Field
Value
Language
dc.contributor.author
Markelov, Igor
datacite.creator.affiliationIdentifier
-;https://ror.org/01aff2v68;-
en_US
datacite.creator.affiliation
Water Institute; University of Waterloo; Ecohydrology Research Group
en_US
datacite.creator.nameIdentifier
https://orcid.org/0000-0002-7708-4949
en_US
dc.contributor.author
Van Cappellen, Philippe
datacite.creator.affiliationIdentifier
-;https://ror.org/01aff2v68;-
en_US
datacite.creator.affiliation
Water Institute; University of Waterloo; Ecohydrology Research Group
en_US
datacite.creator.nameIdentifier
https://orcid.org/0000-0001-5476-0820
en_US
dc.contributor.author
Couture, Raoul-Marie
datacite.creator.affiliationIdentifier
-;https://ror.org/04sjchr03
en_US
datacite.creator.affiliation
Department of Chemistry, Takuvik Joint International Laboratory; Université Laval
en_US
datacite.creator.nameIdentifier
https://orcid.org/0000-0003-4940-3372
en_US
dc.date.accessioned
2019-04-16T12:38:09Z
dc.date.available
2019-04-16T12:38:09Z
dc.date.issued
2019-04-16
dc.identifier.uri
https://www.frdr-dfdr.ca/repo/dataset/5a403632-c01a-658d-9205-00e52713dca9
dc.identifier.uri
https://doi.org/10.20383/101.0149
dc.description
The main goal of this work is to quantify seasonal effluxes of soluble phosphorus from sediments in lakes and reservoirs by means of mechanistic biogeochemical modelling. The MyLake-Sediment model, available freely on GitHub (https://github.com/biogeochemistry/MyLake_v2_Vansjo), was used to reproduce daily water quality variables and predict sediment-water column exchange fluxes over the boreal Lake Vansjø, Norway. MyLake-Sediment was first used to simulate the impacts of increasing air temperature on algal growth. In another scenario, phosphorus loading from the watershed to the lake was halted in order to quantify the response to internal P loading. Finally, we simulated the decreasing dissolved phosphate efflux from the sediment when reactive iron was added to the water column. The data provided here contains the input variables used in the modelling study as well as the model output variables.
Funding is acknowledged from: i) Lakes in Transition (Research Council of Norway project no. 244558/E50) held at the Norwegian Institute for Water Research-NIVA, ii) the Canada Excellence Research Chair in Ecohydrology, iii) Lake Futures - Work Package 2 (Global Water Futures, a Canada First Research Excellence Fund Program) and iv) Sentinel North Research Chair in Aquatic Geochemistry (Sentinel North, a Canada First Research Excellence Fund Program).
en_US
dc.publisher
Federated Research Data Repository / dépôt fédéré de données de recherche
dc.rights
Creative Commons Public Domain Dedication (CC0 1.0)
en_US
dc.rights.uri
https://creativecommons.org/publicdomain/zero/1.0/
en_US
dc.subject
Phosphorus
en_US
dc.subject
Lakes
en_US
dc.subject
Modeling
en_US
dc.subject
Lake Sediments
en_US
dc.subject
Sediment fluxes
en_US
dc.subject
Climate Change
en_US
dc.title
Input and Output Variables for the biogeochemical modeling study of the Lakes Response to Climate Change, Internal Loads and Restoration Measures
en_US
globus.shared_endpoint.name
f163c1b3-9c88-42f6-a7bb-5839ed6c4063
globus.shared_endpoint.path
/2/published/publication_149/
frdr.preservation.status
AIP generation and transfer successful
frdr.preservation.datetime
2019-04-16 07:53:56
datacite.publicationyear
2019
datacite.date.Collected
1985-01-01/2200-12-31
datacite.resourcetype
Dataset
en_US
datacite.relatedidentifier.IsCitedBy
https://doi.org/10.1029/2019JG005254
datacite.relatedidentifier.Cites
https://doi.org/10.1016/j.scitotenv.2017.11.303
datacite.relatedidentifier.Cites
https://doi.org/10.1016/j.ecolmodel.2007.03.018
datacite.relatedidentifier.Cites
https://doi.org/10.1016/j.gca.2016.08.029
datacite.relatedidentifier.Cites
https://doi.org/10.2475/ajs.296.3.197
datacite.relatedidentifier.Cites
https://doi.org/10.1039/c3em00630a
datacite.relatedidentifier.Cites
https://doi.org/10.1007/s00382-012-1636-1
datacite.relatedidentifier.Cites
https://doi.org/10.1175/JCLI-D-11-00316.1
datacite.relatedidentifier.Cites
https://doi.org/10.5194/gmd-6-687-2013
datacite.relatedidentifier.Cites
https://doi.org/10.1016/j.jhydrol.2010.05.032
datacite.relatedidentifier.IsSupplementedBy
https://github.com/biogeochemistry/MyLake_v2_Vansjo
datacite.geolocation.geolocationPoint
59.4527 10.9071
datacite.geolocation.geolocationPlace
Lake Vansjø;-;-;Norway
datacite.fundingReference.funderName
Canada Excellence Research Chairs (CERC)
en_US
datacite.fundingReference.awardNumber
en_US
datacite.fundingReference.awardTitle
Canada Excellence Research Chair in Ecohydrology
en_US
datacite.fundingReference.funderName
Canada First Research Excellence Fund (CFREF)
en_US
datacite.fundingReference.awardNumber
en_US
datacite.fundingReference.awardTitle
Global Water Futures Program (GWF)
en_US
datacite.fundingReference.funderName
Research Council of Norway
en_US
datacite.fundingReference.awardNumber
244558/E50
en_US
datacite.fundingReference.awardTitle
Lakes in Transition, Norwegian Institute for Water Research-NIVA
en_US
datacite.fundingReference.funderName
Canada First Research Excellence Fund (CFREF)
en_US
datacite.fundingReference.awardNumber
en_US
datacite.fundingReference.awardTitle
Sentinel North Research Chair in Aquatic Geochemistry
en_US
datacite.fundingReference.funderName
Global Water Futures (GWF)
en_US
datacite.fundingReference.awardNumber
en_US
datacite.fundingReference.awardTitle
en_US
frdr.crdc.code
RDF1050207
frdr.crdc.group_en
Earth and related environmental sciences
en_US
frdr.crdc.class_en
Geochemistry
en_US
frdr.crdc.field_en
Biogeochemistry
en_US
frdr.crdc.group_fr
Sciences de la Terre et sciences de l'environnement connexes
fr_CA
frdr.crdc.class_fr
Géochimie
fr_CA
frdr.crdc.field_fr
Biogéochimie
fr_CA
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