Transcript National Gene Bank for Aquaculture and Marine Species

Tetsuzan
Benny Ron
Aquaculture
Program
Coordinator
University of
Hawai’i
HAA Conference
July 9, 2009
Demand for Fish is Too High for
Fisheries
How does NDBC receive and process observations from other data providers?
The National Data Buoy Center (NDBC )has a way for you to send your observations to us via the
Internet .Some work is required on your part, but your observations will gain much greater public
visibility .There are many other reasons why you should consider doing this .NDBC is interested in most
meteorological and physical oceanographic measurements which are collected in real-time.
NDBC can give you a C-language software kit .You can modify this software to read measurements from your
own file and output a message that looks like one of ours .Then, you can send the messages to NDBC for
evaluation .If all the data look acceptable, you can write a script to automatically send us the observations at
regular intervals .Click here for more information about this process.
Your first step is to contact NDBC and provide them some information about your stations .
Thank you for your consideration.
U.S .Dept .of Commerce
National Oceanic and Atmospheric Administration
National Weather Service
National Data Buoy Center
1007 Balch Blvd.
Stennis Space Center, MS 39529
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Page last modified :September 4, 2003
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OBJECTIVES
TRANSFER genetic information, by using a comparative genomic approach, from
model organisms to commercial species and integrate genome maps of various rayfinned fish with data from higher vertebrates,
USE aquaculture and environmental questions and funds to enrich the comparative
genomics approach towards understanding genotype - phenotype links,
BRIDGE the QTL mapping approach to comparative genomics and the gaps in
maps by merging physical and linkage maps, bridge the distance between
aquaculture research and industry, and integrate evolutionary theory and modern
technology to generate an applied endpoint,
TRANSFER technology and know-how from leading laboratories in genome
analysis and mapping to more classical fish genetics laboratories
initiate a selective breeding programme in an aquaculture industrial partner and
apply the developed tools to assist selection.
Reduction of over 40% in Biodiversity between 1986 and 2007
Tony Malmqvist
No change in Density between 1986 and 2007: More of Same
Tony Malmqvist
National Gene Bank for Aquaculture
and Marine Species
FAO Statistical Areas
with numbers of marine species in blue (FishBase)
1042
128
1042
990
689
4795
662
2297
5738
1685
3759
4182
4182
4295
1788
1609
1735
2046
233
245
132
233
System Layout
Base addition
Effluent line
Hydroponic tanks
Degassing
Rearing tanks
Sump
Clarifier
Filter tanks
Return line
Total water volume, 110 m3
Land area 0.05 ha
Perspective on UVI Aquaponic System
The system represents appropriate or
intermediate technology
It conserves water and reuses nutrients
The technology can be applied at a
subsistence level or commercial scale
Production is continuous and sustainable
The system is simple, reliable and robust
Management is easy if guidelines are
followed
Integrated Multitrophic
Aquaculture
MAHALO