Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)

Gracilaria changii is edible seaweed that is cultivated commercially or found in its natural habitat. However, there is limited information regarding its nutritional composition and heavy metal content. In addition, no comparison between farmed and wild G. changii in terms of nutritional compositi...

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Main Author: Mohd Nawi, Mohd Naeem
Format: Thesis
Language:English
Published: 2015
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Online Access:http://psasir.upm.edu.my/id/eprint/57140/1/IPPH%202015%202edited.pdf
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spelling my-upm-ir.571402018-11-13T07:07:33Z Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii) 2015-07 Mohd Nawi, Mohd Naeem Gracilaria changii is edible seaweed that is cultivated commercially or found in its natural habitat. However, there is limited information regarding its nutritional composition and heavy metal content. In addition, no comparison between farmed and wild G. changii in terms of nutritional composition and heavy metal was found. Furthermore, there is insufficient previous information on mineral and heavy metal content of surface water for farmed (culture pond) and wild G. changii (mangrove forest). Proximate composition, mineral, water soluble vitamin, fat soluble vitamin, sugar, fatty acid, amino acid and heavy metal of farmed and wild G. changii were determined. Moisture content was found to be 74.47% in farmed G. changii and wild G. changii (71.12%). Protein, carbohydrate, total dietary fiber and ash were detected in farmed (17.11, 44.88, 32.43 and 32.60 g/ 100 g) and wild G. changii (12.30, 42.77, 40.53 and 41.27 g/ 100 g). Atomic absorption spectroscopy of the ashes showed that farmed and wild G. changii contained higher amount of potassium (2688.603-5504.927 mg/ 100 g) and sodium (887.168-2680.427 mg/ 100 g) than calcium, zinc, iron and copper. Positive correlation between G. changii and its surface water was found for zinc, copper and potassium (0.888, 0.972 and 1.000). For water soluble vitamins, vitamin C (0.076-0.337 mg/ 100 g), niacin (0.019-0.078 mg/ 100 g) and pyridoxine (0.004-0.006 mg/ 100 g) were detected. Palmitic acid (0.624-0.687 g/ 100 g) was the highest fatty acid detected and make up more than 80% of the total fatty acid detected. In terms of amino acids, valine (7.33-7.89%) and leucine (7.30-7.84%) were the highest essential amino acid found. Cadmium, lead, mercury and arsenic were found in farmed and wild G. changii although only mercury was within the permitted level according to Malaysian Food Regulations 1985. Negligible amount of cadmium, lead, mercury and arsenic were detected in culture pond and mangrove forest surface water. A positive correlation was found for cadmium and lead for wild G. changii and its surface waters. There is a positive correlation for arsenic content for farmed G. changii and its surface water. Seaweeds are used as ingredient to form gelling agent so the heavy metal content will be diluted during the manufacturing process. The heavy metal content does not reflect the safety consumption of G. changii. In summary, G. changii can be beneficial to the food industry as a supplement or halal ingredient due to its attractive nutritional properties such as dietary fiber, minerals and amino acids. Marine algae Composition 2015-07 Thesis http://psasir.upm.edu.my/id/eprint/57140/ http://psasir.upm.edu.my/id/eprint/57140/1/IPPH%202015%202edited.pdf text en public masters Universiti Putra Malaysia Marine algae Composition
institution Universiti Putra Malaysia
collection PSAS Institutional Repository
language English
topic Marine algae
Composition

spellingShingle Marine algae
Composition

Mohd Nawi, Mohd Naeem
Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
description Gracilaria changii is edible seaweed that is cultivated commercially or found in its natural habitat. However, there is limited information regarding its nutritional composition and heavy metal content. In addition, no comparison between farmed and wild G. changii in terms of nutritional composition and heavy metal was found. Furthermore, there is insufficient previous information on mineral and heavy metal content of surface water for farmed (culture pond) and wild G. changii (mangrove forest). Proximate composition, mineral, water soluble vitamin, fat soluble vitamin, sugar, fatty acid, amino acid and heavy metal of farmed and wild G. changii were determined. Moisture content was found to be 74.47% in farmed G. changii and wild G. changii (71.12%). Protein, carbohydrate, total dietary fiber and ash were detected in farmed (17.11, 44.88, 32.43 and 32.60 g/ 100 g) and wild G. changii (12.30, 42.77, 40.53 and 41.27 g/ 100 g). Atomic absorption spectroscopy of the ashes showed that farmed and wild G. changii contained higher amount of potassium (2688.603-5504.927 mg/ 100 g) and sodium (887.168-2680.427 mg/ 100 g) than calcium, zinc, iron and copper. Positive correlation between G. changii and its surface water was found for zinc, copper and potassium (0.888, 0.972 and 1.000). For water soluble vitamins, vitamin C (0.076-0.337 mg/ 100 g), niacin (0.019-0.078 mg/ 100 g) and pyridoxine (0.004-0.006 mg/ 100 g) were detected. Palmitic acid (0.624-0.687 g/ 100 g) was the highest fatty acid detected and make up more than 80% of the total fatty acid detected. In terms of amino acids, valine (7.33-7.89%) and leucine (7.30-7.84%) were the highest essential amino acid found. Cadmium, lead, mercury and arsenic were found in farmed and wild G. changii although only mercury was within the permitted level according to Malaysian Food Regulations 1985. Negligible amount of cadmium, lead, mercury and arsenic were detected in culture pond and mangrove forest surface water. A positive correlation was found for cadmium and lead for wild G. changii and its surface waters. There is a positive correlation for arsenic content for farmed G. changii and its surface water. Seaweeds are used as ingredient to form gelling agent so the heavy metal content will be diluted during the manufacturing process. The heavy metal content does not reflect the safety consumption of G. changii. In summary, G. changii can be beneficial to the food industry as a supplement or halal ingredient due to its attractive nutritional properties such as dietary fiber, minerals and amino acids.
format Thesis
qualification_level Master's degree
author Mohd Nawi, Mohd Naeem
author_facet Mohd Nawi, Mohd Naeem
author_sort Mohd Nawi, Mohd Naeem
title Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
title_short Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
title_full Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
title_fullStr Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
title_full_unstemmed Nutritional composition and heavy metal content of farmed and wild seaweed (Gracilaria changii)
title_sort nutritional composition and heavy metal content of farmed and wild seaweed (gracilaria changii)
granting_institution Universiti Putra Malaysia
publishDate 2015
url http://psasir.upm.edu.my/id/eprint/57140/1/IPPH%202015%202edited.pdf
_version_ 1747812168541143040