Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium

Viljelemällä mikroleviä kalojen kiertovesiviljelyn jätevedessä siitä voidaan poistaa ravinteita ja tuottaa niistä biomassaa. Menetelmää voidaan käyttää korvaamaan perinteistä jäteveden käsittelyä ja kehittämään vesiviljelyn kannattavuutta. Tässä työssä verrattiin kolmen eri viherlevälajin (Haematoco...

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Main Author:	Calderini, Marco
Other Authors:	Matemaattis-luonnontieteellinen tiedekunta, Faculty of Sciences, Bio- ja ympäristötieteiden laitos, Department of Biological and Environmental Science, Jyväskylän yliopisto, University of Jyväskylä
Format:	Master's thesis
Language:	eng
Published:	2020
Subjects:	recirculating aquaculture systems RAS Master's Degree Programme in Sustainable management of Inland Aquatic Resources 4012 mikrolevät levät aminohapot rasvahapot jäteveden käsittely microalgae algae amino acids fatty acids waste water treatment
Online Access:	https://jyx.jyu.fi/handle/123456789/68875

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author	Calderini, Marco
author2	Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Bio- ja ympäristötieteiden laitos Department of Biological and Environmental Science Jyväskylän yliopisto University of Jyväskylä
author_facet	Calderini, Marco Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Bio- ja ympäristötieteiden laitos Department of Biological and Environmental Science Jyväskylän yliopisto University of Jyväskylä Calderini, Marco Matemaattis-luonnontieteellinen tiedekunta Faculty of Sciences Bio- ja ympäristötieteiden laitos Department of Biological and Environmental Science Jyväskylän yliopisto University of Jyväskylä
author_sort	Calderini, Marco
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description	Viljelemällä mikroleviä kalojen kiertovesiviljelyn jätevedessä siitä voidaan poistaa ravinteita ja tuottaa niistä biomassaa. Menetelmää voidaan käyttää korvaamaan perinteistä jäteveden käsittelyä ja kehittämään vesiviljelyn kannattavuutta. Tässä työssä verrattiin kolmen eri viherlevälajin (Haematococcus pluvialis, Monoraphidium griffithii and Selenastrum sp.) kasvua, ravinteiden poistoa, sekä rasvahappo- ja aminohappoprofiileja, kun leviä kasvatettiin suodatetussa tai suodattamattomassa kiertovedessä tai levien elatusaineessa. Monoraphidium ja Selenastrum -lajien kasvunopeudet olivat pienemmät kiertovedessä (0.64 vrk-1 ja 0.50 vrk-1) kuin levien elatusaineessa (0.72 ja 0.59 vrk-1), mutta Haematococcus-levän kasvunopeudessa ei ollut eroa kasvuliuosten välillä (0.47 ja 0.51 vrk-1). Levien rasvahappokoostumukset erosivat lähinnä oleeinihapon (18:1n-9) osuuksien suhteen, jotka olivat alemmat kiertovedessä kaikilla levälajeilla. Aminohappoprofiileissa ei ollut suuria eroja kasvuliuosten välillä. Kiertoveden sisältämien pieneliöiden vaikutusta leviin testattiin vertaamalla suodatettua ja suodattamatonta kiertovettä. Levien kasvunopeudet ja typen- ja fosforinpoisto eivät eronneet suodatetun ja suodattamattoman kiertoveden välillä, mutta rasvahappo- ja aminohappoprofiileissa oli jonkin verran eroja. Tuloksien perusteella levien kasvatusta kiertovedessä voidaan suositella kiertoveden puhdistusmenetelmäksi, jonka avulla voidaan samalla tuottaa arvokasta biomassaa. Microalgae cultivation in recirculating aquaculture system’s (RAS’s) wastewater (WW) is a promising alternative to conventional WW treatment. Conversion of WW nutrients into biomass could lead to new developments in aquaculture. In this master’s thesis, I compared the growth, nutrient removal, fatty acid (FA) and amino acid (AA) profiles of three green microalgae: Haematococcus pluvialis, Monoraphidium griffithii and Selenastrum sp. grown in RAS WW and reference growth medium. WW negatively affected the specific growth rate of Monoraphidium (0.64 d-1) and Selenastrum sp. (0.50 d-1) compared to reference medium (0.72, 0.59 d-1, respectively), while Haematococcus was not significantly affected (0.47 - 0.51 d-1). FA differences between WW and reference medium were mostly driven by the increase of oleic acid (18:1n-9) in reference medium (Haematococcus: 3.7 - 10.6, Monoraphidium: 4.1 - 11.5, Selenastrum: 6.3 - 17.0 mean% contribution). AA contribution profiles did not present considerable differences between treatments. The effect of microorganisms in RAS WW was tested by cultivating microalgae in filtered WW. Filtered and unfiltered WW achieved the same specific growth rate and removal of nitrogen (N% 15 – 38%) and phosphate (P% 48 – 99 %) while minor differences were observed in their FA and AA profiles. These findings support the use of microalgae as an alternative technique for treatment of RAS WW while producing valuable biomass.
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Menetelm\u00e4\u00e4 voidaan k\u00e4ytt\u00e4\u00e4 korvaamaan\nperinteist\u00e4 j\u00e4teveden k\u00e4sittely\u00e4 ja kehitt\u00e4m\u00e4\u00e4n vesiviljelyn kannattavuutta. T\u00e4ss\u00e4\nty\u00f6ss\u00e4 verrattiin kolmen eri viherlev\u00e4lajin (Haematococcus pluvialis, Monoraphidium\ngriffithii and Selenastrum sp.) kasvua, ravinteiden poistoa, sek\u00e4 rasvahappo- ja\naminohappoprofiileja, kun levi\u00e4 kasvatettiin suodatetussa tai suodattamattomassa\nkiertovedess\u00e4 tai levien elatusaineessa. Monoraphidium ja Selenastrum -lajien\nkasvunopeudet olivat pienemm\u00e4t kiertovedess\u00e4 (0.64 vrk-1 ja 0.50 vrk-1) kuin levien\nelatusaineessa (0.72 ja 0.59 vrk-1), mutta Haematococcus-lev\u00e4n kasvunopeudessa ei\nollut eroa kasvuliuosten v\u00e4lill\u00e4 (0.47 ja 0.51 vrk-1). Levien rasvahappokoostumukset\nerosivat l\u00e4hinn\u00e4 oleeinihapon (18:1n-9) osuuksien suhteen, jotka olivat alemmat\nkiertovedess\u00e4 kaikilla lev\u00e4lajeilla. Aminohappoprofiileissa ei ollut suuria eroja\nkasvuliuosten v\u00e4lill\u00e4. Kiertoveden sis\u00e4lt\u00e4mien pieneli\u00f6iden vaikutusta leviin\ntestattiin vertaamalla suodatettua ja suodattamatonta kiertovett\u00e4. Levien\nkasvunopeudet ja typen- ja fosforinpoisto eiv\u00e4t eronneet suodatetun ja\nsuodattamattoman kiertoveden v\u00e4lill\u00e4, mutta rasvahappo- ja aminohappoprofiileissa\noli jonkin verran eroja. Tuloksien perusteella levien kasvatusta kiertovedess\u00e4\nvoidaan suositella kiertoveden puhdistusmenetelm\u00e4ksi, jonka avulla voidaan samalla tuottaa arvokasta biomassaa.", "language": "fi", "element": "description", "qualifier": "abstract", "schema": "dc"}, {"key": "dc.description.abstract", "value": "Microalgae cultivation in recirculating aquaculture system\u2019s (RAS\u2019s) wastewater\n(WW) is a promising alternative to conventional WW treatment. Conversion of WW\nnutrients into biomass could lead to new developments in aquaculture. In this\nmaster\u2019s thesis, I compared the growth, nutrient removal, fatty acid (FA) and amino\nacid (AA) profiles of three green microalgae: Haematococcus pluvialis, Monoraphidium\ngriffithii and Selenastrum sp. grown in RAS WW and reference growth medium. WW\nnegatively affected the specific growth rate of Monoraphidium (0.64 d-1) and\nSelenastrum sp. (0.50 d-1) compared to reference medium (0.72, 0.59 d-1, respectively),\nwhile Haematococcus was not significantly affected (0.47 - 0.51 d-1). FA differences\nbetween WW and reference medium were mostly driven by the increase of oleic\nacid (18:1n-9) in reference medium (Haematococcus: 3.7 - 10.6, Monoraphidium: 4.1 -\n11.5, Selenastrum: 6.3 - 17.0 mean% contribution). AA contribution profiles did not\npresent considerable differences between treatments. The effect of microorganisms\nin RAS WW was tested by cultivating microalgae in filtered WW. Filtered and\nunfiltered WW achieved the same specific growth rate and removal of nitrogen (N%\n15 \u2013 38%) and phosphate (P% 48 \u2013 99 %) while minor differences were observed in\ntheir FA and AA profiles. These findings support the use of microalgae as an\nalternative technique for treatment of RAS WW while producing valuable biomass.", "language": "en", "element": "description", "qualifier": "abstract", "schema": "dc"}, {"key": "dc.description.provenance", "value": "Submitted by Miia Hakanen (mihakane@jyu.fi) on 2020-05-07T06:06:55Z\nNo. of bitstreams: 0", "language": "en", "element": "description", "qualifier": "provenance", "schema": "dc"}, {"key": "dc.description.provenance", "value": "Made available in DSpace on 2020-05-07T06:06:55Z (GMT). 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spellingShingle	Calderini, Marco Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium recirculating aquaculture systems RAS Master's Degree Programme in Sustainable management of Inland Aquatic Resources 4012 mikrolevät levät aminohapot rasvahapot jäteveden käsittely microalgae algae amino acids fatty acids waste water treatment
title	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_full	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_fullStr	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_full_unstemmed	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_short	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_sort	biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
title_txtP	Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium
topic	recirculating aquaculture systems RAS Master's Degree Programme in Sustainable management of Inland Aquatic Resources 4012 mikrolevät levät aminohapot rasvahapot jäteveden käsittely microalgae algae amino acids fatty acids waste water treatment
topic_facet	4012 Master's Degree Programme in Sustainable management of Inland Aquatic Resources RAS algae amino acids aminohapot fatty acids jäteveden käsittely levät microalgae mikrolevät rasvahapot recirculating aquaculture systems waste water treatment
url	https://jyx.jyu.fi/handle/123456789/68875 http://www.urn.fi/URN:NBN:fi:jyu-202005073086
work_keys_str_mv	AT calderinimarco biochemicalprofilingoftemperatezonefreshwatergreenmicroalgaegrowninfilteredandunf

Biochemical profiling of temperate zone freshwater green microalgae grown in filtered and unfiltered recirculating aquaculture systems effluent and microalgae medium

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