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The Expedition Antarktis VII/3 (EPOS LEG 2) of RV "Polarstern" in 1988/89 (1989)

Hempel, I. [Hrsg.] ; Schalk, P. H. [Hrsg.] ; Smetacek, V. [Hrsg.]

Bremerhaven : Alfred-Wegener-Inst. für Polar und Meeresforschung

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Call number: ZSP-168-65

In: Berichte zur Polarforschung

Type of Medium: Series available for loan

Pages: 199 S. : Ill., graph. Darst., Kt.

ISSN: 0176-5027

Series Statement: Berichte zur Polarforschung 65

URL: http://hdl.handle.net/10013/epic.10065

Language: English

Location: AWI Reading room

Branch Library: AWI Library

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2

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The annual cycle of protozooplankton in the Kiel Bight (1981)

Smetacek, V.

Springer

Marine biology 63 (1981), S. 1-11

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Protozooplankton (heterotrophic dinoflagellates and ciliates) composition and biomass was studied in a 20-m water column in the Kiel Bight on 44 occasions between January 1973 and April 1974. Both groups attained comparable biomass maxima during spring and autumn (0.3 to 0.7 g C m-2 in the 20-m water column) and biomass levels were much lower in summer and lowest in winter. The spring protozooplankton maximum coincided with that of phytoplankton and during the rest of the year, protozooplankton stocks did not appear to be food limited as phytoplankton stocks were large throughout; many protozoans with ingested microplankton cells were observed, indicating that their potential food supply is not restricted to nanoplankton. Non-loricate organisms dominated biomass of the ciliates and tintinnids were of little importance. Tintinnids predominated in plankton samples concentrated by 20 μm gauze indicating that most non-loricate ciliates, irrespective of size, were not retained. When phytoplankton sotcks were large (〉3 g C m-2) but those of metazooplankton small, as in spring and autumn, protozooplankton were the major herbivores with biomass levels comparable to those attained in summer by metazooplankton (≈ 0.5 g C m-2). A highly significant negative correlation was found between protozooplankton and metazooplankton during the plankton growth season. Predation by the latter is thus an important factor regulating size of the protozooplankton population, although other factors also appear to be in operation. Loss rates of the pelagic system through sedimentation are highest in spring and autumn when protozooplankton dominate the grazing community and loss rates are much lower in summer when metazooplankton are the dominant herbivores. Apparently, the impact of protozooplankton grazing on the pelagic system is quite different to that of the metazooplankton.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00394657

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3

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The plankton tower. I. A structure to study water/sediment interactions in enclosed water columns (1976)

Bodungen, B. ; Bröckel, K. ; Smetacek, V. ; [et al.]

Springer

Marine biology 34 (1976), S. 369-372

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A brief description is given of the plankton tower. The tower, is located in Kiel Bight and consists of a steel structure 16.5 m high, standing at a depth of 11 m. Four cylindrical plastic enclosures, each with a volume of about 30 m3, are suspended in the tower. Within each of these a column of water is isolated from the surface to the bottom, including the sediment. Results from the first experiment show that this method is suitable for investigations concerned with the study of interactions between the water column and the sediments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398130

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4

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The plankton tower. II. Release of nutrients from sediments due to changes in the density of bottom water (1976)

Smetacek, V. ; Bodungen, B. ; Bröckel, K. ; [et al.]

Springer

Marine biology 34 (1976), S. 373-378

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Results of an enclosure experiment carried out in Kiel Bight are presented. A water column of about 30 m3, extending from the surface to the bottom over a 3 m2 patch of sediment (coarse sand), was isolated and observed over a period of 33 days. Considerable water exchange took place with the surroundings partly because of near-surface openings that appeared in the enclosure but mainly because of density changes due to salinity fluctuations in the surrounding water. This denser water entered the enclosure through the sediments, displacing the lighter water through the near-surface openings. Very high nutrient and low oxygen values were measured in the bottom water immediately following this higher-density water influx. The same effect was observed outside the enclosure, but this phenomenon was not marked here, probably due to greater turbulent mixing obscuring this effect. It is postulated that interstitial, water is flushed out of coarse-grained sediments by gravity displacement due to changes in the density of bottom water. In certain areas this mechanism of nutrient release from the sediments is presumably of great ecological importance, both for the phytoplankton and the benthos.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398131

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Role of sinking in diatom life-history cycles: ecological, evolutionary and geological significance (1985)

Smetacek, V. S.

Springer

Marine biology 84 (1985), S. 239-251

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Rapid mass sinking of cells following diatom blooms, observed in lakes and the sea, is argued here to represent the transition from a growing to a resting stage in the life histories of these algae. Mass sinking is of survival value in those bloom diatoms that retain viability over long periods in cold, dark water but not in warm, nutrient-depleted surface water. Mechanisms for accelerating sinking speed of populations entering a resting or “seeding” mode are proposed. Previously unexplained features of diatom form and behaviour take on a new meaning in this context of diatom seeding strategies. Diatoms have physiological control over buoyancy as declining growth is accompanied by increasing sinking rates, where the frustule acts as ballast. Increased mucous secretion in conjunction with the cell protuberances characteristic of bloom diatoms leads to entanglement and aggregate formation during sinking; the “sticky” aggregates scavenge mineral and other particles during descent which further accelerates the sinking rate. Such diatom flocs will have sinking rates of ∼ 100 m d-1 or more. This is corroborated by recent observations of mass phytoplankton sedimentation to the deep sea. This mechanism would explain the origin of marine snow flocs containing diatoms in high productivity areas and also the well-known presence of a viable deep sea flora. That mortality is high in such a seeding strategy is not surprising. A number of species-specific variables pertaining to size, morphology, physiology, spore formation and frustule dissolution rate will determine the sinking behaviour and thus control positioning of resting stages in the water column or on the bottom. It is argued that sinking behaviour patterns will be environmentally selected and that some baffling aspects of diatom form and distribution can be explained in this light. Rapid diatom sedimentation is currently believed to be mediated by zooplankton faecal pellets, particularly those of copepods. This view is not supported by recently published observations. I speculate that copepod grazing actually retards rather than accelerates vertical flux, because faecal pellets tend to be recycled within the surface layer by the common herbivorous copepods. Egestion of undigested food by copepods during blooms acts as a storage mechanism, as ungrazed cells are likely to initiate mass precipitation and depletion of the surface layer in essential elements. Unique features of diatoms are discussed in the light of their possible evolution from resting spores of other algae. An evolutionary ecology of pelagic bloom diatoms is deduced from behavioural and morphological characteristics of meroplanktonic and tychopelagic forms. Other shell-bearing protistan plankters share common features with diatoms. Similar life-history patterns are likely to be present in species from all these groups. The geological significance of mass diatom sinking in rapidly affecting transfer of biogenic and mineral particles to the sea floor is pointed out.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392493

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Carbon dioxide limitation of marine phytoplankton growth rates (1993)

Riebesell, U. ; Wolf-Gladrow, D. A. ; Smetacek, V.

[s.l.] : Nature Publishing Group

Nature 361 (1993), S. 249-251

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Dissolved inorganic carbon in sea water exists in three inter-changeable forms: CO2, HCO^ and COl~. Despite its low concentration (0.5%-1% of DIG, corresponding to 10-15 jjiM CO2 at pH 8.2), CO2 is the main source of inorganic carbon for phytoplankton growth in the natural environment. This is ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/361249a0

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7

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Sedimentation of particulate matter during a phytoplankton spring bloom in relation to the hydrographical regime (1978)

Smetacek, V. ; Bröckel, K. ; Zeitzschel, B. ; [et al.]

Springer

Marine biology 47 (1978), S. 211-226

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Data presented and discussed here were collected continuously during April/May 1975 in the Bornholm Basin of the Baltic Sea. Sedimentation rates of particulate matter were recorded with 5 multisample sediment traps from different depths in the water column at 2 positions 170 km apart. Current meter data collected during the same period and depths indicated that the positions remained hydrographically distinct during the investigation. Particulate matter from the euphotic zone including diatom cells formed the bulk of the material collected by all traps. This flux of organic particles to the bottom was unimpeded by the strong density stratification present in the water column. The upper traps always collected less material than lower ones. This paradox has been ascribed to diminishing current speeds with depth, concomitant with an increase in sinking rates of phytoplankton and phytodetritus. Both factors influence the sampling efficiency of sediment traps, which are thought to have underestimated actual sedimentation rates here. A time lag of 2 to 3 weeks in bloom development seemed responsible for the characteristic differences between the two positions. The phase of major sedimentation at one position covered about 18 days, and a distinct sequence in the composition of the material collected by the 6 glasses of each trap indicated phases of a progressively deteriorating phytoplankton population in the water column contributing the particulate material. A total of 6.2 g C m-2 in 34 days was recorded at this station. Apart from a trap situated in an oxygen deficient layer which collected 0.44 g C m-2 of zooplankton corpses, zooplankton mortality was overestimated by the traps. Large-scale sedimencation of “fresh” organic matter produced by the spring bloom is probably a regular feature in areas with low over-wintering zooplankton populations and, as such, possibly has a direct stimulatory effect on growth and reproduction of the benthos.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00541000

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8

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Phytoplankton dynamics and sedimentation processes during spring and summer in Balsfjord, Northern Norway (1989)

Lutter, S. ; Taasen, J. P. ; Hopkins, C. C. E. ; [et al.]

Springer

Polar biology 10 (1989), S. 113-124

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ISSN: 1432-2056

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Chlorophyll a, phytoplankton species composition and carbon (PPC) estimated from cell-counts, were monitored together with hydrographic parameters and nutrients in the upper 50 m of Balsfjord (ca. 70° N), northern Norway between 08 February and 29 June 1982. Sediment traps were placed at 10, 50, 100, and 170 m (10 m above bottom) for intervals of 5–20 days during the study period. Trap contents were analyzed for phytoplankton as above; dry weight, particulate organic material (POM), particulate organic nitrogen and carbon (PON and POC), ash, and particulate phosphorus were also measured. The phytoplankton community exhibited three main phases: During the first (02–15 April, chiefly surface biomass) and the second (20 April–10 May, deep biomass-maximum and spring bloom peak) periods, Phaeocystis pouchetii dominated biomass (ca. 50% of PPC) followed by vegetative cells of Chaetoceros socialis. In the third period (10 May onwards, characterized by surface estuarinecir-culation), dino- and microflagellates dominated the low post-bloom biomass. Protozooplankton comprising tintinnids, other ciliates and heterotrophic dinoflagellates increased in abundance. Vegetative cells of phytoplankton were scarce in trap collections at 50 m or below; resting cells of Chaetoceros comprised nearly all the “intact” sedimenting phytoplankton. Krill faeces accounted for 〉90% by volume of the total faecal material trapped, despite a 〉2∶1 biomass dominance of copepods in the fjord. The greatest sedimentation rates of krill faeces were at 〉 100 m, reflecting the downward migration of krill during the day. In all, 2–3 g Cm−2 of krill faeces were collected, representing ca. twice that from intact phytoplankton cells. POC in the traps at ≥50 m was ca. 11 gm−2, accounting for ca. 17% of the estimated primary production during the study period. As the secondary production is high, a large proportion of the production of P. pouchetii must be grazed by herbivores. Copepod faeces are probably remineralized in the euphotic zone, while those of krill provide the major coupling between the pelagial and the benthos. The implications of such a sedimentation model for partitioning energy flow between the pelagial and the benthos is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239156

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Aggregation of algae released from melting sea ice: implications for seeding and sedimentation (1991)

Riebesell, U. ; Schloss, I. ; Smetacek, V.

Springer

Polar biology 11 (1991), S. 239-248

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ISSN: 1432-2056

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Factors influencing the fate of ice algae released from melting sea ice were studied during a R V Polarstern cruise (EPOS Leg 2) to the northwestern Weddell Sea. The large-scale phytoplankton distribution patterns across the receding ice edge and small-scale profiling of the water column adjacent to melting ice floes indicated marked patchiness on both scales. The contribution of typical ice algae to the phytoplankton was not significant. In experiments simulating the conditions during sea ice melting, ice algae revealed a strong propensity to form aggregates. Differences in the aggregation potential were found for algal assemblages collected from the ice interior and the infiltration layer. Although all algal species collected from the ice were also found in aggregates, the species composition of dispersed and aggregated algae differed significantly. Aggregates were of a characteristic structure consisting of monospecific microaggregates which are likely to have formed in the minute brine pockets and channels within the ice. Sinking rates of aggregates were three orders of magnitude higher than those of dispersed ice algae. These observations, combined with the negligible seeding effect of ice algae found during this study, suggest that ice algae released from the melting sea ice are subject to rapid sedimentation. High grazing pressure at the ice edge of the investigation area is another factor eliminating ice algae released during melting.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238457

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