Predicting visual clarity and light penetration from water quality measures in New Zealand estuaries. (5th April 2019)
- Record Type:
- Journal Article
- Title:
- Predicting visual clarity and light penetration from water quality measures in New Zealand estuaries. (5th April 2019)
- Main Title:
- Predicting visual clarity and light penetration from water quality measures in New Zealand estuaries
- Authors:
- Gall, Mark
Swales, Andrew
Davies-Colley, Rob
Bremner, David - Abstract:
- Abstract: Estuaries are biogeochemically and physically dynamic environments, resulting in diverse optical water properties that vary in space and time. This natural variability challenges effective monitoring. We develop semi-empirical linear models of the two main water clarity aspects, visual clarity and light penetration, as functions of more routinely monitored and/or modelled water quality measures, to simplify approximations and allow more expansive modelling in space and time. At multiple points along salinity gradients in six northern New Zealand estuaries, we made discrete measurements of horizontal black disk visibility (y BD ) and downwelling irradiance attenuation ( K d (PAR)), with surface concentrations of the main light-attenuating constituents (LACs): total suspended solids (TSS), coloured dissolved organic matter (CDOM – a g (340)), and phytoplankton chlorophyll a (Chl .a ). Estuaries on the east coast (Tauranga and Tairua Harbours) were relatively clear compared to those on the west coast (Kaipara and Raglan Harbours). Although K d (PAR) (controlling light penetration and euphotic zone depth) and y BD (inversely proportional to beam attenuation at 550 nm, controlling visual clarity) were strongly corelated over all estuaries ( r 2 > 0.8), there were small, yet significant, differences between regression lines in different estuaries. This suggests regional differences in light scattering and absorption properties of the LACs. Variability in water clarityAbstract: Estuaries are biogeochemically and physically dynamic environments, resulting in diverse optical water properties that vary in space and time. This natural variability challenges effective monitoring. We develop semi-empirical linear models of the two main water clarity aspects, visual clarity and light penetration, as functions of more routinely monitored and/or modelled water quality measures, to simplify approximations and allow more expansive modelling in space and time. At multiple points along salinity gradients in six northern New Zealand estuaries, we made discrete measurements of horizontal black disk visibility (y BD ) and downwelling irradiance attenuation ( K d (PAR)), with surface concentrations of the main light-attenuating constituents (LACs): total suspended solids (TSS), coloured dissolved organic matter (CDOM – a g (340)), and phytoplankton chlorophyll a (Chl .a ). Estuaries on the east coast (Tauranga and Tairua Harbours) were relatively clear compared to those on the west coast (Kaipara and Raglan Harbours). Although K d (PAR) (controlling light penetration and euphotic zone depth) and y BD (inversely proportional to beam attenuation at 550 nm, controlling visual clarity) were strongly corelated over all estuaries ( r 2 > 0.8), there were small, yet significant, differences between regression lines in different estuaries. This suggests regional differences in light scattering and absorption properties of the LACs. Variability in water clarity was mainly accounted for by TSS alone in west coast Kaipara Harbour sub-estuaries ( r 2 > 0.7), while in east coast estuaries, TSS was a weak predictor ( r 2 < 0.5), and prediction was significantly improved by accounting for CDOM ( r 2 > 0.7). West coast Raglan Harbour had intermediary responses. In most cases, the inclusion of CDOM significantly improved estuary models, but Chl .a was a significant term only in a few cases, such as during one survey on the Kaipara River sub-estuary. Co-linearity of LACs was an issue in some cases for semi-empirical models. The application of a literature-derived Lambert-Beer Law (LBL) type model to our data more effectively partition the contributions of the LACs, which confirmed and quantified differences between west coast (TSS dominant), and east coast (TSS + CDOM) estuaries. Although we expect that 'simple' semi-empirical models will have wide practical application for estimating visual clarity and light penetration in estuaries in New Zealand and elsewhere, consideration of all LACs in an LBL type model is advised across entire estuaries, and local verification and 'tuning' is desirable. Graphical abstract: Image 1 Highlights: Water clarity in New Zealand estuaries are highly dynamic in space and time. Concentrations of light attenuating constituents (LACs) control water clarity. LACs are suspended solids, coloured dissolved organic matter and chlorophyll a. Visual clarity and light penetration can both be predicted from LAC concentrations. Regional fine tuning of clarity models is needed for accurate predictions. … (more)
- Is Part Of:
- Estuarine, coastal and shelf science. Volume 219(2019)
- Journal:
- Estuarine, coastal and shelf science
- Issue:
- Volume 219(2019)
- Issue Display:
- Volume 219, Issue 2019 (2019)
- Year:
- 2019
- Volume:
- 219
- Issue:
- 2019
- Issue Sort Value:
- 2019-0219-2019-0000
- Page Start:
- 429
- Page End:
- 443
- Publication Date:
- 2019-04-05
- Subjects:
- Light attenuation -- Optical water quality -- Black disk visibility -- Total suspended solids -- Coloured dissolved organic matter -- Chlorophyll a
Estuarine oceanography -- Periodicals
Coasts -- Periodicals
Estuarine biology -- Periodicals
Seashore biology -- Periodicals
Coasts
Estuarine biology
Estuarine oceanography
Seashore biology
Periodicals
551.461805 - Journal URLs:
- http://www.sciencedirect.com/science/journal/02727714 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.ecss.2019.01.003 ↗
- Languages:
- English
- ISSNs:
- 0272-7714
- Deposit Type:
- Legaldeposit
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 3812.599200
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- 9661.xml