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      Hydrology controls dissolved organic matter export and composition in an Alpine stream and its hyporheic zone

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          Abstract

          Streams and rivers transport dissolved organic matter (DOM) from the terrestrial environment to downstream ecosystems. In light of climate and global change it is crucial to understand the temporal dynamics of DOM concentration and composition, and its export fluxes from headwaters to larger downstream ecosystems. We monitored DOM concentration and composition based on a diurnal sampling design for 3 years in an Alpine headwater stream. We found hydrologic variability to control DOM composition and the coupling of DOM dynamics in the streamwater and the hyporheic zone. High‐flow events increased DOM inputs from terrestrial sources (as indicated by the contributions of humic‐ and fulvic‐like fluorescence), while summer baseflow enhanced the autochthonous imprint of DOM. Diurnal and seasonal patterns of DOM composition were likely induced by biological processes linked to temperature and photosynthetic active radiation (PAR). Floods frequently interrupted diurnal and seasonal patterns of DOM, which led to a decoupling of streamwater and hyporheic water DOM composition and delivery of aromatic and humic‐like DOM to the streamwater. Accordingly, DOM export fluxes were largely of terrigenous origin as indicated by optical properties. Our study highlights the relevance of hydrologic and seasonal dynamics for the origin, composition and fluxes of DOM in an Alpine headwater stream.

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          Potential impacts of a warming climate on water availability in snow-dominated regions.

          T. P. Barnett, J. C. Adam, D. P. Lettenmaier (2005)
          All currently available climate models predict a near-surface warming trend under the influence of rising levels of greenhouse gases in the atmosphere. In addition to the direct effects on climate--for example, on the frequency of heatwaves--this increase in surface temperatures has important consequences for the hydrological cycle, particularly in regions where water supply is currently dominated by melting snow or ice. In a warmer world, less winter precipitation falls as snow and the melting of winter snow occurs earlier in spring. Even without any changes in precipitation intensity, both of these effects lead to a shift in peak river runoff to winter and early spring, away from summer and autumn when demand is highest. Where storage capacities are not sufficient, much of the winter runoff will immediately be lost to the oceans. With more than one-sixth of the Earth's population relying on glaciers and seasonal snow packs for their water supply, the consequences of these hydrological changes for future water availability--predicted with high confidence and already diagnosed in some regions--are likely to be severe.
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            Evaluation of specific ultraviolet absorbance as an indicator of the chemical composition and reactivity of dissolved organic carbon.

            James Weishaar, George R. Aiken, Brian A. Bergamaschi (2003)
            Specific UV absorbance (SUVA) is defined as the UV absorbance of a water sample at a given wavelength normalized for dissolved organic carbon (DOC) concentration. Our data indicate that SUVA, determined at 254 nm, is strongly correlated with percent aromaticity as determined by 13C NMR for 13 organic matter isolates obtained from a variety of aquatic environments. SUVA, therefore, is shown to be a useful parameter for estimating the dissolved aromatic carbon content in aquatic systems. Experiments involving the reactivity of DOC with chlorine and tetramethylammonium hydroxide (TMAH), however, show a wide range of reactivity for samples with similar SUVA values. These results indicate that, while SUVA measurements are good predictors of general chemical characteristics of DOC, they do not provide information about reactivity of DOC derived from different types of source materials. Sample pH, nitrate, and iron were found to influence SUVA measurements.
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              Fluorescence tracking of dissolved and particulate organic matter quality in a river-dominated estuary.

              Molly P Mikan, Matthew Montgomery, Lauren Handsel (2012)
              Excitation-emission matrix (EEM) fluorescence was combined with parallel factor analysis (PARAFAC) to model base-extracted particulate (POM) and dissolved (DOM) organic matter quality in the Neuse River Estuary (NRE), North Carolina, before and after passage of Hurricane Irene in August 2011. Principle components analysis was used to determine that four of the PARAFAC components (C1-C3 and C6) were terrestrial sources to the NRE. One component (C4), prevalent in DOM of nutrient-impacted streams and estuaries and produced in phytoplankton cultures, was enriched in the POM and in surface sediment pore water DOM. One component (C5) was related to recent autochthonous production. Photoexposure of unfiltered Neuse River water caused an increase in slope ratio values (S(R)) which corresponded to an increase in the ratio C2:C3 for DOM, and the production of C4 fluorescence in both POM and DOM. Changes to the relative abundance of C4 in POM and DOM indicated that advection of pore water DOM from surface sediments into overlying waters could increase the autochthonous quality of DOM in shallow microtidal estuaries. Modeling POM and DOM simultaneously with PARAFAC is an informative technique that is applicable to assessments of estuarine water quality.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Limnol Oceanogr
                Journal ID (iso-abbrev): Limnol. Oceanogr
                Journal ID (doi): 10.1002/(ISSN)1939-5590
                Journal ID (publisher-id): LNO
                Title: Limnology and Oceanography
                Publisher: John Wiley and Sons Inc. (Hoboken )
                ISSN (Print): 0024-3590
                ISSN (Electronic): 1939-5590
                Publication date (Electronic): 01 December 2015
                Publication date (Print): March 2016
                Volume: 61
                Issue: 2 ( doiID: 10.1002/lno.v61.2 )
                Pages: 558-571
                Affiliations
                [ 1 ] Department of Limnology and OceanographyUniversity of Vienna Althanstrasse 14 A‐1090 ViennaAustria
                [ 2 ] Stream Biofilm and Ecosystem Research Laboratory, School of Architecture, Civil and Environmental Engineering École Polytechnique Fédérale de Lausanne (EPFL) CH‐1015 LausanneSwitzerland
                [ 3 ]WasserCluster Lunz GmbH Dr. Carl Kupelwieser Promenade 5 3293 Lunz am SeeAustria
                Author notes
                [*] [* ] Correspondence: tom.battin@ 123456epfl.ch
                Article
                Publisher ID: LNO10232
                DOI: 10.1002/lno.10232
                PMC ID: 4950147
                PubMed ID: 27478248
                SO-VID: 5d7c8d88-5904-4e29-bc93-612106ace4a2
                Copyright © © 2015 The Authors Limnology and Oceanography published by Wiley Periodicals, Inc. on behalf of Association for the Sciences of Limnology and Oceanography
                License:

                This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                Date received : 08 May 2015
                Date revision received : 21 October 2015
                Date accepted : 29 October 2015
                Page count
                Pages: 14
                Funding
                Funded by: Austrian Science Fund
                Award ID: START Y420‐B17
                Categories
                Subject: Article
                Subject: Articles
                Custom metadata
                source-schema-version-number 2.0
                component-id lno10232
                cover-date March 2016
                details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:4.9.2 mode:remove_FC converted:19.07.2016

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