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Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format
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Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format Example of Journal of Physical Oceanography format
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Journal of Physical Oceanography — Template for authors

Publisher: American Meteorological Society
Guideline source
Categories Rank Trend in last 3 yrs
Oceanography #17 of 128 down down by 6 ranks
journal-quality-icon Journal quality:
High
calendar-icon Last 4 years overview: 687 Published Papers | 3778 Citations
indexed-in-icon Indexed in: Scopus
last-updated-icon Last updated: 03/07/2020
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Related Journals

open access Open Access

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SJR: 0.557
SNIP: 0.956
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Frontiers in Marine Science

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Journal Performance & Insights

Impact Factor

CiteRatio

Determines the importance of a journal by taking a measure of frequency with which the average article in a journal has been cited in a particular year.

A measure of average citations received per peer-reviewed paper published in the journal.

3.318

2% from 2018

Impact factor for Journal of Physical Oceanography from 2016 - 2019
Year Value
2019 3.318
2018 3.389
2017 3.086
2016 3.13
graph view Graph view
table view Table view

5.5

11% from 2019

CiteRatio for Journal of Physical Oceanography from 2016 - 2020
Year Value
2020 5.5
2019 6.2
2018 5.6
2017 5.6
2016 5.4
graph view Graph view
table view Table view

insights Insights

  • Impact factor of this journal has decreased by 2% in last year.
  • This journal’s impact factor is in the top 10 percentile category.

insights Insights

  • CiteRatio of this journal has decreased by 11% in last years.
  • This journal’s CiteRatio is in the top 10 percentile category.

SCImago Journal Rank (SJR)

Source Normalized Impact per Paper (SNIP)

Measures weighted citations received by the journal. Citation weighting depends on the categories and prestige of the citing journal.

Measures actual citations received relative to citations expected for the journal's category.

1.706

26% from 2019

SJR for Journal of Physical Oceanography from 2016 - 2020
Year Value
2020 1.706
2019 2.292
2018 2.48
2017 2.461
2016 2.741
graph view Graph view
table view Table view

1.429

10% from 2019

SNIP for Journal of Physical Oceanography from 2016 - 2020
Year Value
2020 1.429
2019 1.588
2018 1.37
2017 1.289
2016 1.371
graph view Graph view
table view Table view

insights Insights

  • SJR of this journal has decreased by 26% in last years.
  • This journal’s SJR is in the top 10 percentile category.

insights Insights

  • SNIP of this journal has decreased by 10% in last years.
  • This journal’s SNIP is in the top 10 percentile category.

Journal of Physical Oceanography

Guideline source: View

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American Meteorological Society

Journal of Physical Oceanography

Research related to the physics of the ocean and to processes operating at its boundaries. Observational, theoretical, and modeling studies are all welcome, especially those that focus on elucidating specific physical processes. Papers that investigate interactions with other ...... Read More

Oceanography

Earth and Planetary Sciences

i
Last updated on
02 Jul 2020
i
ISSN
0022-3670
i
Impact Factor
High - 1.379
i
Acceptance Rate
Not provided
i
Frequency
Not provided
i
Open Access
No
i
Sherpa RoMEO Archiving Policy
Yellow faq
i
Plagiarism Check
Available via Turnitin
i
Endnote Style
Download Available
i
Bibliography Name
numbered
i
Citation Type
Author Year
(Blonder et al. 1982)
i
Bibliography Example
 Blonder, G. E., M. Tinkham, and T. M. Klapwijk, 1982: Transition from metallic to tunneling regimes in superconducting microconstrictions: Excess current, charge imbalance, and supercurrent conversion. Phys. Rev. B, 25 (7), 4515–4532, URL 10.1103/PhysRevB.25.4515.

Top papers written in this journal

Journal Article DOI: 10.1175/1520-0485(1990)020<0150:IMIOCM>2.0.CO;2
Isopycnal mixing in ocean circulation models
Peter R. Gent1, James C. McWilliams1
National Center for Atmospheric Research1
01 Jan 1990 - Journal of Physical Oceanography

Abstract:

A subgrid-scale form for mesoscale eddy mixing on isopycnal surfaces is proposed for use in non-eddy-resolving ocean circulation models. The mixing is applied in isopycnal coordinates to isopycnal layer thickness, or inverse density gradient, as well as to passive scalars, temperature and salinity. The transformation of these... A subgrid-scale form for mesoscale eddy mixing on isopycnal surfaces is proposed for use in non-eddy-resolving ocean circulation models. The mixing is applied in isopycnal coordinates to isopycnal layer thickness, or inverse density gradient, as well as to passive scalars, temperature and salinity. The transformation of these mixing forms to physical coordinates is also presented. read more read less

Topics:

Isopycnal (71%)71% related to the paper, Mixing (physics) (55%)55% related to the paper, Ocean general circulation model (55%)55% related to the paper, Parallel Ocean Program (54%)54% related to the paper, Temperature salinity diagrams (52%)52% related to the paper
3,107 Citations
Journal Article DOI: 10.1175/1520-0485(1981)011<0324:OOMFMI>2.0.CO;2
Open Ocean Momentum Flux Measurements in Moderate to Strong Winds
W. G. Large1, Stephen Pond1
University of British Columbia1
01 Mar 1981 - Journal of Physical Oceanography

Abstract:

Measurements of the momentum flux were made by the Reynolds flux and dissipation methods on a deep water stable tower operated by the Bedford Institute of Oceanography, A modified Gill propeller-vane anemometer was used to measure the velocity. Drag coefficients from 196 Reynolds flux measurements agree well with those report... Measurements of the momentum flux were made by the Reynolds flux and dissipation methods on a deep water stable tower operated by the Bedford Institute of Oceanography, A modified Gill propeller-vane anemometer was used to measure the velocity. Drag coefficients from 196 Reynolds flux measurements agree well with those reported in Smith (1980) based on independent observations at the same site. Based on 192 runs, a comparison of the dissipation and Reynolds flux results shows excellent agreement on average, for wind speeds from 4 to 20 m s−1. The much more extensive dissipation data set (1086 h from the tower and 505 h from the weathership PAPA, CCGS Quadra) was used to investigate the dependence of the drag coefficient on wind speed, fetch and stability. The drag coefficient reduced to 10 m height and neutral conditions (CDN), is independent of stability and fetch (for fetch/height ≳800) but increases with wind speed above 10 m s−1. Some time series of the momentum flux and drag coefficient are ... read more read less

Topics:

Drag coefficient (63%)63% related to the paper, Fetch (57%)57% related to the paper, Wind speed (54%)54% related to the paper, Flux (53%)53% related to the paper, Anemometer (52%)52% related to the paper
2,638 Citations
Journal Article DOI: 10.1175/1520-0485(1979)009<0815:ADTSIM>2.0.CO;2
A Dynamic Thermodynamic Sea Ice Model
William D. Hibler1
Cold Regions Research and Engineering Laboratory1
01 Jul 1979 - Journal of Physical Oceanography

Abstract:

A numerical model for the simulation of sea ice circulation and thickness over a seasonal cycle is presented. This model is used to investigate the effects of ice dynamics on Arctic ice thickness and air-sea heat flux characteristics by carrying out several numerical simulations over the entire Arctic Ocean region. The essent... A numerical model for the simulation of sea ice circulation and thickness over a seasonal cycle is presented. This model is used to investigate the effects of ice dynamics on Arctic ice thickness and air-sea heat flux characteristics by carrying out several numerical simulations over the entire Arctic Ocean region. The essential idea in the model is to couple the dynamics to the ice thickness characteristics by allowing the ice interaction to become stronger as the ice becomes thicker and/or contains a lower areas percentage of thin ice. The dynamics in turn causes high oceanic heat losses in regions of ice divergence and reduced heat losses in regions of convergence. TO model these effects consistently the ice is considered to interact in a plastic manner with the plastic strength chosen to depend on the ice thickness and concentration. The thickness and concentration, in turn, evolve according to continuity equations which include changes in ice mass and percent of open water due to advection, ... read more read less

Topics:

Sea ice thickness (80%)80% related to the paper, Arctic ice pack (80%)80% related to the paper, Sea ice (79%)79% related to the paper, Ice divide (78%)78% related to the paper, Sea ice growth processes (77%)77% related to the paper
1,958 Citations
Journal Article DOI: 10.1175/1520-0485(1980)010<0083:EOTLRO>2.0.CO;2
Estimates of the Local Rate of Vertical Diffusion from Dissipation Measurements
Thomas R. Osborn1
University of British Columbia1
01 Jan 1980 - Journal of Physical Oceanography

Abstract:

Scaling of the turbulent energy equation suggests the balance of terms in the ocean is between turbulent production, dissipation and the loss to buoyancy. In this paper two models for the source of oceanic turbulence are considered; namely, production by the Reynolds stress working against a time variable mean shear, and the ... Scaling of the turbulent energy equation suggests the balance of terms in the ocean is between turbulent production, dissipation and the loss to buoyancy. In this paper two models for the source of oceanic turbulence are considered; namely, production by the Reynolds stress working against a time variable mean shear, and the gravitational collapse of Kelvin-Helmholtz instabilities. Both of these shear instabilities are believed to be important in the ocean. Using values for the critical flux Richardson number and the measurements from studies of Kelvin-Helmholtz instabilities, the efficiency of turbulent mixing is shown to be comparable for the two models. Therefore, a general relationship between the dissipation rate and the buoyancy flux due to the small-scale turbulent velocity fluctuations is derived. The result is expressed as an upper bound on the value of the turbulent eddy coefficient for mass Kρ ⩽ 0.2ϵ/N2. Values of Kρ are calculated from recent oceanic measurements of energy dissipation... read more read less

Topics:

Richardson number (57%)57% related to the paper, Turbulence (55%)55% related to the paper, Reynolds stress (54%)54% related to the paper, Buoyancy (53%)53% related to the paper, Dissipation (51%)51% related to the paper
1,874 Citations
Journal Article DOI: 10.1175/1520-0485(1983)013<1093:NMWSOT>2.0.CO;2
Normal Monthly Wind Stress Over the World Ocean with Error Estimates
Sol Hellerman1, Mel Rosenstein1
Princeton University1
01 Jul 1983 - Journal of Physical Oceanography

Abstract:

Over 35 million surface observations covering the world ocean from 1870–1976 have been processed for the purpose of calculating monthly normals and standard errors of the eastward and northward components of the wind stress and work done by the winds in the lower 10 m of the atmosphere. The fields are intended to serve as bou... Over 35 million surface observations covering the world ocean from 1870–1976 have been processed for the purpose of calculating monthly normals and standard errors of the eastward and northward components of the wind stress and work done by the winds in the lower 10 m of the atmosphere. The fields are intended to serve as boundary conditions for models of the ocean circulation. Wind and air-minus-sea temperatures are calculated in a form suitable for determining stress by any bulk aerodynamics model in which the drag coefficient can be represented by six or less coefficients of a second-degree polynomial in wind speed and stability. The particular case of the wind speed and stability dependent drag coefficient discussed by Bunker is selected for analysis. January and July charts of wind stress, curl of the wind stress, mass transport stream-function, divergence of the Ekman transport and the rate of mechanical energy transfer are illustrated and discussed. read more read less

Topics:

Wind stress (69%)69% related to the paper, Wind shear (67%)67% related to the paper, Wind gradient (66%)66% related to the paper, Wind profile power law (66%)66% related to the paper, Wind speed (63%)63% related to the paper
1,872 Citations
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12. Is Journal of Physical Oceanography's impact factor high enough that I should try publishing my article there?

To be honest, the answer is no. The impact factor is one of the many elements that determine the quality of a journal. Few of these factors include review board, rejection rates, frequency of inclusion in indexes, and Eigenfactor. You need to assess all these factors before you make your final call.

13. What is Sherpa RoMEO Archiving Policy for Journal of Physical Oceanography?

SHERPA/RoMEO Database

We extracted this data from Sherpa Romeo to help researchers understand the access level of this journal in accordance with the Sherpa Romeo Archiving Policy for Journal of Physical Oceanography. The table below indicates the level of access a journal has as per Sherpa Romeo's archiving policy.

RoMEO Colour Archiving policy
Green Can archive pre-print and post-print or publisher's version/PDF
Blue Can archive post-print (ie final draft post-refereeing) or publisher's version/PDF
Yellow Can archive pre-print (ie pre-refereeing)
White Archiving not formally supported
FYI:
  1. Pre-prints as being the version of the paper before peer review and
  2. Post-prints as being the version of the paper after peer-review, with revisions having been made.

14. What are the most common citation types In Journal of Physical Oceanography?

The 5 most common citation types in order of usage for Journal of Physical Oceanography are:.

S. No. Citation Style Type
1. Author Year
2. Numbered
3. Numbered (Superscripted)
4. Author Year (Cited Pages)
5. Footnote

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16. Can I download Journal of Physical Oceanography in Endnote format?

Yes, SciSpace provides this functionality. After signing up, you would need to import your existing references from Word or Bib file to SciSpace. Then SciSpace would allow you to download your references in Journal of Physical Oceanography Endnote style according to Elsevier guidelines.

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