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1

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Deep Arabian Sea mesozooplankton distribution. Intermonsoon, October 1995 (1997)

Koppelmann, R. ; Weikert, H.

Springer

In: Marine Biology. 1997; 129(3): 549-560. Published 1997 Sep 30. doi: 10.1007/s002270050196.

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Publication Date: 1997-09-30

Print ISSN: 0025-3162

Electronic ISSN: 1432-1793

Topics: Biology

Published by Springer

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Temporal variability of deep-sea zooplankton in the Arabian Sea (2003)

Koppelmann, R. ; Fabian, H. ; Weikert, H.

Springer

In: Marine Biology. 2003; 142(5): 959-970. Published 2003 Feb 18. doi: 10.1007/s00227-002-0999-y.

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Publication Date: 2003-02-18

Print ISSN: 0025-3162

Electronic ISSN: 1432-1793

Topics: Biology

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3

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Distribution and composition of gelatinous detrital material from closing net hauls in the NE Atlantic (1994)

Koppelmann, R.

Springer

In: Marine Biology. 1994; 118(4): 755-759. Published 1994 Mar 01. doi: 10.1007/bf00347525.

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Publication Date: 1994-03-01

Print ISSN: 0025-3162

Electronic ISSN: 1432-1793

Topics: Biology

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4

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Trophic relationships of zooplankton in the eastern Mediterranean based on stable isotope measurements (2009)

Koppelmann, R. ; Böttger-Schnack, Ruth ; Möbius, J. ; [et al.]

Oxford Univ. Press

In: Journal of Plankton Research, 31 . pp. 669-686.

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Publication Date: 2018-06-05

Description: Abundance and stable isotope composition of large and small mesozooplankton were analyzed in samples taken with 333 and 100 μm nets, respectively, at four sites in the eastern Mediterranean down to 4200 m depth in October 2001. Large mesozooplankton (333 μm nets) was sieved into five size fractions, and the δ13C and δ15N values of the fractions were measured as well as the δ15N values of total small mesozooplankton (100 μm nets) and specific mesozooplankton taxa. These measurements allow insights into the source of the diet and the trophic level relative to sinking and suspended particulate organic matter. Overall, biomass and abundance of zooplankton was low, reflecting the oligotrophic character of the eastern Mediterranean. Stable nitrogen isotope values of mesozooplankton were low (1–4‰) and close to zero in suspended particles at the surface. This indicates that the fixation of atmospheric nitrogen probably contributes to the N-pool in the eastern Mediterranean. Such low values were also found in sinking particles in deep waters and in most zooplankton size classes. However, suspended particles and mesozooplankton in the size class 0.5–1 mm, which was primarily composed of the deep-sea species Lucicutia longiserrata, showed higher values at depths below 1000 m. There is some indication that L. longiserrata was able to utilize the suspended particle pool in the deep eastern Mediterranean.

Type: Article , PeerReviewed

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Unique southern African terrestrial and oceanic biomes and their relation to steep environmental gradients (2024)

Sell, A. F. ; von Maltitz, G. P. ; Auel, H. ; [et al.]

Springer

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Publication Date: 2024-01-07

Description: The southern African subcontinent and its surrounding oceans accommodate globally unique ecoregions, characterized by exceptional biodiversity and endemism. This diversity is shaped by extended and steep physical gradients or environmental discontinuities found in both ocean and terrestrial biomes. The region’s biodiversity has historically been the basis of life for indigenous cultures and continues to support countless economic activities, many of them unsustainable, ranging from natural resource exploitation, an extensive fisheries industry and various forms of land use to nature-based tourism. Being at the continent’s southern tip, terrestrial species have limited opportunities for adaptive range shifts under climate change, while warming is occurring at an unprecedented rate. Marine climate change effects are complex, as warming may strengthen thermal stratification, while shifts in regional wind regimes influence ocean currents and the intensity of nutrient-enriching upwelling. The flora and fauna of marine and terrestrial southern African biomes are of vital importance for global biodiversity conservation and carbon sequestration. They thus deserve special attention in further research on the impacts of anthropogenic pressures including climate change. Excellent preconditions exist in the form of long-term data sets of high quality to support scientific advice for future sustainable management of these vulnerable biomes.

Type: Book chapter , NonPeerReviewed

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6

Electronic Resource

Distribution and composition of gelatinous detrital material from closing net hauls in the NE Atlantic (1994)

Koppelmann, R.

Springer

Marine biology 118 (1994), S. 755-759

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Gelatinous, dark green, cohesive flocculent material was examined from MOCNESS hauls (333 μm mesh) at discrete depth intervals over the water column. The samples were taken in April and May 1988 at two oceanic sites in the NE Atlantic, ca. 300 km apart. The wet weight of the detrital material was measured and the composition was determined by light microscopy and different staining approaches. In May, the amount of detrital material was higher (decreasing from 2000 mg/1000 m3 at 800 m to 200 mg/100 m3 at 3200 m) than in April (decreasing from 700 mg/1000 m3 at 800 m to 20 mg/1000 m3 at 3200 m), probably due to an advanced phytoplankton and salp bloom. The staining approaches indicated slightly depth- and time-dependent differences. Benthic algae were found incorporated in the detrital material, indicating their long-range dispersal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00347525

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7

Electronic Resource

Deep Arabian Sea mesozooplankton distribution. Intermonsoon, October 1995 (1997)

Koppelmann, R. ; Weikert, H.

Springer

Marine biology 129 (1997), S. 549-560

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Mesozooplankton (〈5 mm) collected by stratified oblique tows with a 1-m2 MOCNESS was examined at four stations in the Arabian Sea, with special reference to the bathypelagic zone. The profiles commenced about 20 m above bottom, at 4430 m as a maximum depth. The highest mesozooplankton biomass concentrations (wet weight per cubic meter) were obtained from the surface layer during night. A secondary maximum was situated between 150 and 450 m, with maximum concentrations at daytime. This layer coincided with the daytime residence depth of the deep scattering layer. The standing crop of the mesozooplankton in the upper 1000 m was highest at station WAST at 16°N; 60°E (ca. 47 000 mg m−2); station CAST at 14°N; 65°E ranked second (ca. 22 500 mg m−2), followed by station SAST at 10°N; 65°E (11 420 mg m−2). The differences can be related to different productivity regimes at the sea surface generated by the Findlater Jet during the SW monsoon. The differences in surface production were also reflected below 1000 m depth, in the bathypelagic zone, with mesozooplankton wet weights of 5330 mg m−2 at WAST, 3210 mg m−2 at CAST, 3390 mg m−2 at EAST (15°N; 65°E) and 2690 mg m−2 at SAST. The decrease of mesozooplankton concentration with depth in the oxygen minimum zone (OMZ) was stronger than in comparable depths of open-ocean areas where an OMZ is absent. Among the discriminated four size classes of mesozooplankton, the largest fraction (2 to 5 mm) indicated a biomass peak at 1200 m depth, which coincided with the lower boundary layer of the OMZ. The rate of decrease of mesozooplankton biomass with depth in the bathypelagic zone was statistically similar between the sites, even though the absolute zooplankton biomass at the sites was different. There is no evidence that the presumed lower carbon degradation rates in the OMZ of the Arabian Sea caused a larger standing crop and less of a decrease in biomass with depth in the bathypelagic zone in comparison to other seas.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002270050196

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