夏播菜用大豆种质资源品质性状鉴定方法、遗传变异及发育过程的研究
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摘要
菜用大豆(Vegetable Soybean,Glycine max),俗称毛豆,是一种重要的豆类蔬菜,
只在我国南方和少数几个亚洲国家有其食用习惯。随着“国家大豆行动计划”的实施
和大豆的保健作用日益被人们揭示和重视,国内外对毛豆需求日益扩大。除营养品质
外,优良的感官品质是菜用大豆极为重要的育种目标性状。以往除营养品质有初步研
究外,对于感官品质主要指标性状尚不明确,感官品质鉴定方法还未形成完整体系,
感官品质性状与采收期之间的关系也缺乏系统研究。本文以夏播菜用大豆品种为材
料,研究了菜用大豆感官品质鉴定方法、品质有种的主要目标性状、我国菜用大豆主
产区品种资源的遗传变异特点和优异资源,并进一步探讨了感官品质有关性状的发育
过程。
1998年从全国菜用大豆主产区各省份的2100份百粒重大于22克的大粒地方品种
资源库中随机分层抽样,抽取400份品种,进行了200份品种的感官鉴定方法探索实
验。1999年再从中随机抽取154份品种,按照研究制定的方法作进一步试验研究,所
得结果如下:
1.初步确立菜用大豆品质感官鉴定方法,主要包括了4个步骤:(1)感官鉴定人员
的考核,鉴别评定小组成员的判断能力;(2)采用生食样品、熟食样品两种烹调加工方
法制备样品;(3)主观偏差检测,判断评价有效性;(4)感官模糊综合评价分析:①确
立评价对象口感、口味、外观、色泽、香味、手感六个评价因素,②确立各评价因素
的权重集,③确定五等级(低劣、较差、一般、较好、优良)评语论域及各评价因素的
隶属等级标准,④采用合理品尝方式,⑤模糊综合评价分析。该鉴定方法应用在育种
实例中,证明简单、方便、有效。
2.在进行菜用大豆品质育种过程中,感官品质鉴定应首先在外观、口味、口感、
色泽、香味、手感六个一级性状综合评价的基础上进行选择,注重前三项性状的选
择,然后结合荚长、荚厚、百荚鲜重、可溶性糖以及其他感官品质有关理化性状的选
择。
3.运用上述鉴定方法对154份品种进行感官品质鉴定,其中低劣、较差品种14
个,一般品种75个,较好品种60个,优良品种5个(南农大黄豆、台湾309、海系
13、金湖大青豆、香水豆)。结合考察主要一级感官性状和感官品质有关的理化性
状,筛选出:(1)适于市场销售的优良品种11个,宜兴六月黄、台湾309、香水豆
等;(2)感官品质有关理化性状达到出口专用要求的菜用大豆品种11个,如皋荚荚
三、海系13、香水豆等;(3)感官品质有关理化性状特异种质资源,包括荚长大的品种7
份,荚厚大的品种9份,百荚鲜重大的品种10份,高可溶性糖的品种3份。其中比较
优异的,荚长大的品种,如皋荚荚三和楚秀等;荚厚大的品种,楚秀、台湾309和海系
13等;百荚鲜重大的品种,嵊县大豆、金湖大青豆和香水豆等;高可溶性糖的品种,
金湖大青豆等。
4.对154个品种感官品质有关理化性状进行鉴定,结果表明:荚长、荚厚的遗传
变异系数中等,分别为11.70%、10.07%:荚宽的遗传变异系数较小,为8.59%;荚
长、荚宽、荚厚三者的遗传力中等,分别为73.59O、71.51O和76.86O。百荚鲜重、
百粒鲜重、可溶性糖的遗传变异系数较大,分别为24石8%、25.41%和26.42%,遗传
力较高,分别为87.93%、90.49%和93.65%。单荚粒数遗传变异系数较小,为
8.95%,遗传力较低,为54.88%;选择高可溶性糖含量、百荚鲜重、百粒鲜重大的品
种潜力较大。
5.以3个不同熟期组、6个不同菜用大豆品种通州豆、楚秀(熟期组*)、海系
13、87C-38(熟期组IV)、南农大黄豆、黑皮绿仁(熟期组V)为材料,研究了它们的感
官品质有关理化性状生长变化过程,结果表明:①单荚荚长、荚宽在开花后10-20天
急剧增加,然后缓慢增长,大体上达到该品种特性具有的大小,荚厚的增长晚于荚
长、荚宽的生长,大约在开花后25-40天左右快速增长,然后生长缓慢。荚长、荚
宽、荚厚随时间的生长变化皆很好地符合LOgisti。变化曲线。②百荚鲜重、百粒鲜重
积累量先缓慢增加,直至最大值,然后下降,皆符合二次曲线方程。熟期组*的品种
百荚鲜重、百粒鲜重在开花后35-55天达到最大值;而熟期组IV、熟朋组V的品种百
荚鲜重、百粒鲜重在开花后5570天达到最大值。③鲜荚出籽率逐渐增加,干基中可
溶性糖含量开花后30-60天逐渐增加,在开花后6075天大部分品种略有降低,而仅
熟期组*品种通州豆例外,可溶性糖含量略有上升,其变化符合四次曲线方程。总
之,不同熟期组的品种品质性状生长发育过程无较大差异,菜用大豆适宜采摘期为
R6(鼓粒饱满期>一R7生理成熟期)的前半期。
Vegetable Soybean (Glycine max), also called as 揗aodou? has been being an
important Vegetable legume. Only southern China and a few of Asian countries have the
tradition to eat it as vegetable food. With its important nutrition value, the requirement for
vegetable soybean was increasing rapidly. In addition to nutrient quality, excellent sensory
quality was an important object for vegetable soybean breeding .The major component traits
of sensory quality have not been clearly understood. A sample of summer-planted vegetable
soybean were used to study the evaluation method of its sensory quality, to reveal the major
component traits of sensory quality, to evaluate the genetic variability of the sampled
population, and to screen out elite accessions for breeding purpose. In addition, the
developmental process of the quality traits was also studied.
In 1998,a stratified random sample of 400 vegetable soybeans was taken from 2100
varieties with 100-seed weight more than 22g from main vegetable soybean regions for a
preliminary study to explore the sensory evaluation method. Further study was carried out on
154 from the 400 varieties by using the procedure suggested in I 999.The results were as
follows:
I .A system of sensory quality evaluation of vegetable soybean was preliminarily
established, including four main processes:(1) Checking the member of sensory assessing
panel;(2)Preparing the specimens of non-cooked and cooked soybean with appropriate
processing procedure;(3) Estimating the validity of assessment ; (4)Sensory fuzzy synthetic
assessrnent:QDestablishing six main sensory factors (mouth feeling, taste, color, odour, hand
feeling, appearance);@~determining rationale weight of each factor;甦etermining content
and criterion of each factor in five grades (excellent, better, ordinary, worse, inferior); ?
appropriate tasting methods;~sensory fuzzy synthetic analyzing. The sensory quality
evaluation system was proved to be simple and valid in a vegetable soybean evaluation
program.
2.During the process of vegetable soybean quality breeding, quality appraisement and
3
breeding should be emphasized on comprehensive assessment of appearance, taste, mouth
feeling, colour, odour, hand feeling, of which the most important ones were appearance and
mouth feeling and taste. Furthermore variety抯 quality breeding objective should be also
concerned with 100-pod fresh weight, pod length, pod depth, soluble sugar content etc.
3.The quality of 154 varieties were evaluated with sensory organs, the result was that:
the worse or inferior was 14 varieties, the ordinary 75,the better 60,the excellent 5
(Nannongda Huangdou, Taiwan 309,Haixi 13,Jinhu Daqingdou, Xiangshuidou). Among the
special genetic resources whose sensory quality was related to physical and chemical
property, there were 3 varieties that contained higher portion of soluble sugar, 10 ones whose
100-pod fresh weight was heavier, 9 ones whose pod depth was thicker and 7 ones whose
pod length was longer.
4.The result showed that the coefficient of heredity variation for pod length, pod width,
pod depth, number of each pod, 100-pod fresh weight, 100-seed fresh weight, soluble sugar
content (dry weight basis) was 11.70%, 8.59%, 10.07%, 8.95%, 24.68%, 25.4 1% and 26.42%
respectively, and the heritability for them was 73.59%, 76.86%, 71.5 1%, 54.88%, 87.93%,
90.49% and 93.65% respectively.
5.Six vegetable soybean fro
只在我国南方和少数几个亚洲国家有其食用习惯。随着“国家大豆行动计划”的实施
和大豆的保健作用日益被人们揭示和重视,国内外对毛豆需求日益扩大。除营养品质
外,优良的感官品质是菜用大豆极为重要的育种目标性状。以往除营养品质有初步研
究外,对于感官品质主要指标性状尚不明确,感官品质鉴定方法还未形成完整体系,
感官品质性状与采收期之间的关系也缺乏系统研究。本文以夏播菜用大豆品种为材
料,研究了菜用大豆感官品质鉴定方法、品质有种的主要目标性状、我国菜用大豆主
产区品种资源的遗传变异特点和优异资源,并进一步探讨了感官品质有关性状的发育
过程。
1998年从全国菜用大豆主产区各省份的2100份百粒重大于22克的大粒地方品种
资源库中随机分层抽样,抽取400份品种,进行了200份品种的感官鉴定方法探索实
验。1999年再从中随机抽取154份品种,按照研究制定的方法作进一步试验研究,所
得结果如下:
1.初步确立菜用大豆品质感官鉴定方法,主要包括了4个步骤:(1)感官鉴定人员
的考核,鉴别评定小组成员的判断能力;(2)采用生食样品、熟食样品两种烹调加工方
法制备样品;(3)主观偏差检测,判断评价有效性;(4)感官模糊综合评价分析:①确
立评价对象口感、口味、外观、色泽、香味、手感六个评价因素,②确立各评价因素
的权重集,③确定五等级(低劣、较差、一般、较好、优良)评语论域及各评价因素的
隶属等级标准,④采用合理品尝方式,⑤模糊综合评价分析。该鉴定方法应用在育种
实例中,证明简单、方便、有效。
2.在进行菜用大豆品质育种过程中,感官品质鉴定应首先在外观、口味、口感、
色泽、香味、手感六个一级性状综合评价的基础上进行选择,注重前三项性状的选
择,然后结合荚长、荚厚、百荚鲜重、可溶性糖以及其他感官品质有关理化性状的选
择。
3.运用上述鉴定方法对154份品种进行感官品质鉴定,其中低劣、较差品种14
个,一般品种75个,较好品种60个,优良品种5个(南农大黄豆、台湾309、海系
13、金湖大青豆、香水豆)。结合考察主要一级感官性状和感官品质有关的理化性
状,筛选出:(1)适于市场销售的优良品种11个,宜兴六月黄、台湾309、香水豆
等;(2)感官品质有关理化性状达到出口专用要求的菜用大豆品种11个,如皋荚荚
三、海系13、香水豆等;(3)感官品质有关理化性状特异种质资源,包括荚长大的品种7
份,荚厚大的品种9份,百荚鲜重大的品种10份,高可溶性糖的品种3份。其中比较
优异的,荚长大的品种,如皋荚荚三和楚秀等;荚厚大的品种,楚秀、台湾309和海系
13等;百荚鲜重大的品种,嵊县大豆、金湖大青豆和香水豆等;高可溶性糖的品种,
金湖大青豆等。
4.对154个品种感官品质有关理化性状进行鉴定,结果表明:荚长、荚厚的遗传
变异系数中等,分别为11.70%、10.07%:荚宽的遗传变异系数较小,为8.59%;荚
长、荚宽、荚厚三者的遗传力中等,分别为73.59O、71.51O和76.86O。百荚鲜重、
百粒鲜重、可溶性糖的遗传变异系数较大,分别为24石8%、25.41%和26.42%,遗传
力较高,分别为87.93%、90.49%和93.65%。单荚粒数遗传变异系数较小,为
8.95%,遗传力较低,为54.88%;选择高可溶性糖含量、百荚鲜重、百粒鲜重大的品
种潜力较大。
5.以3个不同熟期组、6个不同菜用大豆品种通州豆、楚秀(熟期组*)、海系
13、87C-38(熟期组IV)、南农大黄豆、黑皮绿仁(熟期组V)为材料,研究了它们的感
官品质有关理化性状生长变化过程,结果表明:①单荚荚长、荚宽在开花后10-20天
急剧增加,然后缓慢增长,大体上达到该品种特性具有的大小,荚厚的增长晚于荚
长、荚宽的生长,大约在开花后25-40天左右快速增长,然后生长缓慢。荚长、荚
宽、荚厚随时间的生长变化皆很好地符合LOgisti。变化曲线。②百荚鲜重、百粒鲜重
积累量先缓慢增加,直至最大值,然后下降,皆符合二次曲线方程。熟期组*的品种
百荚鲜重、百粒鲜重在开花后35-55天达到最大值;而熟期组IV、熟朋组V的品种百
荚鲜重、百粒鲜重在开花后5570天达到最大值。③鲜荚出籽率逐渐增加,干基中可
溶性糖含量开花后30-60天逐渐增加,在开花后6075天大部分品种略有降低,而仅
熟期组*品种通州豆例外,可溶性糖含量略有上升,其变化符合四次曲线方程。总
之,不同熟期组的品种品质性状生长发育过程无较大差异,菜用大豆适宜采摘期为
R6(鼓粒饱满期>一R7生理成熟期)的前半期。
Vegetable Soybean (Glycine max), also called as 揗aodou? has been being an
important Vegetable legume. Only southern China and a few of Asian countries have the
tradition to eat it as vegetable food. With its important nutrition value, the requirement for
vegetable soybean was increasing rapidly. In addition to nutrient quality, excellent sensory
quality was an important object for vegetable soybean breeding .The major component traits
of sensory quality have not been clearly understood. A sample of summer-planted vegetable
soybean were used to study the evaluation method of its sensory quality, to reveal the major
component traits of sensory quality, to evaluate the genetic variability of the sampled
population, and to screen out elite accessions for breeding purpose. In addition, the
developmental process of the quality traits was also studied.
In 1998,a stratified random sample of 400 vegetable soybeans was taken from 2100
varieties with 100-seed weight more than 22g from main vegetable soybean regions for a
preliminary study to explore the sensory evaluation method. Further study was carried out on
154 from the 400 varieties by using the procedure suggested in I 999.The results were as
follows:
I .A system of sensory quality evaluation of vegetable soybean was preliminarily
established, including four main processes:(1) Checking the member of sensory assessing
panel;(2)Preparing the specimens of non-cooked and cooked soybean with appropriate
processing procedure;(3) Estimating the validity of assessment ; (4)Sensory fuzzy synthetic
assessrnent:QDestablishing six main sensory factors (mouth feeling, taste, color, odour, hand
feeling, appearance);@~determining rationale weight of each factor;甦etermining content
and criterion of each factor in five grades (excellent, better, ordinary, worse, inferior); ?
appropriate tasting methods;~sensory fuzzy synthetic analyzing. The sensory quality
evaluation system was proved to be simple and valid in a vegetable soybean evaluation
program.
2.During the process of vegetable soybean quality breeding, quality appraisement and
3
breeding should be emphasized on comprehensive assessment of appearance, taste, mouth
feeling, colour, odour, hand feeling, of which the most important ones were appearance and
mouth feeling and taste. Furthermore variety抯 quality breeding objective should be also
concerned with 100-pod fresh weight, pod length, pod depth, soluble sugar content etc.
3.The quality of 154 varieties were evaluated with sensory organs, the result was that:
the worse or inferior was 14 varieties, the ordinary 75,the better 60,the excellent 5
(Nannongda Huangdou, Taiwan 309,Haixi 13,Jinhu Daqingdou, Xiangshuidou). Among the
special genetic resources whose sensory quality was related to physical and chemical
property, there were 3 varieties that contained higher portion of soluble sugar, 10 ones whose
100-pod fresh weight was heavier, 9 ones whose pod depth was thicker and 7 ones whose
pod length was longer.
4.The result showed that the coefficient of heredity variation for pod length, pod width,
pod depth, number of each pod, 100-pod fresh weight, 100-seed fresh weight, soluble sugar
content (dry weight basis) was 11.70%, 8.59%, 10.07%, 8.95%, 24.68%, 25.4 1% and 26.42%
respectively, and the heritability for them was 73.59%, 76.86%, 71.5 1%, 54.88%, 87.93%,
90.49% and 93.65% respectively.
5.Six vegetable soybean fro
引文
1.丁安宁,王雁,常汝镇,1994,大豆的抗营养因子及其改良,大豆科学,13(1):72-76
2.丁耐克.1997,食品风味化学,北京,轻工业出版社
3.马立安,江涛,2000,大豆的药用价值,食品研究与开发,21(2):43-44
4.马育华,1988,田间试验和统计方法(第二版),农业出版社
5.马淑英,梁歧,尹田夫等,1999,大豆籽粒发育过程中脂肪酸的组分分析,大豆科学,18(5):124-128
6.王化泉,赵丽云,1987,食品质量模糊综合评价初步探讨,食品科学,8(4):21-23
7.王延平,赵谋明,彭志英,马志玲,1999,美拉德反应产物研究进展,食品科学,20(1):15-19
8.王建安,孙志强,1991,大豆籽粒油分蛋白质产量的适宜收获期,大豆科学,10(4):33-35
9.王继安,孙志强,1991,大豆籽粒油分蛋白质产量适宜收获期,中国油料,13(4):33-35
10.王素,徐兆生,魏民,1996,菜用大豆产量相关性状的遗传分析,遗传,18(3):34-36
11.王素,徐兆生,魏民,1996,菜用大豆种质资源农艺性状鉴定和优异资源的筛选,作物品种资源,(2):14-16
12.王勤海,宋挺瑶,胡君达,1997,台湾292菜用大豆及栽培技术,中国蔬菜,(5):41
13.尹田夫,1988,大豆油脂脂肪酸改良与生化育种策略,大豆科学,7(3):75-79
14.史书军,张军土,成丽萍,1999,毛豆品种比较试验,宁波农业科技,(4):18-19
15.毕宏文,1999,豆类蔬菜的种类及其特性,黑龙江农业科学,(3):56-57
16.江腾龙.1989,广义模糊综合评判在食品感官品评的应用,食品科学,10(6):25-28
17.兰景波,1994,论加权评分法,食品科学,15(3):1-4
18.石彦国,任莉,1998,大豆食品工艺学,中国轻工业出版社
19.刘金权,1988,食品感官质量评审表的结果运算之管见,食品科学,9(1):18-19
20.刘书亮,1999,浅论保健食品及其发展前景(一),食品科技,(5):5-6
21.吕志俭,姜汝,1986,应用模糊数学评价食品的感官质量,食品科学,7(3):1-5
22.乔旭光,蒋健箴,沈征言,1991,大白菜感官品质与营养品质相关性研究,园艺学报,18(2):138-142
23.孙克刚,王英,李贵宝等,1996,夏大豆干物质积累和分配数学模拟研究,大豆科学,15(3):274-277
24.孙风霞,周展明,2000,粮油、食品中色泽的测量及其发展,郑州粮食学院学报,21(1):67-69
25.余疾风,1995,现代食品感官分析技术,成都,四川科学技术出版社
26.朱红,黄一贞,张弘,1990,食品感官分析入门,北京,轻工业出版社
27.朱永义,1986,食品分析方法(大米食味评价法),四川科学技术出版社
28.朱余尧,郭志瑞,1987,应用模糊综合评判进行食品感官质量评价的实施报告,食品科学,8(10):11-15
29.朱国斌,鲁红军,1997,食品风味原理与技术,北大出版社
30.朱国富,孙方,孔琦,戚胜方,1999,东北大豆作为毛豆品种引种南方后有关性状的变化,大豆科学,18(4):336-341
31.陈素月,1992,游离氨基酸和胜肽在食物呈味中所扮演的角色,食品工业,24(12):28-33
32.陈纯枢,1991,中国的气候与农业,北京,气象出版社
33.李里特,1998,食品物性学,北京,中国农业出版社
34.李酉开,1991,粮食作物品质鉴定的优选方法,农业出版社
35.李莹,李原萍,张昕艳等,2000,菜用大豆新品种选育鉴定及评价,山西农业科学,28(1):28-30
36.邱丽娟,王金陵,孟庆喜,1990,大豆种子发育过程中蛋白质和脂肪积累特点的初步研究,中国农业科学,23(5):28-32
37.苏黎,张仁双,宋书宏等,1997,不同结荚习性大豆开花结荚鼓粒进程的比较研究,大豆科学,16(3):237-243
38.苏明武,刘正嘉,梁奎,1992,中国经济地理新编,成都科技大学出版社,成都
39.苏根垠,1988,食品质量管理与控制,食品科学,9(1):9-13
40.宋启建,1999,韩国大豆的生产、利用及品质改良育种,大豆科学,18(1):89-93
41.汪炳良,董伟敏,陈竹君,俞丽红,1997,矮生菜豆豆荚和种子生长数学模式的应用。浙江农业大学学报,23(4):431-436
42 吴俊江,刘丽君,高明杰,1999,我国菜用大豆研究概况,大豆通报,(2):26-27
43.吴岗凡,1983,收获时期和采收方式对大豆子粒的影响,农业论文集
44.吴锦涛,1999,国内外蔬菜加工的现状及市场分析,食品科技,(4):5-6
45.肖英俊,1986,罐头食品检验中的色、香、味,食品科学,7(3):14-17
46.汪越胜,1999,中国大豆品种熟期组、生态区域及光温反应遗传特性研究,南京农业大学博士论文(导师:盖钧镒教授)
47.张太平,朱星陶,王军等,2000,大豆脂肪氧化酶缺失体的农艺和品质性状鉴定,中国油料作物学报,22(1):15-18
48.张复宁,冯其虎,杨加银,1992,优质高产菜用大豆——“楚秀”的选育及其利用,作物科学讨论会文集:307-309
49.张国栋,1994,青毛豆,大豆通报,(6):29
50.张尧庭,方开泰,1983,多元统计分析导论,科学出版社
51.张秋荣,1984,大豆豆荚形成过程初步观察,大豆科学,3(4):332-337
52.张恒善,梁振富,1990,大豆种子脂肪和蛋白质形成及积累规律的初步研究。大豆科学,9(3):191-197
53.张恒善,付艳华,孙太石等,1993,大豆种子脂肪和蛋白质积累规律的研究,大豆科学,12(4):296-301
54.张德荣,王国强,郭法申,代霞,1993,大豆鼓粒及其与农业气象条件的关系,大豆科学,12(1):8-14
55.张惟杰,1994,糖复合物生化研究技术,浙江大学出版社
56.林刚,1988,绿茶的色鉴别等级研究初报,食品科学,9(8):1-5
57.武天龙,汤楠,赵则胜等,2000,菜用大豆粒荚选择标准的研究,大豆科学,19(2):184-188
58.林国强,黄建成,徐树传,王金官,1997,菜用大豆“292”秋播花后干物质积累及鼓粒特性的研究,大豆科学,16(4):293-397
59.林国强,黄建成,徐树传,王金官,1991,菜用大豆秋种花后鼓粒特点,大豆通报,(6):8
60.金金宁,1999,大米的食味,食品科技,(6):13-14
61.昆野昭晨,1979,大豆成熟期间种子化学成分的变化,苗以农译自《JARQ》,13(3):186-194
62.昆野昭晨,1979,关于大豆栽培生理生态的一些问题(下),苗以农译自《农业园艺》,54(3):13-20
63.苗如意,岳青,沈征言,蒋建箴,1996,大白菜组织结构感官品质与评定指标的关系,园艺学报,23(4):355-358
64.岳青,苗如意,1994,矮生菜豆豆荚发育及品质形成的研究,中国蔬菜,(2):17-20
65.杨加银.张复宁,冯其虎,1992,出口毛豆楚秀的栽培与加工技术,上海蔬菜,(1):38-39
66.杨宏福,1986,蔬菜品质感官评定和统计方法,中国蔬菜,(2):46-49
67.杨延东,1982,食品感官质量的数值化及数理统计,食品科学,3(10):7-10
68.杨延本,1982,食品感官质量的数值化及数理统计鉴定,食品科学,3(10):7-10
69.杨崇瑞,1994,模糊数学及其应用,农业出版社
70.郑卓杰,1995,中国食用豆类,农业出版社
71.周守年,朱国富,栗云端,1994,菜用大豆品种新六青的选育及其应用前景,中国油料,16(4):62-64
72.郝欣先,蒋惠兰,吴建军等,1992,夏大豆高产品种鲁豆4号鼓粒特征及其各器官干重变化的研究,作物科学讨论会文集:372-376
73.荩垆,1989,实用模糊数学,科学技术文献出版社
74.赵大生,吴金龙,郭树滋,1987,食品感官检查方法浅探,食品科学,8(6):35-40
75.顾小平,周抒,1996,食品感官评判中样品编码的位置效应的研究,食品科学,17(10):8-10
76.顾智章,1993,蔬菜的品质,中国蔬菜,(4):34-35
77.徐兆生,王素,魏民,王小琴,1995,菜用大豆种质资源营养品质分析,作物品种资源,(3):40-42
78.徐树传,刘德金,黄建成等,1996,以模糊数学方法筛选菜用大豆新品种,大豆科学,15(8):263-267
79.殷泰安,2000,大豆营养与健康,大豆通报,(1):22
80.莫惠栋,1984,农业试验统计(第二版),上海科技出版社
81.钱冬梅,陈萃仁,席屿芳,米根佐,1998,去荚菜用大豆贮藏生理和贮藏期限初探,大豆科学,19(1):32-33
82.曹柳青,潘海涌,1991,测定大豆中植酸评价某些矿物质的可利用性,食品科学,12(3):3-5
83.盖钧镒,1997,作物育种学各论,中国农业出版社
84.黄小丹,申曙光,1987,模糊综合评判法在酱腌菜感官质量评价上的应用,食品科学,8(6):18-19
85.翟凤林,1991,作物品质育种,农业出版社
86.韩天富,盖钧镒,1998,大豆发育分期标准的补充,大豆通报,(2):25;
87.姬长英.1989,感官模糊综合评价中权重分配的正确制定,食品科学,10(3):20-25
88.潘瑞炽,徐淑敏,1963,大豆种子形成过程中脂肪的积累,植物生理通讯,(2):23
89.潘士钊,1982,食用作物,中国书局印行
90.潘铁夫,1989,大豆与气象,北京,农业出版社
91.颜清上,邵桂花,2000,AVRDC的菜用大豆育种研究,大豆通报,(5):27-28
92. A. I. Mohamed, T. Mebrahtu, M. Rangappa, P. S. Benepal, 1990, Evaluation of vegetable soybean genotypes for phytate phosphorus and minerals,Agronomy Journal,17(4) :116-118
93. Ali I. Mohamed. Naomi Pearson, 1997, Location by genotype interaction effects on chemical composition of immature large seeded vegetable-type soybean, Soybean Genetics Newsletter, 24(5):211-213
94. Ali I. Mohamed,Tadesse Mebrahtu,Abulkadir Elmi,Phytate,1995, Accumulation in vegetable-type soybean harvested at three reproductive stages,Agronomy Journal.22(5):218-221
95. Mohamed H. Bhardwaj, M. Rangappa N. Pearson,1993, Fatty acid composition of soybean seeds produced in China and Virginia,20(5):203-205
96. Mohamed, T. Mebrahtu, M. Rangappa, 1990, Evaluation of vegetable soybean
genetypes for nutritional and anti-nutritional factors Agronomy Journal, 17(4) :114-116
97. Burton J. W. , 1990, Recent development in breeding for improved oil quality .Present to 46 DGF-Vostragstagung Duetsche Gesellscgaft fur Fettwissens Chaft.
98. D. B. Egli . 1987, Seed growth and development in soybean, 大豆科学, 6 (4) :323-328
99. E. dela Fuente , E.Gonzalez, A. lenardis and A. GL , 1994, Dry matter accumulation in soybean, 348-383 World Soybean Research Conference .V.
100. Egli. D. B. ,& J. E. Leggett, 1973, Dry matter accumulation pattern in determinate and indeterminate soybean, Crop sci., 13:220-222
101. Fehr, W. R, C. E. Caviness, D. T. Burmood, and J.S. Pennington, 1971, Stages of development descriptions for soybean, Glycine max(L.) Merrill,Crop Science, 14:929-931
102. G. Sarwar, M.A.Rajput, K. A.Siddiqui, N. A. Shaikh, M. A. Siddiqui, 1996, Impact of grain filling period and morphological traits in soybean , Agronomy Journal, 23(5) : 112-115
103. L.R. Salado-Navarro, R.R.Sinclair, and K.Hinson, 1983, Changes in yield and seed growth traits in soybean cultivors released in the Southern USA from 1945 to 1983 .Crop Sci.,33(6) :1204-1209
104. P. G. Karmakar S. P.Tiwari Vipin Kumar, 1994, Seed-filling duration and height of insertion of the lowest pod in Indian soybean varieties, Agronomy Journal, 21(5) :104-107
105. Ryochi Masuda, 1991, Quality requirement and improvement of vegetable soybean. Vegetable soybean research needs for production and quality improvement : proceeding of workshop held at Kenting, Taiwan, 29 April-2 May.92-102
106. R. H. ELLIS, G. N. Zanakis and R.J.Summerfield, 1994. Changes in seed quality during seed development in soybean c. v. Bossier, World Soybean Research Conference V : 316-319
107. S.K.阿罗拉(印度),1987,豆类的化学与生物化学,科学出版社
107. S. Shanmugasundaram, etal, 1991, Vegetable soybean varietal improvement in Taiwan, Vegetable soybean research needs for production and quality improvement: proceeding of a workshop held at Kenting, Taiwan,29 April-2 May 1991,53-60
108. S. Shanmugasundaram, S. V. S. Tsou and T.I. Hong, 1994, Vegetable soybeans production and research, World Soybean Research Conference V: 529-531;
109. Tadesse Mebrahtu Abdulkadir Elmi, 1997,Stability analysis of vegetable soybean ,Soybean Genetics Newsletter, 24(5) :214~215
110. T. Mebrahtu , A.Mohamed , M. Rangappa. 1990,Evaluation of vegetable
soybean genetypes for fatty acid composition .Agronomy Journal, 17(4):119-121
111. W. Bossier R.H. Ellis, G. N. Zanakis and R.J.. Summerfield 1994, changes in seed quality during seed development in soybean, World Soybean Research Conference V:316-319
112. W. J. Mullin, 1997,测定黄豆含有可溶性糖不同方法的比较,安大略省黄豆种植商推销委员会出口通讯技术简报,2(1):1-2
113. Yazdi-samadi et al, 1997, Components of developing soybeans seeds:oil, protein, sugars, starch, organic Acids, Agron. J., 69:481-486
114. Yokomizo, Gilverto K.Vello, Natal A., 1998, Use of pod with as visual score in substitution of one hundred seed weight on vegetable soybean, Soybean Genetics Newsletter, 25(5):21-22
2.丁耐克.1997,食品风味化学,北京,轻工业出版社
3.马立安,江涛,2000,大豆的药用价值,食品研究与开发,21(2):43-44
4.马育华,1988,田间试验和统计方法(第二版),农业出版社
5.马淑英,梁歧,尹田夫等,1999,大豆籽粒发育过程中脂肪酸的组分分析,大豆科学,18(5):124-128
6.王化泉,赵丽云,1987,食品质量模糊综合评价初步探讨,食品科学,8(4):21-23
7.王延平,赵谋明,彭志英,马志玲,1999,美拉德反应产物研究进展,食品科学,20(1):15-19
8.王建安,孙志强,1991,大豆籽粒油分蛋白质产量的适宜收获期,大豆科学,10(4):33-35
9.王继安,孙志强,1991,大豆籽粒油分蛋白质产量适宜收获期,中国油料,13(4):33-35
10.王素,徐兆生,魏民,1996,菜用大豆产量相关性状的遗传分析,遗传,18(3):34-36
11.王素,徐兆生,魏民,1996,菜用大豆种质资源农艺性状鉴定和优异资源的筛选,作物品种资源,(2):14-16
12.王勤海,宋挺瑶,胡君达,1997,台湾292菜用大豆及栽培技术,中国蔬菜,(5):41
13.尹田夫,1988,大豆油脂脂肪酸改良与生化育种策略,大豆科学,7(3):75-79
14.史书军,张军土,成丽萍,1999,毛豆品种比较试验,宁波农业科技,(4):18-19
15.毕宏文,1999,豆类蔬菜的种类及其特性,黑龙江农业科学,(3):56-57
16.江腾龙.1989,广义模糊综合评判在食品感官品评的应用,食品科学,10(6):25-28
17.兰景波,1994,论加权评分法,食品科学,15(3):1-4
18.石彦国,任莉,1998,大豆食品工艺学,中国轻工业出版社
19.刘金权,1988,食品感官质量评审表的结果运算之管见,食品科学,9(1):18-19
20.刘书亮,1999,浅论保健食品及其发展前景(一),食品科技,(5):5-6
21.吕志俭,姜汝,1986,应用模糊数学评价食品的感官质量,食品科学,7(3):1-5
22.乔旭光,蒋健箴,沈征言,1991,大白菜感官品质与营养品质相关性研究,园艺学报,18(2):138-142
23.孙克刚,王英,李贵宝等,1996,夏大豆干物质积累和分配数学模拟研究,大豆科学,15(3):274-277
24.孙风霞,周展明,2000,粮油、食品中色泽的测量及其发展,郑州粮食学院学报,21(1):67-69
25.余疾风,1995,现代食品感官分析技术,成都,四川科学技术出版社
26.朱红,黄一贞,张弘,1990,食品感官分析入门,北京,轻工业出版社
27.朱永义,1986,食品分析方法(大米食味评价法),四川科学技术出版社
28.朱余尧,郭志瑞,1987,应用模糊综合评判进行食品感官质量评价的实施报告,食品科学,8(10):11-15
29.朱国斌,鲁红军,1997,食品风味原理与技术,北大出版社
30.朱国富,孙方,孔琦,戚胜方,1999,东北大豆作为毛豆品种引种南方后有关性状的变化,大豆科学,18(4):336-341
31.陈素月,1992,游离氨基酸和胜肽在食物呈味中所扮演的角色,食品工业,24(12):28-33
32.陈纯枢,1991,中国的气候与农业,北京,气象出版社
33.李里特,1998,食品物性学,北京,中国农业出版社
34.李酉开,1991,粮食作物品质鉴定的优选方法,农业出版社
35.李莹,李原萍,张昕艳等,2000,菜用大豆新品种选育鉴定及评价,山西农业科学,28(1):28-30
36.邱丽娟,王金陵,孟庆喜,1990,大豆种子发育过程中蛋白质和脂肪积累特点的初步研究,中国农业科学,23(5):28-32
37.苏黎,张仁双,宋书宏等,1997,不同结荚习性大豆开花结荚鼓粒进程的比较研究,大豆科学,16(3):237-243
38.苏明武,刘正嘉,梁奎,1992,中国经济地理新编,成都科技大学出版社,成都
39.苏根垠,1988,食品质量管理与控制,食品科学,9(1):9-13
40.宋启建,1999,韩国大豆的生产、利用及品质改良育种,大豆科学,18(1):89-93
41.汪炳良,董伟敏,陈竹君,俞丽红,1997,矮生菜豆豆荚和种子生长数学模式的应用。浙江农业大学学报,23(4):431-436
42 吴俊江,刘丽君,高明杰,1999,我国菜用大豆研究概况,大豆通报,(2):26-27
43.吴岗凡,1983,收获时期和采收方式对大豆子粒的影响,农业论文集
44.吴锦涛,1999,国内外蔬菜加工的现状及市场分析,食品科技,(4):5-6
45.肖英俊,1986,罐头食品检验中的色、香、味,食品科学,7(3):14-17
46.汪越胜,1999,中国大豆品种熟期组、生态区域及光温反应遗传特性研究,南京农业大学博士论文(导师:盖钧镒教授)
47.张太平,朱星陶,王军等,2000,大豆脂肪氧化酶缺失体的农艺和品质性状鉴定,中国油料作物学报,22(1):15-18
48.张复宁,冯其虎,杨加银,1992,优质高产菜用大豆——“楚秀”的选育及其利用,作物科学讨论会文集:307-309
49.张国栋,1994,青毛豆,大豆通报,(6):29
50.张尧庭,方开泰,1983,多元统计分析导论,科学出版社
51.张秋荣,1984,大豆豆荚形成过程初步观察,大豆科学,3(4):332-337
52.张恒善,梁振富,1990,大豆种子脂肪和蛋白质形成及积累规律的初步研究。大豆科学,9(3):191-197
53.张恒善,付艳华,孙太石等,1993,大豆种子脂肪和蛋白质积累规律的研究,大豆科学,12(4):296-301
54.张德荣,王国强,郭法申,代霞,1993,大豆鼓粒及其与农业气象条件的关系,大豆科学,12(1):8-14
55.张惟杰,1994,糖复合物生化研究技术,浙江大学出版社
56.林刚,1988,绿茶的色鉴别等级研究初报,食品科学,9(8):1-5
57.武天龙,汤楠,赵则胜等,2000,菜用大豆粒荚选择标准的研究,大豆科学,19(2):184-188
58.林国强,黄建成,徐树传,王金官,1997,菜用大豆“292”秋播花后干物质积累及鼓粒特性的研究,大豆科学,16(4):293-397
59.林国强,黄建成,徐树传,王金官,1991,菜用大豆秋种花后鼓粒特点,大豆通报,(6):8
60.金金宁,1999,大米的食味,食品科技,(6):13-14
61.昆野昭晨,1979,大豆成熟期间种子化学成分的变化,苗以农译自《JARQ》,13(3):186-194
62.昆野昭晨,1979,关于大豆栽培生理生态的一些问题(下),苗以农译自《农业园艺》,54(3):13-20
63.苗如意,岳青,沈征言,蒋建箴,1996,大白菜组织结构感官品质与评定指标的关系,园艺学报,23(4):355-358
64.岳青,苗如意,1994,矮生菜豆豆荚发育及品质形成的研究,中国蔬菜,(2):17-20
65.杨加银.张复宁,冯其虎,1992,出口毛豆楚秀的栽培与加工技术,上海蔬菜,(1):38-39
66.杨宏福,1986,蔬菜品质感官评定和统计方法,中国蔬菜,(2):46-49
67.杨延东,1982,食品感官质量的数值化及数理统计,食品科学,3(10):7-10
68.杨延本,1982,食品感官质量的数值化及数理统计鉴定,食品科学,3(10):7-10
69.杨崇瑞,1994,模糊数学及其应用,农业出版社
70.郑卓杰,1995,中国食用豆类,农业出版社
71.周守年,朱国富,栗云端,1994,菜用大豆品种新六青的选育及其应用前景,中国油料,16(4):62-64
72.郝欣先,蒋惠兰,吴建军等,1992,夏大豆高产品种鲁豆4号鼓粒特征及其各器官干重变化的研究,作物科学讨论会文集:372-376
73.荩垆,1989,实用模糊数学,科学技术文献出版社
74.赵大生,吴金龙,郭树滋,1987,食品感官检查方法浅探,食品科学,8(6):35-40
75.顾小平,周抒,1996,食品感官评判中样品编码的位置效应的研究,食品科学,17(10):8-10
76.顾智章,1993,蔬菜的品质,中国蔬菜,(4):34-35
77.徐兆生,王素,魏民,王小琴,1995,菜用大豆种质资源营养品质分析,作物品种资源,(3):40-42
78.徐树传,刘德金,黄建成等,1996,以模糊数学方法筛选菜用大豆新品种,大豆科学,15(8):263-267
79.殷泰安,2000,大豆营养与健康,大豆通报,(1):22
80.莫惠栋,1984,农业试验统计(第二版),上海科技出版社
81.钱冬梅,陈萃仁,席屿芳,米根佐,1998,去荚菜用大豆贮藏生理和贮藏期限初探,大豆科学,19(1):32-33
82.曹柳青,潘海涌,1991,测定大豆中植酸评价某些矿物质的可利用性,食品科学,12(3):3-5
83.盖钧镒,1997,作物育种学各论,中国农业出版社
84.黄小丹,申曙光,1987,模糊综合评判法在酱腌菜感官质量评价上的应用,食品科学,8(6):18-19
85.翟凤林,1991,作物品质育种,农业出版社
86.韩天富,盖钧镒,1998,大豆发育分期标准的补充,大豆通报,(2):25;
87.姬长英.1989,感官模糊综合评价中权重分配的正确制定,食品科学,10(3):20-25
88.潘瑞炽,徐淑敏,1963,大豆种子形成过程中脂肪的积累,植物生理通讯,(2):23
89.潘士钊,1982,食用作物,中国书局印行
90.潘铁夫,1989,大豆与气象,北京,农业出版社
91.颜清上,邵桂花,2000,AVRDC的菜用大豆育种研究,大豆通报,(5):27-28
92. A. I. Mohamed, T. Mebrahtu, M. Rangappa, P. S. Benepal, 1990, Evaluation of vegetable soybean genotypes for phytate phosphorus and minerals,Agronomy Journal,17(4) :116-118
93. Ali I. Mohamed. Naomi Pearson, 1997, Location by genotype interaction effects on chemical composition of immature large seeded vegetable-type soybean, Soybean Genetics Newsletter, 24(5):211-213
94. Ali I. Mohamed,Tadesse Mebrahtu,Abulkadir Elmi,Phytate,1995, Accumulation in vegetable-type soybean harvested at three reproductive stages,Agronomy Journal.22(5):218-221
95. Mohamed H. Bhardwaj, M. Rangappa N. Pearson,1993, Fatty acid composition of soybean seeds produced in China and Virginia,20(5):203-205
96. Mohamed, T. Mebrahtu, M. Rangappa, 1990, Evaluation of vegetable soybean
genetypes for nutritional and anti-nutritional factors Agronomy Journal, 17(4) :114-116
97. Burton J. W. , 1990, Recent development in breeding for improved oil quality .Present to 46 DGF-Vostragstagung Duetsche Gesellscgaft fur Fettwissens Chaft.
98. D. B. Egli . 1987, Seed growth and development in soybean, 大豆科学, 6 (4) :323-328
99. E. dela Fuente , E.Gonzalez, A. lenardis and A. GL , 1994, Dry matter accumulation in soybean, 348-383 World Soybean Research Conference .V.
100. Egli. D. B. ,& J. E. Leggett, 1973, Dry matter accumulation pattern in determinate and indeterminate soybean, Crop sci., 13:220-222
101. Fehr, W. R, C. E. Caviness, D. T. Burmood, and J.S. Pennington, 1971, Stages of development descriptions for soybean, Glycine max(L.) Merrill,Crop Science, 14:929-931
102. G. Sarwar, M.A.Rajput, K. A.Siddiqui, N. A. Shaikh, M. A. Siddiqui, 1996, Impact of grain filling period and morphological traits in soybean , Agronomy Journal, 23(5) : 112-115
103. L.R. Salado-Navarro, R.R.Sinclair, and K.Hinson, 1983, Changes in yield and seed growth traits in soybean cultivors released in the Southern USA from 1945 to 1983 .Crop Sci.,33(6) :1204-1209
104. P. G. Karmakar S. P.Tiwari Vipin Kumar, 1994, Seed-filling duration and height of insertion of the lowest pod in Indian soybean varieties, Agronomy Journal, 21(5) :104-107
105. Ryochi Masuda, 1991, Quality requirement and improvement of vegetable soybean. Vegetable soybean research needs for production and quality improvement : proceeding of workshop held at Kenting, Taiwan, 29 April-2 May.92-102
106. R. H. ELLIS, G. N. Zanakis and R.J.Summerfield, 1994. Changes in seed quality during seed development in soybean c. v. Bossier, World Soybean Research Conference V : 316-319
107. S.K.阿罗拉(印度),1987,豆类的化学与生物化学,科学出版社
107. S. Shanmugasundaram, etal, 1991, Vegetable soybean varietal improvement in Taiwan, Vegetable soybean research needs for production and quality improvement: proceeding of a workshop held at Kenting, Taiwan,29 April-2 May 1991,53-60
108. S. Shanmugasundaram, S. V. S. Tsou and T.I. Hong, 1994, Vegetable soybeans production and research, World Soybean Research Conference V: 529-531;
109. Tadesse Mebrahtu Abdulkadir Elmi, 1997,Stability analysis of vegetable soybean ,Soybean Genetics Newsletter, 24(5) :214~215
110. T. Mebrahtu , A.Mohamed , M. Rangappa. 1990,Evaluation of vegetable
soybean genetypes for fatty acid composition .Agronomy Journal, 17(4):119-121
111. W. Bossier R.H. Ellis, G. N. Zanakis and R.J.. Summerfield 1994, changes in seed quality during seed development in soybean, World Soybean Research Conference V:316-319
112. W. J. Mullin, 1997,测定黄豆含有可溶性糖不同方法的比较,安大略省黄豆种植商推销委员会出口通讯技术简报,2(1):1-2
113. Yazdi-samadi et al, 1997, Components of developing soybeans seeds:oil, protein, sugars, starch, organic Acids, Agron. J., 69:481-486
114. Yokomizo, Gilverto K.Vello, Natal A., 1998, Use of pod with as visual score in substitution of one hundred seed weight on vegetable soybean, Soybean Genetics Newsletter, 25(5):21-22