Gülşah Sönmez scite author profile

Gülşah Sönmez

5Publications

58Citation Statements Received

93Citation Statements Given

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Affiliations

Sinop University, Ondokuz Mayıs University

Publications

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EFFECTS OF DIFFERENT SALTING PROCESS ON THE STORAGE QUALITY OF MEDITERRANEAN MUSSEL (MYTILUS GALLOPROVINCIALIS L. 1819)

Turan¹,

Sönmez

Çelik

et al. 2007

Journal of Muscle Foods

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The effects of brine and dry salting on sensory and quality attributes of mussels stored at 4 Ϯ 1C were investigated in this study. In brine salting method, the mussels were immersed in brine containing 26.4 g NaCl/100 mL water. In the dry salting method, the mussels were salted with a mixture of thin and thick granular salt by using the ratio of mussel to salt as 4:1 by weight. The salted mussels remained in the liquid pickle formed by salt and liquid extracted from the mussels. This solution was not drained during the storage period. Both brine-salted and dry-salted mussels were stored at 4 Ϯ 1C. Initial dry matters were 13.94 and 20.75% in raw and boiled mussels, which increased to 32.84 and 39.67%, respectively at the end of the storage time after brine and dry salting. Salt content was 0.87% in raw mussels, and increased to 21.01% in brine-salted mussels and 25.26% in dry-salted mussels at the end of the storage period. The total volatile basic nitrogen was 11.83 mg/100 g in raw mussels, which decreased to 2.80 mg/100 g after boiling. The TVB-N content increased to 7.00 mg/100 g in brine-salted mussels and 10.50 mg/ 100 g in dry-salted mussels at the end of the storage time. Trimethylamine nitrogen values in raw and boiled mussels were 1.13 and 1.01 mg/100 g, respectively, and increased to 3.86 mg/100 g in brine-salted mussels and 4.10 mg/100 g in dry-salted mussels at the 120th day of the storage period. The salted mussel was a different taste for consumers. It was concluded that Mediterranean mussels can be consumed for a period of 4 months in refrigerated conditions.

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CHEMICAL AND MICROBIOLOGICAL QUALITIES OF DRY‐SALTED (LAKERDA) BONITO (SARDA SARDA, BLOCH 1793)

Turan¹,

Kaya²,

Erkoyuncu³

et al. 2006

Journal of Food Quality

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In this study, changes in the chemical and microbiological properties of bonito (Sarda sarda, Bloch 1793) salted by dry salting (lakerda) and stored for 6 months at 4 Ϯ 1C were investigated. The fresh gutted and sliced bonitos were used as raw material for salting by using the ratio of fish to salt as 5:1 by weight. Salted fish remained in the liquid pickle formed by salt and the liquid extracted from the fish. This solution was not drained during the storage period. The product is described as "lakerda" in Turkey. In the fresh fish, total volatile basic nitrogen (TVB-N) and trimethylamine nitrogen (TMA-N) values were 11.21 mg/100 g and 1.19 mg/100 g, respectively. During the storage period, TVB-N and TMA values increased slowly to 27.67 mg/100 g and 4.99 mg/100 g, respectively, at the end of the storage period. In the first month after salt processing, the total mesophilic bacteria count was 4.6 ¥ 10 2 cfu/g. In the later months, mesophilic, psychotropic, coliform bacteria and yeastmold did not reproduce. According to the results, bonito salted by dry salting and stored at 4 Ϯ 1C was in good quality in terms of chemical and microbiological properties during the storage period of 6 months.

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THE EFFECTS OF HOT SMOKING ON THE CHEMICAL COMPOSITION AND SHELF LIFE OF MEDITERRANEAN MUSSEL (MYTILUS GALLOPROVINCIALISL. 1819) UNDER CHILLED STORAGE

Turan¹,

Sönmez²,

Çelik³

et al. 2008

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In this study, effects of boiling and hot smoking on proximate composition and shelf life of mussels stored at 4 ± 1C were investigated. Dry matter, crude protein, crude fat and crude ash levels were determined as 13.94, 10.30, 1.14 and 0.95% in fresh mussels 20.75, 13.83, 2.11, 0.77% after boiling and 39.57, 22.22, 10.04%, 6.02% after hot smoking, respectively. Trimethylamine nitrogen values in fresh, boiled and hot smoked mussels were determined as 1.13, 1.01 and 1.07 mg/100 g, respectively, and increased to 24.35 mg/100 g at 18th day of the storage period. pH value in hot smoked mussels ranged between 4.85 and 4.51 during the chilled storage. According to the results, mussels smoked by hot smoking and stored at refrigerator temperature (4 ± 1C) for 12 days can be consumed. PRACTICAL APPLICATIONS In many countries, smoking is used to obtain products that are popular for their texture and flavor. Mussels, scallops and oysters are some of the important mollusk species that are smoked and eaten in different parts of the world. In this research, the effects of hot smoking process (for 30 min at 82C) on proximate composition and shelf life of Mediterranean mussel stored at 4C was investigated.

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Changes in the quality of surimi made from thornback ray (Raja clavata, L. 1758) during frozen storage

Turan

Sönmez

2007

International Journal of Food Sciences and Nutrition

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Surimi was prepared from the thornback ray (Raja clavata L. 1758) and divided into two groups. The first group was prepared with 4% sorbitol, 4% sucrose and 0.3% sodium tripolyphosphate as a cryoprotectant, while surimi in second group was prepared with 8% sorbitol and 0.3% sodium tripolyphosphate. The frozen surimi samples were stored at 23.8 +/- 2 degrees C for 6 months. The total volatile basic nitrogen (8.40 mg/100 g for group A, 6.30 mg/100 g for group B), trimethylamine nitrogen (2.55 mg/100 g for group A, 2.38 mg/100 g for group B), thiobarbituric acid (1.29 mg malondialdehyde/100 g for group A, 1.17 mg malondialdehyde/ 100 g for group B), and pH values (7.34 for group A, 6.98 for group B) of surimi increased during frozen storage but remained within the acceptable limits. Total psychrophilic aerobic bacteria counts and sensory evaluation points in both groups decreased during frozen storage. The results of this study showed that thornback ray was found to be suitable for surimi production and the surimis were still acceptable at the end of the 6-month storage period.

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CHANGES IN PROXIMATE COMPOSITION OF THORNBACK RAY (RAJA CLAVATA, L. 1758) SURIMI DURING WASHING AND FROZEN STORAGE

Turan¹,

Sönmez²

2010

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The effects of frozen storage of surimi produced from thornback ray and the washing of mince on the chemical composition were investigated. The crude ash content which was initially found as 1.38% in raw thornback ray decreased approximately 12 and 80% after the first and second washing, respectively. After the third washing, crude ash content increased to 207% of the amount in the second washing because of addition of salt to the last washing water. The crude protein content of mince also decreased approximately to 28 and 20% after the first and second washing, respectively. After the third washing, the decrease in the lipid levels was approximately 30%. At the end of 6 months of frozen storage at−23.8 ± 2C, dry matter, crude ash and crude protein contents increased in a greater ratio in surimi containing 4% sorbitol, 4% sucrose and 0.3% Na‐tripolyphosphate than surimi prepared with 8% sorbitol and 0.3% Na‐tripolyphosphate. PRACTICAL APPLICATIONS In the present study, the effects of frozen storage of surimi produced from thornback ray and the washing of mince on the chemical composition were investigated. Washing procedure significantly decreased crude ash, crude protein and crude fat content of mince. There were significant differences in moisture, crude ash, and crude protein contents during the 6 months storage period of frozen surimi obtained by using different cryoprotectant mixtures. The folding test scores were highest in fresh surimi and during the first two months of storage. Thornback ray can be used for the production of surimi.

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