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Pamela L Sullivan

University Of Kansas Center For Research Inc

$3,506,329
Attributed
$4,593,522
Total exposure
12
Grants
11
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 $1.8M · FY201825
$2M$1.5M$1M$500K$0
'18
'19
'20
'21
'22
'23
'24
'25

Funding mix

By agency

NSF$4,593,522 · 12

By mechanism

$4,593,522 · 12

Top collaborators

Grant awards (12)

Collaborative Research: ULTRA-Data: Developing global riverine solute regime and synchrony frameworks for understanding watershed-scale controls on river biogeochemical signals$292,970
· FY2025 · BIO · contact PI
Collaborative Research: How do changes in land cover and climate perturb grassland water and carbon cycles below-ground?$405,824
· FY2024 · GEO · contact PI
Equipment: EA: Acquisition of Electrical Resistivity Instrumentation to Elucidate Hydrologic Processes in the Critical Zone$101,694
· FY2023 · GEO · contact PI
Conference: Water for a changing planet: Rethinking land use and water supply in the face of population growth and climate breakdown.$99,910
· FY2022 · TIP · contact PI
Collaborative Research: How roots, regolith, rock and climate interact over decades to centuries — the R3-C Frontier.$641,443
· FY2021 · GEO · contact PI
SitS: Collaborative Research: Soils are signaling shifts in aggregate life-cycles: What does this mean for water, carbon and climate feedbacks in the Anthropocene?$268,335
· FY2021 · GEO · contact PI
Collaborative Research: Parsing out the controls of climate, geology, and land use on riverine (234U/238U) ratios in Texas river basins$227,150
· FY2020 · GEO · contact PI
RAISE-SitS: Designing models to forecast how biogeochemical fluctuations in soil systems govern soil development, terrestrial water storage and ecosystem nutrient fluxes$648,574
· FY2019 · GEO · contact PI
CZ RCN: Expanding knowledge of the Earth's Critical Zone: connecting data to models$499,698
· FY2019 · GEO
Collaborative Research - Digging deeper: Do deeper roots enhance deeper water and carbon fluxes and alter the trajectory of chemical weathering in woody-encroached grasslands?$334,681
· FY2019 · GEO · contact PI
Collaborative Research - Digging deeper: Do deeper roots enhance deeper water and carbon fluxes and alter the trajectory of chemical weathering in woody-encroached grasslands?$334,681
· FY2019 · GEO · contact PI
RAISE-SitS: Designing models to forecast how biogeochemical fluctuations in soil systems govern soil development, terrestrial water storage and ecosystem nutrient fluxes$738,562
· FY2018 · GEO · contact PI