2026 Roger H. Shaw: Environmental Sciences Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Environmental Sciences	38	8533	8192	3049	2834	69	7927

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Environmental Sciences

8533

8192

3049

2834

7927

Overview

Roger H. Shaw is affiliated with the University of California, Davis in the United States. Their research spans across multiple fields, primarily Mathematics and Medicine, with a focus on Modeling and Simulation as well as Public Health, Environmental and Occupational Health.

Shaw's work covers topics related to COVID-19 epidemiological studies and Mathematical and Theoretical Epidemiology and Ecology Models. These topics reflect a focus on understanding disease propagation and theoretical frameworks for epidemiological patterns.

The scientist has published in at least one known venue, the Journal of Theoretical Biology, where the publication record includes a paper titled A model of COVID-19 propagation based on a gamma subordinated negative binomial branching process, published in 2020. This paper contributes to theoretical biology by modeling virus spread dynamics and has been cited 15 times.

Roger H. Shaw's frequent co-authors include Jérôme Levesque and David W. Maybury

Journal of Theoretical Biology

COVID-19 epidemiological studies
Mathematical and Theoretical Epidemiology and Ecology Models

Mathematics
Medicine

Modeling and Simulation
Public Health, Environmental and Occupational Health

Best Publications

Averaging procedures for flow within vegetation canopies

M. R. Raupach;R. H. Shaw

896
Citations
Large-eddy simulation of turbulent flow above and within a forest

Roger H. Shaw;Ulrich Schumann

607
Citations
Observation of organized structure in turbulent flow within and above a forest canopy

W. Gao;R. H. Shaw

541
Citations
Aerodynamic roughness of a plant canopy: A numerical experiment

Roger H Shaw;A.R Pereira

467
Citations
Turbulence structure above a vegetation canopy

John J. Finnigan;Roger H. Shaw;Edward G. Patton

415
Citations
A wind tunnel study of air flow in waving wheat: Two-point velocity statistics

R. H. Shaw;Y. Brunet;J. J. Finnigan;M. R. Raupach

342
Citations
Leaf area measurements based on hemispheric photographs and leaf-litter collection in a deciduous forest during autumn leaf-fall

H.H. Neumann;G. Den Hartog;R.H. Shaw

330
Citations
Structure of the Reynolds Stress in a Canopy Layer

Roger H. Shaw;Jahangir Tavangar;David P. Ward

326
Citations
Influence of foliar density and thermal stability on profiles of Reynolds stress and turbulence intensity in a deciduous forest

R. H. Shaw;G. Den Hartog;H. H. Neumann

272
Citations
Turbulent kinetic energy budgets from a large-eddy simulation of airflow above and within a forest canopy

Michael J. Dwyer;Edward G. Patton;Roger H. Shaw

203
Citations
Large-Eddy Simulation of Windbreak Flow

Edward G. Patton;Roger H. Shaw;Murray J. Judd;Michael R. Raupach

190
Citations
Turbulent statistics of neutrally stratified flow within and above a sparse forest from large-eddy simulation and field observations

Hong-Bing Su;Roger H. Shaw;Kyaw Tha Paw;Chin-Hoh Moeng

189
Citations
Secondary Wind Speed Maxima Inside Plant Canopies

Unknown

182
Citations
On coherent structures in turbulence above and within agricultural plant canopies

Kyaw Tha Paw U;Yves Brunet;Serge Collineau;Roger H. Shaw

165
Citations
Canopy element influences on resolved- and subgrid-scale energy within a large-eddy simulation

Roger H. Shaw;Edward G. Patton

155
Citations
Large-eddy Simulation of Turbulent Flow Across a Forest Edge. Part I: Flow Statistics

Bai Yang;Bai Yang;Michael R. Raupach;Roger H. Shaw;Kyaw Tha Paw U

151
Citations
Carbon Dioxide Exchange Between an Old-growth Forest and the Atmosphere

Kyaw Tha Paw U;Matthias Falk;Thomas H. Suchanek;Susan L. Ustin

148
Citations
Atmospheric Stability Influences on Coupled Boundary Layer and Canopy Turbulence

Edward G. Patton;Peter P. Sullivan;Roger H. Shaw;John J. Finnigan

129
Citations
Particle resuspension in a turbulent boundary layer-observed and modeled

Unknown

128
Citations
Detection of temperature ramps and flow structures at a deciduous forest site

Roger H. Shaw;Kyaw Tha Paw U;Weigang Gao

118
Citations
A Wind-Tunnel Study of Airflow in Waving Wheat: An EOF Analysis of the Structure of the Large-Eddy Motion

J. J. Finnigan;R. H. Shaw

112
Citations
Large-eddy Simulation of Turbulent Flow across a Forest Edge. Part II: Momentum and Turbulent Kinetic Energy Budgets

Bai Yang;Bai Yang;Andrew P. Morse;Roger H. Shaw;Kyaw Tha Paw U

105
Citations

Frequent Co-Authors

Kyaw Tha Paw U University of California, Davis

H. H. Neumann Environment and Climate Change Canada

John Finnigan Commonwealth Scientific and Industrial Research Organisation

William J. Massman US Forest Service

Andrew P. Morse University of Liverpool

J. I. MacPherson National Research Council Canada

Peter P. Sullivan National Center for Atmospheric Research

Yves Brunet INRAE : Institut national de recherche pour l'agriculture, l'alimentation et l'environnement

Sean C. Thomas University of Toronto

Theodore C. Hsiao University of California, Davis

External Links

Personal website of Roger H. Shaw

If you think any of the details on this page are incorrect, let us know.

Related Online Degrees & Career Pathways

Pursuing a degree in Environmental Sciences opens the door to diverse career paths that address critical global challenges. For those interested in broadening their expertise or exploring interdisciplinary fields, programs like the cheapest dsw program offer avenues to integrate social work principles with environmental advocacy, especially in community-focused sustainability efforts.

If you seek a flexible yet comprehensive education, the cheap online general studies degree can serve as a solid foundation. This degree allows students to customize their learning around environmental topics while developing skills applicable across industries.

For those looking to combine ease with relevance, exploring the easiest bachelor degree options might be appealing. Such programs can facilitate timely graduation, enabling quicker entry into environmental careers without compromising quality.

Specialized online degrees, like the online geology degree, closely align with Environmental Sciences. They provide critical knowledge about Earth systems, essential for roles in conservation, resource management, and environmental consulting.

Choosing the right online program depends on your career goals, flexibility needs, and budget. These varied options highlight the growing accessibility of quality environmental education in the digital age.