==============================================================================
Dataset:       CSU-DYNAMO upper-air and surface gridded analyses
Version:       3a
Release date:  29 September 2014
Corrected:     25 September 2015 (see Note #2 below)
==============================================================================


*** NOTE ***
------------
(1)  Some minor errors were detected in versions 2a and 2b (bad surface
     temperature at 4 times and bad surface water vapor mixing ratio at 03Z,
     09Z, 15Z, and 21Z at several times in version 2b).  These latter errors
     were seen primarily over the Southern Sounding Array (SSA). All of these
     errors have been corrected in versions 3a and 3b.
(2)  After the initial release of this version, a miscalculation was discovered
     in the derived fields (primarily with the vorticity field which was found
     to be twice a large as it should have been).  A corrected version was
     released on Sept. 25, 2015.


General Description:
-------------------
Analyzed fields (see list below) were produced on 1 degree latitude/longitude
grids, 25 hPa vertical resolution (1000 to 50 hPa) using the multiquadric
interpolation scheme of Nuss and Titley (1994). Analyses are based on
observations only (soundings, satellite winds, COSMIC profiles). 


Analyses are available on the following grid and for the following times:
------------------------------------------------------------------------
      * 20S - 20N, 35E - 155E
      * at 00, 03, 06, 09, 12, 15, 18 and 21 UTC
      * for 1 October thru 31 December 2011
      * each data file covers 1 day


Basic fields:
------------
   z     geopotential height       (m)
   t     temperature               (C)
   q     water vapor mixing ratio  (g/kg)
   u     zonal wind                (m/s)
   v     meridional wind           (m/s)
   ps    surface pressure          (hPa)


Derived fields:
--------------
   w     vertical p-velocity       (hPa/s)
   div   horizontal divergence     (1/s)
   vor   horizontal vorticity      (1/s)
   Q1    apparent heating          (K/day)
   Q2    apparent drying           (K/day)


Notes:
-----
(1)  For upper-air fields, the first pressure level (labeled 1025 mb) contains
     the associated surface field.

(2)  A field is underground if the pressure level of the data is greater than
     the surface pressure (ps). 

(3)  File format:  netCDF self describing files
     See  http://www.unidata.ucar.edu/software/netcdf/  for more info.

(4)  To quickly examine a datafile:  ncdump netcdf_filename | more

(5)  Input dataset for gridded analyses:
       - This dataset version (3a) used no supplemental model data in data
         sparse regions (i.e., neither inside nor outside of the enhanced
         sounding arrays).
       - As a result, gridded data outside of the enhanced arrays should be
         used with caution.  
       - Hi-res (Level 4) sounding data were used at the following core sites
         (Male, Gan, Diego, Revelle, Mirai, Colombo) and 26 other Priority
         Sounding Sites (See Ciesielski et al. 2013).
       - Level 4 sounding data (uniform 5-hPa resolution with QC flags) are
         based on Level 3 (L3) sounding data (L3 is native resolution, humidity 
         corrections applied as needed); see Ciesielski et al. (2013) for
         details of sounding dataset.
       - Hi-res P3 dropsonde data were used.
       - GTS-resolution (10-25hPa) sounding data were used at 54 other sites.
       - Soundings at Male' and Colombo were time interpolated to 3-hr
         resolution to match temporal resolution of sites in the Southern
         Sounding Array.
       - Because of the large station spacing between sites over the Northern
         Sounding Array, the strong diurnal cycle and flow-blocking at
         low-levels at Colombo are aliased onto the large-scale analyses and
         adversely affect the large-scale budgets.  This version of the analyses
         used adjusted Colombo soundings which mute these effects.  To mitigate
         these local island effects on the large-scale budgets, a procedure was
         designed which used low-level ECMWF-analyzed fields in the vicinity of
         Sri Lanka to estimate open-ocean conditions at Colombo’s location as if
         the island were not present.  These “unperturbed” ECMWF fields at
         low-levels were then merged with the observed Colombo soundings.
         Details can be found in Ciesielski et al.(2014).
       - Sounding data were supplemented with CIMSS cloud drift winds, ASCAT
         surface winds, and COSMIC thermodynamic profiles (COSMIC moisture data
         were not used below 850 hPa due to issues with these data at
         lower-levels).
       - Johnson and Ciesielski (2013) describes the V1 gridded dataset (6hr,
         soundings only) and some preliminary findings.
       - Johnson et al. (2014, submitted to JAS) describes the V2 gridded
         dataset and atmospheric budgets.
       - While analyses are provided from 1 Oct to 31 Dec, keep in mind the
         following:
            - Analyses are most reliable when ships are on-site.
            - The Revelle was onsite (nominal position 80.5E,Eq.) from
              4 Oct. - 29 Oct., 10 Nov. - 04 Dec., and 18 Dec. - 31 Dec.
            - The Mirai was on site (nominal position 80.5E,8S) from
              1 Oct. - 24 Oct. and 1 Nov. - 27 Nov.
            - Analyses over the NSA are less reliable after 5 Dec. when Colombo
              went from 4/day to 1/day sonde observations.
            - Male' ended sonde operation on 15 Dec. 2011 at 00Z so in effect
              there was no NSA after this date even though the Revelle returned
              on 18 Dec.
        - See the figure "invent_vis.png" which shows a visual inventory of
          soundings for 6 core Indian Ocean sites (Fig. 2 of Ciesielski et al.
          2013).
        - If one wants to use the NSA analyses after 7 Dec. (when the Revelle
          went offsite) or the SSA analyses after 30 Nov., we suggest using the
          V3b analyses which supplements observations in data sparse regions
          with ECMWF operational analyses.


Contact information:
-------------------
If any problems are noted in these datasets, please notify Paul Ciesielski
(paulc@atmos.colostate.edu).


References: 
----------

Ciesielski, P. E. and coauthors, 2014:  Quality-controlled upper-air sounding
   dataset for DYNAMO/CINDY/AMIE: Development and corrections.  J. Atmos.
   Oceanic Technol., 31, 741-764.

Ciesielski, P. E., R. H. Johnson, K. Yoneyama, and R. K. Taft, 2014:  Mitigation
   of Sri Lanka island effects in Colombo sounding data and its impact on
   DYNAMO analyses.  To appear in J. Meteor. Soc. Japan.

Johnson, R. H., and P. E. Ciesielski, 2013: Structure and properties of
   Madden-Julian Oscillations deduced from DYNAMO sounding arrays.  J. Atmos.
   Sci., 70, 3157-3179.

Johnson, R. H. and coauthors, 2014:
   Sounding-Based Thermodynamic Budgets for DYNAMO.  Submitted to J. Atmos. Sci.

Nuss, W. A., and D. W. Titley, 1994:  Use of multiquadric interpolation for
   meteorological objective analysis.  Mon. Wea. Rev., 122, 1611-1631.