2026 Peter G. Baines: 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	37	8785	8427	323	314	96	7535

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Environmental Sciences

8785

8427

323

314

7535

Overview

Peter G. Baines is affiliated with the University of Melbourne in Australia. Their research spans key areas within biochemistry, genetics, molecular biology, and medicine.

The scientist's recent publication record includes the paper titled Inhalation Delivered RNA Aptamer for Therapeutics against SARS-CoV2, published in 2023 in bioRxiv (Cold Spring Harbor Laboratory).

Frequent co-authors collaborating with Peter G. Baines include:

S. I. Sacks
Min-Sun Song
Jiehua Zhou
Alberto Herrera
John J. Rossi

Baines' work is often disseminated through the venue bioRxiv (Cold Spring Harbor Laboratory).

The scientist has also contributed to book publications, notably with Cambridge University Press. A significant book authored is Topographic Effects in Stratified Flows, published in 2022, which has attracted 11 citations.

Their main fields of study are:

Biochemistry, Genetics and Molecular Biology
Medicine

Subfields of particular focus include:

Molecular Biology
Infectious Diseases

Peter G. Baines' research topics cover:

Advanced biosensing and bioanalysis techniques
RNA Interference and Gene Delivery
SARS-CoV-2 detection and testing

Best Publications

Topographic Effects in Stratified Flows

Peter G. Baines

1342
Citations
On internal tide generation models

P.G. Baines

965
Citations
On thermohaline convection with linear gradients

P. G. Baines;A. E. Gill

503
Citations
Decadal to multidecadal variability and the climate change background

David Parker;Chris Folland;Adam Scaife;Jeff Knight

329
Citations
The generation of internal tides by flat-bump topography

P.G. Baines

285
Citations
A unified description of two-layer flow over topography

Peter G. Baines

244
Citations
Observations and Modelling of Antarctic Downslope Flows: A Review

Peter G. Baines;Scott Condie

218
Citations
Evidence for a Rapid Global Climate Shift across the Late 1960s

Peter G. Baines;Chris K. Folland

207
Citations
Upstream Blocking and Airflow Over Mountains

Peter G. Baines

199
Citations
Mixing in flows down gentle slopes into stratified environments

Peter G. Baines

182
Citations
The Generation of Internal Tides over Steep Continental Slopes

P. G. Baines

173
Citations
On the mechanism of shear flow instabilities

Peter G. Baines;Humio Mitsudera

170
Citations
The stability of planetary waves on a sphere

P. G. Baines

164
Citations
Internal Tides, Internal Waves and Near-Inertial Motions

Peter G. Baines

131
Citations
Stratified Flow over Two-Dimensional Topography in Fluid of Infinite Depth: A Laboratory Simulation.

Peter Baines;Klaus-Peter Hoinka

126
Citations
Observations of stratified flow past Three‐dimensional barriers

P. G. Baines

121
Citations
Eddy formation by dense flows on slopes in a rotating fluid

Gregory F. Lane-Serff;Peter G. Baines

117
Citations
Upstream influence and Long's model in stratified flows

P. G. Baines

117
Citations
Laboratory studies of topographic effects in rotating and/or stratified fluids

P. G. Baines;P. A. Davies

114
Citations
Dynamics of giant volcanic ash clouds from supervolcanic eruptions

P. G. Baines;P. G. Baines;R. S. J. Sparks

111
Citations
Mixing regimes for the flow of dense fluid down slopes into stratified environments

Peter G. Baines

101
Citations
Forcing of the Antarctic Circumpolar Wave by El Niño-Southern Oscillation teleconnections

Wenju Cai;Peter G. Baines

79
Citations
Topographic Effects on the Mean Tropospheric Flow Patterns around Antarctica

Peter G. Baines;Klaus Fraedrich

76
Citations
Comments on “Southern Mid- to High-Latitude Variability, a Zonal Wavenumber-3 Pattern, and the Antarctic Circumpolar Wave in the CSIRO Coupled Model”

Wenju Cai;Peter G. Baines;Hal B. Gordon

74
Citations

Frequent Co-Authors

Wenju Cai Ocean University of China

Roger Grimshaw Loughborough University

Chris K. Folland Met Office

David Parker Met Office

Martin J. Wooster King's College London

Jeff R. Knight Met Office

Buwen Dong University of Reading

Adam A. Scaife Met Office

Klaus Fraedrich Max Planck Society

Marko Scholze Lund University

External Links

Wikipedia of Peter G. Baines Personal website of Peter G. Baines

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