Lienne R. Sethna
Environmental Science · Indiana University
Publications
20
Citations
162
Est. group size
—
Recurring co-author estimate
Active years
13
Publishing since 2014
Lienne R. Sethna studies how nutrients and elements—especially silicon, nitrogen, and phosphorus—move through rivers, lakes, and agricultural watersheds. The work links water chemistry to factors like hydrology, climate, land use, and farming practices such as cover crops, and examines how these controls shape water quality and aquatic ecosystems. Much of the research uses field measurements and large-scale datasets spanning from local watersheds to global patterns.
Publication activity has been growing over the last decade, rising from about one paper per year early on to five in 2025.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Anoximixis: Mixing of anoxic bottom waters influences biogeochemical and ecological processes in lakes
BioScience · 2026
- Thinking Outside the Rocks: Subsurface Water Storage, Topography, and Land Cover Are Key Modulators of Large‐Scale Riverine Dissolved Silicon Dynamics
Geophysical Research Letters · 2026
- Decadal Shifts Towards Higher Riverine Silicon Relative to Nitrogen and Phosphorus Across High Latitudes
Zenodo (CERN European Organization for Nuclear Research) · 2026
- Thermal structure and oxygen depletion provide mechanism for cyanobacterial blooms in remote lakes
Environmental Research Communications · 2025
- Editorial: Advances in ecological stoichiometry
Frontiers in Ecology and Evolution · 2025
- GlASS - Global Aggregation of Stream Silica
Scientific Data · 2025
- Mismatches between ammonium and nitrate losses at the field and watershed scales suggest contrasting controls in two agricultural watersheds
Agriculture Ecosystems & Environment · 2025
- Dynamics of dissolved silicon in a large mesotrophic reservoir in south-central Indiana, U.S.A
Frontiers in Environmental Science · 2025
- Establishing fluvial silicon regimes and their stability across the Northern Hemisphere
Limnology and Oceanography Letters · 2024
- Climate, Hydrology, and Nutrients Control the Seasonality of Si Concentrations in Rivers
Journal of Geophysical Research Biogeosciences · 2024
- Response of dissolved organic matter to variation in nutrient availability and phytoplankton community composition in a mesotrophic, temperate-zone reservoir
Freshwater Science · 2024
- Long‐Term Changes in Concentration and Yield of Riverine Dissolved Silicon From the Poles to the Tropics
Global Biogeochemical Cycles · 2023
- Silicon concentrations and stoichiometry in two agricultural watersheds: implications for management and downstream water quality
Biogeochemistry · 2022
- Cover crops control nitrogen and phosphorus transport from two agricultural watersheds at multiple measurement scales
Agriculture Ecosystems & Environment · 2021
- The Case for Studying Highly Modified Agricultural Streams: Farming for Biogeochemical Insights
Limnology and Oceanography Bulletin · 2021
- Agriculture Ecosystems & Environment×2
- Frontiers in Ecology and Evolution×2
- Global Biogeochemical Cycles×1
- Hydrological Processes×1
- Limnology and Oceanography Bulletin×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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