Long-term declines in stream and river inorganic nitrogen (N) export correspond to forest change

Human activities have exerted a powerful influence on the biogeochemical cycles of nitrogen (N) and carbon (C) and drive changes that can be a challenge to predict given the influence of multiple environmental stressors. This study focused on understanding how land management and climate change have...

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Veröffentlicht in:	Ecological applications 2016-03, Vol.26 (2), p.545-556
Hauptverfasser:	Lucas, Richard W., Sponseller, Ryan A., Gundale, Michael J., Stendahl, Johan, Fridman, Jonas, Högberg, Peter, Laudon, Hjalmar
Format:	Artikel
Sprache:	eng
Schlagworte:	boreal forest climate-mediated growth increases forest management Forest Science Forests Nitrogen - chemistry Rivers - chemistry rrestrial biogeochemistry Skogsvetenskap soil N storage Sweden terrestrial biogeochemistry terrestrial N retention Time Factors Water Movements Water Pollutants, Chemical - chemistry
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container_title	Ecological applications
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creator	Lucas, Richard W. Sponseller, Ryan A. Gundale, Michael J. Stendahl, Johan Fridman, Jonas Högberg, Peter Laudon, Hjalmar
description	Human activities have exerted a powerful influence on the biogeochemical cycles of nitrogen (N) and carbon (C) and drive changes that can be a challenge to predict given the influence of multiple environmental stressors. This study focused on understanding how land management and climate change have together influenced terrestrial N storage and watershed inorganic N export across boreal and sub-arctic landscapes in northern Sweden. Using long-term discharge and nutrient concentration data that have been collected continuously for over three decades, we calculated the hydrologic inorganic N export from nine watersheds in this region. We found a consistent decline in inorganic N export from 1985 to 2011 over the entire region from both small and large watersheds, despite the absence of any long-term trend in river discharge during this period. The steepest declines in inorganic N export were observed during the growing season, consistent with the hypothesis that observed changes are biologically mediated and are not the result of changes in long-term hydrology. Concurrent with the decrease in inorganic N export, we report sustained increases in terrestrial N accumulation in forest biomass and soils across northern Sweden. Given the close communication of nutrient and energy stores between plants, soils, and waters, our results indicate a regional tightening of the N cycle in an already N-limited environment as a result of changes in forest management and climate-mediated growth increases. Our results are consistent with declining inorganic N efflux previously reported from small headwater streams in other ecosystems and shed new light on the mechanisms controlling these patterns by identifying corresponding shifts in the terrestrial N balance, which have been altered by a combination of management activities and climate change.
doi_str_mv	10.1890/14-2413
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Concurrent with the decrease in inorganic N export, we report sustained increases in terrestrial N accumulation in forest biomass and soils across northern Sweden. Given the close communication of nutrient and energy stores between plants, soils, and waters, our results indicate a regional tightening of the N cycle in an already N-limited environment as a result of changes in forest management and climate-mediated growth increases. 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Concurrent with the decrease in inorganic N export, we report sustained increases in terrestrial N accumulation in forest biomass and soils across northern Sweden. Given the close communication of nutrient and energy stores between plants, soils, and waters, our results indicate a regional tightening of the N cycle in an already N-limited environment as a result of changes in forest management and climate-mediated growth increases. Our results are consistent with declining inorganic N efflux previously reported from small headwater streams in other ecosystems and shed new light on the mechanisms controlling these patterns by identifying corresponding shifts in the terrestrial N balance, which have been altered by a combination of management activities and climate change.</description><subject>boreal forest</subject><subject>climate-mediated growth increases</subject><subject>forest management</subject><subject>Forest Science</subject><subject>Forests</subject><subject>Nitrogen - chemistry</subject><subject>Rivers - chemistry</subject><subject>rrestrial biogeochemistry</subject><subject>Skogsvetenskap</subject><subject>soil N storage</subject><subject>Sweden</subject><subject>terrestrial biogeochemistry</subject><subject>terrestrial N retention</subject><subject>Time Factors</subject><subject>Water Movements</subject><subject>Water Pollutants, Chemical - chemistry</subject><issn>1051-0761</issn><issn>1939-5582</issn><issn>1939-5582</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><sourceid>WIN</sourceid><sourceid>EIF</sourceid><recordid>eNp9kUtv1TAQRiNERR8gfgHIO4pEwGM7drK8agtUugIWwNY4zvjiKomDnfTx7_FVSlmBN2OPjo488xXFc6BvoW7oOxAlE8AfFUfQ8Kasqpo9zndaQUmVhMPiOKUrmg9j7ElxyBSjjWrEUfFjG8ZdOWMcSIe29yMm4keS5ohmIGbsSPTXGHMvxJ0ZvSWjn2PY4UhOP70meDuFOBMbYsQ0hYzPgbiQH7n504w7fFocONMnfHZfT4pv7y--nn0st58_XJ5ttqUVomEld23FOqyccPmL6LitAFA6pbhxAIqi4FAz1lEnQdZopWNC2bZCIaWgFT8pytWbbnBaWj1FP5h4p4PxOvVLa-K-6IQ676OW_-XP_feNzvPqZVg0MMrlnj9d-SmGX0ueTw8-Wex7M2JYkgbV0IZJIVRGX62ojSGliO5BDlTv49Ig9D6uTL68ly7tgN0D9yefDLxZgRvf492_PPpi8wUYZxl_seJXaQ7xr04ompcG_DcX8aZL</recordid><startdate>201603</startdate><enddate>201603</enddate><creator>Lucas, Richard W.</creator><creator>Sponseller, Ryan A.</creator><creator>Gundale, Michael J.</creator><creator>Stendahl, Johan</creator><creator>Fridman, Jonas</creator><creator>Högberg, Peter</creator><creator>Laudon, Hjalmar</creator><general>ECOLOGICAL SOCIETY OF AMERICA</general><scope>24P</scope><scope>WIN</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>ADTPV</scope><scope>AOWAS</scope><scope>D93</scope></search><sort><creationdate>201603</creationdate><title>Long-term declines in stream and river inorganic nitrogen (N) export correspond to forest change</title><author>Lucas, Richard W. ; 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subjects	boreal forest climate-mediated growth increases forest management Forest Science Forests Nitrogen - chemistry Rivers - chemistry rrestrial biogeochemistry Skogsvetenskap soil N storage Sweden terrestrial biogeochemistry terrestrial N retention Time Factors Water Movements Water Pollutants, Chemical - chemistry
title	Long-term declines in stream and river inorganic nitrogen (N) export correspond to forest change
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