The seed production of seaweed in land-based facility

The research project was conducted to determine the growth performance of seaweed in land-based tank culture system for research purposes. Two tank culture systems were completed using circular and raceway tanks and three cultures of 40- days period were performed in each system. Red seaweeds, Kappa...

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Main Authors: Rossita Shapawi, Wahidatul Husna Zuldin
Format: Research Report
Language:English
Published: Universiti Malaysia Sabah
Online Access:https://eprints.ums.edu.my/id/eprint/24587/1/The%20seed%20production%20of%20seaweed%20in%20land-based%20facility.pdf
https://eprints.ums.edu.my/id/eprint/24587/
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spelling my.ums.eprints.245872020-01-08T08:28:57Z https://eprints.ums.edu.my/id/eprint/24587/ The seed production of seaweed in land-based facility Rossita Shapawi Wahidatul Husna Zuldin The research project was conducted to determine the growth performance of seaweed in land-based tank culture system for research purposes. Two tank culture systems were completed using circular and raceway tanks and three cultures of 40- days period were performed in each system. Red seaweeds, Kappaphycus a/varezii and Kappaphycus striatum were selected and cultivated in each tank culture system. Using circular tank, the maximum daily growth rate was recorded in tank with lowest seaweed density of 0.96 g L·1 on K. striatum (2.00±0.03% day"1 ) and K. alvarezii (1.46±0.06% day"1). In the second part of study, raceway tank was used and the results indicated that both Kappaphycus succeeded to grow with the highest average daily growth rate of 2.96±0.02% day"1 for K. striatum and 2.13±0.03% day-1 for K. alvarezii. Kappaphycus striatum was found to grow well in both system compared to K. alvarezi. The results also showed that the biochemical composition of both tank cultured Kappaphycus were comparable with the open sea culture where the average percentage of crude protein, crude fibre and carrageenan content of the Kappaphycus cultured in the tank were fall within the range mentioned in the previous literature. Thus, tank culture system did not significantly affect the biochemical composition of the Kappaphycus. In conclusion, the success in cultivating Kappaphycus using circular and raceway tank indicated that seaweeds are highly potential to be cultivated in land-based facilities comparable with the open sea culture seaweeds. These findings are significant to provide a baseline data and facilitate seaweed research area especially for high quality sustainable seaweed seed production in the future. Universiti Malaysia Sabah Research Report NonPeerReviewed text en https://eprints.ums.edu.my/id/eprint/24587/1/The%20seed%20production%20of%20seaweed%20in%20land-based%20facility.pdf Rossita Shapawi and Wahidatul Husna Zuldin The seed production of seaweed in land-based facility. (Unpublished)
institution Universiti Malaysia Sabah
building UMS Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Sabah
content_source UMS Institutional Repository
url_provider http://eprints.ums.edu.my/
language English
description The research project was conducted to determine the growth performance of seaweed in land-based tank culture system for research purposes. Two tank culture systems were completed using circular and raceway tanks and three cultures of 40- days period were performed in each system. Red seaweeds, Kappaphycus a/varezii and Kappaphycus striatum were selected and cultivated in each tank culture system. Using circular tank, the maximum daily growth rate was recorded in tank with lowest seaweed density of 0.96 g L·1 on K. striatum (2.00±0.03% day"1 ) and K. alvarezii (1.46±0.06% day"1). In the second part of study, raceway tank was used and the results indicated that both Kappaphycus succeeded to grow with the highest average daily growth rate of 2.96±0.02% day"1 for K. striatum and 2.13±0.03% day-1 for K. alvarezii. Kappaphycus striatum was found to grow well in both system compared to K. alvarezi. The results also showed that the biochemical composition of both tank cultured Kappaphycus were comparable with the open sea culture where the average percentage of crude protein, crude fibre and carrageenan content of the Kappaphycus cultured in the tank were fall within the range mentioned in the previous literature. Thus, tank culture system did not significantly affect the biochemical composition of the Kappaphycus. In conclusion, the success in cultivating Kappaphycus using circular and raceway tank indicated that seaweeds are highly potential to be cultivated in land-based facilities comparable with the open sea culture seaweeds. These findings are significant to provide a baseline data and facilitate seaweed research area especially for high quality sustainable seaweed seed production in the future.
format Research Report
author Rossita Shapawi
Wahidatul Husna Zuldin
spellingShingle Rossita Shapawi
Wahidatul Husna Zuldin
The seed production of seaweed in land-based facility
author_facet Rossita Shapawi
Wahidatul Husna Zuldin
author_sort Rossita Shapawi
title The seed production of seaweed in land-based facility
title_short The seed production of seaweed in land-based facility
title_full The seed production of seaweed in land-based facility
title_fullStr The seed production of seaweed in land-based facility
title_full_unstemmed The seed production of seaweed in land-based facility
title_sort seed production of seaweed in land-based facility
publisher Universiti Malaysia Sabah
url https://eprints.ums.edu.my/id/eprint/24587/1/The%20seed%20production%20of%20seaweed%20in%20land-based%20facility.pdf
https://eprints.ums.edu.my/id/eprint/24587/
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score 13.214268