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orcid:
ORCiD:
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   meta:
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     status_code: 200
Line 466: Line 466:
         source: null
         source: null
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usgs_staff_profile:
USGS Staff Profile:
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    timestamp: '2024-01-31T04:14:03.687763'
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    name: Shaul Hurwitz
     abstract: Research Hydrologist with the California Volcano Observatory
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    - Research Hydrologist
     abstract: I am a research hydrologist with the USGS Volcano Science Center. My
    organizations:
      goals are to characterize and quantify the myriad processes occurring in volcano-hydrothermal
    - !!python/tuple
      systems that take place at spatial and temporal scales that span many orders
      - California Volcano Observatory
       of magnitude.
      - https://www.usgs.gov/observatories/calvo
     additionalType: staff profile page introductory statement
    email: shaulh@usgs.gov
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    orcid: 0000-0001-5142-6886
     abstract: "My research is focused on quantifying processes in continental hydrothermal\
     intro_statements:
      \ systems by integrating hydrologic, geochemical, and geophysical data with\
    - My research objectives are to characterize and quantify spatial and temporal
      \ models of groundwater flow, heat transport, thermodynamics, and statistics.\
      patterns of temperature, pressure, chemistry, and phase (e.g. liquid or gas)
       \ An improved understanding of hydrothermal systems is important because: 1)\
      in volcano-hydrothermal systems and relate them to magmatic and/or volcanic
       \ pressure, temperature and chemical changes within these systems can provide\
       activity.
       \ early warnings of volcanic unrest, 2) many of the geochemical, geodetic, and\
     expertise_terms:
       \ seismic signals measured at the volcano\u2019s surface have their origins,\
    - Volcano hydrothermal systems
       \ or are modulated by hydrothermal processes, 3) hydrothermal fluids constitute\
    - Numerical simulation
       \ a major source of hazard as a propellant in steam-driven explosions, lubricant\
    - Geysers
       \ in mudflows, and transport agent for toxins, 4) fluids in these systems are\
    - Volcanic lakes
       \ a source of geothermal energy and an agent in the formation of mineral deposits,\
    - Geothermal energy production
      \ and 5) hot springs and their deposits provide insights on the origin and environmental\
    - Groundwater quality
       \ limits of life on Earth and elsewhere in the solar system. Insights gleaned\
    professional_experience: []
      \ from these studies have implications for many science disciplines and are\
     education:
       \ mostly summarized in co-authored review papers. This research supports of\
    - PhD (1999), The Hebrew University of Jerusalem
       \ the USGS Volcano Hazards Program mission to \u201Cenhance public safety and\
    affiliations: []
       \ minimize social and economic disruption from eruptions\u201D and the Geothermal\
    honors: []
       \ Research Investigation Project\u2019s (GRIP) goals of assessing geothermal\
    abstracts: []
       \ energy resources and the environmental impacts of energy production.Research\
    personal_statement: "Quantitative understanding of groundwater and gas-rich fluid\
      \ topics:Water-gas-rock interaction in volcano-hydrothermal systems using field\
       \ dynamics in volcanic areas is important for several reasons: 1) pressure,\
       \ observations, chemical and isotopic data, controlled laboratory experiments.\
       \ temperature and chemical changes in the hydrothermal system might signal one\
       \ and thermodynamic modelsNumerical simulations of volcano-hydrothermal systemsModulation\
       \ of the earliest warnings of volcanic unrest, 2) Many of the geochemical, geodetic,\
       \ of volcanic and geyser activity by cyclic hydrological and climatic forcers\
       \ and seismic signals measured at the volcano\u2019s surface have hydrothermal\
       \ and by large earthquakesPost-glacial hydrothermal activity at YellowstoneHeat\
       \ origins or magmatic origins modulated by the intervening hydrothermal system,\
       \ transport in volcanic systemsDynamics and chemistry of volcanic lakesGeyser\
       \ 3) as a major source of hazard such as propellant in steam-driven explosions,\
       \ dynamicsThe impact of geothermal energy production on groundwater quality"
       \ lubricant in mudflows, and transport agent for toxic constituents such as\
    additionalType: personal statement
       \ arsenic and mercury, 4) guiding exploration and mining of geothermal energy\
  email: shaulh@usgs.gov
       \ and mineral deposits. To better understand these complex systems I integrate\
  hasCredential:
       \ and synthesize hydrologic, geochemical, geologic, and geophysical methods.\
  - '@type': EducationalOccupationalCredential
       \ My research is intended to support the USGS Volcano Hazards Program\u2019\
    name: PhD (1999), The Hebrew University of Jerusalem
       s broad goal of lessening the harmful impacts of volcanic activity and the Geothermal\
  hasOccupation:
       \ Project's goals of exploring reservoirs of hot fluids in the Earth\u2019s\
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       \ crust.Research topics:Water-gas-rock interaction in volcano-hydrothermal systems\
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       \ using field observations, chemical and isotopic data, controlled laboratory\
      '@type': Organization
       \ experiments and thermodynamic modelsNumerical simulations of volcano-hydrothermal\
      name: California Volcano Observatory
       \ systemsModulation of volcanic and geyser activity by cyclic hydrological and\
      url: https://www.usgs.gov/observatories/calvo
       \ climatic forcers and by large earthquakesThe effects of deglaciation on Yellowstone's\
    roleName: Research Hydrologist
       \ hydrothermal systemHeat transport in volcanic systemsDynamics and chemistry\
    startDate: '2024-05-12T16:16:07.589512'
      \ of volcanic lakesGeyser dynamics - motivation for studying geysersThe impact\
  identifier:
       \ of geothermal energy production on groundwater qualityDevelopment of a field-portable\
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       \ helium isotope analyzer"
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    name: Geysers
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    name: Volcanic lakes
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    name: Geothermal energy
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    name: Groundwater flow
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    member:
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       name: U.S. Geological Survey
    name: staff member
    startDate: '2024-05-12T16:16:07.586715'
  name: Shaul Hurwitz
  url: https://www.usgs.gov/staff-profiles/shaul-hurwitz

Revision as of 18:26, 12 May 2024

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USGS Staff Profile: 

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   abstract: Research Hydrologist with the California Volcano Observatory
   additionalType: short description
 - '@type': TextObject
   abstract: I am a research hydrologist with the USGS Volcano Science Center. My
     goals are to characterize and quantify the myriad processes occurring in volcano-hydrothermal
     systems that take place at spatial and temporal scales that span many orders
     of magnitude.
   additionalType: staff profile page introductory statement
 - '@type': TextObject
   abstract: "My research is focused on quantifying processes in continental hydrothermal\
     \ systems by integrating hydrologic, geochemical, and geophysical data with\
     \ models of groundwater flow, heat transport, thermodynamics, and statistics.\
     \ An improved understanding of hydrothermal systems is important because: 1)\
     \ pressure, temperature and chemical changes within these systems can provide\
     \ early warnings of volcanic unrest, 2) many of the geochemical, geodetic, and\
     \ seismic signals measured at the volcano\u2019s surface have their origins,\
     \ or are modulated by hydrothermal processes, 3) hydrothermal fluids constitute\
     \ a major source of hazard as a propellant in steam-driven explosions, lubricant\
     \ in mudflows, and transport agent for toxins, 4) fluids in these systems are\
     \ a source of geothermal energy and an agent in the formation of mineral deposits,\
     \ and 5) hot springs and their deposits provide insights on the origin and environmental\
     \ limits of life on Earth and elsewhere in the solar system. Insights gleaned\
     \ from these studies have implications for many science disciplines and are\
     \ mostly summarized in co-authored review papers. This research supports of\
     \ the USGS Volcano Hazards Program mission to \u201Cenhance public safety and\
     \ minimize social and economic disruption from eruptions\u201D and the Geothermal\
     \ Research Investigation Project\u2019s (GRIP) goals of assessing geothermal\
     \ energy resources and the environmental impacts of energy production.Research\
     \ topics:Water-gas-rock interaction in volcano-hydrothermal systems using field\
     \ observations, chemical and isotopic data, controlled laboratory experiments.\
     \ and thermodynamic modelsNumerical simulations of volcano-hydrothermal systemsModulation\
     \ of volcanic and geyser activity by cyclic hydrological and climatic forcers\
     \ and by large earthquakesPost-glacial hydrothermal activity at YellowstoneHeat\
     \ transport in volcanic systemsDynamics and chemistry of volcanic lakesGeyser\
     \ dynamicsThe impact of geothermal energy production on groundwater quality"
   additionalType: personal statement
 email: shaulh@usgs.gov
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   additionalType: self-claimed expertise
   name: Volcano hydrothermal systems
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Water-rock interaction
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Numerical simulations
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Hydrothermal geochemistry
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Geysers
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Volcanic lakes
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Geothermal energy
 - '@type': Thing
   additionalType: self-claimed expertise
   name: Groundwater flow
 memberOf:
   '@type': OrganizationalRole
   member:
     '@type': Organization
     name: U.S. Geological Survey
   name: staff member
   startDate: '2024-05-12T16:16:07.586715'
 name: Shaul Hurwitz
 url: https://www.usgs.gov/staff-profiles/shaul-hurwitz
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