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Marine & Coastal Sciences

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Related Sites:
Ocean Primary Productivity Study, IMCS, Rutgers Univ.
Coastal Ocean Observation Laboratory, IMCS, Rutgers Univ.
The Dismukes Group, Princeton Univ.
U.S. Joint Global Ocean Flux Study (JGOFS)
SeaWiFS Project
MODIS

Funded Projects:
LIFT/LIDAR - NASA
Biocomplexity (EREUPT) - NSF
Cell Death - NIH
GFP Project - ONR
Ocean Productivity - NASA
Iron Limitation - NSF
IR-FRR - NSF
Inorganic Carbon Cycling - US/Israel BSF
Light Intensity - DOE
Carbon Sequestration - LBNL/DOE
Benthic Targets (CoBOP) - ONR
SoFeX - NSF
Key Phytoplankton Groups (SMP) - NASA
Photoacclimation (US/Czech Republic) - NSF

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National Undersea Research Program
New Jersey's Shoreline Future - NJ Shore Protection Master Plan

in Tuckerton

Haskin Shellfish Research Lab

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romana@imcs.rutgers.edu

Last updated: 07-12-01

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Background:

 The U.S. Department of Defense (DoD) maintains numerous facilities in tropical and subtropical environments that are adjacent to coral reefs.  Coral reefs are specifically susceptible to anthropogenic insult and rapidly degrade worldwide.  The development of advanced technologies for environmental monitoring of benthic communities under DoD jurisdiction requires an understanding of how different environmental factors affect the key elements of the ecosystems and the selection of specific monitoring protocols that are most appropriate for the identification and quantification of particular stresses.  Documenting the environmental state of reef communities is critical to developing remediation strategies that can both reduce anthropogenic impact and distinguish between natural stress and anthropogenic factors potentially related to military activity.  The quantitative assessment of the impact of stresses requires the accurate knowledge of baseline biophysical, optical, and genetic parameters for “healthy” coral reef communities.  Due to natural variability within populations and diversity amongst species, these parameters vary both within and between species. 

 The Objectives of this SERDP project are  

·        to develop advanced techniques for rapid and non-destructive assessment of the viability and health of coral reef communities with the capabilities of identification and quantification of natural and anthropogenic stresses; 

·        to develop prototypes of Fluorescence Induction and Relaxation (FIRe) Fluorosensors for permanent underwater monitoring stations and Remote Operated Vehicles or Diver Propulsion Vehicles; 

·        to collect an extensive library of baseline data on physiological, biophysical, bio-optical and genetic diversity of coral reef communities near DoD installations. 

 Summary:

 Rapid and non-destructive assessment of the health and viability of benthic photosynthetic organisms is based on the use of variable fluorescence technique.  This technique relies on the relationship between the efficiency of photosynthetic processes and chlorophyll fluorescence and derives a comprehensive suite of fluorescent and photosynthetic parameters of the target (Kolber et al. 1998; Gorbunov and Falkowski 2005).  In laboratory and field experiments, we study the impact of common natural stresses (elevated temperature, excess irradiance, and nutrient load), and selected anthropogenic stresses (like toxic pollutants) on the physiological status of coral.  Our results provide scientific background for the development of advanced protocols for non-destructive assessment of the health of coral reef ecosystems.  The molecular biology and genetic part of the project is focused on identification, as well as spectroscopic and genetic characterization of color proteins from corals.  This information will provide insight into the remarkable diversity of the color palette of reef corals, which is an important indicator of the health of coral reef ecosystems. The instrument development includes design and construction of advanced FIRe systems for permanent monitoring stations and autonomous vehicles.

 
Non-destructive assessment of the health of coral in situ by using an underwater fluorometer
 

Bench-top versions of the Fluorescence Induction and Relaxation (FIRe) System. (Left) – Rutgers FIRe System prototype developed in 2003-2004.  (Right) - commercial FIRe Fluorometer System manufactured by Satlantic Inc.
( see www.satlantic.com/fire  )

Contact Information:
Dr Maxim Gorbunov
Institute of Marine and Coastal Sciences
Rutgers, the State University of New Jersey
71 Dudley Road, New Brunswick, NJ 08901
Phone: (732) 932 6555, x. 266
Fax: (732) 932 4083
E-mail:  gorbunov@marine.rutgers.edu  

 

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Environmental Biophysics and Molecular Ecology Program
Institute of Marine and Coastal Sciences
Rutgers, The State University of New Jersey
71 Dudley Road
New Brunswick, NJ 08901
Phone: (732) 932-6555
Fax: (732) 932-4083

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