Jase Hixson
Environmental Science · Indiana University
Publications
18
Citations
98
Est. group size
—
Recurring co-author estimate
Active years
12
Publishing since 2014
Jase Hixson studies how chemicals and nutrients move through and break down in streams and their surrounding subsurface zones (the hyporheic zone, where stream water mixes with groundwater). Much of the work examines how physical water flow and chemical reactions together control the fate of compounds such as lampricides (chemicals used to control invasive sea lamprey) in rivers. This research also involves developing and testing low-cost sensor equipment for measuring water properties in the field.
Publication activity has been low but steady over the past decade, averaging just over one paper per year with occasional gaps.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Hardware Selection and Performance of Low-Cost Fluorometers
Sensors · 2022
- Release Timing and Duration Control the Fate of Photolytic Compounds in Stream‐Hyporheic Systems
Water Resources Research · 2022
- Release timing and duration control the fate of photolytic compounds in stream-hyporheic systems
2021
- Supporting Data for Hixson and Ward (2022), Hardware Selection and Performance of Low-Cost Fluorometers
HydroShare Resources · 2021
- A field analysis of lampricide photodegradation in Great Lakes tributaries
Environmental Science Processes & Impacts · 2017
- Controls on the Environmental Fate of Compounds Controlled by Coupled Hydrologic and Reactive Processes
AGU Fall Meeting Abstracts · 2017
- Interaction of Physical and Chemical Processes Controlling the Environmental Fate and Transport of Lampricides Through Stream-Hyporheic Systems
AGU Fall Meeting Abstracts · 2016
- Water Resources Research×2
- AGU Fall Meeting Abstracts×2
- Hydrology and earth system sciences×1
- Earth system science data×1
- Environmental Science Processes & Impacts×1
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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