Nabil Al-Aamery

University of Kentucky

H-index: 7

North America-United States

About Nabil Al-Aamery

Nabil Al-Aamery, With an exceptional h-index of 7 and a recent h-index of 7 (since 2020), a distinguished researcher at University of Kentucky, specializes in the field of Water Resources and Climate Change.

His recent articles reflect a diverse array of research interests and contributions to the field:

Investigating sediment transport in karst using hydrograph unmixing, sediment transport modeling and multi-source hysteresis

Sediment degradation experiments for a low gradient stream suggest the watershed’s connectivity regime exhibits control on stream biogeochemistry

Simulating hydrologic pathway contributions in fluvial and karst settings: an evaluation of conceptual, physically-based, and deep learning modeling approaches

Sediment transport investigation in a karst aquifer hypothesizes controls on internal versus external sediment origin and saturation impact on hysteresis

Variance decomposition of forecasted sediment transport in a lowland watershed using global climate model ensembles

Seasonality of recharge drives spatial and temporal nitrate removal in a karst conduit as evidenced by nitrogen isotope modeling

Numerical model development for investigating hydrologic pathways in shallow fluviokarst

Integrating connectivity theory within watershed modelling part II: Application and evaluating structural and functional connectivity

Nabil Al-Aamery Information

University	University of Kentucky
Position	___
Citations(all)	191
Citations(since 2020)	176
Cited By	72
hIndex(all)	7
hIndex(since 2020)	7
i10Index(all)	7
i10Index(since 2020)	6
Email	Access Email
University Profile Page	University of Kentucky
Google Scholar	View Google Scholar Profile

Nabil Al-Aamery Skills & Research Interests

Water Resources and Climate Change

Nabil Al-Aamery

University of Kentucky

About Nabil Al-Aamery

Nabil Al-Aamery Information

Nabil Al-Aamery Skills & Research Interests

Top articles of Nabil Al-Aamery

Investigating sediment transport in karst using hydrograph unmixing, sediment transport modeling and multi-source hysteresis

James Fox

Admin Husic

Junfeng Zhu

Sediment degradation experiments for a low gradient stream suggest the watershed’s connectivity regime exhibits control on stream biogeochemistry

Erik Pollock

Jason Backus

Simulating hydrologic pathway contributions in fluvial and karst settings: an evaluation of conceptual, physically-based, and deep learning modeling approaches

Admin Husic

Nabil Al-Aamery

Sediment transport investigation in a karst aquifer hypothesizes controls on internal versus external sediment origin and saturation impact on hysteresis

Admin Husic

Junfeng Zhu

Variance decomposition of forecasted sediment transport in a lowland watershed using global climate model ensembles

Seasonality of recharge drives spatial and temporal nitrate removal in a karst conduit as evidenced by nitrogen isotope modeling

Numerical model development for investigating hydrologic pathways in shallow fluviokarst

Ethan Adams

James Fox

Admin Husic

Junfeng Zhu

Carmen Agouridis

Integrating connectivity theory within watershed modelling part II: Application and evaluating structural and functional connectivity

David Tyler Mahoney

James Fox

Nabil Al-Aamery

Variance Decomposition of Forecasted Water Budget and Sediment Processes under Changing Climate in Fluvial and Fluviokarst Systems