• Title/Summary/Keyword: nuts and seeds

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Chemical composition of nuts and seeds sold in Korea

  • Chung, Keun Hee;Shin, Kyung Ok;Hwang, Hyo Jeong;Choi, Kyung-Soon
    • Nutrition Research and Practice
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    • v.7 no.2
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    • pp.82-88
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    • 2013
  • Eleven types of nuts and seeds were analyzed to determine their energy (326-733 mg), moisture (1.6-18.3 mg), carbohydrate (8.8-70.9 mg), protein (4.9-30.5 mg), lipid (2.5-69.8 mg), and ash (1.2-5.5 mg) contents per 100 g of sample. Energy content was highest in pine nuts (733 mg/100 g), carbohydrate level was highest in dried figs (70.9 mg/100 g) and protein was highest in peanuts (30.5 mg/100 g). The amino acid compositions of nuts and seeds were characterized by the dominance of hydrophobic (range = 1,348.6-10,284.6 mg), hydrophilic (range = 341.1-3,244.3 mg), acidic (range = 956.1-8,426.5 mg), and basic (range = 408.6-4,738.5 mg) amino acids. Monounsaturated fatty acids (MUFA) were highest in macadamia nuts (81.3%), whereas polyunsaturated fatty acids (PUFA) were highest in the walnuts (76.7%). Macadamia nuts did not contain any vitamin E, whereas sunflower seeds contained the highest level (60.3 mg/kg). Iron (Fe) content was highest in pumpkin seeds ($95.85{\pm}33.01$ ppm), zinc (Zn) content was highest in pistachios ($67.24{\pm}30.25$ ppm), copper (Cu) content was greatest in walnuts ($25.45{\pm}21.51$ ppm), and lead (Pb) content was greatest in wheat nuts ($25.49{\pm}4.64$ ppm), significantly (P < 0.05). In conclusion, current commercial nuts and seeds have no safety concerns, although further analysis of Pb contents is necessary to ensure safety.

Food Classification by the Codex Alimentarius Commission: Cereal Grains, Nuts and Seeds, Herbs and Spices (코덱스의 식품 분류: 곡류, 견과종실류, 허브 및 향신료)

  • Lee, Mi-Gyung
    • Journal of Food Hygiene and Safety
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    • v.34 no.2
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    • pp.212-218
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    • 2019
  • The process of establishing domestic standards on hazardous substances in food safety regulations requires harmonization with standards from the Codex Alimentarius Commission (CAC). For this purpose, food classification by the CAC (Codex Classification of Foods and Animal Feeds) also needs to be clearly understood. Therefore, this paper aimed to introduce the Codex Classification on cereal grains, nuts/seeds and herbs/spices because revisions of the Codex were completed in 2017 for cereal grains and in 2018 for nuts/seeds and herbs/spices. The revised Codex Classification on those foods is briefly summarized as follows. Cereal grains in the domestic food classification by the Ministry of Food and Drug Safety, Korea (MFDS) corresponds to the Codex Group 020 cereal grains with six subgroups. The MFDS's nuts and seeds classification corresponds to three groups in the Codex, namely, Group 022 (tree nuts with no subgroups), Group 023 (oilseeds and oilfruits with 5 subgroups), and Group 024 (seeds for beverages and sweets with no subgroups). The food commodities of herbs and spices are included in two Codex groups, Group 027 (with 3 subgroups) and Group 028 (with 9 subgroups). The number of Codex commodity codes assigned to food commodities was 27 for Group 020, 32 for Group 022, 46 for Group 023, 4 for Group 024, 127 for Group 027 and 138 for Group 028. In between the Codex Classification and the MFDS's classification, some differences are shown. For example, the MFDS did not create a subgroup under groups of cereal grains and herbs. The MFDS classified peanuts into the nut group, though a separate group for oilseeds is present, while the Codex classified peanuts into the oilseed and oilfruit group. In addition, there is also a separate group of "plants, others" present in the MFDS's classification. Therefore, care is needed in using the Codex Classification.

Monitoring Pesticide Residues in Nuts and Seeds in Gyeonggi-do (경기도 내 유통 견과종실류의 잔류농약 실태 모니터링)

  • Yu-na Lee;Soo-Kyeong Moon;Jung-Hee Lee;Ae-ran Kim;Kyeong-Eun Moon;Choong-Won Kang;Jin-Hee Lee;Myoung-Ki Park
    • Journal of Food Hygiene and Safety
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    • v.38 no.3
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    • pp.152-157
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    • 2023
  • This study was aimed to investigate pesticides residue levels in nuts and seeds distributed in Gyeonggi-do. We investigated nuts and seeds in 131 products, which is pumpkin seeds (n=17), sunflower (n=12), sesame (n=23), perilla (n=11), peanut (n=18), almond (n=8), chestnut (n=6), walnut (n=14), pine nut (n=3), pecan (n=4), macadamia (n=3), brazil nut (n=5), cashew nut (n=4) and ginkgo nut (n=3). As a result of evaluating 339 pesticide residues, eight out of 131 samples were detected at the range of 0.01-0.07 mg/kg. Additionally, 7 out of 8 detected samples exceeded MRLs (Maximum Residue Limits) and 85% of them were imported. Pyraclostrobin applied on the positive list system (PLS) was detected in five Chinese pumpkin seeds samples, and the range was 0.02-0.04 mg/kg. In Indian and Korean sesame seeds, pendimethalin, boscalid, and bifenthrin were detected at 0.04, 0.05, and 0.06 mg/kg, respectively. The ratio of estimated daily intake (EDI) to acceptable daily intake (ADI) was 0.002-0.372%, indicating that the risk level was safe.

Monitoring of Melatonin Contents in Nuts, Seeds, and Beans in Gyeonggi-Do (경기도 내 유통 중 견과종실류 등의 멜라토닌 함량 조사)

  • Yu Na Song;Hae Geun Hong;Yeon Ok Kwon;Jin Ok Ha;Hyeon Ji Kim;Myeong Jin Son;Jeong Hwa Park;Bo Yeon Kweon
    • Journal of Food Hygiene and Safety
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    • v.38 no.3
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    • pp.184-191
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    • 2023
  • Nuts are essential components of a healthy diet as they provide nutritional value and bioactive components. Melatonin, is a hormone secreted from the pineal gland of the brain that prevents oxidative damage in various tissues, and also found in plants. This study presents a validation method for extracting and quantitatively analyzing melatonin in nuts, seeds, and beans in Gyeonggi-do; the method utilized chromatographic techniques and optimized extraction procedures, considering the high oil content of nuts. The average content of melatonin in nuts, seeds, and beans was 1200.83 (409.76-2223.56), 934.83 (454.10-1736.60), and 616.46 (494.70-825.12) pg/g, respectively. Melatonin content was higher in the kernel with pellicle than that in the kernel alone in walnuts and chestnuts. Furthermore, the presence of melatonin was lower in newly harvested walnuts, chestnuts, and peanuts than in those stored after being harvested the previous year.

Quality Characteristics of Basil Pesto added with Various Nuts during Storage (견과류를 달리하여 제조한 바질 페스토의 저장 중의 품질특성)

  • Park, Jong-Woo;Kim, Ki-Bbeum;Choi, Soo-Keun
    • Culinary science and hospitality research
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    • v.22 no.2
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    • pp.29-43
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    • 2016
  • Pesto were prepared with five different nuts including pine nut, sunflower seed, pumpkin seed, walnut and almond to examine the antioxidant properties(total polyphenols, total flavonoids, electron donating ability) and sensory test(attribute difference, acceptance). Pesto were measured based on color value, pH, viscosity, total cell numbers for 0, 5, 10, 15 and 20 days at $4^{\circ}C$. The higher total phenol and total flavonoid content of pesto added with various nuts was higher antioxidant capacity. Basil pesto added with sunflower seeds and walnuts were considered to be more functional more than pine nuts addition. The attribute difference test results was the color intensity, nut taste, bitter taste, coarseness, oily taste, thickness were evaluated significant difference kinds of nuts. Gloss, basil flavor, nuts flavor, basil taste were not evaluated significant difference in kind of nuts. The preference test results reveal that the appearance, taste, texture and overall preference level was the highest in PNP(pinenut pesto) and SSP(sunflower seed). L value, pH, decrease while a value, b value and viscosity increased as kind of nuts in during storage. Total cell number increased and then decreased a little at a certain point. When prepared pesto, SSP(sunflower seed) was the highest in antioxidant property, and change of color value, pH, viscosity, total cell number were the lowest. In addition to the use of pine nuts, sunflower seeds have been identified are possible.

Studies on the Quality Characteristics and Shelf-life of Maejackwa Containing Nuts and Seeds Prepared by Baking Method (굽는 방법으로 제조한 견과종실류 첨가 매작과의 품질특성 및 저장성에 관한 연구)

  • Chung, Hai-Jung;Kim, Sung-Joon;Baek, Jung-Eun;Sung, Dae-Kyung;Song, Hwa-Youn;Lee, Jin-Young;Kim, Gyu-Heun
    • Korean journal of food and cookery science
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    • v.24 no.6
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    • pp.811-817
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    • 2008
  • The principal objective of this study was to evaluate the effects of baking method on the quality and shelf-life of Maejakgwa containing nuts and seeds. Four different types of nuts and seeds (almond, cashewnut, coconut, and sunflower seed) were added to flour, and baking method was applied to prepare the Maejakgwa, physicochemical properties of which were then evaluated. The proximate composition analysis demonstrated that crude protein, crude fat, and ash contents were higher in the Maejakgwa containing nuts and seeds than in the control group. The lightness (L) value of the control Maejakgwa was lower than that observed in the groups containing nuts and seeds. Maejakgwa made with cashewnut, coconut, and sunflower seed evidenced higher yellowness (b) values than were recorded in the control and coconut groups. The incorporation of cashewnut, coconut and sunflower seed into the Maejakgwa lowered the hardness values (p<0.05). Our consumer test demonstrated that Maejakgwa prepared with almond was the most highly preferred, and the control group was the least favored. After 30 days of storage at $60^{\circ}C$, the peroxide value of the Maejakgwa containing sunflower seed was substantially higher than in any other groups, thereby suggesting that the addition of sunflower seeds resulted in accelerated lipid oxidation. No noticeable changes in peroxide values were observed in the groups prepared with coconut and cashewnut during storage time. The acid value increased with increasing storage time, and the addition of sunflower seed evidenced the highest values as compared to other groups.

Taurine Content in Korean Foods of Plant Origin (한국인 상용 식물성 식품의 타우린함량 조사)

  • 박태선;박정은;장준성;손미원;손경희
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.27 no.5
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    • pp.801-807
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    • 1998
  • Taurine content in Korean foods of plant origin was determined for 118 commonly used food items including cereals, potatoes, pulses, nuts, seeds, vegetables and fruits. Taurine concentration in food sample was analyzed using an automated amino acid analyzer(Biochrom 20, Pharmacia LKB) based on ion-exchange chromatography. Taurine was frequently detected in plant kingdom in much lower concentrations(1/100~1/1000) than those found in marine lifes and mammals. Glutinous rice, glutinous millent and sorghum did not contain taurine, while 0.7~3.9mg taurine/100g dry wt were detected in rice, barley and their products. Potatoes and sweet potatoes contained 0.3~1.2mg taurine/100g wet wt, and seasame seeds, perilla seeds, almonds, walnuts and gigko nuts contained 0.7~3.0mg taurine/100g wt. Taurine concentration was undetectable in most of the pulses, and in a large number of vegetables. Garlic bulbs, eggplants, green peppers, lotus roots, and cabbages have a relatively high level of taurine(around 1mg taurine/100g wet wt) among vegetables. Taurine was absent or found in very low levels(<1mg taurine/100g wet wt) in most of the commonly used fruits.

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A Literature Review on the Type of Joseon Dynasty Jwabans (조선시대 좌반류(佐飯類)의 종류에 대한 문헌적 고찰)

  • Oh, Soon-Duk
    • Journal of the Korean Society of Food Culture
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    • v.26 no.3
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    • pp.239-248
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    • 2011
  • This article examines the types of Jwabans as recorded in 21 old books of the Joseon dynasty (1392-1909). The ingredients used in Jwabans during the Joseon dynasty were root vegetables, sea algae, seeds nuts, bird, meat, and fish. In the early, middle, and late eras of the Joseon dynasty, 10, nine, and 181 kinds of Jwabans were prepared, and two, one, and seven kinds of Jwabans were prepared using root vegetables (根菜類). During the early and late eras of the Joseon dynasty, one and 14 kinds of Jwabans were prepared using sea algae (海藻類), respectively, and four kinds of Jwabans were prepared using seeds nuts during late eras of the Joseon dynasty (種實類). During the early, mid and late eras, one, two, and 17 kinds of Jwabans were prepared using bird (鳥類), three, one, and 47 kinds of Jwabans were prepared using meat (肉類), and one, five, and 81 kinds of Jwabans were prepared using fish (魚類). The frequency of the Jwabans ingredients in order were fish (30.5%), meat (23.5%), pheasant (7%), root vegetables (5%), abalone (全鰒) (5%), laver (海苔) (4%), shellfish (貝類) (3%), fish eggs (魚卵) (2.5%), fleshy prawn (大蝦) (2.5%), sea tangle (昆布) (2%), dried tangle (海草) (1.5%), sparrow meat (雀肉) (1.5%), and etc during the Joseon dynasty. It seems that the appearance and supplementation with different ingredients increased throughout the Joseon dynasty. This may be associated with the commercial industrial development that prevailed during the late Joseon dynasty. Further study will be conducted on recipes and ingredients recorded in these old books to develop a standardized recipe to globalize Jwabans.

Analysis of Manganese Content in Frequently Consumed Foods by Koreans (한국인 상용 식품 중 망간 함량 분석)

  • Choi, Mi-Kyeong;Kim, Eun-Young
    • Journal of Nutrition and Health
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    • v.40 no.8
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    • pp.769-778
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    • 2007
  • Using ICP-AES, we analyzed manganese content in 366 foods consumed frequently by Koreans. For the analysis, it was included a total of 366 foods such as 51 kinds of grains, 7 kinds of potatoes and starches, 7 kinds of sugars and sweeteners, 12 kinds of legumes, 11 kinds of nuts and seeds, 68 kinds of vegetables, 7 kinds of mushrooms, 33 kinds of fruits, 13 kinds of meats, 4 kinds of eggs, 48 kinds of fishes and shellfishes, 7 kinds of seaweeds, 16 kinds of milks, 8 kinds of oils and fats, 27 kinds of beverages, 34 kinds of seasonings, 13 kinds of processed foods and others. Among the grains, starches and sugars, manganese content of rice was 0.745 mg/100g. As for legumes, the content of manganese in soybean milk was 0.033 mg/100g and in black beans was 4.075 mg/100g. In nuts and seeds, the content of manganese in gingko nuts was 0.268 mg/100g while that in pine nuts was 8.872 mg/100g. Among the vegetables, manganese contents were 0.061 mg/100g in cherry tomato and 14.017 mg/100g in ginger. In mushrooms, the highest manganese content was displayed in ear mushroom at 10.382 mg/100g. Dried jujube and shrimp were found to be the fruits and fishes with high manganese contents at 2.985 mg/100g and 3.512 mg/100g, respectively. Among dairy foods, oils and beverages, manganese content was the highest in instant coffee powder at 2.577 mg/100g. Seasonings and processed foods posted 0.010 mg/100g in Sagolgomtang, instant soup and 23.846 mg/100g in pepper. In a furture, more various food for manganese content needs to be analyzed and a reliable food database should be compiled from the findings of researches in order to estimate manganese consumption accurately.

Detection of Abnormally High Amygdalin Content in Food by an Enzyme Immunoassay

  • Cho, A-Yeon;Yi, Kye Sook;Rhim, Jung-Hyo;Kim, Kyu-Il;Park, Jae-Young;Keum, Eun-Hee;Chung, Junho;Oh, Sangsuk
    • Molecules and Cells
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    • v.21 no.2
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    • pp.308-313
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    • 2006
  • Amygdalin is a cyanogenic glycoside compound which is commonly found in the pits of many fruits and raw nuts. Although amygdalin itself is not toxic, it can release cyanide (CN) after hydrolysis when the pits and nuts are crushed, moistened and incubated, possibly within the gastrointestinal tract. CN reversibly inhibits cellular oxidizing enzymes and cyanide poisoning generates a range of clinical symptoms. As some pits and nuts may contain unusually high levels of amygdalin such that there is a sufficient amount to induce critical CN poisoning in humans, the detection of abnormal content of amygdalin in those pits and nuts can be a life-saving measure. Although there are various methods to detect amygdalin in food extracts, an enzyme immunoassay has not been developed for this purpose. In this study we immunized New Zealand White rabbits with an amygdalin-KLH (keyhole limpet hemocyanin) conjugate and succeeded in raising anti-sera reactive to amygdalin, proving that amygdalin can behave as a hapten in rabbits. Using this polyclonal antibody, we developed a competition enzyme immunoassay for determination of amygdalin concentration in aqueous solutions. This technique was able to effectively detect abnormally high amygdalin content in various seeds and nuts. In conclusion, we proved that enzyme immunoassay can be used to determine the amount of amygdalin in food extracts, which will allow automated analysis with high throughput.