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Laura Palamara, John Manderson, Josh Kohut, Matthew Oliver, John Goff, Steven Gray Developing Ecological Indicators for Fisheries Management using IOOS.

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Presentation on theme: "Laura Palamara, John Manderson, Josh Kohut, Matthew Oliver, John Goff, Steven Gray Developing Ecological Indicators for Fisheries Management using IOOS."— Presentation transcript:

1 Laura Palamara, John Manderson, Josh Kohut, Matthew Oliver, John Goff, Steven Gray Developing Ecological Indicators for Fisheries Management using IOOS Defined Habitat Characteristics in the Mid-Atlantic Bight

2 Objectives  Model fish distributions (multi- and single- species) using environmental data: benthic AND pelagic  See if we can use remotely sensed data as a surrogate for going out to sea  Apply model results to fisheries management  Important environmental indices  EFH, MPA  Curb by-catch

3 Statistical models of fish-habitat associations NEFSC bottom trawls Spring 2003 - Fall 2007 65 Species

4 Bathymetry Sediment Grain Size Ship Surveys: Bottom Habitat Data depth median standard deviation slope median standard deviation aspect median standard deviation profile curvature median standard deviation tangential curvature median standard deviation sediment grain size

5 Ship Surveys: CTD temperature surface bottom salinity surface bottom stratification mixed-layer depth Simpson’s potential energy entire water column top 30 meters

6 Sea Surface Temperature Ocean Color Integrated Ocean Observation Systems: Satellite Data sea surface temperature mean standard deviation water-leaving radiance (ocean color) 412 nm (M & SD) 443 nm (M & SD) 488 nm (M & SD) 531 nm (M & SD) 551 nm (M & SD) 667 nm (M & SD) Chlorophyll a mean standard deviation water mass data

7 Integrated Ocean Observation Systems: HF radar - ocean currents Current Velocity Divergence Trend detided & filtered along-shore velocity detided & filtered cross-shore velocity variance in raw along-shore velocity variance in raw cross-shore velocity divergence average trend vorticity average trend

8 Current Velocity

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12 Divergence & Vorticity

13 Seasonal Divergence Trends

14 Multivariate Analysis (CCA) Final Environmental Variables Used Benthic Depth (log-transformed) Profile curvature Slope (residuals vs. depth) Sediment grain size IOOS SST 488 nm reflectance 551 nm reflectance (residuals vs. 488 nm) Cross-shore velocity Variance in cross-shore velocity Divergence trend CTD Mixed-layer depth Simpson’s PE (limited to top 30 m) Bottom temp Bottom salinity (residuals vs. depth)

15 Community Axis 1 Temp Depth 551 nm resids

16 Benthic IOOS CTD 21.4% 16.8% 24.8% 5.2% 6.1% 16.7% 8.9% 41.6% 47.6% 56.5% 27.5% 33.5% 14.1% 30.9% 22.0% 25.6% Percent of Explained Community Variation Partial CCA divergence trend 488 nm reflectance Simpson’s potential energy bottom T  SST bottom salinity residuals  SST mixed-layer depth  current velocity

17 Squid GAM Used multivariate results as a guide Explained approximately 85% of the variation in squid abundance Variables included: – bottom temperature – SST x depth interaction – sediment grain size – current velocity – divergence trend – water-leaving radiance: 488 nm

18 Conclusions Pelagic habitat is important IOOS provides useful measures of the pelagic habitat IOOS increases explanatory power of statistical habitat models

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