# This software is open source software available under the BSD-3 license.
#
# Copyright (c) 2022 Triad National Security, LLC. All rights reserved.
# Copyright (c) 2022 Lawrence Livermore National Security, LLC. All rights
# reserved.
# Copyright (c) 2022 UT-Battelle, LLC. All rights reserved.
#
# Additional copyright and license information can be found in the LICENSE file
# distributed with this code, or at
# https://raw.githubusercontent.com/MPAS-Dev/MPAS-Analysis/master/LICENSE
"""
Analysis tasks for comparing Global climatology maps against Argo data.
"""
# Authors
# -------
# Luke Van Roekel
import xarray as xr
import numpy as np
from pyremap import LatLonGridDescriptor
from mpas_analysis.shared import AnalysisTask
from mpas_analysis.ocean.remap_depth_slices_subtask import \
RemapDepthSlicesSubtask
from mpas_analysis.ocean.plot_climatology_map_subtask import \
PlotClimatologyMapSubtask
from mpas_analysis.shared.io.utility import build_obs_path
from mpas_analysis.shared.climatology import RemapObservedClimatologySubtask
[docs]class ClimatologyMapArgoTemperature(AnalysisTask):
"""
An analysis task for comparison of potential temperature against Argo
observations
"""
# Authors
# -------
# Luke Van Roekel, Xylar Asay-Davis
[docs] def __init__(self, config, mpasClimatologyTask,
controlConfig=None):
"""
Construct the analysis task.
Parameters
----------
config : mpas_tools.config.MpasConfigParser
Configuration options
mpasClimatologyTask : ``MpasClimatologyTask``
The task that produced the climatology to be remapped and plotted
controlconfig : mpas_tools.config.MpasConfigParser, optional
Configuration options for a control run (if any)
"""
# Authors
# -------
# Luke Van Roekel, Xylar Asay-Davis
fieldName = 'temperatureArgo'
# call the constructor from the base class (AnalysisTask)
super(ClimatologyMapArgoTemperature, self).__init__(
config=config, taskName='climatologyMapArgoTemperature',
componentName='ocean',
tags=['climatology', 'horizontalMap', 'argo', 'temperature',
'publicObs'])
sectionName = self.taskName
mpasFieldName = 'timeMonthly_avg_activeTracers_temperature'
iselValues = None
# read in what seasons we want to plot
seasons = config.getexpression(sectionName, 'seasons')
if len(seasons) == 0:
raise ValueError('config section {} does not contain valid list '
'of seasons'.format(sectionName))
comparisonGridNames = config.getexpression(sectionName,
'comparisonGrids')
if len(comparisonGridNames) == 0:
raise ValueError('config section {} does not contain valid list '
'of comparison grids'.format(sectionName))
depths = config.getexpression(sectionName, 'depths')
if len(depths) == 0:
raise ValueError('config section {} does not contain valid '
'list of depths'.format(sectionName))
# the variable 'timeMonthly_avg_landIceFreshwaterFlux' will be added to
# mpasClimatologyTask along with the seasons.
remapClimatologySubtask = RemapDepthSlicesSubtask(
mpasClimatologyTask=mpasClimatologyTask,
parentTask=self,
climatologyName=fieldName,
variableList=[mpasFieldName],
seasons=seasons,
depths=depths,
comparisonGridNames=comparisonGridNames,
iselValues=iselValues)
if controlConfig is None:
refTitleLabel = 'Roemmich-Gilson Argo Climatology: Potential ' \
'Temperature'
observationsDirectory = build_obs_path(
config, 'ocean', 'argoSubdirectory')
obsFileName = \
'{}/ArgoClimatology_TS_20180710.nc'.format(
observationsDirectory)
refFieldName = 'theta'
outFileLabel = 'tempArgo'
galleryName = 'Roemmich-Gilson Climatology: Argo'
diffTitleLabel = 'Model - Argo'
remapObservationsSubtask = RemapArgoClimatology(
parentTask=self, seasons=seasons, fileName=obsFileName,
outFilePrefix='{}Argo'.format(refFieldName),
fieldName=refFieldName,
depths=depths,
comparisonGridNames=comparisonGridNames)
self.add_subtask(remapObservationsSubtask)
else:
remapObservationsSubtask = None
controlRunName = controlConfig.get('runs', 'mainRunName')
galleryName = 'Control: {}'.format(controlRunName)
refTitleLabel = galleryName
refFieldName = mpasFieldName
outFileLabel = 'temp'
diffTitleLabel = 'Main - Control'
for comparisonGridName in comparisonGridNames:
for season in seasons:
for depth in depths:
subtask = PlotClimatologyMapSubtask(
parentTask=self,
season=season,
comparisonGridName=comparisonGridName,
remapMpasClimatologySubtask=remapClimatologySubtask,
remapObsClimatologySubtask=remapObservationsSubtask,
controlConfig=controlConfig,
depth=depth)
subtask.set_plot_info(
outFileLabel=outFileLabel,
fieldNameInTitle='Potential Temperature',
mpasFieldName=mpasFieldName,
refFieldName=refFieldName,
refTitleLabel=refTitleLabel,
diffTitleLabel=diffTitleLabel,
unitsLabel=r'$\degree$C',
imageCaption='Model potential temperature compared '
'with Argo observations',
galleryGroup='Argo Potential Temperature',
groupSubtitle=None,
groupLink='tempArgo',
galleryName=galleryName)
self.add_subtask(subtask)
[docs]class ClimatologyMapArgoSalinity(AnalysisTask):
"""
An analysis task for comparison of global salinity against Argo
observations
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
[docs] def __init__(self, config, mpasClimatologyTask,
controlConfig=None):
"""
Construct the analysis task.
Parameters
----------
config : mpas_tools.config.MpasConfigParser
Configuration options
mpasClimatologyTask : ``MpasClimatologyTask``
The task that produced the climatology to be remapped and plotted
controlconfig : mpas_tools.config.MpasConfigParser, optional
Configuration options for a control run (if any)
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
fieldName = 'salinityArgo'
# call the constructor from the base class (AnalysisTask)
super(ClimatologyMapArgoSalinity, self).__init__(
config=config, taskName='climatologyMapArgoSalinity',
componentName='ocean',
tags=['climatology', 'horizontalMap', 'argo', 'salinity'])
sectionName = self.taskName
mpasFieldName = 'timeMonthly_avg_activeTracers_salinity'
iselValues = None
# read in what seasons we want to plot
seasons = config.getexpression(sectionName, 'seasons')
if len(seasons) == 0:
raise ValueError('config section {} does not contain valid list '
'of seasons'.format(sectionName))
comparisonGridNames = config.getexpression(sectionName,
'comparisonGrids')
if len(comparisonGridNames) == 0:
raise ValueError('config section {} does not contain valid list '
'of comparison grids'.format(sectionName))
depths = config.getexpression(sectionName, 'depths')
if len(depths) == 0:
raise ValueError('config section {} does not contain valid '
'list of depths'.format(sectionName))
# the variable 'timeMonthly_avg_landIceFreshwaterFlux' will be added to
# mpasClimatologyTask along with the seasons.
remapClimatologySubtask = RemapDepthSlicesSubtask(
mpasClimatologyTask=mpasClimatologyTask,
parentTask=self,
climatologyName=fieldName,
variableList=[mpasFieldName],
seasons=seasons,
depths=depths,
comparisonGridNames=comparisonGridNames,
iselValues=iselValues)
if controlConfig is None:
refTitleLabel = 'Roemmich-Gilson Argo Climatology: Salinity'
observationsDirectory = build_obs_path(
config, 'ocean', 'argoSubdirectory')
obsFileName = \
'{}/ArgoClimatology_TS_20180710.nc'.format(
observationsDirectory)
refFieldName = 'salinity'
outFileLabel = 'salinArgo'
galleryName = 'Roemmich-Gilson Climatology: Argo'
diffTitleLabel = 'Model - Argo'
remapObservationsSubtask = RemapArgoClimatology(
parentTask=self, seasons=seasons, fileName=obsFileName,
outFilePrefix='{}Argo'.format(refFieldName),
fieldName=refFieldName,
depths=depths,
comparisonGridNames=comparisonGridNames)
self.add_subtask(remapObservationsSubtask)
else:
remapObservationsSubtask = None
controlRunName = controlConfig.get('runs', 'mainRunName')
galleryName = None
refTitleLabel = 'Control: {}'.format(controlRunName)
refFieldName = mpasFieldName
outFileLabel = 'salin'
diffTitleLabel = 'Main - Control'
for comparisonGridName in comparisonGridNames:
for season in seasons:
for depth in depths:
subtask = PlotClimatologyMapSubtask(
parentTask=self,
season=season,
comparisonGridName=comparisonGridName,
remapMpasClimatologySubtask=remapClimatologySubtask,
remapObsClimatologySubtask=remapObservationsSubtask,
controlConfig=controlConfig,
depth=depth)
subtask.set_plot_info(
outFileLabel=outFileLabel,
fieldNameInTitle='Salinity',
mpasFieldName=mpasFieldName,
refFieldName=refFieldName,
refTitleLabel=refTitleLabel,
diffTitleLabel=diffTitleLabel,
unitsLabel=r'PSU',
imageCaption='Model Salinity compared with Argo '
'observations',
galleryGroup='Argo Salinity',
groupSubtitle=None,
groupLink='salinArgo',
galleryName=galleryName)
self.add_subtask(subtask)
class RemapArgoClimatology(RemapObservedClimatologySubtask):
"""
A subtask for reading and remapping SOSE fields to the comparison grid
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
def __init__(self, parentTask, seasons, fileName, outFilePrefix,
fieldName, depths,
comparisonGridNames=['latlon'],
subtaskName='remapObservations'):
"""
Construct one analysis subtask for each plot (i.e. each season and
comparison grid) and a subtask for computing climatologies.
Parameters
----------
parentTask : ``AnalysisTask``
The parent (master) task for this subtask
seasons : list of str
A list of seasons (keys in ``constants.monthDictionary``) over
which the climatology should be computed.
fileName : str
The name of the observation file
outFilePrefix : str
The prefix in front of output files and mapping files, typically
the name of the field being remapped
fieldName : str
The name of the 3D field to remap
depths : list of {None, float, 'top'}
A list of depths at which the climatology will be sliced in the
vertical.
comparisonGridNames : list of {'latlon', 'antarctic'}, optional
The name(s) of the comparison grid to use for remapping.
subtaskName : str, optional
The name of the subtask
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
self.fieldName = fieldName
self.depths = depths
# call the constructor from the base class
# (RemapObservedClimatologySubtask)
super(RemapArgoClimatology, self).__init__(
parentTask, seasons, fileName, outFilePrefix,
comparisonGridNames, subtaskName)
def get_observation_descriptor(self, fileName):
"""
get a MeshDescriptor for the observation grid
Parameters
----------
fileName : str
observation file name describing the source grid
Returns
-------
obsDescriptor : ``MeshDescriptor``
The descriptor for the observation grid
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
# Load Argo observational Data
dsObs = self.build_observational_dataset(fileName)
# create a descriptor of the observation grid using Lat/Lon
# coordinates
obsDescriptor = LatLonGridDescriptor.read(ds=dsObs,
latVarName='latCoord',
lonVarName='lonCoord')
dsObs.close()
return obsDescriptor
def build_observational_dataset(self, fileName):
"""
read in the data sets for observations, and possibly rename some
variables and dimensions
Parameters
----------
fileName : str
observation file name
Returns
-------
dsObs : ``xarray.Dataset``
The observational dataset
"""
# Authors
# -------
# Xylar Asay-Davis, Luke Van Roekel
# Load Argo observational data
dsObs = xr.open_dataset(fileName)
# Rename coordinates to be consistent with other datasets
dsObs = dsObs.rename({'month': 'calmonth', 'LATITUDE': 'latCoord',
'LONGITUDE': 'lonCoord', 'DEPTH': 'depth'})
dsObs.coords['LATITUDE'] = dsObs['latCoord']
dsObs.coords['LONGITUDE'] = dsObs['lonCoord']
dsObs.coords['DEPTH'] = dsObs['depth']
dsObs.coords['month'] = ('Time', np.array(dsObs['calmonth'], int))
# no meaningful year since this is already a climatology
dsObs.coords['year'] = ('Time', np.ones(dsObs.dims['Time'], int))
dsObs = dsObs[[self.fieldName, 'month']]
slices = []
field = dsObs[self.fieldName]
for depth in self.depths:
if depth == 'top':
slices.append(field.sel(method='nearest', depth=0.).drop_vars(
'depth'))
else:
slices.append(
field.sel(method='nearest', depth=depth).drop_vars('depth'))
depthNames = [str(depth) for depth in self.depths]
field = xr.concat(slices, dim='depthSlice')
dsObs = xr.Dataset(data_vars={self.fieldName: field},
coords={'depthSlice': depthNames})
return dsObs