Modifying the high rate algal pond light environment and its effects on light absorption and photosynthesis

Modifying the high rate algal pond light environment and its effects on light absorption and photosynthesis

The combined use of high rate algal ponds (HRAPs) for wastewater treatment and commercial algal production is considered to be an economically viable option. However, microalgal photosynthesis and biomass productivity is constrained in HRAPs due to light limitation. This paper investigates how the l...

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Veröffentlicht in:Water research (Oxford) 2015-03, Vol.70, p.86-96
Hauptverfasser: Sutherland, Donna L., Montemezzani, Valerio, Howard-Williams, Clive, Turnbull, Matthew H., Broady, Paul A., Craggs, Rupert J.
Format: Artikel
Sprache:eng
Schlagworte:
Algae
Autumn
Biomass
Climate
Darkness
High rate algal ponds
Light
Light absorption
Light utilisation
Microalgae - metabolism
Microalgae - physiology
Microalgae - radiation effects
Models, Theoretical
Oxygen - metabolism
Oxygen production
Photosynthesis
Ponds
Wastewater
Wastewater treatment
Water circulation
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container_end_page 96
container_issue
container_start_page 86
container_title Water research (Oxford)
container_volume 70
creator Sutherland, Donna L.
Montemezzani, Valerio
Howard-Williams, Clive
Turnbull, Matthew H.
Broady, Paul A.
Craggs, Rupert J.
description The combined use of high rate algal ponds (HRAPs) for wastewater treatment and commercial algal production is considered to be an economically viable option. However, microalgal photosynthesis and biomass productivity is constrained in HRAPs due to light limitation. This paper investigates how the light climate in the HRAP can be modified through changes in pond depth, hydraulic retention time (HRT) and light/dark turnover rate and how this impacts light absorption and utilisation by the microalgae. Wastewater treatment HRAPs were operated at three different pond depth and HRT during autumn. Light absorption by the microalgae was most affected by HRT, significantly decreasing with increasing HRT, due to increased internal self-shading. Photosynthetic performance (as defined by Pmax, Ek and α), significantly increased with increasing pond depth and decreasing HRT. Despite this, increasing pond depth and/or HRT, resulted in decreased pond light climate and overall integrated water column net oxygen production. However, increased light/dark turnover was able to compensate for this decrease, bringing the net oxygen production in line with shallower ponds operated at shorter HRT. On overcast days, modelled daily net photosynthesis significantly increased with increased light/dark turnover, however, on clear days such increased turnover did not enhance photosynthesis. This study has showed that light absorption and photosynthetic performance of wastewater microalgae can be modified through changes to pond depth, HRT and light/dark turnover. •Microalgal light absorption increased as hydraulic retention time (HRT) decreased.•Available light in pond decreased with increasing HRT and depth.•Maximum photosynthetic efficiency increased with increasing depth and HRT.•Increased turnover rate enhanced photosynthesis for all depths and HRT.
doi_str_mv 10.1016/j.watres.2014.11.050
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subjects Algae
Autumn
Biomass
Climate
Darkness
High rate algal ponds
Light
Light absorption
Light utilisation
Microalgae - metabolism
Microalgae - physiology
Microalgae - radiation effects
Models, Theoretical
Oxygen - metabolism
Oxygen production
Photosynthesis
Ponds
Wastewater
Wastewater treatment
Water circulation
title Modifying the high rate algal pond light environment and its effects on light absorption and photosynthesis
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