Please use this identifier to cite or link to this item:
http://hdl.handle.net/1893/24417
Appears in Collections: | Biological and Environmental Sciences eTheses |
Title: | Remote sensing and bio-geo-optical properties of turbid, productive inland waters: a case study of Lake Balaton |
Author(s): | Riddick, Caitlin A L |
Supervisor(s): | Tyler, Andrew N Hunter, Peter D |
Keywords: | remote sensing inherent optical properties Lake Balaton phytoplankton algal blooms cyanobacteria absorption scattering |
Issue Date: | 24-May-2016 |
Publisher: | University of Stirling |
Citation: | Riddick, C.A.L., Hunter, P.D., Tyler, A.N., Martinez-Vicente, V., Horváth, H., Kovács, A.W., et al. (2015). Spatial variability of absorption coefficients over a biogeochemical gradient in a large and optically complex shallow lake. Journal of Geophysical Research: Oceans, 120, 7040-7066. |
Abstract: | Algal blooms plague freshwaters across the globe, as increased nutrient loads lead to eutrophication of inland waters and the presence of potentially harmful cyanobacteria. In this context, remote sensing is a valuable approach to monitor water quality over broad temporal and spatial scales. However, there remain several challenges to the accurate retrieval of water quality parameters, and the research in this thesis investigates these in an optically complex lake (Lake Balaton, Hungary). This study found that bulk and specific inherent optical properties [(S)IOPs] showed significant spatial variability over the trophic gradient in Lake Balaton. The relationships between (S)IOPs and biogeochemical parameters differed from those reported in ocean and coastal waters due to the high proportion of particulate inorganic matter (PIM). Furthermore, wind-driven resuspension of mineral sediments attributed a high proportion of total attenuation to particulate scattering and increased the mean refractive index (n̅p) of the particle assemblage. Phytoplankton pigment concentrations [chlorophyll-a (Chl-a) and phycocyanin (PC)] were also accurately retrieved from a times series of satellite data over Lake Balaton using semi-analytical algorithms. Conincident (S)IOP data allowed for investigation of the errors within these algorithms, indicating overestimation of phytoplankton absorption [aph(665)] and underestimation of the Chl-a specific absorption coefficient [a*ph(665)]. Finally, Chl-a concentrations were accurately retrieved in a multiscale remote sensing study using the Normalized Difference Chlorophyll Index (NDCI), indicating hyperspectral data is not necessary to retrieve accurate pigment concentrations but does capture the subtle heterogeneity of phytoplankton spatial distribution. The results of this thesis provide a positive outlook for the future of inland water remote sensing, particularly in light of contemporary satellite instruments with continued or improved radiometric, spectral, spatial and temporal coverage. Furthermore, the value of coincident (S)IOP data is highlighted and contributes towards the improvement of remote sensing pigment retrieval in optically complex waters. |
Type: | Thesis or Dissertation |
URI: | http://hdl.handle.net/1893/24417 |
Files in This Item:
File | Description | Size | Format | |
---|---|---|---|---|
Riddick_CALR_PhDThesis_2016_FINAL.pdf | Riddick CAL PhD Thesis | 5.15 MB | Adobe PDF | View/Open |
This item is protected by original copyright |
Items in the Repository are protected by copyright, with all rights reserved, unless otherwise indicated.
The metadata of the records in the Repository are available under the CC0 public domain dedication: No Rights Reserved https://creativecommons.org/publicdomain/zero/1.0/
If you believe that any material held in STORRE infringes copyright, please contact library@stir.ac.uk providing details and we will remove the Work from public display in STORRE and investigate your claim.