{"dcterms:modified":"2023-12-08","dcterms:creator":"DaRUS","@type":"ore:ResourceMap","@id":"https://nfldevdataverse2.rus.uni-stuttgart.de/api/datasets/export?exporter=OAI_ORE&persistentId=https://doi.org/10.18419/darus-2034","ore:describes":{"citation:datasetContact":[{"citation:datasetContactName":"Gonzalez-Nicolas Alvarez, Ana","citation:datasetContactAffiliation":"Universität Stuttgart"},{"citation:datasetContactName":"Nowak, Wolfgang","citation:datasetContactAffiliation":"Universität Stuttgart"}],"author":{"citation:authorName":"Gonzalez-Nicolas Alvarez, Ana","citation:authorAffiliation":"Universität Stuttgart","authorIdentifierScheme":"ORCID","authorIdentifier":"0000-0003-2869-8255"},"citation:dsDescription":{"citation:dsDescriptionValue":"
We introduce a simple stochastic time-series model (regime-and-memory model, RMM) for concentrations in the river that accounts for fluctuating release and transport with memory, using an autocorrelation over time.One explicit parameter of our model represents the export regime. This parameter can morph the model among chemostatic-type and chemodynamic-type catchment behaviors, and it resembles the regression slope in plots of log(C)-log(Q).
\r\n\r\nMore information about the code can be found in the related publication Gonzalez-Nicolas et al. (2021) https://doi.org/10.3390/w13131723\r\n\r\nThis dataset includes Matlab codes and data used for the sampling strategies.
\r\nMain file is \"Main_MCMC_designs.m\".
\r\n\r\nSampling strategies used within this manuscript are already designed. These are the files with extension \"*.mat\".
File \"data_Schwientek_et_al_2013.xls\" includes all data between 7/01/2011 and 4/01/2012 (6604 observations).
\r\n\r\nThe following needs to be changed in the main file and adapted to each individual scenario:
\r\n%% READ OBSERVATIONS