= ORCHIDEE-CN-P_grl_2018GL077736 = This version of ORCHIDEE has been used in publication "Low phosphorus availability decreases susceptibility of tropical primary productivity to droughts" by Daniel S. GOLL, Emilie JOETZJER, Mengtian HUANG, and Philippe CIAIS in Geophysical Research Letters as manuscript 2018GL077736 << Reference to be added as soon as the revised manuscript is accepted >>. == Abstract == In respect to Goll et al. 2017 the following major changes were introduced: We exchanged the original 2-layer hydrological bucket scheme in \citet{Goll2017b} with a 11-layer hydrological scheme which was shown to better reproduce evapotranspiration for sub-basins of the Amazon with marked dry season. We further account for increased soil resistance to evaporation when the top layers of the soil are dry. We exchanged the original formulation of phosphorus sorption which assumes a fixed fraction of labile phosphorus being dissolved in soil solution with a more realistic Freundlich Isotherm which is parameterized based on a compilation of isotopic dilution data (n=379). == Code Access == * See the version on the webinterface here : https://forge.ipsl.jussieu.fr/orchidee/browser/branches/publications/ORCHIDEE_grl_2018GL077736 * Extract it on a terminal as follow, type anonymous as password: {{{ svn co --username anonymous svn://forge.ipsl.jussieu.fr/orchidee/branches/publications/ORCHIDEE-CN-P_grl_2018GL077736 ORCHIDEE }}} == Metadata == || DOI || TBD || || Creator || Daniel S. GOLL || || Affiliation || LSCE, UVSQ || || Title || ORCHIDEE-CNP v1.1 || || Publisher || Institut Pierre Simon Laplace (IPSL) || || //PublicationYear// || 2018 || || //ResourceType// || Software || || //Rights// || This software is distributed under the CeCILL license || || //rightsURI // || http://www.cecill.info/ || || Subject || Land surface model, nutrient cycles || || //DataManager// || Karim Ramage (IPSL) || || //DataCurator// || Josefine Ghattas (IPSL) || || //ContactPerson// || Daniel S. Goll (LSCE,UVSQ) || || //FundingReference// || ``IMBALANCE-P'' project of the European Research Council (ERC-2013-SyG-610028)||