Eveline Pinseel Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Researcher

University of Arkansas

Last publication 2025 Last refreshed 2026-04-01

faculty

17 h-index 65 pubs 975 cited

Research Areas

Links

ORCID Lab Website

OverviewAI-generated summary

Eveline Pinseel's research focuses on microbial community ecology and physiology, with a specific emphasis on diatoms. Her work investigates the evolutionary history and biogeography of microbial communities, particularly in polar lake environments. Pinseel has published research on how diatoms define freshwater biogeography in Antarctica and how they adapt to varying salinity levels, such as along the Baltic Sea salinity cline. Her publications also explore the impact of climate dynamics on diatom extinction in Antarctica and assess diatom endemism in high-altitude alpine lakes. She has also examined the dynamic response of diatoms to hypo-osmotic stress and freshwater acclimation. Pinseel's scholarship metrics include an h-index of 17, with 65 total publications and 975 total citations. She frequently collaborates with researchers at the University of Arkansas at Fayetteville, including Andrew J. Alverson, Elizabeth C. Ruck, Kala M. Downey, and Wade R. Roberts, with whom she shares numerous publications.

Metrics

h-index: 17
Publications: 65
Citations: 975

Selected Publications

Genome‐Wide Adaptation to a Complex Environmental Gradient in a Keystone Phytoplankton Species (2025)

5 citations DOI OpenAlex
The Divergent Responses of Salinity Generalists to Hyposaline Stress Provide Insights Into the Colonisation of Freshwaters by Diatoms (2024)

6 citations DOI OpenAlex
A New Dawn for Protist Biogeography (2024)

14 citations DOI OpenAlex
Soil Diatoms and Their Use in Bioindication (2024)

2 citations DOI OpenAlex
The divergent responses of salinity generalists to hyposaline stress provide insights into the colonization of freshwaters by diatoms (2024)

DOI OpenAlex
Dataset from: Resolving marine–freshwater transitions by diatoms through a fog of gene tree discordance (2023)

DOI OpenAlex
Supporting data for Bryłka et al., 2023 Gene duplication, shifting selection, and functional diversification of silicon transporter proteins in marine and freshwater diatoms. (2023)

DOI OpenAlex
Dataset from: Resolving marine–freshwater transitions by diatoms through a fog of gene tree discordance (2023)

DOI OpenAlex
Supporting data for Bryłka et al., 2023 Gene duplication, shifting selection, and functional diversification of silicon transporter proteins in marine and freshwater diatoms. (2023)

DOI OpenAlex
Gene Duplication, Shifting Selection, and Dosage Balance of Silicon Transporter Proteins in Marine and Freshwater Diatoms (2023)

DOI OpenAlex
Local adaptation of a marine diatom is governed by genome-wide changes in diverse metabolic processes (2023)

8 citations DOI OpenAlex
Local adaptation of a marine diatom is governed by genome-wide changes in diverse metabolic processes (2023)

1 citation DOI OpenAlex
Resolving Marine–Freshwater Transitions by Diatoms Through a Fog of Gene Tree Discordance (2023)

20 citations DOI OpenAlex
Diatom endemism and taxonomic turnover: Assessment in high-altitude alpine lakes covering a large geographical range (2023)

19 citations DOI OpenAlex
The dynamic response to hypoosmotic stress reveals distinct stages of freshwater acclimation by a euryhaline diatom (2022)

DOI OpenAlex