← Leaderboards
Karen G Lloyd
University Of Tennessee Knoxville
$2,137,869
Attributed
$3,712,804
Total exposure
9
Grants
6
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $1.9M · FY2014–25$2M$1.5M$1M$500K$0
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'25
Funding mix
By agency
NSF$3,712,804 · 9
By mechanism
—$3,712,804 · 9
Top collaborators
- Tatiana A Vishnivetskaya2 shared
- Alice C Layton1 shared
- Andrew D Steen1 shared
- Benjamin M Fitzpatrick1 shared
- Clara Chan1 shared
- Susan M Pfiffner1 shared
Grant awards (9)
Collaborative Research: Controls on Aerobic Methane Oxidation in the Deep Sea$291,078
· FY2025 · GEO · contact PI
Collaborative Research: Characterizing and quantifying carbon sequestration processes across the Andean Convergent Margin$130,832
· FY2025 · GEO · contact PI
Conference: 2024 Geobiology GRC/GRS$49,814
· FY2023 · GEO
Collaborative Research: Characterizing and quantifying carbon sequestration processes across the Andean Convergent Margin$500,761
· FY2022 · GEO · contact PI
RAPID: Hot spring microbial response to magma intrusion at Fagradalsfjall volcano, Iceland$90,969
· FY2021 · BIO · contact PI
Collaborative Research: In Situ Oxidation Rates of Methane Injected from Seafloor Gas Seeps$482,284
· FY2020 · GEO · contact PI
IRES: Undergraduate Research Opportunities in Microbiology and Biogeosciences of Siberian Deep Subsurface Permafrost$249,987
· FY2015 · O/D
DIMENSIONS: COLLABORATIVE RESEARCH: GENETIC, PHYLOGENETIC, AND FUNCTIONAL MICROBIAL DIVERSITY IN PERMANENTLY FROZEN AQUATIC SEDIMENTS OVER GEOLOGICAL TIME$1,554,984
· FY2014 · BIO
Quantifying the contribution of the deep biosphere in the marine sediment carbon cycle using deep-sea sediment cores from the Baltic Sea$362,095
· FY2014 · GEO · contact PI