Nutritional Quality of Edible Marine Bivalves from the Southern Coast of Italy, Mediterranean Sea

Biandolino, Francesca; Leo, Antonella Di; Parlapiano, Isabella; Papa, Loredana; Giandomenico, Santina; Spada, Lucia; Prato, Ermelinda

doi:10.31883/pjfns-2019-0001

Cited by 35 publications

(44 citation statements)

References 51 publications

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“…The raw mussel M. galloprovincialis is a good source of n-3 PUFA with low content of n-6 PUFA, as reported in previous studies [5,9,23,24]. The data of this study showed that the level of n-3 PUFA was always higher than the level of n-6 for all types of cooking, except for fried sample (Tables 1-3).…”

Section: Fatty Acids Profilesupporting

confidence: 81%

Effect of Different Cooking Methods on Lipid Content and Fatty Acid Profiles of Mytilus galloprovincialis

Biandolino

Parlapiano

Denti

et al. 2021

Foods

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The effect of cooking (barbecue-grilling, boiling, microwaving, oven cooking and frying) on lipids, fatty acids (FAs) and lipid quality indices of the mussel Mytilus galloprovincialis was investigated. In general, all processing methods significantly (p < 0.05) modified the fatty acid profiles of mussels, although with major changes in fried samples, which exhibited the lowest saturated fatty acids and n-3 and highest polyunsaturated (PUFA) and n-6 FAs content. A significant decrease in the n-3 PUFA from the raw sample to five cooking methods was observed. The n-3/n-6 ratio decreased from raw (6.01) to cooked mussels, exhibiting the lowest value in fried ones (0.15). C20:5 n-3 and C22:6 n-3 significantly decreased during all cooking processes, and overall in fried mussels. It can be concluded that cooking does not compromise the nutritional quality of mussels except with frying, although it resulted in a decrease of the atherogenic and thrombogenic indices.

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Section: Fatty Acids Profilesupporting

confidence: 81%

Effect of Different Cooking Methods on Lipid Content and Fatty Acid Profiles of Mytilus galloprovincialis

Biandolino

Parlapiano

Denti

et al. 2021

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“…It is worth noting that although there are many reports showing that bivalves are rich in n‐3 PUFA, especially EPA and DHA (Manthey‐Karl et al, ; Passi et al, ; Ricardo et al, ), but there was no report on the FA composition can be improved by hybridization. Compared with other studies (Table ), all progenies in the present study had much higher total lipid content (9.1%–9.5% wet weight) than wild and farmed oysters (1.2%–6.7% wet weight) collected from Mediterranean sea (Biandolino et al, ), Beihai, China (Qin et al, ), Rushan Bay, China (Zhu et al, ), Kerala, India (Asha, Anandan, Mathew, & Lakshmanan, ), Malaysia (Aziz, Azlan, Ismail, Alinafiah, & Razman, ), Canada (Pernet, Gauthier‐Clec, & Mayrand, ), Jiaozhou Bay, China (Xu & Yang, ), and Bizerte lagoon, north of Tunisia (Dridi, Salah Romdhane, & Elcafsi, ). The EPA compositions (12.7%–14.9%) of all progenies were comparable to other oyster (EPA = 7.5%–13.3%) (Aziz et al, ; Biandolino et al, ; Dridi et al, ; Pernet et al, ; Qin et al, ; Xu & Yang, ; Zhu et al, ), except for farmed C. madrasensis in Kerala, India (Asha et al, ).…”

Section: Discussioncontrasting

confidence: 64%

“…Compared with other studies (Table ), all progenies in the present study had much higher total lipid content (9.1%–9.5% wet weight) than wild and farmed oysters (1.2%–6.7% wet weight) collected from Mediterranean sea (Biandolino et al, ), Beihai, China (Qin et al, ), Rushan Bay, China (Zhu et al, ), Kerala, India (Asha, Anandan, Mathew, & Lakshmanan, ), Malaysia (Aziz, Azlan, Ismail, Alinafiah, & Razman, ), Canada (Pernet, Gauthier‐Clec, & Mayrand, ), Jiaozhou Bay, China (Xu & Yang, ), and Bizerte lagoon, north of Tunisia (Dridi, Salah Romdhane, & Elcafsi, ). The EPA compositions (12.7%–14.9%) of all progenies were comparable to other oyster (EPA = 7.5%–13.3%) (Aziz et al, ; Biandolino et al, ; Dridi et al, ; Pernet et al, ; Qin et al, ; Xu & Yang, ; Zhu et al, ), except for farmed C. madrasensis in Kerala, India (Asha et al, ). For the DHA composition, the DHA composition of all progenies in present study was higher (7.0%–11.2%) than that of Wild M. galloprovincialis (5.3 ± 0.2%) and Wild C. gigas (6.4 ± 0.4%) in Jiaozhou Bay, China (Xu & Yang, ), but was comparable or lower than oysters in other reports (Asha et al, ; Biandolino et al, ; Dridi et al, ; Pernet et al, ; Qin et al, ; Zhu et al, ).…”

Section: Discussioncontrasting

confidence: 64%

“…The EPA compositions (12.7%–14.9%) of all progenies were comparable to other oyster (EPA = 7.5%–13.3%) (Aziz et al, ; Biandolino et al, ; Dridi et al, ; Pernet et al, ; Qin et al, ; Xu & Yang, ; Zhu et al, ), except for farmed C. madrasensis in Kerala, India (Asha et al, ). For the DHA composition, the DHA composition of all progenies in present study was higher (7.0%–11.2%) than that of Wild M. galloprovincialis (5.3 ± 0.2%) and Wild C. gigas (6.4 ± 0.4%) in Jiaozhou Bay, China (Xu & Yang, ), but was comparable or lower than oysters in other reports (Asha et al, ; Biandolino et al, ; Dridi et al, ; Pernet et al, ; Qin et al, ; Zhu et al, ).…”

Section: Discussionmentioning

confidence: 52%

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Enhancing lipid nutritional quality of oysters by hybridization betweenCrassostrea gigasandC. angulata

et al. 2019

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In the present study, hybrid and inbred oysters were produced by factorial hybridization between two closely related species, the Pacific oyster Crassostrea gigas and the Portuguese oyster C. angulata. Tissues samples were used for the analysis of total lipid content (TLC) and fatty acid composition (FAC). In general, FAC but not TLC in hybrid oysters was significantly different from inbred oysters. Hybrid oysters have significantly lower ∑SFA composition but higher ∑PUFA composition than inbred oysters, with heterosis for ∑SFA, ∑MUFA and ∑PUFA of −6.03%, −6.53% and 14.31% respectively. Moreover, hybrid oysters have significantly higher EPA + DHA content and n3/n6 PUFA ratio than inbred oysters, indicating higher lipid nutritional quality than inbred oysters. Among them, the hybrid ♀ C. gigas × ♂ C. angulata appears to be the most nutritious. These results indicated that the lipid nutritional quality of oysters can be improved by hybridization.

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“…Same as Asian hard clam M. lusoria [18], Palmitoleic acid (C16:1n7, 8.16±0.11 %) and Cis-9-octadecenoic acid (C18:1n9c, 7.45±0.06 %) were also the major MUFAs in clams C. erycina. But in the bivalves Arca noae and F. glaber [40], Cis-9-hexadecenoic acid (C16:1) and C18:1n9c are the major MUFAs. Among PUFAs, Cis-4,7,10,13,16, 19-docosahexaenoic acid (C22:6n3, DHA, 13.55±0.55 %), Cis-5, 8, 11, 14, 17-eicosapentaenoic acid (C20:5n3, EPA, 7.58±0.19 %) and Cis-5, 8, 11, 14-eicosatetraenoic acid (C20:4n6, 6.25±0.23 %) were dominant in clams C. erycina, which was similar to the results found in Crassostrea gigas, but different from the results in Limaria tuberculate and Mimachlamys varia [40].…”

Section: Fatty Acidsmentioning

confidence: 99%

Nutritional Composition of <i>Callista erycina</i>, an Important Edible Economical Clam from the South China Sea

Wei¹,

Chen²,

Sun³

et al. 2021

JFNR

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Nutritional Quality of Edible Marine Bivalves from the Southern Coast of Italy, Mediterranean Sea

Cited by 35 publications

References 51 publications

Effect of Different Cooking Methods on Lipid Content and Fatty Acid Profiles of Mytilus galloprovincialis

Effect of Different Cooking Methods on Lipid Content and Fatty Acid Profiles of Mytilus galloprovincialis

Enhancing lipid nutritional quality of oysters by hybridization betweenCrassostrea gigasandC. angulata

Nutritional Composition of <i>Callista erycina</i>, an Important Edible Economical Clam from the South China Sea

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