic animals that inhabit almost every type of ma-rine environment (Goswami and Padmavati, 1996;Uye et al., 1996). They are major secondary pro-ducers, grazing on phytoplankton and providing foodfor… 相似文献
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《Deep Sea Research Part I: Oceanographic Research Papers》2006,53(2):294-309
Pronounced seasonality is a characteristic feature of polar ecosystems, but seasonal studies in the high-Arctic pack-ice zone are still scarce because of logistical constraints. During six expeditions (1994–2003) to the Fram Strait area between Greenland and Svalbard in winter, spring, early summer, late summer and autumn, the sub-ice habitat and fauna below the pack ice (0–1 m depth) were analyzed for seasonal patterns. Both environmental variables such as ice cover, temperature, salinity and chlorophyll a (chl a), as well as species composition, abundance and biomass of the sub-ice fauna showed distinct seasonal dynamics. Most species of the sub-ice fauna were found in early summer, followed by autumn, spring and late summer; the lowest number occurred in winter. The sub-ice fauna was dominated by copepod nauplii during all seasons. Next numerous was the small pelagic copepod Oithona similis, followed by occassional swarms of Pseudocalanus minutus and Calanus spp. Abundances of the sympagic fauna in the sub-ice water layer were much lower, with ectinosomatid copepods being usually the most numerous sympagic group. In the course of the year, total abundances of the sub-ice fauna showed a steep increase from the earliest sampling dates towards the end of winter/beginning of spring reaching maximum numbers then, and a decrease to minimum numbers in early summer. A second peak occurred in late summer, followed by a decrease towards autumn. This significant trend was due to the abundances of copepod nauplii and Oithona similis. Sympagic species were virtually absent during winter, and increased significantly in spring and early and late summer. A factor analysis revealed the variables ice cover and thickness, water temperature and salinity, as well as chl a as the major controlling factors for the seasonal patterns in different groups and species of the sub-ice fauna. Because of the special environmental conditions in the sub-ice habitat, and the unique species composition characterized by small taxa, young stages, and sympagic species, the seasonal dynamics of the Arctic sub-ice fauna differ substantially from those of the epipelagic zooplankton community in the Arctic Ocean. 相似文献