diff --git a/act/discovery/__init__.py b/act/discovery/__init__.py index 2201e1d841..8159f8f4d3 100644 --- a/act/discovery/__init__.py +++ b/act/discovery/__init__.py @@ -8,12 +8,13 @@ __getattr__, __dir__, __all__ = lazy.attach( __name__, - submodules=['arm', 'cropscape', 'airnow', 'noaapsl', 'neon', 'surfrad'], + submodules=['arm', 'asos', 'airnow', 'cropscape', 'improve', 'noaapsl', 'neon', 'surfrad'], submod_attrs={ 'arm': ['download_arm_data', 'get_arm_doi'], 'asos': ['get_asos_data'], 'airnow': ['get_airnow_bounded_obs', 'get_airnow_obs', 'get_airnow_forecast'], 'cropscape': ['get_crop_type'], + 'improve': ['get_improve_data'], 'noaapsl': ['download_noaa_psl_data'], 'neon': ['get_neon_site_products', 'get_neon_product_avail', 'download_neon_data'], 'surfrad': ['download_surfrad_data'], diff --git a/act/discovery/airnow.py b/act/discovery/airnow.py index 25ec5d245c..97ec5f1cca 100644 --- a/act/discovery/airnow.py +++ b/act/discovery/airnow.py @@ -75,7 +75,6 @@ def get_airnow_forecast(token, date, zipcode=None, latlon=None, distance=25): + str(token) ) - print(url) df = pd.read_csv(url) # converting to xarray dataset object diff --git a/act/discovery/improve.py b/act/discovery/improve.py new file mode 100644 index 0000000000..677f51df38 --- /dev/null +++ b/act/discovery/improve.py @@ -0,0 +1,404 @@ +""" +Script for downloading data from the IMPROVE network + +""" + +import pandas as pd +import numpy as np +import xarray as xr + + +def get_improve_data(site_id=None, parameter_id=None, start_date=None, end_date=None): + """ + Retrieve IMPROVE data for the given site and variable ids and store it in an + xarray dataset. Documentation on the IMPROVE data can be found at + https://vista.cira.colostate.edu/Improve/data-user-guide/ + + Also adds in metadata from the site summary page to the global attributes + https://views.cira.colostate.edu/adms/Pub/SiteSummary.aspx?dsidse=10001&siidse=244 + + Parameters + ---------- + site_id : str + Site id number which can be retrieved from the IMPROVE page for each site such as + https://views.cira.colostate.edu/adms/Pub/SiteSummary.aspx?dsidse=10001&siidse=244 + parameter_id : list + List of parameter id values to retrieve from the API. + start_date : str + Start date formatted as M/D/YEAR such as 1/31/2022 + end_date : str + End date formatted as M/D/YEAR such as 1/31/2022 + + Returns + ------- + ds : xarray.Dataset + Returns an Xarray dataset object + + Example + ------- + act.discovery.get_improve_data(site_id='244') + + """ + + # Build URL + base_url = 'https://views.cira.colostate.edu/fed/svc/DataSvc.aspx?action=getqueryresults&cmdfileid=ServiceSqlCommandFile&cmdid=BasicDataQuery1_Codes' + + if site_id is None: + raise ValueError('Please provide a site_id') + else: + base_url += '&dsidse=10001&siidse=' + str(site_id) + + if parameter_id is None: + base_url += '&paidse=101,136,907,900,102,104,105,115,116,117,114,3778,142,143,144,145,3016,146,3699,141,3779,3217,108,109,112,113,301,304,303,3716,3717,3718,3719,3720,3721,3722,3730,3731,3732,3733,3734,3735,3736,3694,121,3723,3724,3725,3726,3727,3728,3729,3737,3738,3739,3740,3741,3742,3743,118,148,128,130,132,941,127,903,910,3744,3745,3746,3747,3748,3749,3750,3751,3752,3753,3754,3755,3756,3757,131,138,139,133,3704,3705,3706,3707,3708,3709,3710,3711,3712,3713,3714,3715,147,124,150,3695,3014,153,154,134,911,158,156,151,202,159,160,162,163' + else: + base_url += '&paidse=' + ','.join(parameter_id) + + if start_date is None: + raise ValueError('Please provide a start date') + else: + base_url += '&sd=' + start_date + if end_date is None: + raise ValueError('Please provide an end date') + else: + base_url += '&ed=' + end_date + + # Read data and get variables + df = pd.read_html(base_url)[0] + variables = np.unique(df.Param) + + # Print out proper acknowledgement + print("Please use the following acknowledgment when using IMPROVE data:\n") + + print( + "IMPROVE is a collaborative association of state, tribal, and federal agencies, and international partners. US Environmental Protection Agency is the primary funding source, with contracting and research support from the National Park Service. The Air Quality Group at the University of California, Davis is the central analytical laboratory, with ion analysis provided by Research Triangle Institute, and carbon analysis provided by Desert Research Institute." + ) + + # Creat mapping of variable names to metadata + mapping = { + 'ALf': {'name': 'aluminum_fine', 'long_name': 'Aluminum (Fine)', 'epa_code': '88104'}, + 'ASf': {'name': 'arsenic_fine', 'long_name': 'Arsenic (Fine)', 'epa_code': '88103'}, + 'BRf': {'name': 'bromine_fine', 'long_name': 'Bromine (Fine)', 'epa_code': '88109'}, + 'CAf': {'name': 'calcium_fine', 'long_name': 'Calcium (Fine)', 'epa_code': '88111'}, + 'CLf': {'name': 'chlorine_fine', 'long_name': 'Chlorine (Fine)', 'epa_code': '88115'}, + 'CRf': {'name': 'chromium_fine', 'long_name': 'Chromium (Fine)', 'epa_code': '88112'}, + 'CUf': {'name': 'copper_fine', 'long_name': 'Copper (Fine)', 'epa_code': '88114'}, + 'FEf': {'name': 'iron_fine', 'long_name': 'Iron (Fine)', 'epa_code': '88126'}, + 'PBf': {'name': 'lead_fine', 'long_name': 'Lead (Fine)', 'epa_code': '88128'}, + 'MGf': {'name': 'magnesium_fine', 'long_name': 'Magnesium (Fine)', 'epa_code': '88140'}, + 'MNf': {'name': 'manganese_fine', 'long_name': 'Manganese (Fine)', 'epa_code': '88132'}, + 'NIf': {'name': 'nickel_fine', 'long_name': 'Nickel (Fine)', 'epa_code': '88136'}, + 'Pf': {'name': 'phosphorus_fine', 'long_name': 'Phosphorus (Fine)', 'epa_code': '88152'}, + 'Kf': {'name': 'potassium_fine', 'long_name': 'Potassium (Fine)', 'epa_code': '88180'}, + 'RBf': {'name': 'rubidium_fine', 'long_name': 'Rubidium (Fine)', 'epa_code': '88176'}, + 'SEf': {'name': 'selenium_fine', 'long_name': 'Selenium (Fine)', 'epa_code': '88154'}, + 'SIf': {'name': 'silicon_fine', 'long_name': 'Silicon (Fine)', 'epa_code': '88165'}, + 'NAf': {'name': 'sodium_fine', 'long_name': 'Sodium (Fine)', 'epa_code': '88184'}, + 'SRf': {'name': 'strontium_fine', 'long_name': 'Strontium (Fine)', 'epa_code': '88168'}, + 'Sf': {'name': 'sulfur_fine', 'long_name': 'Sulfur (Fine)', 'epa_code': '88169'}, + 'TIf': {'name': 'titanium_fine', 'long_name': 'Titanium (Fine)', 'epa_code': '88161'}, + 'Vf': {'name': 'vanadium_fine', 'long_name': 'Vanadium (Fine)', 'epa_code': '88164'}, + 'ZNf': {'name': 'zinc_fine', 'long_name': 'Zinc (Fine)', 'epa_code': '88167'}, + 'ZRf': {'name': 'zirconium_fine', 'long_name': 'Zirconium (Fine)', 'epa_code': '88185'}, + 'CHLf': {'name': 'chloride_fine', 'long_name': 'Chloride (Fine)', 'epa_code': '88203'}, + 'NO3f': {'name': 'nitrate_fine', 'long_name': 'Nitrate (Fine)', 'epa_code': '88306'}, + 'N2f': {'name': 'nitrite_fine', 'long_name': 'Nitrite (Fine)', 'epa_code': '88338'}, + 'SO4f': {'name': 'sulfate_fine', 'long_name': 'Sulfate (Fine)', 'epa_code': '88403'}, + 'OC1f': { + 'name': 'carbon_organic_fraction_1_fine', + 'long_name': 'Carbon, Organic Fraction 1 (Fine)', + 'comments': 'TOR, pure helium (>99.999%) atmosphere, temperature (T) = 140 °C', + 'epa_code': '88324', + }, + 'OC2f': { + 'name': 'carbon_organic_fraction_2_fine', + 'long_name': 'Carbon, Organic Fraction 2 (Fine)', + 'comments': 'TOR, pure helium (>99.999%) atmosphere, temperature (T) = 280 °C', + 'epa_code': '88325', + }, + 'OC3f': { + 'name': 'carbon_organic_fraction_3_fine', + 'long_name': 'Carbon, Organic Fraction 3 (Fine)', + 'comments': 'TOR, pure helium (>99.999%) atmosphere, temperature (T) = 480 °C', + 'epa_code': '88326', + }, + 'OC4f': { + 'name': 'carbon_organic_fraction_4_fine', + 'long_name': 'Carbon, Organic Fraction 4 (Fine)', + 'comments': 'TOR, pure helium (>99.999%) atmosphere, temperature (T) = 580 °C', + 'epa_code': '88327', + }, + 'OPf': { + 'name': 'carbon_organic_reflectance_fine', + 'long_name': 'Carbon, Organic Pyrolized (Fine) by Reflectance', + 'comments': 'TOR, carbon that is measured after the introduction of helium/oxygen atmosphere at °550 C but beforereflectance returns to initial value', + 'epa_code': '88328', + }, + 'OPTf': { + 'name': 'carbon_organic_transmittance_fine', + 'long_name': 'Carbon, Organic Pyrolized (Fine) by Transmittance', + 'comments': 'TOR, carbon that is measured after the introduction of helium/oxygen atmosphere at °550 C but beforetransmittance returns to initial value', + 'epa_code': '88336', + }, + 'OCf': { + 'name': 'carbon_organic_total_fine', + 'long_name': 'Carbon, Organic Total (Fine)', + 'comments': 'Organic carbon from TOR carbon fractions (OC1f+OC2f+OC3f+OC4f+OPf)', + 'epa_code': '88320', + }, + 'EC1f': { + 'name': 'carbon_elemental_fraction_1_fine', + 'long_name': 'Carbon, Elemental Fraction 1 (Fine)', + 'comments': 'TOR, 98% helium, 2% oxygen atmosphere, temperature (T) = 580° C.', + 'epa_code': '88329', + }, + 'EC2f': { + 'name': 'carbon_elemental_fraction_2_fine', + 'long_name': 'Carbon, Elemental Fraction 2 (Fine)', + 'comments': 'TOR, 98% helium, 2% oxygen atmosphere, temperature (T) = 740° C.', + 'epa_code': '88380', + }, + 'EC3f': { + 'name': 'carbon_elemental_fraction_3_fine', + 'long_name': 'Carbon, Elemental Fraction 3 (Fine)', + 'comments': 'TOR, 98% helium, 2% oxygen atmosphere, temperature (T) = 840° C.', + 'epa_code': '88331', + }, + 'ECf': { + 'name': 'carbon_elemental_total_fine', + 'long_name': 'Carbon, Elemental Total (Fine)', + 'comments': 'Elemental carbon from TOR carbon fractions (E1+E2+E3-OP)', + 'epa_code': '88321', + }, + 'fAbs': { + 'name': 'filter_absorption_coeff', + 'long_name': 'Filter Absorption Coefficient', + 'comments': 'A calibrated absorption coefficient measured from a Teflon filter using a hybrid integrating plate and sphere (HIPS) method', + 'epa_code': '63102', + }, + 'FlowRate': { + 'name': 'flow_rate', + 'long_name': 'Flow Rate', + 'comments': 'The rate of air flow through an air sampling instrument', + 'epa_code': '63102', + }, + 'MF': { + 'name': 'mass_pm2_5', + 'long_name': 'Mass, PM2.5 (Fine)', + 'comments': 'Gravimetric mass measurement for particles with aerodynamic diameters less than 2.5 um', + 'epa_code': '88101', + }, + 'MT': { + 'name': 'mass_pm10', + 'long_name': 'Mass, PM10 (Total)', + 'comments': 'Gravimetric mass measurement for particles with aerodynamic diameters less than 10 um', + 'epa_code': '85101', + }, + 'SampDur': { + 'name': 'sample_duration', + 'long_name': 'Sampling Duration', + 'comments': 'The duration of a given sampling period in minutes', + }, + 'ammNO3f': { + 'name': 'ammonium_nitrate_fine', + 'long_name': 'Ammonium Nitrate (Fine)', + 'comments': '1.29 x NO3f', + }, + 'ammSO4f': { + 'name': 'ammonium_sulfate_fine', + 'long_name': 'Ammonium Sulfate (Fine)', + 'comments': '1.375 x SO4f', + }, + 'OMCf': { + 'name': 'carbon_organic_mass_fine', + 'long_name': 'Carbon, Organic Mass (fine)(1.8*OC)', + 'comments': '1.8 X OCf', + }, + 'TCf': { + 'name': 'carbon_total_fine', + 'long_name': 'Carbon, Total (fine)', + 'comments': 'From TOR carbon fractions (OCf+ECf)', + }, + 'CM_calculated': { + 'name': 'CM_calculated', + 'long_name': 'Mass, PM10-PM2.5 (Coarse)', + 'comments': 'MT-MF', + }, + 'SeaSaltf': { + 'name': 'sea_salt_fine', + 'long_name': 'Sea Salt (Fine)', + 'comments': '1.8XCHLf', + }, + 'SOILf': { + 'name': 'soil_fine', + 'long_name': 'Soil (Fine)', + 'comments': '2.2 × ALf + 2.49 × SIf + 1.63 × CAf + 2.42 × FEf + 1.94 × TIf', + }, + 'RCFM': { + 'name': 'mass_pm2_5_reconstructed', + 'long_name': 'Mass, PM2.5 Reconstructed (Fine)', + 'comments': 'Sum of ammSO4f, ammNO3f, OMCf, ECf, soilf, and seasaltf.', + }, + 'RCTM': { + 'name': 'mass_pmi10_reconstructed', + 'long_name': 'Mass, PM10 Reconstructed (Total)', + 'comments': 'Sum of ammSO4f, ammNO3f, OMCf, ECf, soilf, seasaltf, and CM_calculated.', + }, + } + laser_vars = { + 'RefF': { + 'units': 'ratio', + 'comments': 'Final laser reflectance at ', + 'name': 'final_laser_reflectance_', + }, + 'TransF': { + 'units': 'ratio', + 'comments': 'Final laser transmittance at ', + 'name': 'final_laser_transmittance_', + }, + 'RefI': { + 'units': 'ratio', + 'comments': 'Initial laser reflectance at ', + 'name': 'initial_laser_reflectance_', + }, + 'TransI': { + 'units': 'ratio', + 'comments': 'Initial laser transmittance at ', + 'name': 'initial_laser_transmittance_', + }, + 'RefM': { + 'units': 'ratio', + 'comments': 'Minimum laser reflectance at ', + 'name': 'min_laser_reflectance_', + }, + 'TransM': { + 'units': 'ratio', + 'comments': ' Minimum laser transmittance at ', + 'name': 'min_laser_transmittance_', + }, + 'OP_TR': { + 'units': 'ug m-3', + 'comments': 'Organic Pyrolyzed Carbon by Reflectance at ', + 'name': 'organic_pyrolyzed_carbon_reflectance_', + }, + 'OP_TT': { + 'units': 'ug m-3', + 'comments': 'Organic Pyrolyzed Carbon by Transmittance at ', + 'name': 'organic_pyrolyzed_carbon_transmittance_', + }, + } + laser_wl = ['405', '445', '532', '635', '780', '808', '980'] + for v in laser_vars: + for wl in laser_wl: + name = laser_vars[v]['name'] + wl + if 'OP' not in v: + mapping['_'.join([v, wl])] = { + 'units': laser_vars[v]['units'], + 'name': name, + 'long_name': ' '.join([laser_vars[v]['comments'], wl]), + } + else: + var_name = wl.join(v.split('_')) + mapping[var_name] = { + 'units': laser_vars[v]['units'], + 'name': name, + 'long_name': ' '.join([laser_vars[v]['comments'], wl]), + } + + # Run through each variable in the dataframe and add it to a dataset + # along with the appropriate metadata + ct = 0 + site = np.unique(df.Site)[0] + attrs = {'url': base_url, 'datastream': site + ' IMPROVE'} + for v in variables: + # Find data for just the variable in question + poc_attrs = {'units': '1', 'long_name': 'Parameter Occurrence Code for ' + v} + df2 = df[df.Param == v] + + # Get metadata + unit = np.unique(df2.UnitAbbr) + if len(unit) > 1: + raise ValueError('Multiple types of units detected, using first one') + + sites = np.unique(df2.Site) + if len(sites) > 1: + raise ValueError('Multiple sites detected, please use only one') + + # Get time, POC, and data + time = pd.to_datetime(df2.FactDate) + poc = df2.POC + + data = df2.FactValue + + # Set up attributes + var_attrs = {'units': unit[0], 'long_name': mapping[v]['long_name'], '_FillValue': -999.0} + if 'comments' in mapping[v]: + var_attrs['comments'] = mapping[v]['comments'] + if 'epa_code' in mapping[v]: + var_attrs['epa_code'] = mapping[v]['epa_code'] + + # If the first variable, create the dataset and then add variables to it + if ct == 0: + ds = xr.Dataset( + data_vars={mapping[v]['name']: (['time'], data, var_attrs)}, + coords={'time': time}, + attrs=attrs, + ) + ds['poc_' + mapping[v]['name']] = xr.DataArray( + data=poc, dims=['time'], coords={'time': time}, attrs=poc_attrs + ) + ct += 1 + else: + ds[mapping[v]['name']] = xr.DataArray( + data=data, dims=['time'], coords={'time': time}, attrs=var_attrs + ) + ds['poc_' + mapping[v]['name']] = xr.DataArray( + data=poc, dims=['time'], coords={'time': time}, attrs=poc_attrs + ) + + # Add in metadata from site summary page + url = 'https://views.cira.colostate.edu/adms/Pub/SiteSummary.aspx?dsidse=10001&siidse=' + str( + site_id + ) + df = pd.read_html(url) + for i in df[0].index: + # Add lat/lon as variables + if df[0][0][i] == 'Latitude': + attrs = { + 'long_name': 'North latitude', + 'units': 'degree_N', + 'valid_min': -90.0, + 'valid_max': 90.0, + 'standard_name': 'latitude', + } + ds['lat'] = xr.DataArray( + data=float(df[0][1][i]), + dims=['time'], + coords={'time': ds['time'].values}, + attrs=attrs, + ) + elif df[0][0][i] == 'Longitude': + attrs = { + 'long_name': 'East longitude', + 'units': 'degree_E', + 'valid_min': -180.0, + 'valid_max': 180.0, + 'standard_name': 'longitude', + } + ds['lon'] = xr.DataArray( + data=float(df[0][1][i]), + dims=['time'], + coords={'time': ds['time'].values}, + attrs=attrs, + ) + else: + ds.attrs[df[0][0][i]] = df[0][1][i] + + # Add in problem information from the site summary page + problem = '' + for i in df[-1].index: + problem += '_'.join( + [df[-1]['EventDate'][i], df[-1]['EventType'][i], df[-1]['Notes'][i], '\n'] + ) + ds.attrs['site_problems'] = problem + + return ds diff --git a/examples/discovery/plot_improve.py b/examples/discovery/plot_improve.py new file mode 100644 index 0000000000..e2a90cb3d6 --- /dev/null +++ b/examples/discovery/plot_improve.py @@ -0,0 +1,30 @@ +""" +IMPROVE Data +----------- + +This example shows how to get IMPROVE data for the +system located at ARM's Southern Great Plains site. + +""" + +import act +import matplotlib.pyplot as plt + +# Pull the data using the site_id from IMPROVE +# https://views.cira.colostate.edu/adms/Pub/SiteSummary.aspx?dsidse=10001&siidse=244 +ds = act.discovery.get_improve_data(site_id='244', start_date='1/1/2023', end_date='12/31/2023') + +# Remove all data that's set to the FillValue +ds = ds.where(ds['aluminum_fine'] != ds['aluminum_fine'].attrs['_FillValue']) + +display = act.plotting.TimeSeriesDisplay(ds, figsize=(10, 6)) +display.plot('aluminum_fine') + +# Print out the known problems documented by IMPROVE +print(ds.attrs['site_problems']) + +# Write out the data to netCDF and csv +ds.to_netcdf('./sgpimprove.20230101.nc') +ds.to_dataframe().to_csv('sgpimprove.20230101.csv') + +plt.show() diff --git a/tests/discovery/test_improve.py b/tests/discovery/test_improve.py new file mode 100644 index 0000000000..c8a75f1fd6 --- /dev/null +++ b/tests/discovery/test_improve.py @@ -0,0 +1,20 @@ +import numpy as np +import act + + +def test_get_improve(): + ds = act.discovery.get_improve_data(site_id='244', start_date='1/1/2023', end_date='12/31/2023') + + assert len(list(ds)) == 216 + assert 'lat' in ds + assert 'lon' in ds + assert len(ds.time.values) == 121 + assert 'aluminum_fine' in ds + assert ds['ammonium_nitrate_fine'].values[0] == 1.41363 + + with np.testing.assert_raises(ValueError): + ds = act.discovery.get_improve_data() + with np.testing.assert_raises(ValueError): + ds = act.discovery.get_improve_data(site_id='244') + with np.testing.assert_raises(ValueError): + ds = act.discovery.get_improve_data(site_id='244', start_date='1/1/2023')