Characterisation of a Point-source Integrating Cavity Absorption Meter for Applications in Optical Oceanography PDF Download
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Author: Katharina Lefering
Publisher:
ISBN:
Category :
Languages : en
Pages : 316
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Book Description
Many biogeochemical and physical processes in the aquatic environment are driven by the spectral light absorption properties of the water body and the constituents dissolved and suspended within. Improving our knowledge on absorption processes in marine waters is of great interest to optical oceanographers as absorption influences the structure of underwater light fields. The determination of high quality absorption data are important for accurate modelling of underwater radiative transfer processes and the interpretation and derivation of ocean colour remote sensing products. Accurate measurements of spectral absorption coefficients, however, are challenging because instruments and methods are affected by scattering by marine particles and can suffer from significant systematic errors. Röttgers and co-workers (2005) introduced a point-source integrating cavity absorption meter (PSICAM) in which sample absorption is measured inside an integrating sphere using a totally diffuse light field. This set-up has been shown to be insensitive to scattering errors and therefore ideally suited for absorption determinations of marine waters. Initial characterisation and a sensitivity analysis confirmed the superior performance of the PSICAM compared to other spectrophotometric techniques but also highlighted remaining limitations in accuracy at UV/blue wavelengths. PSICAM data were subsequently used to develop and validate corrections for established absorption measurements, in particular the determination of particulate absorption coefficients with the filter pad technique and the determination of in situ absorption measurements with submersible AC-9 instruments. The latter can be used to populate radiative transfer models and simulate underwater light fields. An optical closure study demonstrated consistency between in situ measurements of radiometry and inherent optical properties coupled into radiative transfer model outputs, confirming high accuracy of input absorption data and output model parameters. The ability to model underwater and water-leaving light fields correctly is important for ecosystem modelling application and the validation of satellite remote sensing data.A preliminary analysis of the potential to simultaneously measure spectral fluorescence and absorption was carried out. This demonstrated both the magnitude of inelastic scattering effects on current PSICAM performance and potential towards further development of the system that could benefit primary production studies.
Author: Katharina Lefering
Publisher:
ISBN:
Category :
Languages : en
Pages : 316
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Book Description
Many biogeochemical and physical processes in the aquatic environment are driven by the spectral light absorption properties of the water body and the constituents dissolved and suspended within. Improving our knowledge on absorption processes in marine waters is of great interest to optical oceanographers as absorption influences the structure of underwater light fields. The determination of high quality absorption data are important for accurate modelling of underwater radiative transfer processes and the interpretation and derivation of ocean colour remote sensing products. Accurate measurements of spectral absorption coefficients, however, are challenging because instruments and methods are affected by scattering by marine particles and can suffer from significant systematic errors. Röttgers and co-workers (2005) introduced a point-source integrating cavity absorption meter (PSICAM) in which sample absorption is measured inside an integrating sphere using a totally diffuse light field. This set-up has been shown to be insensitive to scattering errors and therefore ideally suited for absorption determinations of marine waters. Initial characterisation and a sensitivity analysis confirmed the superior performance of the PSICAM compared to other spectrophotometric techniques but also highlighted remaining limitations in accuracy at UV/blue wavelengths. PSICAM data were subsequently used to develop and validate corrections for established absorption measurements, in particular the determination of particulate absorption coefficients with the filter pad technique and the determination of in situ absorption measurements with submersible AC-9 instruments. The latter can be used to populate radiative transfer models and simulate underwater light fields. An optical closure study demonstrated consistency between in situ measurements of radiometry and inherent optical properties coupled into radiative transfer model outputs, confirming high accuracy of input absorption data and output model parameters. The ability to model underwater and water-leaving light fields correctly is important for ecosystem modelling application and the validation of satellite remote sensing data.A preliminary analysis of the potential to simultaneously measure spectral fluorescence and absorption was carried out. This demonstrated both the magnitude of inelastic scattering effects on current PSICAM performance and potential towards further development of the system that could benefit primary production studies.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 11
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Book Description
We evaluate the theoretical performance of a point-source integrating-cavity absorption meter (PSICAM) with Monte Carlo simulations and a sensitivity analysis. We quantify the scattering errors, verifying that they are negligible for most ocean optics applications. Although the PSICAM detector response is highly sensitive to the value of the wall reflectivity, the absorption of an unknown fluid can be accurately determined with a PSICAM if appropriate reference solution(s) are chosen. We also quantify the error that results if the source is not perfectly isotropic, finding that moderate amounts of source anisotropy can be tolerated provided that the detector is properly located with respect to the source.
Author: Christophe Jean-Yves Joël Lerebourg
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Suzanne Roy
Publisher: Cambridge University Press
ISBN: 1139500996
Category : Science
Languages : en
Pages :
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Book Description
Pigments act as tracers to elucidate the fate of phytoplankton in the world's oceans and are often associated with important biogeochemical cycles related to carbon dynamics in the oceans. They are increasingly used in in situ and remote-sensing applications, detecting algal biomass and major taxa through changes in water colour. This book is a follow-up to the 1997 volume Phytoplankton Pigments in Oceanography (UNESCO Press). Since then, there have been many advances concerning phytoplankton pigments. This book includes recent discoveries on several new algal classes particularly for the picoplankton, and on new pigments. It also includes many advances in methodologies, including liquid chromatography-mass spectrometry (LC-MS) and developments and updates on the mathematical methods used to exploit pigment information and extract the composition of phytoplankton communities. The book is invaluable primarily as a reference for students, researchers and professionals in aquatic science, biogeochemistry and remote sensing.
Author: Eric Delory
Publisher: Elsevier
ISBN: 0128098872
Category : Technology & Engineering
Languages : en
Pages : 408
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Book Description
Challenges and Innovations in Ocean In-Situ Sensors: Measuring Inner Ocean Processes and Health in the Digital Age highlights collaborations of industry and academia in identifying the key challenges and solutions related to ocean observations. A new generation of sensors is presented that addresses the need for higher reliability (e.g. against biofouling), better integration on platforms in terms of size and communication, and data flow across domains (in-situ, space, etc.). Several developments are showcased using a broad diversity of measuring techniques and technologies. Chapters address different sensors and approaches for measurements, including applications, quality monitoring and initiatives that will guide the need for monitoring. Integrates information across key marine and maritime sectors and supports regional policy requirements on monitoring programs Offers tactics for enabling early detection and more effective monitoring of the marine environment and implementation of appropriate management actions Presents new technologies driving the next generation of sensors, allowing readers to understand new capabilities for monitoring and opportunities for another generation of sensors Includes a global vision for ocean monitoring that fosters a new perspective on the direction of ocean measurements
Author: Robin Merl Pope
Publisher:
ISBN:
Category : Light absorption
Languages : en
Pages : 270
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Book Description
The Integrating Cavity Absorption Meter (ICAM), has been refined to enhance stability, sensitivity, and operational wavelength regions. The ICAM is, in principal, independent of scattering effects in the sample. The ICAM produces an effective path length which is on the order of several meters, consequently, the instrument is sensitive to small absorptions. Measurement results have resolved absorption coefficients as low as 0.004 m^-1. We present definitive results for the absorption spectra of pure water between 380 and 750 nm. The ICAM was field tested on board the USNS Bartlett during the GOMEX-1 cruise in the Gulf of Mexico during April of 1993. Water samples were collected with Niskin bottles and the total absorption spectra of the seawater was measured. Particulates were removed from the seawater samples by filtration and the filtrate absorption spectra were measured. Subtracting the filtrate absorption from the total seawater absorption yields the absorption spectra for the particulate matter. Subtracting the absorption spectra of pure water from the filtrate absorption results in the absorption spectra for the dissolved organic matter.
Author: John Watson
Publisher: Elsevier
ISBN: 0857093525
Category : Technology & Engineering
Languages : en
Pages : 615
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Book Description
The use of optical methodology, instrumentation and photonics devices for imaging, vision and optical sensing is of increasing importance in understanding our marine environment. Subsea optics can make an important contribution to the protection and sustainable management of ocean resources and contribute to monitoring the response of marine systems to climate change. This important book provides an authoritative review of key principles, technologies and their applications. The book is divided into three parts. The first part provides a general introduction to the key concepts in subsea optics and imaging, imaging technologies and the development of ocean optics and colour analysis. Part two reviews the use of subsea optics in environmental analysis. An introduction to the concepts of underwater light fields is followed by an overview of coloured dissolved organic matter (CDOM) and an assessment of nutrients in the water column. This section concludes with discussions of the properties of subsea bioluminescence, harmful algal blooms and their impact and finally an outline of optical techniques for studying suspended sediments, turbulence and mixing in the marine environment. Part three reviews subsea optical systems technologies. A general overview of imaging and visualisation using conventional photography and video leads onto advanced techniques like digital holography, laser line-scanning and range-gated imaging as well as their use in controlled observation platforms or global observation networks. This section also outlines techniques like Raman spectroscopy, hyperspectral sensing and imaging, laser Doppler anemometry (LDA) and particle image velocimetry (PIV), optical fibre sensing and LIDAR systems. Finally, a chapter on fluorescence methodologies brings the volume to a close. With its distinguished editor and international team of contributors, Subsea optics and imaging is a standard reference for those researching, developing and using subsea optical technologies as well as environmental scientists and agencies concerned with monitoring the marine environment. Provides an authoritative review of key principles, technologies and their applications Outlines the key concepts in subsea optics and imaging, imaging technologies and the development of ocean optics and colour analysis Reviews the properties of subsea bioluminescence, harmful algal blooms and their impact
Author: Patrick J. Neale
Publisher: Frontiers Media SA
ISBN: 2889669807
Category : Science
Languages : en
Pages : 157
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Book Description
Author: Frank M. Caimi
Publisher: SPIE-International Society for Optical Engineering
ISBN:
Category : Science
Languages : en
Pages : 732
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Book Description
Topics in this volume include: beam attenuation; optical properties of turbidity standards; optical absorptions of light and heavy water by laser optoacoustic spectroscopy; and refractive index fluctuations in seawater.
Author:
Publisher:
ISBN:
Category : Aquatic sciences
Languages : en
Pages : 422
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Book Description
