GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Competition and Coexistence. (2002)

Sommer, Ulrich.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Competition (Biology). ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (231 pages)

Edition: 1st ed.

ISBN: 9783642561665

Series Statement: Ecological Studies ; v.161

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=3089858

DDC: 577.83000000000004

Language: English

Note: Ecological Studies, Vol. 161 -- Competition and Coexistence -- Copyright -- Preface -- Contents -- Contributors -- 1 Introduction -- 2 Competition in Well-Mixed Habitats: From Competitive Exclusion to Competitive Chaos -- 3 Spatial Models of Competition -- 4 Competition and Coexistence in Plankton Communities -- 5 Competition and Coexistence of Mobile Animals -- 6 Competition, Coexistence and Diversity on Rocky Shores -- 7 Competition and Coexistence in Terrestrial Plants -- 8 Synthesis: Back to Santa Rosalia, or No Wonder There Are So Many Species -- Subject Index.

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2

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Plankton Ecology : Succession in Plankton Communities. (2012)

Sommer, Ulrich.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Plankton--Ecology. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (378 pages)

Edition: 1st ed.

ISBN: 9783642748905

Series Statement: Brock Springer Series in Contemporary Bioscience Series

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=3093939

DDC: 574.91999999999996

Language: English

Note: Plankton Ecology -- Copyright -- Contents -- Contributors -- Preface -- 1 Toward a Darwinian Ecology of Plankton -- 2 Physical Determinants of Phytoplankton Succession -- 3 The Role of Competition for Resources in Phytoplankton Succession -- 4 The Role of Grazers in Phytoplankton Succession -- 5 The Role of Fungal Parasites in Phytoplankton Succession -- 6 The Role of Competition in Zooplankton Succession -- 7 The Role of Predation in Zooplankton Succession -- 8 Toward an Autecology of Bacterioplankton -- 9 The Role of Grazing on Bacteria in Plankton Succession -- Index.

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3

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Algen, Quallen, Wasserfloh : Die Welt des Planktons. (1996)

Sommer, Ulrich.

Berlin, Heidelberg :Springer Berlin / Heidelberg,

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Keywords: Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (202 pages)

Edition: 1st ed.

ISBN: 9783642610332

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6856792

Language: German

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4

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Simultaneous shifts in elemental stoichiometry and fatty acids of Emiliania huxleyi in response to environmental changes (2018)

Bi, Rong ; Ismar, Stefanie M. H. ; Sommer, Ulrich ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 15 . pp. 1029-1045.

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Publication Date: 2021-02-08

Description: Climate-driven changes in environmental conditions have significant and complex effects on marine ecosystems. Variability in phytoplankton elements and biochemicals can be important for global ocean biogeochemistry and ecological functions, while there is currently limited understanding on how elements and biochemicals respond to the changing environments in key coccolithophore species such as Emiliania huxleyi. We investigated responses of elemental stoichiometry and fatty acids (FAs) in a strain of E. huxleyi under three temperatures (12, 18 and 24 °C), three N : P supply ratios (molar ratios 10:1, 24:1 and 63:1) and two pCO2 levels (560 and 2400 µatm). Overall, C : N : P stoichiometry showed the most pronounced response to N : P supply ratios, with high ratios of particulate organic carbon vs. particulate organic nitrogen (POC : PON) and low ratios of PON vs. particulate organic phosphorus (PON : POP) in low-N media, and high POC : POP and PON : POP in low-P media. The ratio of particulate inorganic carbon vs. POC (PIC : POC) and polyunsaturated fatty acid proportions strongly responded to temperature and pCO2, both being lower under high pCO2 and higher with warming. We observed synergistic interactions between warming and nutrient deficiency (and high pCO2) on elemental cellular contents and docosahexaenoic acid (DHA) proportion in most cases, indicating the enhanced effect of warming under nutrient deficiency (and high pCO2). Our results suggest differential sensitivity of elements and FAs to the changes in temperature, nutrient availability and pCO2 in E. huxleyi, which is to some extent unique compared to non-calcifying algal classes. Thus, simultaneous changes of elements and FAs should be considered when predicting future roles of E. huxleyi in the biotic-mediated connection between biogeochemical cycles, ecological functions and climate change.

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/bg-15-1029-2018

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A Comparison of the Droop and the Monod Models of Nutrient Limited Growth Applied to Natural Populations of Phytoplankton (1991)

Sommer, Ulrich

British Ecological Society

In: Functional Ecology, 5 (4). p. 535.

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Publication Date: 2017-01-16

Description: The extent of nutrient limitation of phytoplankton in eutrophic Pluβsee was studied by enrichment bioassays and by analysing the cellular stoichiometry of monospecific fractions obtained by size fractionation and density-gradient separation. In this lake silicate and nitrogen, but not phosphorus, at times limit the reproductive rates of phytoplankton. The dependence of nutrient-limited reproductive rates on the cellular content of the limiting nutrient (cell quota) could well be described by the Droop model. Biomass specific minimal cell quotas of nitrogen ranged from 0.014 to 0.061 mol N mol-1 C, minimal cell quotas of silicon ranged from 0.055 to 0.127 mol Si mol-1 C. The cell quotas of the non-limiting nutrients usually increased with the cell quotas of the limiting nutrient. In contrast to the Droop model, the Monod model which relies on ambient concentrations of limiting nutrients was a much poorer predictor of growth rates.

Type: Article , PeerReviewed

Format: text

DOI: 10.2307/2389636

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6

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Enhanced carbon overconsumption in response to increasing temperatures during a mesocosm experiment (2012)

Taucher, Jan ; Schulz, Kai G. ; Dittmar, T. ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 9 . pp. 3531-3545.

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Publication Date: 2019-09-23

Description: Increasing concentrations of atmospheric carbon dioxide are projected to lead to an increase in sea surface temperatures, potentially impacting marine ecosystems and biogeochemical cycling. Here we conducted an indoor mesocosm experiment with a natural plankton community taken from the Baltic Sea in summer. We induced a plankton bloom via nutrient addition and followed the dynamics of the different carbon and nitrogen pools for a period of one month at temperatures ranging from 9.5 °C to 17.5 °C, representing a range of ± 4 °C relative to ambient temperature. The uptake of dissolved inorganic carbon (DIC) and the net build-up of both particulate (POC) and dissolved organic carbon (DOC) were all enhanced at higher temperatures and almost doubled over a temperature gradient of 8 °C. Furthermore, elemental ratios of carbon and nitrogen (C:N) in both particulate and dissolved organic matter increased in response to higher temperatures, both reaching very high C:N ratios of 〉30 at +4 °C. Altogether, these observations suggest a pronounced increase in excess carbon fixation in response to elevated temperatures. Most of these findings are contrary to results from similar experiments conducted with plankton populations sampled in spring, revealing large uncertainties in our knowledge of temperature sensitivities of key processes in marine carbon cycling. Since a major difference to previous mesocosm experiments was the dominant phytoplankton species, we hypothesize that species composition might play an important role in the response of biogeochemical cycling to increasing temperatures.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.5194/bg-9-3531-2012

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Production, partitioning and stoichiometry of organic matter under variable nutrient supply during mesocosm experiments in the tropical Pacific and Atlantic Ocean (2012)

Franz, Jasmin ; Hauss, Helena ; Sommer, Ulrich ; [et al.]

Copernicus Publications (EGU)

In: Biogeosciences (BG), 9 (11). pp. 4629-4643.

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Publication Date: 2018-12-11

Description: Oxygen-deficient waters in the ocean, generally referred to as oxygen minimum zones (OMZ), are expected to expand as a consequence of global climate change. Poor oxygenation is promoting microbial loss of inorganic nitrogen (N) and increasing release of sediment-bound phosphate (P) into the water column. These intermediate water masses, nutrient-loaded but with an N deficit relative to the canonical N:P Redfield ratio of 16:1, are transported via coastal upwelling into the euphotic zone. To test the impact of nutrient supply and nutrient stoichiometry on production, partitioning and elemental composition of dissolved (DOC, DON, DOP) and particulate (POC, PON, POP) organic matter, three nutrient enrichment experiments were conducted with natural microbial communities in shipboard mesocosms, during research cruises in the tropical waters of the southeast Pacific and the northeast Atlantic. Maximum accumulation of POC and PON was observed under high N supply conditions, indicating that primary production was controlled by N availability. The stoichiometry of microbial biomass was unaffected by nutrient N:P supply during exponential growth under nutrient saturation, while it was highly variable under conditions of nutrient limitation and closely correlated to the N:P supply ratio, although PON:POP of accumulated biomass generally exceeded the supply ratio. Microbial N:P composition was constrained by a general lower limit of 5:1. Channelling of assimilated P into DOP appears to be the mechanism responsible for the consistent offset of cellular stoichiometry relative to inorganic nutrient supply and nutrient drawdown, as DOP build-up was observed to intensify under decreasing N:P supply. Low nutrient N:P conditions in coastal upwelling areas overlying O2-deficient waters seem to represent a net source for DOP, which may stimulate growth of diazotrophic phytoplankton. These results demonstrate that microbial nutrient assimilation and partitioning of organic matter between the particulate and the dissolved phase are controlled by the N:P ratio of upwelled nutrients, implying substantial consequences for nutrient cycling and organic matter pools in the course of decreasing nutrient N:P stoichiometry.

Type: Article , PeerReviewed

Format: text

DOI: 10.5194/bg-9-4629-2012

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Silicon consumption and population density changes of dominant planktonic diatoms in Lake Constance (1983)

Sommer, Ulrich ; Stabel, H.-H.

British Ecological Society

In: Journal of Ecology, 71 . pp. 119-130.

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Publication Date: 2017-07-04

Description: (1) Interactions between silicon concentration and diatom growth have been studied in Lake Constance with data on number and volume of cells per unit volume of water and concentration of dissolved reactive silicon. (2) Concentration of dissolved reactive silicon was found to decrease markedly during the spring and summer growth period of diatoms in 1979 and 1980. (3) Amounts of silicon taken up per cell and per unit cell volume have been calculated from the changes in silicon concentration and the increases in population density for several diatom species. The silicon to cell quotient (mg per million cells) varied over a wide range from 0.005 for Stephanodiscus hantzschii to 0.72 for Synedra acus, while that of silicon per unit cell volume (mg mm-3) varied over a narrower range from 0. 10 for Stephanodiscus hantzschii and Fragilaria crotonesis to 0.36 for Synedra acus. (4) A four-compartment model, that allows estimates of the rates of growth and of loss of diatom populations to be calculated, is outlined. (5) Summer succession from Asterionellaformosa to either Fragilaria crotonensis (in 1979) or Stephanodiscus binderanus (in 1980) is explained by interspecific differences in the effects of silicon concentration on growth and death. For Asterionellaformosa, silicon depletion did not stop cell-division but led to the death of most of the population. For Fragilaria crotonensis and Stephanodiscus binderanus cell division stopped but cells did not die and population growth continued after the concentration of dissolved silicon had increased again

Type: Article , PeerReviewed

Format: text

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9

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Bi, Rong ; Ismar-Rebitz, Stefanie M. H. ; Sommer, Ulrich ; [et al.]

Copernicus Publications (EGU)

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Publication Date: 2023-02-08

Description: Lipids, in their function as trophic markers in food webs and organic matter source indicators in the water column and sediments, provide a tool for reconstructing the complexity of global change effects on aquatic ecosystems. It remains unclear how ongoing changes in multiple environmental drivers affect the production of key lipid biomarkers in marine phytoplankton. Here, we tested the responses of sterols, alkenones and fatty acids (FAs) in the diatom Phaeodactylum tricornutum, the cryptophyte Rhodomonas sp. and the haptophyte Emiliania huxleyi under a full-factorial combination of three temperatures (12, 18 and 24 ∘C), three N : P supply ratios (molar ratios 10 : 1, 24 : 1 and 63 : 1) and two pCO2 levels (560 and 2400 µatm) in semicontinuous culturing experiments. Overall, N and P deficiency had a stronger effect on per-cell contents of sterols, alkenones and FAs than warming and enhanced pCO2. Specifically, P deficiency caused an overall increase in biomarker production in most cases, while N deficiency, warming and high pCO2 caused nonsystematic changes. Under future ocean scenarios, we predict an overall decrease in carbon-normalized contents of sterols and polyunsaturated fatty acids (PUFAs) in E. huxleyi and P. tricornutum and a decrease in sterols but an increase in PUFAs in Rhodomonas sp. Variable contents of lipid biomarkers indicate a diverse carbon allocation between marine phytoplankton species in response to changing environments. Thus, it is necessary to consider the changes in key lipids and their consequences for food-web dynamics and biogeochemical cycles, when predicting the influence of global change on marine ecosystems.

Type: Article , PeerReviewed

Format: text

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