Differences between revisions 5 and 21 (spanning 16 versions)
Revision 5 as of 2014-01-09 19:04:40
Size: 3191
Editor: anonymous
Comment:
Revision 21 as of 2014-01-30 06:04:48
Size: 4672
Editor: AlexanderLoew
Comment:
Deletions are marked like this. Additions are marked like this.
Line 1: Line 1:
#acl AdminGroup:read,write,delete,revert EditorGroup:read,write StudentGroup:read,write #acl AdminGroup:read,write,delete,revert EditorGroup:read,write  All:read
Line 5: Line 5:
Line 8: Line 7:
= 63-953 Climate and Satellite Data Analysis = = 63-953 Climate and Satellite Data Analysis =
'''Lars Kaleschke, Alexander Loew'''
Line 14: Line 14:
Place: Geom 1536c  Place: Geom 1536c
Line 17: Line 17:

The participants will learn to practically work with climate model, reanalysis, in-situ station and satellite data. Organized as a group project, the participants will further learn the principles of project management and shared software development. 		 The participants will learn to practically work with climate model, reanalysis, in-situ station and satellite data. Organized as a group project, the participants will further learn the principles of project management and shared software development.
Line 22: Line 21:
Line 25: Line 23:
 * [[/PM|Project management and documentation]]   * [[Climate_and_Satellite_Data_Analysis_2014/PM|Project management and documentation]]
Line 27: Line 25:
 * [[DataIO|Access to data sets]]
 * [[/Plotting|Plotting]] [[attachment:Seawater plot.ipynb]]
 * [[GenMaps|Data Visualization: Generating maps]]
 * [[http://ipython.org/ipython-doc/dev/interactive/htmlnotebook.html|IPython Notebooks]] [[https://github.com/ipython/ipython/wiki/A-gallery-of-interesting-IPython-Notebooks|Gallery of interesting IPython Notebooks]]
 * [[attachment:Stochastic analysis of time series.ipynb]] [[attachment:Monte carlo.ipynb]] [[attachment:GISSTEMP netcdf.ipynb]] [[attachment:datetimeobjects.ipynb]] [[attachment:Station data seasonal cycle.ipynb]]

  * [[DataIO|Access to data sets]]
 * [[GenMaps|Data Visualization: Generating maps]]
 
Line 41: Line 35:
Morning: Group presentations of project plan and preliminary analysis.
Line 42: Line 37:
Morning: Group presentations of project plan and preliminary analysis.
Line 46: Line 40:
Morning: Group presentations of methods and code implementations
Line 47: Line 42:
Morning: Group presentations of methods and code implementations
Line 51: Line 45:
Morning: Group presentations of preliminary results
Line 52: Line 47:
Morning: Group presentations of preliminary results
Line 56: Line 50:
Morning: final presenation of results and discussion
Line 57: Line 52:
Morning: final presenation of results and discussion
Afternoon: evaluation and preparation of final report  		 Afternoon: evaluation and preparation of final report
Line 62: Line 55:
  
Line 64: Line 56:
{{attachment:media_summary.png}}
Line 65: Line 58:
{{attachment:cw2013-200px.png}} Kevin Cowtan and Robert Way fill the gaps of the HadCRUT temperature data set by using satellite data. Compare their new reconstruction of surface temperature data to independent in-situ observations and reanalysis data.
Line 67: Line 60:
Kevin Cowtan and Robert Way fill the gaps of the HadCRUT temperature data set by using satellite data. Compare their new reconstruction of surface temperature data compares to independent in-situ observations! Cowtan and Way (2013) methods and data are freely available:
Line 70: Line 63:
 * http://www-users.york.ac.uk/~kdc3/papers/coverage2013/methods.html
Line 71: Line 65:
Surface temperatures are available from the International Arctic Buoy Programme (IABP) website:
Line 72: Line 67:
 * http://iabp.apl.washington.edu/data_satemp.html
Line 73: Line 69:
=== Cowtan and Way (CW2013) reconstruction ===

 * Review methods of Cowtan and Way (2013)
 * Analyse their reconstructed dataset of surface air temperature (seasonal cycle, anomalies, trends etc.)
 * Look at correlations with climate indices, e.g. ENSO, NAO.
Line 76: Line 77:
== == === Variations in Surface Air Temperature Observations in the Arctic ===

 * Review methods of Rigor et al. (2000)
 * Analyse the surface air temperature measured by the drift buoys (seasonal cycle, anomalies, trends etc.)
 * Are there significant trends over different period of times?

 * [[http://iabp.apl.washington.edu/AirT/RigorEtal-SAT.pdf|Rigor, I., R. Colony, and S. Martin, 2000, Variations in Surface Air Temperature Observations in the Arctic, 1979 - 1997, J. Climate, Vol. 13, no 5, 896-914.]]
Line 80: Line 87:
== == === Data intercomparison ===

Use the buoy measurements of surface air temperature as ground truth

 * Write code to interpolate the different datasets in a common grid
 * Compare CW2013, buoy and reanalysis data
 * Was the data gap in the Arctic filled in reasonably?
 * Are there biases or jumps in the data?
Line 84: Line 98:
== HOAPS ocean flux sampling bias ==
 * [[http://www.hoaps.org|HOAPS climatology]] of ocean surface fluxes
 * HOAPS is sampled twice a day
 * What is the impact of undersampling the dirnal cycle on monthly means?
 * What is the impact of sea ice gaps on monthly means?
 * How do HOAPS surface flux estimates compare to literature values of global mean ocean surface fluxes?
 * What is the impact of different land/sea masks and spatial grids (resolution, projections) on total mean global fluxes?

[[/ProjectD]]
Line 87: Line 110:

 * prepare [[ftp://ftp.ifremer.fr/ifremer/cersat/products/gridded/psi-concentration/data/|sea ice data]] (Lars) :-) (CMIP5 data available)
 * prepare CMIP5 data (Alex) :-)		  * CW2013 :-)
Line 92: Line 113:
 * Stations :-)  * Bouy data :-)
 * HOAPS data :-)
Line 95: Line 117:
Line 100: Line 121:
 * Methods and data   * Methods and data
Line 106: Line 127:
Line 109: Line 129:

= Examples from the past =

== How significant are observations of Arctic temperature trends? ==

 * https://wiki.zmaw.de/lehre/Climate_and_Satellite_Data_Analysis_2013/ProjectA

Contents

  1. 63-953 Climate and Satellite Data Analysis
    1. Course objectives
    2. Schedule
      1. Monday
      2. Tuesday
      3. Wednesday
      4. Thursday
      5. Friday
  2. Topics for group work
    1. Coverage bias in the HadCRUT4 temperature series and its impact on recent temperature trends
      1. Cowtan and Way (CW2013) reconstruction
      2. Variations in Surface Air Temperature Observations in the Arctic
      3. Data intercomparison
    2. HOAPS ocean flux sampling bias
  3. TODOs
    1. Data
    2. Final report
    3. References
  4. Examples from the past
    1. How significant are observations of Arctic temperature trends?

63-953 Climate and Satellite Data Analysis

Lars Kaleschke, Alexander Loew

MS Integrated Climate System Sciences

Date: 3.2.2014-7.2.2014

Place: Geom 1536c

Course objectives

The participants will learn to practically work with climate model, reanalysis, in-situ station and satellite data. Organized as a group project, the participants will further learn the principles of project management and shared software development.

Schedule

Monday

General Introduction

Group work: develop a project plan and write a short technical proposal for your project.

Final report due by 15. March 2014

Obtain data and do preliminary analysis (e.g. data coverage).

Tuesday

Morning: Group presentations of project plan and preliminary analysis.

Afternoon: implementation and project work

Wednesday

Morning: Group presentations of methods and code implementations

Afternoon: Project work

Thursday

Morning: Group presentations of preliminary results

Afternoon: Project work

Friday

Morning: final presenation of results and discussion

Afternoon: evaluation and preparation of final report

Topics for group work

media_summary.png

Kevin Cowtan and Robert Way fill the gaps of the HadCRUT temperature data set by using satellite data. Compare their new reconstruction of surface temperature data to independent in-situ observations and reanalysis data.

Cowtan and Way (2013) methods and data are freely available:

Surface temperatures are available from the International Arctic Buoy Programme (IABP) website:

Cowtan and Way (CW2013) reconstruction

  • Review methods of Cowtan and Way (2013)
  • Analyse their reconstructed dataset of surface air temperature (seasonal cycle, anomalies, trends etc.)
  • Look at correlations with climate indices, e.g. ENSO, NAO.

/ProjectA

Variations in Surface Air Temperature Observations in the Arctic

/ProjectB

Data intercomparison

Use the buoy measurements of surface air temperature as ground truth

  • Write code to interpolate the different datasets in a common grid
  • Compare CW2013, buoy and reanalysis data
  • Was the data gap in the Arctic filled in reasonably?
  • Are there biases or jumps in the data?

/ProjectC

HOAPS ocean flux sampling bias

  • HOAPS climatology of ocean surface fluxes

  • HOAPS is sampled twice a day
  • What is the impact of undersampling the dirnal cycle on monthly means?
  • What is the impact of sea ice gaps on monthly means?
  • How do HOAPS surface flux estimates compare to literature values of global mean ocean surface fluxes?
  • What is the impact of different land/sea masks and spatial grids (resolution, projections) on total mean global fluxes?

/ProjectD

TODOs

Data

  • CW2013 :-)

  • ERA-Interim :-)

  • NCEP :-)

  • Bouy data :-)

  • HOAPS data :-)

Final report

Template structure:

  • Abstract
  • Introduction: state of the art (literature), statement of the problem
  • Methods and data
  • Results
  • Discussion
  • Conlcusion

References

  • Python at KlimaCampus

  • Python Scripting for Computational Science, Hans Petter Langtangen, Springer (available in the ZMAW library)

Examples from the past

How significant are observations of Arctic temperature trends?

LehreWiki: Climate_and_Satellite_Data_Analysis_2014 (last edited 2014-02-05 09:14:16 by anonymous)