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BACKSCATTERING OF SPECTRAL IRRADIANCE BY BUBBLES: HYCODE 2001 Marlon R. Lewis 1,2,Bruce Johnson 2,Alex Hay 2 1 Satlantic Inc. 2 Department of Oceanography.

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Presentation on theme: "BACKSCATTERING OF SPECTRAL IRRADIANCE BY BUBBLES: HYCODE 2001 Marlon R. Lewis 1,2,Bruce Johnson 2,Alex Hay 2 1 Satlantic Inc. 2 Department of Oceanography."— Presentation transcript:

1 BACKSCATTERING OF SPECTRAL IRRADIANCE BY BUBBLES: HYCODE 2001 Marlon R. Lewis 1,2,Bruce Johnson 2,Alex Hay 2 1 Satlantic Inc. 2 Department of Oceanography Dalhousie University

2 Hypothesis: Bubbles injected into the upper ocean account for much of the backscattering of visible light, and variations in the backscattering coefficient in time and space. (Based on Mie scattering & radiative transfer theory Zhang et al. 1999, 2001) Dalhousie Univ. Satlantic Inc. Phase Function Spectral Reflectance Surface Radiance Amplitude and Angular Distribution BlueGreen Background

3 Matters arising….HyCode 2000 REMUS data analysis (K. Brown, Y. Huot, M. Lewis, and OSL/WHOI) Temp. Fluoro. K D (555) K Lu (555)

4 HyperPro: Sub-surface hyperspectral profiles (radiance/irradiance) + CT, Tilt SPAR: Surface hyperspectral upwelling radiance & downward irradiance, acoustics, camera, CT, GTD, tilt. HHS: Above-water hyperspectral upwelling radiance (overflights) HYCODE 2001: OVERVIEWVSM: Volume- scattering function continuous, joint w/ MHI & OSU. SQM: Intercalibration/ comparison (McLean)

5 Data Status: 1.HyperPro: Processed, available (http:/raptor.ocean.dal.ca/~mike/marlon) 2.SPAR Optics: Processed, available as above, acoustics in calibration. 3.HHS: Still being processed & interleaved with GPS 4.VSM: Processed, available as above & OSU web site 5.SQM: Data all processed, report available. Stations occupied from offshore blue to inshore brown waters. All instruments/ platforms functioned well – Thanks to Scott Pegau/CS STATION OVERVIEW

6 HyperPro: Provided useful hyperspectral downwelling irradiance/ upwelling radiance to >1% light level.

7 “Blue Water” Station“Green Water” Station HyperPro:

8 SPAR buoy provided hyperspectral upwelling radiance (0.6 m) and downwelling irradiance (above surface), along with multi- frequency acoustics, bubble camera, CT, tilts.

9 SPAR: “Blue Water” Station “Green Water” Station

10 1.5 MHz 2 MHz. 4 MHz 300 kHz 350 kHz. 600 kHz SPAR: Multifrequency Acoustic View of Bubble Cloud (ship wake)

11 SQM: Overall, agreement between numerous instruments is excellent (see McLean report) 1. 48 independent instruments intercompared (including PHILLS (NRL)). 2. Hyperspectral and multispectral radiance sensors w/in 4%, in-water irradiance w/in 1%. 3. Above-water irradiance sensors more variable (9%). 4. PHILLS intercomparison with standard reference better than 7% w/ some roll-off near edges of target (WFOV). 5. Some processing uncertainties remain with other sensors (ASD, HOBILabs).

12 VSM: Deployed for continuous sampling (w/ OSU ac-9, others). 850 VSF observations over wide range of optical water types.

13 See Mobley et al. 2001 Boss and Pegau 2001

14

15 15:00 29 July 18:30 30 July 21:30 30 July 22:40 31 July

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