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HYCAR-Hydro
airGR
Commits
ca783ed1
Commit
ca783ed1
authored
Jan 20, 2017
by
unknown
Browse files
test problem pdf documentation (unexpected newpages)
parent
ac25044a
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man/DataAltiExtrapolation_Valery.Rd
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ca783ed1
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@@ -4,8 +4,8 @@
\title{Altitudinal extrapolation of precipitation and temperature series described by A. Valery}
\usage{
DataAltiExtrapolation_Valery(DatesR, Precip, PrecipScale = TRUE,
TempMean, TempMin = NULL, TempMax = NULL,
ZInputs, HypsoData, NLayers, verbose = TRUE)
TempMean, TempMin = NULL, TempMax = NULL,
ZInputs, HypsoData, NLayers, verbose = TRUE)
}
\arguments{
\item{DatesR}{[POSIXt] vector of dates}
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@@ -54,11 +54,11 @@ Laurent Coron, Audrey Valéry, Pierre Brigode, Olivier Delaigue, Guillaume Thire
}
\references{
Turcotte, R., L.-G. Fortin, V. Fortin, J.-P. Fortin and J.-P. Villeneuve (2007),
Operational analysis of the spatial distribution and the temporal evolution of the snowpack water equivalent
in southern Quebec, Canada, Nordic Hydrology, 38(3), 211, doi:10.2166/nh.2007.009. \cr
Valéry, A. (2010), Modélisation précipitations-débit sous influence nivale ? : Elaboration d'un module neige
et évaluation sur 380 bassins versants, PhD thesis (in french), AgroParisTech, Paris, France. \cr
USACE (1956), Snow Hydrology, pp. 437, U.S. Army Coprs of Engineers (USACE) North Pacific Division, Portland, Oregon, USA.
Operational analysis of the spatial distribution and the temporal evolution of the snowpack water equivalent
in southern Quebec, Canada, Nordic Hydrology, 38(3), 211, doi:10.2166/nh.2007.009. \cr
Valéry, A. (2010), Modélisation précipitations-débit sous influence nivale ? : Elaboration d'un module neige
et évaluation sur 380 bassins versants, PhD thesis (in french), AgroParisTech, Paris, France. \cr
USACE (1956), Snow Hydrology, pp. 437, U.S. Army Coprs of Engineers (USACE) North Pacific Division, Portland, Oregon, USA.
}
\seealso{
\code{\link{CreateInputsModel}}, \code{\link{RunModel_CemaNeigeGR4J}}
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man/RunModel_CemaNeige.Rd
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ca783ed1
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@@ -29,7 +29,7 @@ CemaNeige X2 \tab degree-day melt coefficient [mm/°C/d] \
\emph{$CemaNeigeLayers[[iLayer]]$PotMelt } \tab [numeric] series of potential snow melt [mm] \cr
\emph{$CemaNeigeLayers[[iLayer]]$Melt } \tab [numeric] series of actual snow melt [mm] \cr
\emph{$CemaNeigeLayers[[iLayer]]$PliqAndMelt } \tab [numeric] series of liquid precip. + actual snow melt [mm] \cr
\emph{$CemaNeigeLayers[[iLayer]]$Temp } \tab [numeric] series of air temperature [°C] \cr
\emph{$CemaNeigeLayers[[iLayer]]$Temp } \tab [numeric] series of air temperature [°C] \cr
\emph{$StateEnd} \tab [numeric] states at the end of the run: CemaNeige states [mm & °C] \cr
}
(refer to the provided references or to the package source code for further details on these model outputs)
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