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Uncertainties associated with in situ high-frequency long-term observations of suspended particulate matter concentration using optical and acoustic sensors
Fettweis, M.; Riethmüller, R.; Verney, R.; Becker, M.; Backers, J.; Baeye, M.; Chapalain, M.; Claeys, S.; Claus, J.; Cox, T. (2019). Uncertainties associated with in situ high-frequency long-term observations of suspended particulate matter concentration using optical and acoustic sensors. Prog. Oceanogr. 178: 102162. https://dx.doi.org/10.1016/j.pocean.2019.102162
In: Progress in Oceanography. Pergamon: Oxford,New York,. ISSN 0079-6611; e-ISSN 1873-4472
Peer reviewed article  

Available in  Authors 
  • VLIZ: Non-open access 338854 [ request ]
  • NIOZ: NIOZ files 340873
  • Waterbouwkundig Laboratorium: Non-open access 362728 [ request ]

Keyword
    Marine/Coastal
Author keywords
    Suspended particulate matter; Measurement uncertainty; Regression; Optical and acoustical sensors

Authors  Top 
  • Fettweis, M.
  • Riethmüller, R.
  • Verney, R.
  • Becker, M.
  • Backers, J.
  • Baeye, M.
  • Chapalain, M.
  • Claeys, S.
  • Claus, J.
  • Cox, T.
  • Deloffre, J.
  • Depreiter, D.
  • Druine, F.
  • Flöser, G.
  • Grünler, S.
  • Jourdin, F.
  • Lafite, R.
  • Nauw, J.J.
  • Nechad, B.
  • Röttgers, R.
  • Sottolichio, A.
  • Van Engeland, T.
  • Vanhaverbeke, W.
  • Vereecken, H.

Abstract
    Measurement of suspended particulate matter concentration (SPMC) spanning large time and geographical scales have become a matter of growing importance in recent decades. At many places worldwide, complex observation platforms have been installed to capture temporal and spatial variability over scales ranging from cm (turbulent regimes) to whole basins. Long-term in situ measurements of SPMC involve one or more optical and acoustical sensors and, as the ground truth reference, gravimetric measurements of filtered water samples. The estimation of SPMC from optical and acoustical proxies generally results from the combination of a number of independent calibration measurements, as well as regression or inverse models. Direct or indirect measurements of SPMC are inherently associated with a number of uncertainties along the whole operation chain, the autonomous field deployment, to the analyses necessary for converting the observed proxy values of optical and acoustical signals to SPMC. Controlling uncertainties will become an important issue when the observational input comprises systems of sensors spanning large spatial and temporal scales. This will be especially relevant for detecting trends in the data with unambiguous statistical significance, separating anthropogenic impact from natural variations, or evaluating numerical models over a broad ensemble of different conditions using validated field data.The aim of the study is to present and discuss the benefits and limitations of using optical and acoustical backscatter sensors to acquire long-term observations of SPMC. Additionally, this study will formulate recommendations on how to best acquire quality-assured SPMC data sets, based on the challenges and uncertainties associated with those long-term observations. The main sources of error as well as the means to quantify and reduce the uncertainties associated with SPMC measurements are also illustrated.

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