GLORIA — GEOMAR Library Ocean Research Information Access

1

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Production and export of organic matter (2010)

Engel, Anja ; Barcelos e Ramos, Joana ; Geider, Richard ; [et al.]

Publications Office of the European Union

In: In: Guide to Best Practices for Ocean Acidification Research and Data Reporting. , ed. by Riebesell, U., Fabry, V. J., Hansson, L. and Gattuso, J. P. Publications Office of the European Union, Luxembourg, pp. 181-200.

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Publication Date: 2020-05-06

Type: Book chapter , NonPeerReviewed

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Ocean Acidification and Oceanic Carbon Cycling (2014)

Wolf-Gladrow, Dieter A. ; Rost, Björn

Springer

In: EPIC3Global Environmental Change, (Handbook of Global Environmental Pollution ;1), Dordrecht ; London, Springer, 973 p., pp. 103-110, ISBN: 978-94-007-5783-7

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Publication Date: 2014-10-08

Repository Name: EPIC Alfred Wegener Institut

Type: Inbook , peerRev

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Evolutionary potential of marine phytoplankton under ocean acidification (2014)

Collins, Sinéad ; Rost, Björn ; Rynearson, Tatiana A.

WILEY-BLACKWELL PUBLISHING

In: EPIC3Evolutionary Applications, WILEY-BLACKWELL PUBLISHING, 7(1), pp. 140-155, ISSN: 1752-4571

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Publication Date: 2014-11-06

Description: Marine phytoplankton have many obvious characters, such as rapid cell division rates and large population sizes, that give them the capacity to evolve in response to global change on timescales of weeks, months or decades. However, few studies directly investigate if this adaptive potential is likely to be realized. Because of this, evidence of to whether and how marine phytoplankton may evolve in response to global change is sparse. Here, we review studies that help predict evolutionary responses to global change in marine phytoplankton. We find limited support from experimental evolution that some taxa of marine phytoplankton may adapt to ocean acidification, and strong indications from studies of variation and structure in natural populations that selection on standing genetic variation is likely. Furthermore, we highlight the large body of literature on plastic responses to ocean acidification available, and evolutionary theory that may be used to link plastic and evolutionary responses. Because of the taxonomic breadth spanned by marine phytoplankton, and the diversity of roles they fill in ocean ecosystems and biogeochemical cycles, we stress the necessity of treating taxa or functional groups individually.

Repository Name: EPIC Alfred Wegener Institut

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

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Differential effects of ocean acidification on carbon acquisition in two bloom-forming dinoflagellate species (2014)

Eberlein, Tim ; Van de Waal, Dedmer B. ; Rost, Björn

WILEY-BLACKWELL PUBLISHING

In: EPIC3Physiologia Plantarum, WILEY-BLACKWELL PUBLISHING, 151(4), pp. 468-479, ISSN: 0031-9317

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Publication Date: 2014-10-10

Description: Dinoflagellates represent a cosmopolitan group of phytoplankton with the^ability to form harmful algal blooms. Featuring a Ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) with very low CO2 affinities, photosynthesis of this group may be particularly prone to carbon limitation and thusv benefit from rising atmospheric CO2 partial pressure (pCO2) under ocean acidification (OA). Here, we investigated the consequences of OA on two bloom-forming dinoflagellate species, the calcareous Scrippsiella trochoidea and the toxic Alexandrium tamarense. Using dilute batch incubations, we assessed growth characteristics over a range of pCO2 (i.e. 180–1200 atm). To understand the underlying physiology, several aspects of inorganic carbon acquisition were investigated by membrane-inlet mass spectrometry. Our results show that both species kept growth rates constant over the tested pCO2 range, but we observed a number of species-specific responses. For instance, biomass production and cell size decreased in S. trochoidea, while A. tamarense was not responsive to OA in these measures. In terms of oxygen fluxes, rates of photosynthesis and respiration remained unaltered in S. trochoidea whereas respiration increased in A. tamarense under OA. Both species featured efficient carbon concentrating mechanisms (CCMs) with a CO2-dependent contribution of HCO3− uptake. In S. trochoidea, the CCM was further facilitated by exceptionally high and CO2-independent carbonic anhydrase activity. Comparing both species, a general trade-off between maximum rates of photosynthesis and respective affinities is indicated. In conclusion, our results demonstrate effective CCMs in both species, yet very different strategies to adjust their carbon acquisition. This regulation in CCMs enables both species to maintain growth over a wide range of ecologically relevant pCO2.

Repository Name: EPIC Alfred Wegener Institut

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Combined effects of different CO2 levels and N sources on the diazotrophic cyanobacterium Trichodesmium (2014)

Eichner, Meri ; Kranz, Sven A. ; Rost, Björn

WILEY-BLACKWELL PUBLISHING

In: EPIC3Physiologia Plantarum, WILEY-BLACKWELL PUBLISHING, 152, pp. 316-330, ISSN: 0031-9317

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Publication Date: 2014-11-06

Description: To predict effects of climate change and possible feedbacks, it is crucial to understand the mechanisms behind pCO2 responses of biogeochemically relevant phytoplankton species. Previous experiments on the abundant N2-fixer Trichodesmium demonstrated strong pCO2 responses, which were attributed to an energy reallocation between its carbon and nitrogen acquisition. Pursuing this hypothesis, we manipulated the cellular energy budget by growing Trichodesmium erythraeum IMS101 under different pCO2 levels (180, 380, 980 and 1400 µatm) and nitrogen sources (N2 and NO3–). Subsequently, biomass production and the main energy-generating processes (photosynthesis and respiration) and energy-consuming processes (N2-fixation and carbon acquisition) were measured. While oxygen fluxes and chlorophyll fluorescence indicated that energy generation and its diurnal cycle was neither affected by pCO2 nor nitrogen source, cells differed in production rates and composition. Elevated pCO2 increased N2-fixation and organic carbon and nitrogen contents. The degree of stimulation was higher for nitrogenase activity than for cell contents, indicating a pCO2 effect on the transfer efficiency from N2 to biomass. pCO2-dependent changes in the diurnal cycle of N2-fixation correlated well with carbon affinities, confirming the interactions between nitrogen and carbon acquisition. Regarding effects of the nitrogen source, production rates were enhanced in NO3– grown cells, which we attribute to the higher N retention and lower ATP demand compared to N2-fixation. pCO2 effects on carbon affinity were less pronounced in NO3– users than N2-fixers. Our study illustrates the necessity to understand energy budgets and fluxes under different environmental conditions for explaining indirect effects of rising pCO2.

Repository Name: EPIC Alfred Wegener Institut

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

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