Seasonal and diel relationships between the isotopic compositions of dissolved and particulate organic matter in freshwater ecosystems |
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Authors: | Susan E Ziegler Marilyn L Fogel |
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Institution: | (1) Department of Biological Sciences, University of Notre Dame, PO Box 369, Notre Dame, IN 46556, USA;(2) Department of Civil Engineering and Geosciences, University of Notre Dame, Notre Dame, IN 46556, USA;(3) University of Oregon, Center for Ecology and Evolutionary Biology, Eugene, OR 97403, USA |
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Abstract: | A study of the isotopic composition of organic matter was conducted in a freshwater marsh over seasonal and diel time scales to determine the sources of dissolved organic matter (DOM) and the processes leading to its formation. Bulk C and N isotopic compositions of the bacterial fraction (0.2–0.7 m) and particulate organic matter (POM; 0.7–10 m) were compared on a seasonal basis with the change in 13C of DOM. The bulk isotopic data support the idea that DOM was, in part, derived from the breakdown of larger organic matter fractions. The bacterial fraction and POM were compositionally similar throughout the year, based on a comparison of the 13C of individual amino acids in each fraction. Annual variation in the 13C of amino acids in DOM was greater relative to the variation in larger fractions indicating that microbial reworking was an important factor determining the proteinaceous component of DOM. The 13C enrichment of serine and leucine in each organic matter fraction suggested microbial reworking was an important factor determining organic matter composition during the most productive times of year. Changes in the bulk 13C of DOM were more significant over daily, relative to seasonal, time scales where values ranged by 6 and followed changes in chlorophyll a concentrations. Although bulk 13C values for POM ranged only from –29 to –28 during the same diel period, the 13C of alanine in POM ranged from –30 to –22. Alanine is directly synthesized from pyruvate and is therefore a good metabolic indicator. The 13C of individual amino acids in DOM revealed the diel change in the importance of autotrophic versus heterotrophic activity in influencing DOM composition. Diel changes in the 13C of phenylalanine, synthesized by common pathways in phytoplankton and bacteria, were similar in both DOM and POM. The diel change in 13C of isoleucine and valine, synthesized through different pathways in phytoplankton and bacteria, were distinctly different in DOM versus POM. This disparity indicated a decoupling of the POM and DOM pools, which suggests a greater source of bacterial-derived organic matter at night. The results of this study demonstrate the use of the isotopic composition of individual amino acids in determining the importance of microbial reworking and autotrophic versus heterotrophic contributions to DOM over both diel and seasonal time scales. |
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Keywords: | Amino acids Compound specific stable isotopes Dissolved organic matter Microbial degradation Organic carbon Stable isotopes Wetlands |
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