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31.
The atomic force microscopy (AFM) is a recently developed, bench-top instrument that can image the surface structures of biological
specimens at high resolution with simultaneous measurement of their size. This paper describes the application of AFM to marine
bacteria. Both natural and cultured bacteria were retained on a filter or placed on glass, washed, air-dried and observed
by AFM. The instrumental condition, the choice of suitable filter, effect of fixation and filtration, comparison with epifluorescent
microscopic (EFM) count, and the size and shape of bacterial cells were investigated. An Isopore filter was best for concentration
and subsequent observation because of its surface flatness. Cross section images showed that both rod and coccoid cells were
flattened, the former usually having a two-humped shape. Bacterial cells were differentiated from non-living particles based
on their cross section shape and size. Bacterial counts by AFM and EFM showed good agreement. Although size measurement is
easily done by the instrument, AFM tends to overestimate the size of microspheres. More work is thus needed on the size measurement
of living organisms. Because AFM easily provides images of natural bacterial cells at high magnification, it can be used as
a new tool to study the fine structures of marine bacteria.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
32.
Biological Responses to Seasonally Varying Fluxes of Organic Matter to the Ocean Floor: A Review 总被引:8,自引:0,他引:8
Andrew J. Gooday 《Journal of Oceanography》2002,58(2):305-332
Deep-sea benthic ecosystems are sustained largely by organic matter settling from the euphotic zone. These fluxes usually
have a more or less well-defined seasonal component, often with two peaks, one in spring/early summer, the other later in
the year. Long time-series datasets suggest that inter-annual variability in the intensity, timing and composition of flux
maxima is normal. The settling material may form a deposit of “phytodetritus” on the deep-seafloor. These deposits, which
are most common in temperate and high latitude regions, particularly the North Atlantic, evoke a response by the benthic biota.
Much of our knowledge of these responses comes from a few time-series programmes, which suggest that the nature of the response
varies in different oceanographic settings. In particular, there are contrasts between seasonal processes in oligotrophic,
central oceanic areas and those along eutrophic continental margins. In the former, it is mainly “small organisms” (bacteria
and protozoans) that respond to pulsed inputs. Initial responses are biochemical (e.g. secretion of bacterial exoenzymes)
and any biomass increases are time lagged. Increased metabolic activity of small organisms probably leads to seasonal fluctuations
in sediment community oxygen consumption, reported mainly in the North Pacific. Metazoan meiofauna are generally less responsive
than protozoans (foraminifera), although seasonal increases in abundance and body size have been reported. Measurable population
responses by macrofauna and megafauna are less common and confined largely to continental margins. In addition, seasonally
synchronised reproduction and larval settlement occur in some larger animals, again mainly in continental margin settings.
Although seasonal benthic responses to pulsed food inputs are apparently widespread on the ocean floor, they are not ubiquitous.
Most deep-sea species are not seasonal breeders and there are probably large areas, particularly at abyssal depths, where
biological process rates are fairly uniform over time. As with other aspects of deep-sea ecology, temporal processes cannot
be encapsulated by a single paradigm. Further long time-series studies are needed to understand better the nature and extent
of seasonality in deep-sea benthic ecosystems.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
33.
34.
渤海湾、黄河口和长江口海域海水中颗粒氨基酸含量的分布 总被引:2,自引:0,他引:2
海水中除含有大量无机物质外,还含有种类繁多,但含量很低的有机物质,其含量约为C 0.5-2.0mg/L。海水有机物质可分为溶解有机物质(DOM)和颗粒有机物质(POM)。前者为主要组分,后者所含比例很小。在大洋中POM的主要来源有:①浮游生物,尤其是浮游植物活体、死骸及其分解碎屑;②海水中进行的DOM-POM的动力平衡产物。近岸海水还受河流流入的陆地POM和大气带入的陆源尘埃的影响。POM主要由蛋白质、碳水化合物、脂类等组成。POM是食碎屑动物的良好食物,它构成海洋食物链的一环,与水域生物生产力有直接的联系。POM中蛋白质含量以颗粒氨基酸(PAA)表示。Daumas(1976)曾报道过沿岸海水中PAA含量的季节变异,纪明侯等(1992年)于1980-1981年首次对青岛胶州湾内PAA含量在不同站位和不同季节中的变化特征进行调査研究。作者等继而于1982年7月、1983年10月和1984年5、7、8月乘“金星二号”考察船前后首次研究了渤海湾、黄河口和长江口附近水域中颗粒氨基酸的组成与含量在不同站位中的分布。所得结果如下。 相似文献
35.
Symbiotic Relations of Sediment-Agglutinating Nematodes and Bacteria in Detrital Habitats: The Enzyme-Sharing Concept 总被引:2,自引:0,他引:2
Abstract. A new concept (‘enzyme sharing’) concerning the interaction of marine nematodes and microbes in the degradation of sedimentary detritus is presented. Elements of this concept are (1) the notorious tendency of many aquatic nematodes to agglutinate detrital particles by mucus secretions, (2) new observations on the stimulation of microbial growth by nematodes in agar plates, and (3) literature data on limited endogenous proteolytic capacities of aquatic nematodes. Observations on nematode‐microbe associations in agar plates prompted the conceptual synthesis. In agar medium without the addition of any nutrients a spectacular growth of bacteria was visible on the sinusoidal crawling trails of nematodes only 2 – 3 days after introduction of the worms (species of Adoncholaimus, Anoplostoma and Sabatieria). Juveniles of Anoplostoma that hatched in the agar cultures left their minute trails in the medium and these were rapidly occupied by bacteria. The nematodes repeatedly visited their bacterial trails, which persisted as a peculiar biotic structure for more than one year and survived the nematodes.In sterile agar preparations containing the fluorogenic methylumbelliferyl‐β‐glucoside in the presence of the nematode Adoncholaimus, an enhanced fluorescence of the medium was visible, indicating β‐glucosidase activity. We therefore assume that oncholaimid nematodes discharge enzymes that alone, or in concert with microbial activities, contribute to the hydrolytic cleavage of refractory polysaccharides containing β‐glucosidic bonds such as agar components and cellulose. The sugars thus produced may then be taken up by the nematodes and concomitantly support the conspicuous growth of microbes. Since we did not observe any feeding of the nematodes on the associated microbes in agar plates, we question the nutritive potential of intact microbial cells for a number of nematodes abounding in detrital habitats, and call attention to the significance of ambient dissolved or adsorbed organic monomeric nutrients.Consequently, we perceive the puzzling perpetual accretion of detrital organic particles to sediment agglutinations by nematodes as an adaptation for operating an ‘enzymatic reactor’ for the production of dissolved nutrients. We hypothesise a relationship of mutual commensalism of nematodes and heterotrophic microbes in detrital habitats and propose the term ‘enzyme sharing’ for this relationship. Both parties invest in a common enzyme pool that decomposes organic detritus for their nutrition. We present here evidence that nematodes contribute β‐glucosidase, which is involved in the cellulase system. Data from the literature suggest that microbial enzymatic processing of detrital proteins yields amino acids available to nematodes, which apparently have no efficient proteolytic enzyme system in their intestines. 相似文献
36.
十四株海洋微藻脂肪酸组成的研究 总被引:5,自引:0,他引:5
对 4个门的 14株 (红藻门 8株 ,甲藻门 1株 ,隐藻门 2株 ,绿藻门 3株 )海洋微藻进行了脂肪酸含量测定 ,微藻在确定的条件下生长 ,指数生长末期收获。结果表明 ,各门的微藻都有其独特的脂肪酸特征 :红藻中含有大量的 2 0 :4 n- 6和 2 0 :5n- 3,其中紫球藻 R2 5含量最高 ,占总脂肪酸的4 9.8% (AA占总脂肪酸的 2 0 .5% ,EPA占总脂肪酸的 2 9.3% )。隐藻的主要脂肪酸是 16 :0、18:1n- 9、18:3n- 3、18:4 n- 3、2 0 :5n- 3、2 2 :5n- 3。与其它甲藻有别的虫黄藻 ,18:4 n- 3含量很少并且不含EPA,其主要合成的是 16 :0、18:1n- 9和 2 2 :6 n- 3。 C16和 C18的不饱和脂肪酸是本实验研究的 3株绿藻的主要脂肪酸 相似文献
37.
牙鲆(Paralichthys olivaceus)秦皇岛弧菌感染症及其病原细菌研究 总被引:1,自引:1,他引:1
采用病原分离与鉴定、人工感染试验等方法,在对养殖牙鲆病例进行发病情况、病理变化特征检验的基础上,进行病原学检验。结果表明,此病例属于由弧菌属(VibrioPacini1854)细菌引起的败血感染症。经对12株纯培养菌(HQ010712-1—HQ010712-12)进行形态特征、理化特性等表观分类学指征的检验,选择代表菌株(HQ010712-1株)进行16S rRNA基因的测定与系统发育学分析等,判定为弧菌属的一个新种。将HQ010712-1株送中国典型培养物保藏中心(CCTCC)进行了复核鉴定与分类定名,依据分离地定名为秦皇岛弧菌(Vibrioqinhuangdaorasp.nov.);参考菌株为HQ010712-1。 相似文献
38.
白令海夏季浮游细菌和原生动物生物量及分布特征 总被引:4,自引:0,他引:4
1999年7月21日至8月1日在我国首次北极科学考察期间,考察了白令海中部的浮游细菌和原生动物,分析了其丰度、分布、生物量及其生态作用,结果显示,浮游细菌表层生物量为1.5~20.2μg/dm3,平均为浮游植物生物量的30%,100m以上水柱柱总生物量(720~3123mg/m2)平均为浮游植物柱总生物量的67%,因而是白令海夏季与浮游植物处同等量级的优势类群;原生动物表层生物量为1.2~27.4μg/dm3,100m以上水柱柱总生物量为189~1698mg/m2,平均为浮游植物柱总生物量的21%,其中粒径小于5,5~20μm和大于20μm的原生动物分别占其柱总生物量的13%,47%和40%;作为主要类群的异养腰鞭毛虫占原生动物柱总生物量的39%.浮游细菌和原生动物生物量的总体分布趋势从西部向东北和东部递减、从表层向深层衰减,20~25m水层温跃层和表层海流的存在对这一分布特性可能有较大的影响.原生动物受潜在的大、中型浮游动物捕食压力的制约,维持了一个相对较低的生物量水平,在一定程度上限制了微食物环(microbial food loop)在该海域夏季生态系统营养中的作用. 相似文献
39.
采用麻痹性贝类毒素小白鼠生物测定法 ,研究了在可控生态条件下两株海洋细菌S1 0 、P42 对塔玛亚历山大藻生长及其产毒量的影响。结果表明 ,菌株S1 0 在较高浓度下对藻细胞的生长有明显的抑制作用 ,在较低浓度下抑藻生长作用较弱 ,不同浓度的菌株S1 0 均能有效地抑制藻细胞内麻痹性贝类毒素的产生 ,且在较低浓度下效果较好 ;菌株P42 对该藻的作用恰好与S1 0 相反 ,在较低浓度下明显抑制藻细胞的生长 ,不同浓度的菌株P42 也能有效地抑藻产毒 ,且在较高浓度下作用较明显。实验用的藻株毒力约为 ( 0 .95— 1 2 .1 4)× 1 0 - 6MU/cell,属于低毒藻株 ,该藻株在培养第 1 4天达到毒性最高峰 ,峰值为 1 2 .1 4× 1 0 - 6MU/cell,之后逐渐下降。讨论了海洋细菌在赤潮生物防治中的应用前景 相似文献
40.