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  • 1
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    Synthesis: Back to Santa Rosalia, or No Wonder There Are So Many Species (2002)
    Springer
    In:  In: Competition and Coexistence. , ed. by Sommer, U. and Worm, B. Ecological Studies, 161 . Springer, Berlin, Germany, pp. 207-218. ISBN 978-3-642-62800-9
    Details
    Publication Date: 2017-01-26
    Description: Modern competition research started with G.E. Hutchinson’s, Homage to Santa Rosalia, and his now-famous question “why are there so many species?” (Hutchinson 1959,1961). This confronted observed species richness with the competitive exclusion principle, a principle that had been derived from theory and from highly artificial experiments. It would always have been easy to point at the “artificial” character of the competitive exclusion principle. Indeed many researchers have refused to deal with Hutchinson’s question because they considered it a pseudo-problem, which arose from a contradiction between overly simplified theory and complicated reality. However, those who took Hutchinson’s challenge seriously have gained fundamental insights into how competition plays out in nature, how species coexist, and how communities function. In this final chapter we attempt to synthesize these insights as they have been presented in this book. We focus on six key topics: - Identification of major trade-off axes (Sect. 8.1) - Confirmation of the “intermediate disturbance hypothesis”, and detection of interactions among competition, resource supply, predation and disturbance in field experiments (Sect. 8.2) - The interplay of space colonization, dispersal and neighborhood competition in sessile communities (Sect. 8.3) - Potential for chaotic, self-generated heterogeneity in communities (Sect. 8.4) - Role of exclusive resources in competition among mobile animals (Sect. 8.5) - Coexistence by slow exclusion (Sect. 8.6)
    Type: Book chapter , NonPeerReviewed
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  • 2
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    Simultaneous shifts in elemental stoichiometry and fatty acids of Emiliania huxleyi in response to environmental changes (2018)
    Copernicus Publications (EGU)
    In:  Biogeosciences (BG), 15 . pp. 1029-1045.
    Details
    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.
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  • 3
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    Heterotrophic pico- and nano-flagellates: A food web within the pelagic food webs (2016)
    In:  [Poster] In: 41. CIESM Congress 2016, 12.-16.09.2016, Kiel, Germany .
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    Publication Date: 2016-12-15
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  • 4
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    Adopting genetic quantification tools for the primary producer-consumer interface in marine pelagic food-webs (2017)
    In:  [Talk] In: ASLO Aquatic Sciences Meeting 2017, 26.02.-03.03.2017, Honolulu, Hawaii, USA .
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    Publication Date: 2017-04-10
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  • 5
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    Is the chemical composition of biomass the agent by which ocean acidification impacts on zooplankton ecology? (2017)
    Springer
    In:  Aquatic Sciences, 79 (3). pp. 733-748.
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    Publication Date: 2020-02-06
    Description: Climate change impacts prevail on marine pelagic systems and food webs, including zooplankton, the key link between primary producers and fish. Several metabolic, physiological, and ecological responses of zooplankton species and communities to global stressors have recently been tested, with an emerging field in assessing effects of combined climate-related factors. Yet, integrative studies are needed to understand how ocean acidification interacts with global warming, mediating zooplankton body chemistry and ecology. Here, we tested the combined effects of global warming and ocean acidification, predicted for the year 2100, on a community of calanoid copepods, a ubiquitously important mesozooplankton compartment. Warming combined with tested pCO2 increase affected metabolism, altered stable isotope composition and fatty acid contents, and reduced zooplankton fitness, leading to lower copepodite abundances and decreased body sizes, and ultimately reduced survival. These interactive effects of temperature and acidification indicate that metabolism-driven chemical responses may be the underlying correlates of ecological effects observed in zooplankton communities, and highlight the importance of testing combined stressors with a regression approach when identifying possible effects on higher trophic levels.
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  • 6
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    The cell size of marine phytoplankton: patterns, drivers, costs and benefits (2016)
    In:  [Talk] In: 8. Congress of the Hellenic Ecological Society, 20.-23.10.2016, Thessaloniki, Greece .
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    Publication Date: 2016-12-15
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  • 7
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    On the controversy about South African pelagic fisheries: comment on the Letter to the Editor by de Villiers (this issue) (2017)
    Springer
    In:  Marine Biology, 164 (1). Art. No. 14.
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    Publication Date: 2016-12-19
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  • 8
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    Effects of climate change on the phytoplankton of Thermaikos Gulf in mesocsosm experiments (2016)
    In:  [Talk] In: 8. Congress of the Hellenic Ecological Society, 20.-23.10.2016, Thessaloniki, Greece .
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    Publication Date: 2016-12-15
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  • 9
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    Acknowledgment to associate editors and referees 2016 (2017)
    Springer
    In:  Marine Biology, 164 (8). p. 167.
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    Publication Date: 2017-08-16
    Type: Article , NonPeerReviewed
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  • 10
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    Overwintering effects on the spring bloom dynamics of phytoplankton (2017)
    Oxford Univ. Press
    In:  Journal of Plankton Research, 39 (5). pp. 772-780.
    Details
    Publication Date: 2020-02-06
    Description: The influence of winter on the selection of dominant taxa for the phytoplankton spring bloom was studied in batch culture experiments. Different natural phytoplankton assemblages from different phases of the temperate zone winter were exposed to varying periods of darkness (0, 6/7, 13 and 19 weeks) followed by a re-exposure to saturating light intensity for 14 days to experimentally simulate the onset of spring. The results showed that dark incubation has a strong effect on shaping the phytoplankton community composition. Many taxa disappeared in the absolute darkness. Dark survival ability might be an important contributing factor for the success of diatoms in spring. Different phytoplankton starting assemblages were dominated by the same bloom-forming diatoms, Skeletonema marinoi and Thalassosira spp., after dark incubation for only 6 weeks, irrespective of the high dissimilarities between phytoplankton communities. The growth capacity of surviving phytoplankton is almost unimpaired by darkness. Similar growth rates as that before darkness could be resumed for the surviving taxa with a potential lag time of 1–7 days dependent on taxon and the duration of darkness.
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