Scientia Agricultura Sinica ›› 2019, Vol. 52 ›› Issue (18): 3177-3191.doi: 10.3864/j.issn.0578-1752.2019.18.010

• Standard and Evaluation Research • Previous Articles     Next Articles

Evaluation of the Vegetables Nutritive Values Based on ‘Three Degree’ Method

LIU YanJun1,2,LIU Zhe3,MENG XiangHong2(),LU BaiYi1()   

  1. 1. College of Biosystems Engineering and Food Science, Zhejiang University/Laboratory of Quality & Safety Risk Assessment for Agro-products on Storage and Preservation, Hangzhou 310058;
    2. College of Food Science and Engineering, Ocean University of China, Qingdao 266000, Shandong
    3. College of Horticulture and Landscape Architecture, Southwest University, Chongqing 400716
  • Received:2019-02-03 Accepted:2019-05-07 Online:2019-09-16 Published:2019-09-23
  • Contact: XiangHong MENG,BaiYi LU E-mail:mengxh@ouc.edu.cn;bylu@zju.edu.cn

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Abstract:

【Objective】 As the important components of our daily diet, the vegetables contain various nutrients people need. The objective of this study was to evaluate vegetables by the categories, contents and proportion of nutrients in vegetables to provide scientific guides for people to choose vegetables. 【Method】 38 common vegetables were selected as test materials and divided into ten kinds, including leaf vegetables, stem vegetables, flower vegetables, allium species, solanaceous vegetables, melon vegetables, root vegetables, tuber vegetables, fresh bean vegetables, and wild vegetables, according to China Food Composition 2 nd. 42 essential nutrients were defined as evaluation indexes, including water, protein, fat, carbohydrates, minerals, vitamins, amino acids and 2 unsaturated fatty acids (linoleic acid (ω-6) and a-linolenic acid (ω-3)) and dietary fiber, which were considered as good for health. And then the contents of the nutrients of the vegetables were listed in terms of China Food Composition 2nd. Three degree ( Degree of Diversity (DD), Degree of Match (DM) and Degree of Balance(DB)) of 42 kinds of nutrients’ in 38 common vegetables were calculated respectively.. Finally, the Deviation Index as the overall nutrient evaluation of the three indexes was culculated, and then an overall nutrient evaluation of the vegetables based on Deviation Index was analyzed. 【Result】 DD indices showed that the common vegetables had the similar kinds of nutrients. DM indices indicated the contents of nutrients of the stem, leaf and flower vegetables were high and the top three vegetables were shepherd’s purse, coriander and spinach. DB indices showed the proportion of nutrients of the flower vegetables and allium vegetables were more suitable for people’s needs and that the top three vegetables were onions (young green), leek and cucumber. Finally, based on ‘Deviation Index’ giving an overall nutrient evaluation ranking for vegetables, it showed that the deviation index of the stem, leaf and flower vegetables were small and that the top three vegetables were shepherd’s purse, coriander and spinach.【Conclusion】 Compared with previous vegetable profiling models, such as index of nutrition quality and nutrient profiling, this method considered the proportion of the nutrients in vegetables so that it ensured the nutrition profiling of vegetables more comprehensive. As the deepening of the scientific research, we coud certify the contribution of the nutrients to people and then multiplied by the corresponding weights so that this nutrient evaluation was more suitable for people’s needs.

Key words: vegetables, nutrient profiling, degree of diversity, degree of match, degree of balance

Table 1

The common vegetable species"

蔬菜种类 Vegetable category 蔬菜名称 Name of vegetable
叶菜类
Leaf vegetable		 大白菜、菠菜、香菜、芥菜、油菜、油麦菜、生菜(叶用莴苣)、茴香、荠菜、芹菜、茼蒿
Chinese cabbage, spinach, coriander (cilantro) leaves, mustard, rape, lactuca, leaf lettuce, capsella bursa-pastoris, celery, crowndaisy chrysanthemum
茎菜类 Stem vegetable 芦笋、莴笋 Asparagus, asparagus lettuce
花菜类 Flower vegetable 甘蓝、菜花(花椰菜) Cabbage, broccoli
葱蒜类 Allium species 大葱、大蒜、洋葱、韭菜 Onions (young green), garlic, onion, Chinese chive
茄果类 Solanaceous vegetable 茄子、番茄、辣椒、甜椒 Eggplant, Tomato, hot pepper, peppers(sweet)
瓜菜类 Melon vegetable 黄瓜、西葫芦、苦瓜 Cucumber, cucurbita pepo, balsam-pear
根菜类 Root vegetable 白萝卜、胡萝卜、水萝卜 White carrot, carrot, radish
薯芋类 Tuber vegetable 马铃薯、芋头、姜 Potatoes(russet), taro, ginger
鲜豆类 Fresh bean vegetables 芸豆、豇豆 Kidney bean, cowpeas (leafy tips)
野生蔬菜类 Wild vegetable 鱼腥草、槐花、香椿、马齿苋 Houttuynia cordata, flos sophorae, toona sinensis, herba portulacae

Table 2

The species and RNI values of 42 nutrients"

类别 Category 营养素 Essential nutrient 人均每日推荐摄入量 RNI 单位 Unit
水 Water 水 Water 1700 g
能量物质(3种)
Energy material		 蛋白质 Protein 65 g
脂肪 Fat 25 g
碳水化合物 Carbohydrates 120 g
不饱和脂肪酸(2种)
Unsaturated fatty acid		 亚油酸 Linoleic acid(ω-6) 4 %E
亚麻酸 a-linolenic acid(ω-3) 0.6 %E
矿质元素(13种)
Mineral		 钙 Calcium 800 mg
磷 Phosphorus 720 mg
钾 Potassium 2000 mg
钠 Sodium 1500 mg
镁 Magnesium 330 mg
铁 Iron 12 mg
锌 Zinc 12.5 mg
硒 Selenium 60 mg
铜 Copper 0.8 mg
锰 Manganese 4.5 mg
碘 Iodine 120 μg
氯 Chloride 2200 μg
钼 Molybdenum 100 μg
维生素(13种)
Vitamin		 维生素A原 Provitamin A 800 mg
维生素B1/硫胺素 Thiamin 1.4 μg RAE
维生素B2/核黄素 Riboflavin 1.4 μg
维生素B3/烟酸 Niacin 15 mg α-TE
维生素C/抗坏血酸 Ascorbic acid 100 μg
维生素E Vitamin E 14 mg
维生素D Vitamin D 10 mg
维生素K Vitamin K 80 mg NE
维生素B5/泛酸 Pantothenic acid 5 mg
维生素B6 Vitamin B6 1.4 mg
维生素/B7生物素 Biotin 40 μg
叶酸 Folate 400 μg DFE
维生素B12 Vitamin B12 2 μg
必需氨基酸(9种)
Essential amino acid		 组氨酸 Histidine 600 mg
异亮氨酸 Isoleucine 1200 mg
亮氨酸 Leucine 2340 mg
赖氨酸 Lysine 1800 mg
甲硫氨酸/蛋氨酸 Methionine 1020 mg
苯丙氨酸 Phenylanaline 1140 mg
苏氨酸 Threonine 900 mg
色氨酸 Tryptophan 240 mg
缬氨酸 Valine 1560 mg
膳食纤维 Dietary Fiber (1种) 膳食纤维 Dietary Fiber 25 g

Table 3

The DM values of cabbage, spinach and coriander leaves"

类别
Category		 营养素
Essential nutrient		 人均每日推荐摄入量
RNI		 单位
Unit		 大白菜 Cabbage 菠菜 Spinach 香菜 Coriander leaves
含量Content(/100 g) 百分比Percentage(%) 含量Content(/100 g) 百分比Percentage(%) 含量Content(/100 g) 百分比Percentage(%)
水 Water 水 Water 1700 g 94.6 5.56 91.2 5.36 90.5 5.32
能量物质(3种)
Energy material		 蛋白质 Protein 65 g 1.5 2.31 2.6 4.00 1.8 2.77
脂肪 Fat 25 g 0.1 0.40 0.3 1.20 0.4 1.60
碳水化合物 Carbohydrate 120 g 3.2 2.67 4.5 3.75 6.2 5.17
不饱和脂肪酸(2种)
Unsaturated fatty acid		 亚油酸 Linoleic acid(ω-6) 4 %E 0 0.00 0 0.00 0 0.00
亚麻酸 α-linolenic acid(ω-3) 0.6 %E 0 0.00 0 0.00 0 0.00
矿质元素(13种)
Mineral		 钙 Calcium 800 mg 50 6.25 66 8.25 101 12.63
磷 Phosphorus 720 mg 31 4.31 47 6.53 49 6.81
钾 Potassium 2000 mg 252 12.60 311 15.55 272 13.60
钠 Sodium 1500 mg 57.5 3.83 85.2 5.68 48.5 3.23
镁 Magnesium 330 mg 11 3.33 58 17.58 33 10.00
铁 Iron 12 mg 0.7 5.83 2.9 24.17 2.9 24.17
锌 Zinc 12.5 mg 0.38 3.04 0.85 6.80 0.45 3.60
硒 Selenium 60 μg 0.49 0.82 0.97 1.62 0.53 0.88
铜 Copper 0.8 mg 0.05 6.25 0.1 12.50 0.21 26.25
锰 Manganese 4.5 mg 0.15 3.33 0.66 14.67 0.28 6.22
碘 Iodine 120 μg NA 0.00 10.23[22] 8.53 1.5 1.25
氯 Chloride 2200 mg 538[23] 24.45 315[23] 14.32 NF[23]
钼 Molybdenum 100 μg 9.57[24] 9.57 6.61[24] 6.61 NF[24]
维生素(13种)
Vitamin		 维生素A原 Vitamin A 800 μg RAE 20 2.50 487 60.88 193 24.13
维生素B1/硫胺素 Thiamin 1.4 mg 0.04 2.86 0.02 1.43 0.04 2.86
维生素B2/核黄素 Riboflavin 1.4 mg 0.05 3.57 0.09 6.43 0.14 10.00
维生素B3/烟酸 Niacin 15 mg NE 0.6 4.00 0.6 4.00 2.2 14.67
维生素C/抗坏血酸 Ascorbic acid 100 mg 31 31.00 32 32.00 48 48.00
维生素E Vitamin E 14 mg α-TE 0.76 5.43 1.74 12.43 0.8 5.71
维生素D Vitamin D 10 μg 0 0.00 0 0.00 0 0.00
维生素K Vitamin K 80 μg 80.82[25] 101.03 223.23[25] 279.04 348.27[25] 435.34
维生素B5/泛酸 Pantothenic acid 5 mg NF 0.00 0.345[26] 6.90 NF 0.00
维生素B6 Vitamin B6 1.4 mg 0.194[27] 13.86 0.008[26] 0.57 0.149[27] 10.64
维生素/B7生物素 Biotin 40 μg NF 0.00 NF 0.00 NF 0.00
叶酸 Folate 400 μg DFE 66[27] 16.50 194[27] 48.50 62[27] 15.50
维生素B12 Vitamin B12 2 μg 0[27] 0.00 0[27] 0.00 0[27] 0.00

Table 3

The DM values of cabbage, spinach and coriander leaves(Continued)"

类别
Category		 营养素
Essential nutrient		 人均每日推荐摄入量
RNI		 单位
Unit		 大白菜 Cabbage 菠菜 Spinach 香菜 Coriander leaves
含量Content(/100 g) 百分比Percentage(%) 含量Content(/100 g) 百分比Percentage(%) 含量Content(/100 g) 百分比Percentage(%)
必需氨基酸(9种)
Essential amino acid		 组氨酸 Histidine 600 mg 21 3.50 56 9.33 40 6.67
异亮氨酸 Isoleucine 1200 mg 37 3.08 100 8.33 82 6.83
亮氨酸 Leucine 2340 mg 55 2.35 182 7.78 132 5.64
赖氨酸 Lysine 1800 mg 55 3.06 147 8.17 104 5.78
甲硫氨酸/蛋氨酸 Methionine 1020 mg 13 1.27 18 1.76 NA
苯丙氨酸 Phenylanaline 1140 mg 49 4.30 108 9.47 66 5.79
苏氨酸 Threonine 900 mg 41 4.56 114 12.67 85 9.44
色氨酸 Tryptophan 240 mg 12 5.00 36 15.00 24 10.00
缬氨酸 Valine 1560 mg 53 3.40 120 7.69 105 6.73
膳食纤维
Dietary Fiber		 膳食纤维 Dietary Fiber 25 g 0.8 3.20 1.7 6.80 1.2 4.80
K值 39 39 39
DM值 0.078 0.177 0.192

Fig. 1

The DM values and ranking of vegetables"

Fig. 2

The contents ranking of Vitamin A"

Fig. 3

The DB values and ranking of vegetables"

Table 4

The contents and RNI values of three kinds of energy materials in spinach"

单位
Unit		 能量物质 Energy material
碳水化合物
Carbohydrate		 蛋白质
Protein		 脂肪
Fat
推荐摄入量
(RNI)		 g/day 120 65 25
菠菜
Spinach		 g/100 g 4.5 2.6 0.3

Table 5

The aij and uij values of three kinds of energy materials in spinach"

uij
aij		 碳水化合物
Carbohydrate		 蛋白质
Protein		 脂肪
Fat
碳水化合物
Carbohydrate		 0.542 0.208
蛋白质
Protein		 0.578 0.385
脂肪
Fat		 0.067 0.115

Fig. 4

The variation degree of “Three Degree” and ranking of vegetables"

[1] ZHANG N, DU S M, MA G S . Current lifestyle factors that increase risk of T2DM in China. European Journal of Clinical Nutrition, 2017,71(7):832. doi: 10.1038/ejcn.2017.41.
[2] 朱圣陶, 于守洋 . 食物的营养质量指数评价. 食品科学, 1987(9):1-4.
ZHU S T, YU S Y . The evaluation of nutritional quality index of food. Food Science, 1987(9):1-4. (in Chinese)
[3] 张坚, 赵文华, 陈君石 . 营养素度量法—一个新的食物营养评价指标. 营养学报, 2009,31(1):1-5. doi: 10.13325/j.cnki.acta.nutr.sin. 2009.01.003
ZHANG J, ZHAO W H, CHEN J S . Nutrient profiling—A new food nutrition evaluation index. Journal of Nutrition, 2009,31(1):1-5. doi: 10.13325/j.cnki.acta.nutr.sin.2009.01.003. (in Chinese)
[4] 张立实 . 营养素度量法—一种食物营养评价的新方法//四川省营养学会//四川省营养学会第六届会员代表大会暨四川省中青年专家学术大会营养与食品安全分会场学术会资料汇编. 四川省营养学会, 2009: 9.
ZHANG L S, WU T, YANG Y X . Nutrient Profiling—A new method of food nutrition evaluation//Sichuan Nutrition Society. Sichuan Nutrition Society 6th Member Representative Conference and Sichuan Young and Middle-aged experts Conference on Nutrition and Food Safety. Sichuan Nutrition Society, 2009: 9. (in Chinese)
[5] FERN E B, WATZKE H, BARCLAY D V, ROULIN A, DREWNOWSKI A . The nutrient balance concept: A new quality metric for composite meals and diets. PLoS ONE, 2015,10(7). doi: 10.1371/journal.pone. 0130491.
[6] DARMON N, DARMON M, MAILLOT M, DREWNOWSKI A . A nutrient density standard for vegetables and fruits: Nutrients per calorie and nutrients per unit cost. Journal of the American Dietetic Association, 2005,105(12):1881-1887.
[7] DREWNOWSKI A . Defining nutrient density: Development and validation of the nutrient rich foods index. Journal of the American College of Nutrition, 2009,28(4):421S-426S. doi: 10.1080/07315724.2009.10718106.
[8] AZAÏSBRAESCO V, GOFFI C, LABOUZE E . Nutrient profiling: comparison and critical analysis of existing systems. Public Health Nutrition, 2006,9(5):613.
[9] 李艳平, 马冠生 . 蔬菜、水果的营养与健康. 中国食物与营养, 2002(2):43-45.
LI Y P, MA G S . The nutrition and health of vegetables and fruit. Food and Nutrition in China, 2002(2):43-45. (in Chinese)
[10] 廖显珍 . 常见蔬菜的营养成分及营养质量指数评价. 中国食物与营养, 1997(1):23-25.
LIAO X Z . The nutrient component and nutritional quality index of common vegetables. China Food and Nutrition, 1997(1):23-25. (in Chinese)
[11] 庄建平 . 综合评估蔬菜营养价值的两种方法. 上海蔬菜, 1992(4):33.
ZHANG J P . Two comprehensive methods to evaluate the nutritional value of vegetables. Shanghai vegetables, 1992(4):33. (in Chinese)
[12] 张爱霞, 刘晓东, 王桂荣, 李珊珊, 王慧军 . 一种新型农产品营养评价方法技术的构建. 食品科学, 2013,34(19):356-359.
doi: 10.7506/spkx1002-6630-201319073
ZHANG A X, LIU X D, WANG J R, LI S S, WANG H J . A new nutritional evaluation method for agricultural products. Food Science, 2013,34(19):356-359. (in Chinese)
doi: 10.7506/spkx1002-6630-201319073
[13] 刘哲, 何莎莎, 陆柏益, 周志钦 . 果品营养价值“三度”评价法. 园艺学报, 2018,45(4):795-804. doi: 10.16420/j.issn.0513-353x.2017-0648.
LIU Z, HE S S, LU B Y, ZHOU Z Q . On ‘Three Degree’ method for the evaluation of the fruit nutritive values. Acta Horticulturae Sinica, 2018,45(4):795-804. doi: 10.16420/j.issn.0513-353x.2017-0648. (in Chinese)
[14] 杨月欣, 王光亚, 潘兴昌 . 中国食物成分表. 第2版. 北京: 北京大学医学出版社, 2009: 91-101.
YANG Y X, WANG G Y, PAN X C. China Food Composition. 2nd. Beijing: Peking University Medical Press, 2009: 91-101. (in Chinese)
[15] NICKLAS T A . Nutrient profiling: The new environment. Journal of the American College of Nutrition, 2009,28(4):416S. doi: 10.1080/07315724.2009.10718105.
[16] DREWNOWSKI A, FULGONI V . Nutrient profiling of foods: Creating a nutrient-rich food index. Nutrition Reviews, 2008,66(1):23-39.
[17] 周昇昇, 李磊, 张丁, 张书芳 . 一种新的食物营养评价指数的初步建立和应用. 营养学报, 2014,36(1):63-68. doi: 10.13325/j.cnki.acta. nutr.sin.2014.01.016.
ZHOU S S, LI L, ZHANG D, ZHANG S F . Development and application of a new food nutrition evaluation index. ACTA Nutrimenta SINICA, 2014,36(1):63-68. doi: 10.13325/j.cnki.acta.nutr.sin.2014. 01.016. (in Chinese)
[18] DREWNOWSKI A, MAILLOT M, DARMON N . Should nutrient profiles be based on 100 g, 100 kcal or serving size?. European Journal of Clinical Nutrition, 2009,63(7):898-904.
[19] TETENS I, OBERDÖRFER R, MADSEN C, DEVRIES J. Nutritional characterisation of foods: Science-based approach to nutrient profiling. European Journal of Nutrition, 2007,46:4-14. (in Chinese)
[20] 李跃森, 吴水金, 赖正锋, 张少平 . 8种原生蔬菜氨基酸组成及营养评价. 福建农业报, 2013,28(10):1007-1011. doi: 10.19303/j.issn. 1008-0384.2013.10.015.
LI Y S, WU S J, LAI Z F, ZHANG S P . Amino acid composition and nutrition evaluation for eight original ecology grown vegetable species. Fujian Journal of Agriculture Sciences, 2013,28(10):1007-1011. doi: 10.19303/j.issn.1008-0384.2013.10.015. (in Chinese)
[21] 钱爱萍, 林虬, 余亚白, 颜孙安, 林香信, 姚莘 . 闽产柑橘果肉中的氨基酸组成及营养评价. 中国农学通报, 2008,24(6):86-90.
QIAN A P, LIN Q, YU Y B, YAN S A, LIN X X, YAO X . The content of amino acid in the flesh of oranges produced in Fujian province and its nutritive evaluation. Chinese Agricultural Science Bulletin, 2008,24(6):86-90. (in Chinese)
[22] 张攀 . 不同水碘地区食物碘含量调查[D]. 天津: 天津医科大学, 2015.
ZHANG P . Investigation on food iodine content in different water iodine areas[D]. Tianjin: Tianjin Medical University, 2015. (in Chinese)
[23] 潘如圭, 宋佩扬, 管建国, 潘秀琴 . 南京市20种蔬菜氟、硫、氯元素含量研究. 农村生态环境, 1995(3):26-30.
PAN R G, SONG P, JIN J G, PAN X Q . Study on the contents of fluoride, sulfur and chlorine in 20 kinds of vegetables in Nanjing. Rural Ecological Environment, 1995(3):26-30. (in Chinese)
[24] 陈辉, 金铃和, 胡雪艳, 彭涛, 常巧英, 范春林 . ICP-MS测定北京地区主要水果和蔬菜中40种元素. 食品工业科技, 2016,37(19):276-283.
CHEN H, JIN L H, HU X Y, PENG T, CHANG Q Y, FAN C L . Determination of 40 elements in main fruits and vegetables in Beijing by ICP-MS. Food Industry Technology, 2016,37(19):276-283. (in Chinese)
[25] 王晓红, 周波, 肖金 . 沈阳市市售蔬菜中维生素K1的含量. 营养学报, 2008(5):528-529.
WANG X H, ZHOU B, XIAO J . Content of vitamin K1 in vegetables marketed in Shenyang city. Journal of Nutrition, 2008(5):528-529. (in Chinese)
[26] 刘莉, 张斌, 佘德琴 . 蔬菜营养学. 天津: 天津大学出版社, 2014.
LIU L, ZHANG B, YU D Q. Vegetable Nutrition. Tianjin: Tianjin University Press, 2014. (in Chinese)
[27] United States Department of Agriculture's National Nutrient Database for Standard Reference Release 28; 2016
[28] 朱丽, 彭祖茂, 张协光, 赖晓芳, 杨国武 . 深圳市主食蔬菜种类调查及其营养价值评价. 广东农业科学, 2016,43(1):34-39. doi: 10.16768/j.issn.1004-874x.2016.01.007.
ZHU L, PENG Z M, ZHANG X G, LAI X F, YANG G W . Investigation and nutritional assessment of staple vegetables in Shenzhen. Guangdong Agricultural Sciences, 2016,43(1):34-39. doi: 10.16768/j.issn.1004-874x.2016.01.007. (in Chinese)
[29] 戚浩彧 . 烹饪对蔬菜中功能成分及其营养评价的影响[D]. 郑州: 河南工业大学, 2016.
QI H Y . Effects of cooking on functional component and nutrition assessment. Zhengzhou: Henan University of Technology, 2016. (in Chinese)
[30] 黄璐瑶, 梁鹏 . 基于Caco-2细胞模型评价食品营养物质的研究进展. 农产品加工, 2018(6):63-68. doi: 10.16693/j.cnki.1671-9646(X).2018.03.044
HUANG L Y, LIANG P . Review on evaluation of food nutrients based on Caco-2 cell mode. Farm Products Processing, 2018(6):63-68. doi: 10.16693/j.cnki.1671-9646(X).2018.03.044. (in Chinese)
[31] 陈斌 . 代谢组学方法在食品营养价值评价中的应用//中国研究型医院学会营养医学专业委员会、中国营养学会营养转化医学分会、中国人民解放军营养医学专业委员会. 2017中国营养医学发展论坛暨全军营养医学大会论文汇编. 中国营养学会, 2017: 1.
CHEN B . Application of metabolic method in the food nutrition evaluation//Society for Nutrition and Medicine, Chinese Research Hospital Association/Nutrition Transformation Medicine Branch of Chinese Nutrition Society, Society for Nutrition and Medicine of the Chinese People’s Liberation Army. Compilation of Chinese Nutrition Medical Development Forum and Military Conference on Nutrition Medicine. China Nutrition Society, 2017: 1. (in Chinese)
[32] 娄鹏宇, 张敬普 . 基于营养评价算法配餐系统的研究. 科技风, 2010(18):214. doi: 10.19392/j.cnki.1671-7341.2010.18.194.
LOU P Y, ZHANG J P . The study of diet recommendation system based on nutrition evaluation algorithm. Technology Wind, 2010(18):214. doi: 10.19392/j.cnki.1671-7341.2010.18.194. (in Chinese)
[33] 丁冰 . 基于模糊数学模型的食物营养评价系统设计. 饮食科学, 2017(8):42.
DING B . Food nutrition evaluation system design based on fuzzy mathematical model. Diet Science, 2017(8):42. (in Chinese)
[34] 陈素羡, 刘辉, 程治国 . 基于JSP的营养评价专家系统的设计与实现. 科学大众, 2008(2):107. doi: 10.16728/j.cnki.kxdz.2008.02.010.
CHEN S X, LIU H, CHENG Z G . Design and implementation of nutrition evaluation expert system. Scientific public, 2008(2):107. doi: 10.16728/j.cnki.kxdz.2008.02.010. (in Chinese)
[35] PAN A, LIN X, HEMLER E, HU F B . Diet and cardiovascular disease: Advances and challenges in population-based studies. Cell Metabolism, 2018,27(3):489-496. doi: 10.1016/j.cmet.2018.02.017.
[36] 林漓 . 食物中矿物质的相互作用. 国外医学情报, 1984(21):373-375.
LIN L . The interaction of minerals in food. Foreign Medical Information, 1984(21):373-375. (in Chinese)
[37] 娄鹏宇 . 基于健康饮食的点餐系统的设计与实现[D]. 西安: 西安电子科技大学, 2009.
LOU P Y . The design and accomplishment of ordering system based on healthy diet[D]. Xi’an: Xidian University, 2009. (in Chinese)
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