← Leaderboards
Matthew Huber
Purdue University
$4,369,878
Attributed
$10,410,620
Total exposure
19
Grants
14
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 $3.7M · FY2005–25$5M$3.8M$2.5M$1.3M$0
'05
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NSF$10,410,620 · 19
By mechanism
—$10,410,620 · 19
Top collaborators
- Jing Liu2 shared
- Noah Diffenbaugh2 shared
- Xiaohui Carol Song2 shared
- Alexander Gluhovsky1 shared
- Danielle Grogan1 shared
- Dominique Van Der Mensbrugghe1 shared
- Elizabett A Hillery1 shared
- Gabriel J Bowen1 shared
Grant awards (19)
Belmont Forum Collaborative Research: IMProving Heat-Health RESponse in South Asia$595,666
· FY2025 · GEO · contact PI
NSF-SNSF: Past warm climates: Reconciling simulations and proxies$359,809
· FY2024 · GEO · contact PI
Collaborative Research: SCIPE: CyberInfrastructure Professionals InnoVating and brOadening the adoption of advanced Technologies (CI PIVOT)$3,749,415
· FY2023 · CSE
Collaborative Research: NSFGEO-NERC: Solving the conundrum of the Miocene South Asian Monsoon.$327,974
· FY2022 · GEO · contact PI
AccelNet:GLASSNET: Networking Global to Local Analyses to Inform Sustainable Investments in Land and Water Resources$1,999,991
· FY2021 · O/D
Collaborative Research: Integrating Eocene Shark Paleoecology and Climate Modeling to reveal Southern Ocean Circulation and Antarctic Glaciation$317,382
· FY2019 · GEO · contact PI
Innovations at the Nexus of Food, Energy, and Water Systems (INFEWS: U.S.-China): A multi-scale integrated modeling approach to managing the transition to sustainability$499,341
· FY2018 · ENG · contact PI
CyberTraining: CIU:Cross-disciplinary Training for Findable, Accessible, Interoperable, and Reusable (FAIR) science$498,148
· FY2018 · CSE
Collaborative Research: P2C2: Re-assessing Pliocene and Miocene warm climates and identifying the 'missing physics' to explain them$243,674
· FY2016 · GEO · contact PI
The Nitrogen Fertilizer Industry: Integrating Industrial Ecology and Political Ecology Approaches$192,777
· FY2014 · SBE · contact PI
Collaborative Research: Improved Cenozoic Paleoelevation Estimates for the Sierra Nevada, California: Linking Geodynamics and the Atmospheric Sciences$125,911
· FY2014 · GEO · contact PI
Collaborative Research: Improved Cenozoic Paleoelevation Estimates for the Sierra Nevada, California: Linking Geodynamics and the Atmospheric Sciences$210,187
· FY2011 · GEO · contact PI
Collaborative Research: Integrating proxies and Earth System Models to elucidate water cycle dynamics:Did global warming cause an enhanced hydrological cycle in the Eocene?$472,346
· FY2009 · GEO · contact PI
Collaborative Research: P2C2--Understanding the Role of a High-Latitude Convective Cloud Feedback in Equable and Future Climate Dynamics$188,021
· FY2009 · GEO · contact PI
Collaborative Research: The Role of Deep-Ocean Circulation in Greenhouse Climates: Integrating Numerical Simulations with Proxy Data of Water Mass Composition$55,663
· FY2009 · GEO · contact PI
SGER: Testing the Tropical Cyclone-Induced Ocean Heat Pump Hypothesis in CCSM$37,806
· FY2007 · GEO · contact PI
Sub-Daily Scale Extreme Precipitation in Future Climate-Change Scenarios: A Pilot Study$275,075
· FY2006 · GEO
Collaborative Research: Water Balance of western North America: Dynamics of the Miocene summer monsoon$230,060
· FY2005 · GEO
SGER: Construction of 'Deep' Paleoclimate Community Climate System Model (CCSM) Simulations$31,374
· FY2004 · GEO · contact PI