|
|
|
|
|
The 2003 National NVODS Workshop |
|
|
|
|
|
Robert C. Groman |
|
Woods Hole Oceanographic Institution |
|
September 10 – 12, 2003 |
|
|
|
|
US GLOBEC – Global Ocean Ecosystem Dynamics |
|
Goal: understand the population dynamics. Ultimately want to be able to
predict changes in distribution and abundance of key species as a result of
changes in the physical and biotic environment, such as from climate
change. |
|
|
|
|
Georges Bank – field program started in 1995
with some cruises earlier; field program ended in 1999. |
|
Northeast Pacific – field program started in
2000. Gulf of Alaska too. |
|
Southern Ocean – field program started in 2001. |
|
|
|
|
Field program: Georges Bank project had 120 cruises with 360 days at sea. |
|
Laboratory experiments |
|
Retrospective analyses |
|
Analysis and synthesis |
|
|
|
|
|
|
Dissemination of data to scientific
investigators and others on a timely basis |
|
Make available when useful (not necessarily only
when finalized) |
|
Serve data and information |
|
|
|
|
Data from many researchers (i.e. distributed;
greater than 100 contributors) |
|
Open access – read only by everyone |
|
Restricted access supported |
|
Quality control on-going |
|
Emphasis on access to data and information as
early as possible |
|
Data sets most useful when used with other data |
|
|
|
|
Any person making substantial use of a data set
must communicate with the investigators who acquired the data prior to
publication and anticipate that the data collectors will be co-authors of
published results. This extends to model results and to data organized for
retrospective studies. |
|
See on-line policy statement |
|
|
|
|
Broad-scale cruises |
|
Process cruises |
|
Moorings |
|
Drifters |
|
Satellites |
|
Modeling |
|
|
|
|
CTDs |
|
Rosette |
|
MOCNESS (3 flavors) |
|
Bongo tows |
|
Acoustic |
|
Video Plankton Recorder |
|
Drifters, MET packages, . . . |
|
|
|
|
Conductivity, temperature, pressure,
fluorescence, transmittance, acoustics, light (PAR), video, winds
speed/direction, AVHRR, . . . |
|
Biomass, taxonomic composition/size
distribution, species (counts, size, stage, status, rates, behavior),
density, currents, stratification, heat flux, nutrients, turbulence,
chlorophyll, . . . |
|
|
|
|
Using the JGOFS Data Management System developed
by G. Flierl, J. Bishop, D. Glover, and S. Paranjpe |
|
Distributed access via standard web browsers |
|
Distributed data sources |
|
|
|
|
Hierarchical list of data objects |
|
On-line list of data |
|
Downloads as ASCII, Matlab files, or reorganized
into single or multiple files |
|
Simple X-Y plots |
|
Interface to EasyKrig and 3-D visualization applications |
|
|
|
|
Ten distributed servers using the US JGOFS
software |
|
Uses the Web’s httpd protocol - integrates very
well with standard web pages |
|
Handles tabular data in ASCII, Matlab format,
and user-supplied formats using “methods.” It is “object oriented” and “data driven.” |
|
|
|
|
Reformatting and processing data was a common
activity |
|
Merging navigation with measured and computed
results also took time |
|
First data management system used 9 track tapes
for data storage, run in batch |
|
Second system used data on disk with techniques
to located data within degree squares to improve performance |
|
|
|
|
Data about data. |
|
Document information about data elements or attributes
(name, size, data type, etc), about records or data structures (length,
fields, columns, etc), and about data (where it is located, ownership,
etc.). Meta-data may include descriptive information about the context,
quality and condition, or characteristics of the data. |
|
|
|
|
Pros – required for full understanding of data
within a DBMS. Required if
others want to use the data |
|
Cons – pain in the neck to prepare, maintain,
and enter (Best to take advantage of tools) |
|
Currently completing Global Change Master
Directory’s DIF records |
|
|
|
|
Organizations creating systems to access their
own meta-data and/or data. |
|
Umbrella databases linking to other peoples
meta-data and/or data. (OBIS, GMBIS,
…) |
|
Linking to meta-data is more manageable than is
linking to other people’s data. |
|
|
|
|
LabNet – consortium of marine organizations to
make their data available (uses 4D Geobrowser “index cards”) |
|
Ocean Data View - access WOCE, NGDC, and other data sets. CTD, bottle, XBT … |
|
OBIS – “portal” (aggregation server) for
biological data (using Darwin Core 2 – OBIS) |
|
|
|
|
ZOPE – object oriented application server |
|
LAS – web-based, active-image based data
interface for registered data.
Used by US JGOFS Program |
|
uBio – (Universal Biological Indexer and
Organizer) a networked information service for biological information
resources based on the Taxonomic Name Server (TNS), a thesaurus; an index. |
|
|
|
|
|
|
Hexacoral – biggest user in OBIS; uses DiGIR
(D.G. Fautin, et al.) |
|
DiGIR – Distributed Generic Information
Retrieval. Uses XML protocol
to get the data. Extends XML
to do queries. Uses php software
package to execute the code.
Supports 14 or 15
databases, e.g SQL based.
Three options for JGOFS: export to flat file, export to MySQL, or
write own perl script to interface directly to DiGIR (ZooGene -> OBIS) |
|
|
|
|
Oregon State University, Randy Keller and Paul
Johnson, mapping specialist at HMRG |
|
Steve Hankin, “An Implementation Plan for the
Data and Communication Subsystem of the U.S. Integrated Ocean Observing
System” |
|
Margo Edwards at HIG and Dawn Wright at OSU |
|
|
|
|
RIDGE, petrological data. Endeavor Observatory
website, Lamont’s PetDB |
|
SIO Ocean Exploration data portal, http://sioexplorer.ucsd.edu |
|
University of Washington’s Endeavor GIS and
Portal to Endeavor Data (PED) |
|
|
|
|
Virtual Research Vessel, University of Oregon
and Oregon State University |
|
REVEL, University of Washington |
|
Dive and Discover, WHOI |
|
|
|
|
DODS à http |
|
DiGIR à uses XML; but too verbose for physical
data. OBIS may use DODS for
physical data. |
|
JGOFS à http |
|
|
|
|
Apologies for references I’ve missed. |
|
There are many other efforts underway in all
these areas. |
|
|
|
|
What temperature: Sea surface, air, at depth? |
|
Units? |
|
How collected? |
|
How calibrated? |
|
Data quality control still labor intensive even
though we can collect and store gigabytes of data daily |
|
|
|
|
Enhance data search capabilities |
|
Add additional graphical display (visualization)
options |
|
Improve interface between data system and
visualization/analysis tool |
|
Migrate to NVODS protocol? [Ask Melissa] |
|
|
|
|
Thanks for the opportunity to listen, learn, and talk. |
|
|
|