Controlling the nitrogen environment for optimal Rhodomonas salina production

Controlling the nitrogen environment for optimal Rhodomonas salina production

The microalga Rhodomonas salina is a widely used species for rearing live feed organisms in the aquaculture feed market. A species-specific medium is an essential step towards enhancing productivity and decreasing production costs for microalgae cultivation. However, relevant aspects of medium composition such as nitrogen source and elemental ratio have not yet been characterized for this alga. This study aimed to optimize the following three aspects of culture media: 1) optimal ratio between nitrogen and phosphorus (N:P ratio); 2) preferred source of nitrogen; and 3) tolerance of R. salina towards free ammonia. To investigate this, we conducted a series of controlled laboratory experiments in shake flasks. Our experiments revealed a 45% increase in growth rate when an N:P ratio of 15:1 was used compared to the standard ratio of 25:1. Ammonium and nitrate were equally well accepted as a nitrogen source, however, a mix of ammonium and nitrate resulted in significant growth reduction. Free ammonia did not affect growth of the alga at the tested concentrations of up to 5 mg ammonia–nitrogen L−1. We conclude that for optimal R. salina cultivation, an N:P ratio of 15:1 is strongly preferred, as it leads to a significant increase in growth rate. Further, media with a single source of nitrogen promote faster growth over media with mixed sources, and ammonium may safely be used as a nitrogen source, since R. salina tolerates certain levels of free ammonia. Overall, this work provides insights into the optimal cultivation conditions for R. salina, allowing for more efficient and reliable production of this relevant species.

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Main Authors: Fichtbauer, Antonia, Temmink, Ralph J.M., La Russa, Marco
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Ammonia toxicity, Aquaculture, Cryptophyceae, Medium optimization, Microalgae production, Nitrogen source, Nutrient ratio,
Online Access:https://research.wur.nl/en/publications/controlling-the-nitrogen-environment-for-optimal-rhodomonas-salin
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spelling dig-wur-nl-wurpubs-6176262024-12-04 Fichtbauer, Antonia Temmink, Ralph J.M. La Russa, Marco Article/Letter to editor Journal of Applied Phycology 35 (2023) 4 ISSN: 0921-8971 Controlling the nitrogen environment for optimal Rhodomonas salina production 2023 The microalga Rhodomonas salina is a widely used species for rearing live feed organisms in the aquaculture feed market. A species-specific medium is an essential step towards enhancing productivity and decreasing production costs for microalgae cultivation. However, relevant aspects of medium composition such as nitrogen source and elemental ratio have not yet been characterized for this alga. This study aimed to optimize the following three aspects of culture media: 1) optimal ratio between nitrogen and phosphorus (N:P ratio); 2) preferred source of nitrogen; and 3) tolerance of R. salina towards free ammonia. To investigate this, we conducted a series of controlled laboratory experiments in shake flasks. Our experiments revealed a 45% increase in growth rate when an N:P ratio of 15:1 was used compared to the standard ratio of 25:1. Ammonium and nitrate were equally well accepted as a nitrogen source, however, a mix of ammonium and nitrate resulted in significant growth reduction. Free ammonia did not affect growth of the alga at the tested concentrations of up to 5 mg ammonia–nitrogen L−1. We conclude that for optimal R. salina cultivation, an N:P ratio of 15:1 is strongly preferred, as it leads to a significant increase in growth rate. Further, media with a single source of nitrogen promote faster growth over media with mixed sources, and ammonium may safely be used as a nitrogen source, since R. salina tolerates certain levels of free ammonia. Overall, this work provides insights into the optimal cultivation conditions for R. salina, allowing for more efficient and reliable production of this relevant species. en application/pdf https://research.wur.nl/en/publications/controlling-the-nitrogen-environment-for-optimal-rhodomonas-salin 10.1007/s10811-023-03020-0 https://edepot.wur.nl/636353 Ammonia toxicity Aquaculture Cryptophyceae Medium optimization Microalgae production Nitrogen source Nutrient ratio https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Ammonia toxicity
Aquaculture
Cryptophyceae
Medium optimization
Microalgae production
Nitrogen source
Nutrient ratio
Ammonia toxicity
Aquaculture
Cryptophyceae
Medium optimization
Microalgae production
Nitrogen source
Nutrient ratio
spellingShingle Ammonia toxicity
Aquaculture
Cryptophyceae
Medium optimization
Microalgae production
Nitrogen source
Nutrient ratio
Ammonia toxicity
Aquaculture
Cryptophyceae
Medium optimization
Microalgae production
Nitrogen source
Nutrient ratio
Fichtbauer, Antonia
Temmink, Ralph J.M.
La Russa, Marco
Controlling the nitrogen environment for optimal Rhodomonas salina production
description The microalga Rhodomonas salina is a widely used species for rearing live feed organisms in the aquaculture feed market. A species-specific medium is an essential step towards enhancing productivity and decreasing production costs for microalgae cultivation. However, relevant aspects of medium composition such as nitrogen source and elemental ratio have not yet been characterized for this alga. This study aimed to optimize the following three aspects of culture media: 1) optimal ratio between nitrogen and phosphorus (N:P ratio); 2) preferred source of nitrogen; and 3) tolerance of R. salina towards free ammonia. To investigate this, we conducted a series of controlled laboratory experiments in shake flasks. Our experiments revealed a 45% increase in growth rate when an N:P ratio of 15:1 was used compared to the standard ratio of 25:1. Ammonium and nitrate were equally well accepted as a nitrogen source, however, a mix of ammonium and nitrate resulted in significant growth reduction. Free ammonia did not affect growth of the alga at the tested concentrations of up to 5 mg ammonia–nitrogen L−1. We conclude that for optimal R. salina cultivation, an N:P ratio of 15:1 is strongly preferred, as it leads to a significant increase in growth rate. Further, media with a single source of nitrogen promote faster growth over media with mixed sources, and ammonium may safely be used as a nitrogen source, since R. salina tolerates certain levels of free ammonia. Overall, this work provides insights into the optimal cultivation conditions for R. salina, allowing for more efficient and reliable production of this relevant species.
format Article/Letter to editor
topic_facet Ammonia toxicity
Aquaculture
Cryptophyceae
Medium optimization
Microalgae production
Nitrogen source
Nutrient ratio
author Fichtbauer, Antonia
Temmink, Ralph J.M.
La Russa, Marco
author_facet Fichtbauer, Antonia
Temmink, Ralph J.M.
La Russa, Marco
author_sort Fichtbauer, Antonia
title Controlling the nitrogen environment for optimal Rhodomonas salina production
title_short Controlling the nitrogen environment for optimal Rhodomonas salina production
title_full Controlling the nitrogen environment for optimal Rhodomonas salina production
title_fullStr Controlling the nitrogen environment for optimal Rhodomonas salina production
title_full_unstemmed Controlling the nitrogen environment for optimal Rhodomonas salina production
title_sort controlling the nitrogen environment for optimal rhodomonas salina production
url https://research.wur.nl/en/publications/controlling-the-nitrogen-environment-for-optimal-rhodomonas-salin
work_keys_str_mv AT fichtbauerantonia controllingthenitrogenenvironmentforoptimalrhodomonassalinaproduction
AT temminkralphjm controllingthenitrogenenvironmentforoptimalrhodomonassalinaproduction
AT larussamarco controllingthenitrogenenvironmentforoptimalrhodomonassalinaproduction
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