%# %# fields is a package for analysis of spatial data written for %# the R software environment. %# Copyright (C) 2021 Colorado School of Mines %# 1500 Illinois St., Golden, CO 80401 %# Contact: Douglas Nychka, douglasnychka@gmail.edu, %# %# This program is free software; you can redistribute it and/or modify %# it under the terms of the GNU General Public License as published by %# the Free Software Foundation; either version 2 of the License, or %# (at your option) any later version. %# This program is distributed in the hope that it will be useful, %# but WITHOUT ANY WARRANTY; without even the implied warranty of %# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the %# GNU General Public License for more details. %# %# You should have received a copy of the GNU General Public License %# along with the R software environment if not, write to the Free Software %# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA %# or see http://www.r-project.org/Licenses/GPL-2 %##END HEADER \name{RMprecip} \alias{RMprecip} \alias{RMelevation} \alias{PRISMelevation} \title{ Monthly total precipitation (mm) for August 1997 in the Rocky Mountain Region and some gridded 4km elevation data sets (m). } \description{ \code{RMprecip} is a useful spatial data set of moderate size consisting of 806 locations. \code{PRISMelevation} and \code{RMelevation} are gridded elevations for the continental US and Rocky Mountain region at 4km resolution. Note that the gridded elevations from the PRISM data product are different than the exact station elevations. (See example below.) } \format{ The data set \code{RMprecip} is a list containing the following components: \describe{ \item{x}{ Longitude-latitude position of monitoring stations. Rows names are station id codes consistent with the US Cooperative observer network. The ranges for these coordinates are [-111, -99] for longitude and [35,45] for latitude. } \item{elev}{ Station elevation in meters. } \item{y}{ Monthly total precipitation in millimeters. for August, 1997 } } The data sets \code{PRISMelevation} and \code{RMelevation} are lists in the usual R grid format for images and contouring They have the following components: \describe{ \item{x}{ Longitude grid at approximately 4km resolution} \item{y}{ Latitude grid at approximately 4km resolution} \item{z}{ Average elevation for grid cell in meters } } These elevations and the companion grid formed the basis for the 103-Year High-Resolution Precipitation Climate Data Set for the Conterminous United States ( see \url{https://prism.oregonstate.edu/documents/PRISM_downloads_FTP.pdf} and also archived at the National Climate Data Center. This work is authored by Chris Daly \url{https://prism.oregonstate.edu} and his PRISM group but had some contribution from the Geophysical Statistics Project at NCAR and is an interpolation of the observational data to a 4km grid that takes into account topography such as elevation and aspect. } \details{ Contact Doug Nychka for the binary file \code{RData.USmonthlyMet.bin} and information on its source. \preformatted{ # explicit source code to create the RMprecip data dir <- "" # include path to data file load(paste(dir, "RData.USmonthlyMet.bin", sep="/") #year.id<- 1963- 1895 year.id<- 103 #pptAUG63<- USppt[ year.id,8,] loc<- cbind(USpinfo$lon, USpinfo$lat) xr<- c(-111, -99) yr<- c( 35, 45) station.subset<- (loc[,1]>= xr[1]) & (loc[,1] <= xr[2]) & (loc[,2]>= yr[1]) & (loc[,2]<= yr[2]) ydata<- USppt[ year.id,8,station.subset] ydata <- ydata*10 # cm -> mm conversion xdata<- loc[station.subset,] dimnames(xdata)<- list( USpinfo$station.id[station.subset], c( "lon", "lat")) xdata<- data.frame( xdata) good<- !is.na(ydata) ydata<- ydata[good] xdata<- xdata[good,] test.for.zero.flag<- 1 test.for.zero( unlist(RMprecip$x), unlist(xdata), tag="locations") test.for.zero( ydata, RMprecip$y, "values") } } \examples{ # this data set was created the # historical data taken from # Observed monthly precipitation, min and max temperatures for the coterminous US # 1895-1997 # NCAR_pinfill # see the Geophysical Statistics Project datasets page for the supporting functions # and details. # plot quilt.plot(RMprecip$x, RMprecip$y) US( add=TRUE, col=2, lty=2) # comparison of station elevations with PRISM gridded values data(RMelevation) interp.surface( RMelevation, RMprecip$x)-> test.elev plot( RMprecip$elev, test.elev, xlab="Station elevation", ylab="Interpolation from PRISM grid") abline( 0,1,col="blue") # some differences with high elevations probably due to complex # topography! # # view of Rockies looking from theSoutheast save.par<- par(no.readonly=TRUE) par( mar=c(0,0,0,0)) # fancy use of persp with shading and lighting. persp( RMelevation, theta=75, phi= 15, box=FALSE, axes=FALSE, xlab="", ylab="", border=NA, shade=.95, lphi= 10, ltheta=80, col= "wheat4", scale=FALSE, expand=.00025) # reset graphics parameters and a more conventional image plot. par( save.par) image.plot(RMelevation, col=topo.colors(256)) US( add=TRUE, col="grey", lwd=2) title("PRISM elevations (m)") } \keyword{datasets} % docclass is data % Converted by Sd2Rd version 1.21.