Item talk:Q45253
From geokb
{
"USGS Staff Profile": {
"_id": "https://www.usgs.gov/staff-profiles/kimberly-casey",
"item": "https://geokb.wikibase.cloud/entity/Q45253",
"last_update": "2024-05-12T00:00:00Z",
"previous_address": null,
"qid": "Q45253",
"retrieved": "2024-05-12T00:00:00Z",
"schema": {
"@context": "https://schema.org",
"@type": "Person",
"affiliation": [],
"description": [
{
"@type": "TextObject",
"abstract": "Physical Scientist with the Core Science Systems Mission Area",
"additionalType": "short description"
},
{
"@type": "TextObject",
"abstract": "Kimberly Casey is a research scientist in the National Land Imaging Program at the U.S. Geological Survey Headquarters. Dr. Casey's research focuses on high spectral resolution investigations of Earth's cryospheric, land, ocean and atmospheric processes. Dr. Casey also serves as the Earth Observation capabilities lead within the National Land Imaging Program.",
"additionalType": "staff profile page introductory statement"
},
{
"@type": "TextObject",
"abstract": "Dr. Casey conducts high spectral resolution research investigations of cryospheric, land, ocean and atmospheric processes. She has particular interest in radiative characterization, biogeochemical cycling, and investigation of pollutant, biota, black carbon, dust and debris geology and geochemistry in the cryosphere via remotely sensed and in situ measurements. These studies aid in the understanding of particulate provenance, cycling and radiative impacts. She is adept in use of remote sensing observations to map ice radiance, stratigraphy, geochemistry, and atmospheric influences and works to quantify and differentiate sensor performance and detection of change over time. She has experience in analytical chemistry techniques, including ice core and surface ice composition characterization, aquatic and tree core digestion analysis. Her field experience includes sampling on glaciers, ice core planning, retrieval, and analysis, and ground penetrating radar acquisition. She has conducted field work and led observation campaigns at glaciers and ice sheets on all 7 continents on Earth.Dr. Casey also aides in the National Land Imaging requirements, analysis and capabilities branch providing Earth Observation capability leadership support toward internal, Federal and international sensor programs, initiatives and tasks. She oversees an Earth Observation sensor capability working group, and the publication of the annual Earth Observation sensor compendium, online search tool and related living database. Dr. Casey serves as the USGS lead for the World Meteorological Organization's international Polar Space Task Group and their High Mountain Summit initiative. Dr. Casey was involved with the NASA Plankton, Aerosol, Cloud ocean Ecosystem (PACE) Mission initial science team and in situ data identification and recording efforts and takes part in the NASA Surface Biology and Geology Mission algorithm, calibration/validation and applications working groups. She now serves on the NASA ASTER Science Team.",
"additionalType": "personal statement"
}
],
"email": "kcasey@usgs.gov",
"hasCredential": [],
"hasOccupation": [
{
"@type": "OrganizationalRole",
"affiliatedOrganization": {
"@type": "Organization",
"name": "Core Science Systems Mission Area",
"url": "https://www.usgs.gov/mission-areas/core-science-systems"
},
"roleName": "Physical Scientist",
"startDate": "2024-05-12T15:50:17.333986"
}
],
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "GeoKB",
"value": "https://geokb.wikibase.cloud/entity/Q45253"
},
{
"@type": "PropertyValue",
"propertyID": "ORCID",
"value": "0000-0002-6115-7525"
}
],
"jobTitle": "Physical Scientist",
"knowsAbout": [],
"memberOf": {
"@type": "OrganizationalRole",
"member": {
"@type": "Organization",
"name": "U.S. Geological Survey"
},
"name": "staff member",
"startDate": "2024-05-12T15:50:17.331460"
},
"name": "Kimberly Casey, Ph.D.",
"url": "https://www.usgs.gov/staff-profiles/kimberly-casey"
},
"status_code": "200"
},
"ORCID": {
"@context": "http://schema.org",
"@id": "https://orcid.org/0000-0002-6115-7525",
"@reverse": {
"creator": [
{
"@id": "https://doi.org/10.1029/2023jg007452",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1029/2023jg007452"
},
"name": "Calibration and Validation for the Surface Biology and Geology (SBG) Mission Concept: Recommendations for a Multi\u2010Sensor System for Imaging Spectroscopy and Thermal Imagery"
},
{
"@id": "https://doi.org/10.1029/2022ea002630",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1029/2022ea002630"
},
"name": "Intensified Warming and Aridity Accelerate Terminal Lake Desiccation in the Great Basin of the Western United States"
},
{
"@id": "https://doi.org/10.3133/cir1500",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.3133/cir1500"
},
"name": "2022 Joint Agency Commercial Imagery Evaluation\u2014Remote sensing satellite compendium"
},
{
"@id": "https://doi.org/10.5194/tc-14-3287-2020",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-14-3287-2020"
},
"name": "Temporal and spatial variability in surface roughness and accumulation rate around 88\u00b0 S from repeat airborne geophysical surveys"
},
{
"@id": "https://doi.org/10.3133/cir1468",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.3133/cir1468"
},
"name": "2020 Remote sensing satellite compendium"
},
{
"@id": "https://doi.org/10.5194/essd-12-1123-2020",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/essd-12-1123-2020"
},
"name": "A global compilation of in situ aquatic high spectral resolution inherent and apparent optical property data for remote sensing applications"
},
{
"@id": "https://doi.org/10.5194/tc-2020-51",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-2020-51"
},
"name": "Temporal and spatial variability in surface roughness and accumulation rate around 88\u00b0 S from repeat airborne geophysical surveys"
},
{
"@id": "https://doi.org/10.5194/essd-2019-105-ac2",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/essd-2019-105-ac2"
},
"name": "Response to reviewer comments"
},
{
"@id": "https://doi.org/10.5194/essd-2019-105-ac1",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/essd-2019-105-ac1"
},
"name": "Response to reviewer comments"
},
{
"@id": "https://doi.org/10.5194/essd-2019-105",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/essd-2019-105"
},
"name": "A global compilation of in situ aquatic high spectral resolution inherent and apparent optical property data for remote sensing applications"
},
{
"@id": "https://doi.org/10.5194/cp-2019-61",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/cp-2019-61"
},
"name": "The SP19 Chronology for the South Pole Ice Core – Part 1: Volcanic matching and annual-layer counting"
},
{
"@id": "https://doi.org/10.1594/pangaea.902230",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1594/pangaea.902230"
},
"name": "In situ high spectral resolution inherent and apparent optical property data from diverse aquatic environments"
},
{
"@id": "https://doi.org/10.1002/2017gl073701",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1002/2017gl073701"
},
"name": "Quantifying black carbon deposition over the Greenland ice sheet from forest fires in Canada"
},
{
"@id": "https://doi.org/10.5194/tc-11-1781-2017",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-11-1781-2017"
},
"name": "Impact of MODIS sensor calibration updates on Greenland Ice Sheet surface reflectance and albedo trends"
},
{
"@id": "https://doi.org/10.5194/tc-2017-38",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-2017-38"
},
"name": "Impact of MODIS sensor calibration updates on Greenland ice sheet surface reflectance and albedo trends"
},
{
"@id": "https://doi.org/10.1002/2016jd026418",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1002/2016jd026418"
},
"name": "The spectral and chemical measurement of pollutants on snow near South Pole, Antarctica"
},
{
"@id": "https://doi.org/10.5194/tc-2017-38-ac1",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-2017-38-ac1"
},
"name": "Author response"
},
{
"@id": "https://doi.org/10.1016/j.rse.2016.02.059",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1016/j.rse.2016.02.059"
},
"name": "Early spring post-fire snow albedo dynamics in high latitude boreal forests using Landsat-8 OLI data"
},
{
"@id": "https://doi.org/10.5194/tc-9-1333-2015",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-9-1333-2015"
},
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000360661700001"
}
],
"name": "Wintertime storage of water in buried supraglacial lakes across the Greenland Ice Sheet"
},
{
"@id": "https://doi.org/10.5194/tcd-8-3999-2014",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tcd-8-3999-2014"
},
"name": "Wintertime storage of water in buried supraglacial lakes across the Greenland Ice Sheet"
},
{
"@id": "https://doi.org/10.1007/978-3-540-79818-7_4",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1007/978-3-540-79818-7_4"
},
"name": "Glacier Mapping and Monitoring Using Multispectral Data"
},
{
"@id": "https://doi.org/10.3189/2014aog68a016",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000351889600019"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.3189/2014aog68a016"
}
],
"name": "The 1500 m South Pole ice core: recovering a 40 ka environmental record"
},
{
"@id": "https://doi.org/10.3189/2013aog63a296",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000321685500020"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.3189/2013aog63a296"
}
],
"name": "On the accuracy of glacier outlines derived from remote-sensing data"
},
{
"@id": "https://doi.org/10.1594/pangaea.773949",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1594/pangaea.773949"
},
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "drci:data2012207002319381"
}
],
"name": "Debris bulk oxide and trace elemental composition from glaciers in Norway, Nepal and New Zealand."
},
{
"@id": "https://doi.org/10.3390/rs4092554",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000313913500004"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.3390/rs4092554"
}
],
"name": "Estimation of Supraglacial Dust and Debris Geochemical Composition via Satellite Reflectance and Emissivity"
},
{
"@id": "https://doi.org/10.5194/tc-6-85-2012",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/tc-6-85-2012"
},
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000300226700006"
}
],
"name": "Geochemical characterization of supraglacial debris via in situ and optical remote sensing methods: a case study in Khumbu Himalaya, Nepal"
},
{
"@id": "https://doi.org/10.1594/pangaea.773951",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "drci:data2012206002280051"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1594/pangaea.773951"
}
],
"name": "Geochemical composition of surface snow, ice and debris from glaciers in Norway, Nepal and New Zealand."
},
{
"@id": "https://doi.org/10.1594/pangaea.773948",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1594/pangaea.773948"
},
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "drci:data2012207002319380"
}
],
"name": "Snow and ice trace elemental abundances from glaciers in Norway, Nepal and New Zealand."
},
{
"@id": "https://doi.org/10.1080/01431160903548013",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1080/01431160903548013"
},
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000288693800010"
}
],
"name": "A blended global snow product using visible, passive microwave and scatterometer satellite data"
},
{
"@id": "https://doi.org/10.5194/asr-7-21-2011",
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.5194/asr-7-21-2011"
},
"name": "Assessing components of the natural environment of the Upper Danube and Upper Brahmaputra river basins"
},
{
"@type": "CreativeWork",
"identifier": {
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000282993400258"
},
"name": "Proposed methodology for detection of geochemical species on glaciers"
},
{
"@id": "https://doi.org/10.1016/j.rse.2008.05.007",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000259798100001"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1016/j.rse.2008.05.007"
}
],
"name": "Comparison of satellite-derived and in-situ observations of ice and snow surface temperatures over Greenland"
},
{
"@id": "https://doi.org/10.1029/2006gl026444",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000238218400006"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1029/2006gl026444"
}
],
"name": "Satellite-derived, melt-season surface temperature of the Greenland Ice Sheet (2000-2005) and its relationship to mass balance"
},
{
"@id": "https://doi.org/10.1109/tgrs.2004.825587",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000221466200015"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1109/tgrs.2004.825587"
}
],
"name": "Sea ice surface temperature product from MODIS"
},
{
"@id": "https://doi.org/10.1016/s0304-4203(99)00064-x",
"@type": "CreativeWork",
"identifier": [
{
"@type": "PropertyValue",
"propertyID": "wosuid",
"value": "wos:000084387100005"
},
{
"@type": "PropertyValue",
"propertyID": "doi",
"value": "10.1016/s0304-4203(99)00064-x"
}
],
"name": "Island weathering: river sources of rare earth elements to the Western Pacific Ocean"
}
]
},
"@type": "Person",
"address": {
"@type": "PostalAddress",
"addressCountry": "US"
},
"affiliation": [
{
"@id": "https://doi.org/10.13039/100000201",
"@type": "Organization",
"alternateName": "U.S. Geological Survey",
"name": "U.S. Department of the Interior"
},
{
"@type": "Organization",
"alternateName": "science collaborator",
"identifier": {
"@type": "PropertyValue",
"propertyID": "RINGGOLD",
"value": "53523"
},
"name": "NASA Goddard Space Flight Center"
},
{
"@type": "Organization",
"identifier": {
"@type": "PropertyValue",
"propertyID": "RINGGOLD",
"value": "145792"
},
"name": "Thayer School of Engineering at Dartmouth"
},
{
"@type": "Organization",
"identifier": {
"@type": "PropertyValue",
"propertyID": "RINGGOLD",
"value": "53523"
},
"name": "NASA Goddard Space Flight Center"
},
{
"@id": "grid.426193.b",
"@type": "Organization",
"name": "World Meteorological Organization"
}
],
"alumniOf": {
"@type": "Organization",
"identifier": {
"@type": "PropertyValue",
"propertyID": "RINGGOLD",
"value": "1466"
},
"name": "Johns Hopkins University"
},
"familyName": "Casey",
"givenName": "Kimberly",
"identifier": {
"@type": "PropertyValue",
"propertyID": "ResearcherID",
"value": "A-4478-2013"
},
"mainEntityOfPage": "https://orcid.org/0000-0002-6115-7525",
"url": "https://www.usgs.gov/staff-profiles/kimberly-casey"
},
"OpenAlex": {
"created_date": "2023-07-21",
"display_name": "Kimberly A. Casey",
"display_name_alternatives": [
"Kimberley Casey",
"Kimberly Ann Casey",
"Kimberly Casey",
"K. A. Casey",
"K. Casey",
"Kimberly A. Casey",
"Kimberley A. Casey"
],
"ids": {
"openalex": "https://openalex.org/A5075791757",
"orcid": "https://orcid.org/0000-0002-6115-7525"
},
"last_known_institutions": [
{
"country_code": "US",
"display_name": "Goddard Space Flight Center",
"id": "https://openalex.org/I1306266525",
"lineage": [
"https://openalex.org/I1306266525",
"https://openalex.org/I4210124779"
],
"ror": "https://ror.org/0171mag52",
"type": "facility"
},
{
"country_code": "US",
"display_name": "United States Geological Survey",
"id": "https://openalex.org/I1286329397",
"lineage": [
"https://openalex.org/I1286329397",
"https://openalex.org/I1335927249"
],
"ror": "https://ror.org/035a68863",
"type": "government"
}
],
"orcid": "https://orcid.org/0000-0002-6115-7525",
"topics": [
{
"count": 28,
"display_name": "Impacts of Climate Change on Glaciers and Water Availability",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T10644",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 13,
"display_name": "Arctic Sea Ice Variability and Decline",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T11459",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 12,
"display_name": "Arctic Permafrost Dynamics and Climate Change",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T11333",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 7,
"display_name": "Climate Change and Paleoclimatology",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T10017",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 6,
"display_name": "Injuries in Alpine Skiing and Snowboarding",
"domain": {
"display_name": "Health Sciences",
"id": "https://openalex.org/domains/4"
},
"field": {
"display_name": "Medicine",
"id": "https://openalex.org/fields/27"
},
"id": "https://openalex.org/T13176",
"subfield": {
"display_name": "Pulmonary and Respiratory Medicine",
"id": "https://openalex.org/subfields/2740"
}
},
{
"count": 5,
"display_name": "Global Methane Emissions and Impacts",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T11588",
"subfield": {
"display_name": "Global and Planetary Change",
"id": "https://openalex.org/subfields/2306"
}
},
{
"count": 4,
"display_name": "Atmospheric Aerosols and their Impacts",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T10075",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 4,
"display_name": "On-line Monitoring of Wastewater Quality",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T14249",
"subfield": {
"display_name": "Industrial and Manufacturing Engineering",
"id": "https://openalex.org/subfields/2311"
}
},
{
"count": 3,
"display_name": "Microbial Diversity in Antarctic Ecosystems",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T12180",
"subfield": {
"display_name": "Ecology",
"id": "https://openalex.org/subfields/2303"
}
},
{
"count": 3,
"display_name": "Machine Learning for Mineral Prospectivity Mapping",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Computer Science",
"id": "https://openalex.org/fields/17"
},
"id": "https://openalex.org/T12157",
"subfield": {
"display_name": "Artificial Intelligence",
"id": "https://openalex.org/subfields/1702"
}
},
{
"count": 3,
"display_name": "Marine Biogeochemistry and Ecosystem Dynamics",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T10032",
"subfield": {
"display_name": "Oceanography",
"id": "https://openalex.org/subfields/1910"
}
},
{
"count": 3,
"display_name": "Aerosols' Impact on Climate and Hydrological Cycle",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T10347",
"subfield": {
"display_name": "Global and Planetary Change",
"id": "https://openalex.org/subfields/2306"
}
},
{
"count": 2,
"display_name": "Hydrological Modeling and Water Resource Management",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T10330",
"subfield": {
"display_name": "Water Science and Technology",
"id": "https://openalex.org/subfields/2312"
}
},
{
"count": 2,
"display_name": "Impact of Road Salt on Freshwater Salinization",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T12682",
"subfield": {
"display_name": "Pollution",
"id": "https://openalex.org/subfields/2310"
}
},
{
"count": 2,
"display_name": "Geological Modeling and Uncertainty Analysis",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T13067",
"subfield": {
"display_name": "Geochemistry and Petrology",
"id": "https://openalex.org/subfields/1906"
}
},
{
"count": 2,
"display_name": "Landslide Hazards and Risk Assessment",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Environmental Science",
"id": "https://openalex.org/fields/23"
},
"id": "https://openalex.org/T10535",
"subfield": {
"display_name": "Management, Monitoring, Policy and Law",
"id": "https://openalex.org/subfields/2308"
}
},
{
"count": 2,
"display_name": "Radiometric Calibration and Performance Monitoring",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Engineering",
"id": "https://openalex.org/fields/22"
},
"id": "https://openalex.org/T12019",
"subfield": {
"display_name": "Aerospace Engineering",
"id": "https://openalex.org/subfields/2202"
}
},
{
"count": 1,
"display_name": "Digital Image Correlation Techniques",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Computer Science",
"id": "https://openalex.org/fields/17"
},
"id": "https://openalex.org/T10638",
"subfield": {
"display_name": "Computer Vision and Pattern Recognition",
"id": "https://openalex.org/subfields/1707"
}
},
{
"count": 1,
"display_name": "Satellite-Based Precipitation Estimation and Validation",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T11234",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 1,
"display_name": "Freeze Desalination for Water Treatment and Concentration",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Engineering",
"id": "https://openalex.org/fields/22"
},
"id": "https://openalex.org/T14479",
"subfield": {
"display_name": "Mechanics of Materials",
"id": "https://openalex.org/subfields/2211"
}
},
{
"count": 1,
"display_name": "Geochemistry of Manganese Oxides in Sedimentary Environments",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T11740",
"subfield": {
"display_name": "Geochemistry and Petrology",
"id": "https://openalex.org/subfields/1906"
}
},
{
"count": 1,
"display_name": "Applications of Remote Sensing in Geoscience and Agriculture",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T13890",
"subfield": {
"display_name": "Atmospheric Science",
"id": "https://openalex.org/subfields/1902"
}
},
{
"count": 1,
"display_name": "3D Geospatial Modelling Techniques",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T11211",
"subfield": {
"display_name": "Geology",
"id": "https://openalex.org/subfields/1907"
}
},
{
"count": 1,
"display_name": "Physiological Effects of Space Travel and Microgravity",
"domain": {
"display_name": "Health Sciences",
"id": "https://openalex.org/domains/4"
},
"field": {
"display_name": "Medicine",
"id": "https://openalex.org/fields/27"
},
"id": "https://openalex.org/T12005",
"subfield": {
"display_name": "Physiology",
"id": "https://openalex.org/subfields/2737"
}
},
{
"count": 1,
"display_name": "Paleoredox and Paleoproductivity Proxies",
"domain": {
"display_name": "Physical Sciences",
"id": "https://openalex.org/domains/3"
},
"field": {
"display_name": "Earth and Planetary Sciences",
"id": "https://openalex.org/fields/19"
},
"id": "https://openalex.org/T10109",
"subfield": {
"display_name": "Paleontology",
"id": "https://openalex.org/subfields/1911"
}
}
],
"updated_date": "2024-05-20T12:53:13.961181"
}
}
