Dynamics of extracellular enzyme activities in seawater under changed atmospheric pCO2: a mesocosm investigation
Arnosti, Carol, Grossart, Hans-Peter, Mühling, M., Joint, Ian and Passow, Uta (2011) Dynamics of extracellular enzyme activities in seawater under changed atmospheric pCO2: a mesocosm investigation Aquatic Microbial Ecology, 64 (3). pp. 285-298. DOI 10.3354/ame01522.
a064p285.pdf - Published Version
Download (407Kb) | Preview
As part of the PeECE II mesocosm project, we investigated the effects of pCO2 levels on the initial step of heterotrophic carbon cycling in the surface ocean. The activities of microbial extracellular enzymes hydrolyzing 4 polysaccharides were measured during the development of a natural phytoplankton bloom under pCO2 conditions representing glacial (190 µatm) and future (750 µatm) atmospheric pCO2. We observed that (1) chondroitin hydrolysis was variable throughout the pre-, early- and late-bloom phases, (2) fucoidanase activity was measurable only in the glacial mesocosm as the bloom developed, (3) laminarinase activity was low and constant, and (4) xylanase activity declined as the bloom progressed. Concurrent measurements of microbial community composition, using denaturing-gradient gel electrophoresis (DGGE), showed that the 2 mesocosms diverged temporally, and from one another, especially in the late-bloom phase. Enzyme activities correlated with bloom phase and pCO2, suggesting functional as well as compositional changes in microbial communities in the different pCO2 environments. These changes, however, may be a response to temporal changes in the development of phytoplankton communities that differed with the pCO2 environment. We hypothesize that the phytoplankton communities produced dissolved organic carbon (DOC) differing in composition, a hypothesis supported by changing amino acid composition of the DOC, and that enzyme activities responded to changes in substrates. Enzyme activities observed under different pCO2 conditions likely reflect both genetic and population-level responses to changes occurring among multiple components of the microbial loop.
|Keywords:||Enzyme; Carbon cycle; pCO2 changes; Microbial loop|
|Open Access Journal?:||No|
|Date Deposited:||28 Oct 2013 12:37|
|Last Modified:||21 Sep 2015 23:38|
Actions (login required)
Document DownloadsMore statistics for this item...
Copyright 2013 | GEOMAR Helmholtz-Zentrum für Ozeanforschung Kiel | All rights reserved
Questions, comments and suggestions regarding the GEOMAR repository are welcomed
at email@example.com !