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Article

Warum ist das Meer so blau? : Physik und Biologie beeinflussen Lichtstreuung und Farbe der Meere (1999)

Jochem, Frank J.

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In: Mare, Hamburg : Mareverl., 1997, 15(1999), Seite 58-61, 1432-928X

In: volume:15

In: year:1999

In: pages:58-61

Type of Medium: Article

Pages: Ill

ISSN: 1432-928X

Language: Undetermined

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2

Electronic Resource

Size-fractionated primary production in the open Southern Ocean in austral spring (1995)

Jochem, Frank J. ; Mathot, Sylvie ; Quéguiner, Bernard

Springer

Polar biology 15 (1995), S. 381-392

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ISSN: 1432-2056

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Size-fractionated primary production was measured by carbon-14 uptake incubations on three transects between 47°S and 59°30′S along 6°W in October/November 1992. Open Antarctic Circumpolar Current and ice-covered Weddell Gyre water showed comparable low productivity (∼0.3 gCm−2 day−1) and size distribution. Picoplankton (〈2 μm) was the dominant size fraction, contributing approximately half to the total water column production. The significance of larger (〉20 μm) phytoplankton was only minor. Productivity in the Polar Front Zone north of 50°S, with higher water column stability, was up to 10 times higher with microplankton (〉20 μm) being predominant. No ice-edge bloom occurred over the 2 months study period; this is explained by non-favourable hydrographic conditions for blooming and the lack of melt-water lenses upon ice retreat. Picoplankton tended to make higher contributions at lower water column stability, and microplankton to make higher contributions at higher stability. Mixing, together with light climate, are discussed as the driving forces for Antarctic primary production and for its size structure.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239714

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Productivity regime and phytoplankton size structure in the tropical and subtropical North Atlantic in spring 1989 (1993)

Jochem, Frank J. ; Zeitzschel, Bernt

Elsevier

In: Deep Sea Research Part II: Topical Studies in Oceanography, 40 (1-2). pp. 495-519.

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Publication Date: 2018-03-05

Description: Productivity regime and phytoplankton size structure are described for two different epipelagic systems in the tropical/subtropical Northeast Atlantic Ocean investigated during 9–11 day drift studies in spring 1989 in the JGOFS North Atlantic Bloom Experiment, 18°N, 30°W and 33°N, 20°W. At the 18°N study site, an oligotrophic system was encountered. The water column above the main pycnocline at about 50–60 m depth was nutrient-depleted, and both chlorophyll and primary production displayed subsurface maxima at the nutricline. Picoplankton was the dominant size fraction, accounting for 78–90% of chlorophyll and 83–98% of primary production. Synechococcus-type coccoid cyanobacteria were the dominant picoplankters. The hydrographic situation was characterized by high small-scale variability; the most interesting feature was the intrusion of nutrient-depleted Subtropical Salinity Maximum Water into the euphotic zone, whose impacts on the productivity regime are discussed. At 33°N study site, a post-bloom situation was encountered. Although the euphotic zone was nutrient-depleted, higher amounts of larger phytoplankton were present, the contribution of picoplankton being 42–53% of chlorophyll and 42–86% of primary production. Over the course of the drift study, subsurface maxima of chlorophyll and productivity evolved, the contribution of picoplankton having increased. Picocyanobacteria again were the dominant picoplankters. At both study sites the profiles of abundance ratios of picocyanobacteria to picoeucaryotes cell numbers proved to be a useful tool to characterize water masses.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/0967-0645(93)90029-M

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Productivity regime and phytoplankton size structure in the Arabian Sea (1993)

Jochem, Frank J. ; Pollehne, Falk ; Zeitzschel, Bernt

Elsevier

In: Deep Sea Research Part II: Topical Studies in Oceanography, 40 (3). pp. 711-735.

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Publication Date: 2018-03-05

Description: The productivity regime and size structure of phytoplankton are described for three different epipelagic systems in the Arabian Sea during the inter-monsoon period in spring 1987: (1) the coast of Oman; (2) the central Arabian Sea; and (3) the shelf off Pakistan. These results are related to the functioning of the specific ecosystem. Off the coast of Oman, the transition from a surface maximum of autotrophic biomass and production to a more oligotrophic system, with a chlorophyll subsurface maximum, was observed. Concomitantly, the size spectrum changed towards a higher significance of picoplankton. In the central Arabian Sea, a typical oligotrophic system with a pronounced subsurface maximum of autotrophic biomass and primary production was encountered. Here, the epipelagic system could be divided into two distinct sub-systems: the surface layer “regenerated” production, the predominance of picophytoplankton and minor losses due to sedimentation, thus a “closed” system; and the subsurface maximum layer at the nutricline characterized by higher sedimentation losses and more diatoms. Both sub-systems showed about the same productivity, the turnover in the surface layer having been much greater than in the subsurface maximum. The system on the shelf off Pakistan is seen as a decay stage of the open ocean system when water from offshore is transported onto the shelf during the onset of monsoon winds.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/0967-0645(93)90054-Q

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