Effects of culture mode and CO2 supply on the efficiency of Haematococcus pluvialis cultivation in recirculating aquaculture system’s wastewater
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Date
2023Access restrictions
The author has not given permission to make the work publicly available electronically. Therefore the material can be read only at the archival workstation at Jyväskylä University Library (https://kirjasto.jyu.fi/collections/archival-workstation).
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© The Author(s)
Haematococcus pluvialis is a microalga that could be grown using wastewater
(WW) from recirculating aquaculture systems (RAS) and by growing the alga in
WW it is possible to trap the dissolved nutrients which otherwise would end up
in the environment. Improvements in sustainability, resource efficiency, and the
generation of a valuable carotenoid pigment (astaxanthin) may all result from
converting wastewater nutrients into H. pluvialis biomass in RAS. In this master's
thesis, I have done two experiments. In the first one, I examined the suitability of
the culture mode by comparing the growth of H. pluvialis for 17 days in RAS WW
under batch (input all the culture medium once) and fed-batch (input culture
medium gradually) culture modes. In the second experiment of 15 days, I
examined the algal growth and pH of the medium for 8 days until the microalga
reach the stationary phase, nitrate removal (15 days), and astaxanthin
concentration (on day 15) in Modified Wright's Cryptophyte (MWC) medium
with batch culture mode by supplying air either from the RAS trickling filter
where CO2 concentration was 964± 16.38 ppm or room air where CO2 was 451±
1.77 ppm. In the 1st experiment, the specific growth rate (SGR) (0.20±0.014 d-1) of
the microalga culturing in batch culture mode was significantly higher than SGR
(0.11±0.008 d-1) in fed-batch culture mode. In the second experiment, there was a
statistically significant difference in cell density between the treatments (P=0.039)
whereas in additional CO2 -treated culture had higher cell density. There was no
significant difference in SGR between the treatments (RAS air = 0.27±0.017 d-1,
room air = 0.25±0.006 d-1). On the other hand nitrate consumption rate was
significantly higher in the RAS air treatment, i.e. with the additional CO2. The
concentration of astaxanthin did not differ significantly between the treatments.
Additional CO2 retained the medium's pH at a lower level and likely had a
positive influence on algal growth and nutrient absorption. These results imply
that the growth of H. pluvialis increased with the addition of CO2 from RAS in
batch culture mode.
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