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Chris Chapman
Chris Chapman
CSIRO Oceans and Atmosphere
Verified email at csiro.au
Title
Cited by
Cited by
Year
Defining Southern Ocean fronts and their influence on biological and physical processes in a changing climate
CC Chapman, MA Lea, A Meyer, JB Sallée, M Hindell
Nature Climate Change 10 (3), 209-219, 2020
1462020
ACCESS-OM2 v1. 0: a global ocean–sea ice model at three resolutions
AE Kiss, AMC Hogg, N Hannah, F Boeira Dias, GB Brassington, ...
Geoscientific Model Development 13 (2), 401-442, 2020
1192020
The southern ocean meridional overturning in the sea-ice sector is driven by freshwater fluxes
V Pellichero, JB Sallée, CC Chapman, SM Downes
Nature communications 9 (1), 1789, 2018
992018
Reconstruction of Sub-Surface Velocities from Satellite Observations Using Iterative Self-Organizing Maps
C Chapman, AA Charantonis
IEEE Geoscience and Remote Sensing Letters 14 (5), 617-620, 2017
642017
The dynamics of Southern Ocean storm tracks
CC Chapman, AMC Hogg, AE Kiss, SR Rintoul
Journal of Physical Oceanography 45 (3), 884-903, 2015
462015
New perspectives on frontal variability in the Southern Ocean
CC Chapman
Journal of Physical Oceanography 47 (5), 1151-1168, 2017
432017
Southern Ocean jets and how to find them: Improving and comparing common jet detection methods
CC Chapman
Journal of Geophysical Research: Oceans 119 (7), 4318-4339, 2014
422014
Observational needs for improving ocean and coupled reanalysis, S2S prediction, and decadal prediction
SG Penny, S Akella, MA Balmaseda, P Browne, JA Carton, M Chevallier, ...
Frontiers in Marine Science 6, 391, 2019
342019
Isopycnal mixing suppression by the Antarctic Circumpolar Current and the Southern Ocean meridional overturning circulation
C Chapman, JB Sallée
Journal of Physical Oceanography 47 (8), 2023-2045, 2017
232017
Variability of Southern Ocean jets near topography
CC Chapman, R Morrow
Journal of physical oceanography 44 (2), 676-693, 2014
192014
CAFE60v1: a 60-year large ensemble climate reanalysis. part I: system design, model configuration, and data assimilation
TJ O’Kane, PA Sandery, V Kitsios, P Sakov, MA Chamberlain, MA Collier, ...
Journal of Climate 34 (13), 5153-5169, 2021
152021
Can we reconstruct mean and eddy fluxes from Argo floats?
C Chapman, JB Sallée
Ocean Modelling 120, 83-100, 2017
152017
Australian northwest cloudbands and their relationship to atmospheric rivers and precipitation
AS Black, JS Risbey, CC Chapman, DP Monselesan, TS Moore II, ...
Monthly Weather Review 149 (4), 1125-1139, 2021
122021
CAFE60v1: A 60-year large ensemble climate reanalysis. Part II: Evaluation
TJ O’Kane, PA Sandery, V Kitsios, P Sakov, MA Chamberlain, DT Squire, ...
Journal of Climate 34 (13), 5171-5194, 2021
112021
Jet jumping: Low-frequency variability in the Southern Ocean
CC Chapman, A McC. Hogg
Journal of physical oceanography 43 (5), 990-1003, 2013
92013
Interannual subtropical Indian Ocean variability due to long baroclinic planetary waves
CC Chapman, BM Sloyan, TJ O’Kane, MA Chamberlain
Journal of Climate 33 (16), 6765-6791, 2020
72020
A large-scale view of marine heatwaves revealed by archetype analysis
CC Chapman, DP Monselesan, JS Risbey, M Feng, BM Sloyan
Nature Communications 13 (1), 7843, 2022
62022
Common issues in verification of climate forecasts and projections
JS Risbey, DT Squire, M Baldissera Pacchetti, AS Black, CC Chapman, ...
Climate 10 (6), 83, 2022
42022
Frontal eddies provide an oceanographic triad for favorable larval fish habitat
IM Suthers, A Schaeffer, M Archer, M Roughan, DA Griffin, CC Chapman, ...
Limnology and Oceanography, 2023
32023
Archetypal analysis of geophysical data illustrated by sea surface temperature
AS Black, DP Monselesan, JS Risbey, BM Sloyan, CC Chapman, ...
Artificial Intelligence for the Earth Systems 1 (3), e210007, 2022
32022
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