ecohydrodynamics of cold-water corals - juan moreno-navas
DESCRIPTION
Centre for Marine Biodiversity & Biotechnology Away Day 2012.TRANSCRIPT
Ecohydrodynamics of cold-water coral.
Juan Moreno Navas. Heriot -Watt University. UK
Ecohydrodynamics
The determination of the hydrodynamic constraints on ecosystems with different time and length scale has been coined by the term Ecohydrodynamics.
This concept also encompasses the physical, chemical and biological characteristics of the water bodies surrounding marine ecosystems.
• The Ecohydrodynamic conditions around the coral reefs determine the supply of food particles and larvae. • The interactions between currents, internal waves, upwellings/donwelllings and the topography creates suitable conditions for the development of suspension-feeding cold water corals. • The lateral and vertical advection of particles may therefore play an important role in the functioning of coral ecosystem. • The suspension-feeding cold-water coral communities rely on the delivery of phytoplankton, zooplankton and organic matter derived from near-surface primary productivity.
Ecohydrodynamics of cold-water coral.
Located to the east of the island of Mingulay in the Sea of Hebrides, UK. Each reef is formed by seabed mounds up to five metres high that likely have been growing since the early Holocene (Roberts et al. 2005).
High dynamic area
Barra
Mingulay
Sea of the Hebrides
Reef mounds
(a) (c)(b)
Analysis of colour fronts using 23-30 Apr. 2011 MERIS FR composites: (a) Chl-a; (b) enhanced colour; (c) simplified Chl-a front map.
Ecohydrodynamics. Sea of the Hebrides
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Mean all-seasons : (a) thermal fronts; (b) 300m Chl-a fronts; (c) 1km Chl-a fronts
Ecohydrodynamics. Sea of the Hebrides
• Previous studies revealed two dominant food supply mechanisms to the reefs, a regular rapid downwelling of surface water delivering pulses of warm water and periodic advection of high turbidity bottom waters(Davies et al. 2009).
• A 3D ocean model has been applied to provide an adequate assessment of the water circulation, water exchange and
renewal in the Mingulay Reef complex.
Ecohydrodynamics of Mingulay Reef complex
(waves) stressesradiation
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diffusionturbulent
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derivative Time
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xguf
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pressure
catmospheri
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barotropicbaroclinic
zcoriolis
advective
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Momentum equation - x
Mathematical model
The Mass and Momentum equations solutions.
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Mass equation – 3DMass equation – 2D
Initial condition. Vertical & horizontal discretization.
3D Sigma coordinate with 4 layers
Physical parameter Numerical value
Time step: 2sGrid mesh: 300, 100mHorizontal cells (x,y): 193, 244Vertical coordinate: Sigma Vertical layers: 8Horizontal Eddy Viscosity: 4.3810 Vertical Eddy viscosity: 0.001 Drag coefficient: 0.0025 River discharge: NoSalinity: 35 psuTemperature: 11cForced: Tide from FES2004
Vertical
Horizontal
Ecohydrodynamics of Mingulay Reef complex
A
A
B animation slices
3D ocean model : two different grid resolution.
Mingulay 1
Mingulay 5
300 m
100 m
3D ocean model results.
Currents are tidally drivenTime scale: tidal cycleLenght scale: 20x20 Km
3D ocean model results. High turbulence in the Reefs area. High turbidity bottom waters(Davies et al. 2009).
Mingulay 1
Mingulay 5
3D ocean model results.
Mingulay 1
Mingulay 5
3D ocean model results.
Mingulay 1
Downwelling of surface water delivering pulses of warm water.
Scanfish data Dmitry Aleynik & Mark Inall (SAMS)Murray Roberts (Heriot-Watt
3D ocean model results. Downwelling of surface water delivering pulses of warm water (Davies et al. 2009)
and high particle delivery to the bottom every 6 hours.
3D ocean model and GIS. This modelled information has been integrated into a 3D GIS
Mingulay 1
Mingulay 5
Mingulay 1
3D ocean model and GIS.
(Roberts et al. 2005)
Colour-coded habitat classification map
The significant decline in richness with easting (Henry et al 2010)
The model and remote sensing techniques provide the spatial and temporal aspect of water circulation in the reef complex (turbulence, Downwelling). The model will provide better understanding of food supply, larvae transport, community composition and sediment dynamics.
This modelled information has been integrated into a 3D GIS, thus providing a user interface for visualization interrogation of results and as an input into other spatial and ecological modeling projects.
Conclusions