Light Attenuation along the California Coast - PowerPoint PPT Presentation

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Light Attenuation along the California Coast

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Use of hyperspectral imagery in visible to near IR range ... Mitigates need for use of Snell's Law and refraction issues. Looked at: SPAR ... – PowerPoint PPT presentation

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Title: Light Attenuation along the California Coast


1
Light Attenuation along the California Coast
  • By LT Lars Lone
  • Completed for OC3570

2
Overview
  • Reason for research
  • Attenuation revisited
  • Data used
  • Results
  • Conclusions
  • Follow on studies

3
Reason for Research
  • Thesis research
  • Use of hyperspectral imagery in visible to near
    IR range
  • Understand more why visibility so limited
  • Not really discussed in my other OC classes and
    wanted to look at it more

4
Attenuation
  • Beers Law
  • Iz Ioexp(-kz)
  • Where Iz PAR, Io SPAR, k attenuation, z
    depth
  • So k -ln(Iz/ Io)/z

5
Data Used
Sites Used 2,12,23
Sites Used 40,45,46,69
6
Data Used
  • Data sets taken from local apparent noon
  • Mitigates need for use of Snells Law and
    refraction issues
  • Looked at
  • SPAR
  • PAR (photosynthetic active radiation)
  • Transmissivity
  • Fluorometer

7
Results Station 2
  • Attenuation and Par have similar curve shape
  • No extreme changes in any of the data sets
    looked at

8
Results Station 12
  • Largest variation of attenuation
  • Water depth greater here
  • Similar Transmissivity and Fluorometer as before
  • Interesting values for PAR sensor

9
Results Station 23
  • Abnormal attenuation curve
  • And lowest variation in attenuation
  • Transmissivity and Fluorometer look fairly
    normal
  • Par sensor off by factor of 10 compared to
    previous 2 stations.

10
Results Station 40
  • Attenuation Similar to station 12
  • Fluorometer readings remain constant longer
  • Interesting spikes in SPAR at same depth
  • Note surface PAR as well

11
Results Station 45
  • Interesting attenuation shift
  • Very short attenuation range
  • Large PAR values near surface similar to Station
    23

12
Results Station 46
  • Less variation in attenuation
  • Interesting PAR results as well
  • No significant changes in Fluorometer or
    Transmissivity

13
Results Station 69
  • Again, abnormal attenuation results
  • PAR sensor has a factor of 10 greater than
    normal once again
  • No significant value difference for Fluorometer
    or Transmissivity

14
Conclusions
  • Deep water had greater overall attenuation values
  • Typical ocean values range from .02-2
  • My results agree with this
  • Unsure of cause for spike in PAR values at half
    of the sites
  • More research needs to be done

15
Future Studies
  • Attenuation at times other than local apparent
    noon
  • Nearshore vs. offshore
  • Attenuation loss due to reflectance vs. absorption
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