Journal of Agricultural Science and Technology ›› 2023, Vol. 25 ›› Issue (3): 30-46.DOI: 10.13304/j.nykjdb.2021.0962
• BIOTECHNOLOGY & LIFE SCIENCE • Previous Articles Next Articles
Nali XU1,2(), Huixia YU1, Mingming YAO1, Yanqing WANG1, Qingfeng LI1, Caixia LIU1, Gang SUN1, Jiajing CHEN1, Jiaohui LONG1, Zhangjun WANG1(
)
Received:
2021-11-09
Accepted:
2022-01-18
Online:
2023-03-15
Published:
2023-05-22
Contact:
Zhangjun WANG
许娜丽1,2(), 余慧霞1, 姚明明1, 王彦青1, 李清峰1, 刘彩霞1, 孙刚1, 陈佳静1, 龙姣卉1, 王掌军1(
)
通讯作者:
王掌军
作者简介:
许娜丽 E-mail:441259781@qq.com;
基金资助:
CLC Number:
Nali XU, Huixia YU, Mingming YAO, Yanqing WANG, Qingfeng LI, Caixia LIU, Gang SUN, Jiajing CHEN, Jiaohui LONG, Zhangjun WANG. Analysis of Genetic Diversity Based on SSR and SRAP Markers and Agronomic Traits of Wheat Resources[J]. Journal of Agricultural Science and Technology, 2023, 25(3): 30-46.
许娜丽, 余慧霞, 姚明明, 王彦青, 李清峰, 刘彩霞, 孙刚, 陈佳静, 龙姣卉, 王掌军. 基于SSR和SRAP标记小麦资源遗传多样性及农艺性状分析[J]. 中国农业科技导报, 2023, 25(3): 30-46.
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C1 | 硬粒小麦 T. durum Desf. | 云南 Yunnan | C21 | 白红火麦 Baihonghuomai | 宁夏 Ningxia | C41 | 武农148 Wunong 148 | 陕西 Shaanxi |
C2 | 大麦 Hordeum vulgare L. | 青海 Qinghai | C22 | 山麦 Shanmai | 宁夏 Ningxia | C42 | 武农168 Wunong 168 | 陕西 Shaanxi |
C3 | 东方小麦 T. turanicum Jakubz. | 前苏联 Former Soviet Union | C23 | 红齐麦 Hongqimai | 甘肃 Gansu | C43 | 西农2000-7 Xinong 2000-7 | 陕西 Shaanxi |
C4 | 黑麦 Secale cereale L. | 华北 North China | C24 | 白芒春麦 Baimangchunmai | 甘肃 Gansu | C44 | 西农889 Xinong889 | 陕西 Shaanxi |
C5 | 云南小麦 T. yunnanense King. | 云南 Yunnan | C25 | 红芒春麦 Hongmangchunmai | 甘肃 Gansu | C45 | 云南大穗 Yunnandasui | 云南 Yunnan |
C6 | 硬粒小麦 T. durum Desf. | 江苏 Jiangsu | C26 | 荆州黑麦 Jingzhou Rye | 湖北 Hubei | C46 | 农393 Nong 393 | 北京 Beijing |
C7 | 小黑麦 Wheat rye | 中国西南 Southwest China | C27 | 荆辉1号 Jinghui 1 | 江苏 Jiangsu | C47 | 农大135 Nongda 135 | 北京 Beijing |
C8 | 栽培一粒小麦 T. monococcum L. | 土耳其 Turkey | C28 | 小大麦 Wheat-barley | 美国 American | C48 | 高黑麦 High rye | 江苏 Jiangsu |
C9 | 小佛手 Xiaofushou | 河南 Henan | C29 | 多子房小麦 Multi-ovary wheat | 浙江 Zhejiang | C49 | 矮黑麦 Dwarf rye | 江苏 Jiangsu |
C10 | 提摩菲维小麦 T. timopheevii Zhuk. | 土耳其 Turkey | C30 | 温麦8号 Wenmai 8 | 浙江 Zhejiang | C50 | 石麦14号 Shimai 14 | 河北 Hebei |
C11 | 斯卑尔脱小麦 T. spelta L. | 伊朗 Iran | C31 | 郑优6号 Zhengyou 6 | 河南 Henan | C51 | 金禾9123 Jinhe 9123 | 河北 Hebei |
C12 | 新疆小麦 Xinjiang wheat | 新疆 Xinjiang | C32 | 皖麦38号 Wanmai 38 | 安徽 Anhui | C52 | 中育9号 Zhongyu 9 | 河南 Henan |
C13 | 密穗小麦 T. compactum Host. | 云南 Yunnan | C33 | 徐25 Xu 25 | 江苏 Jiangsu | C53 | 兰天17号 Lantian 17 | 甘肃 Gansu |
C14 | 圆锥小麦 T. turgidum L. | 宁夏 Ningxia | C34 | 兴育7号 Xingyu 7 | 贵州 Guizhou | C54 | 兰天24号 Lantian 24 | 甘肃 Gansu |
C15 | 野生二粒小麦 T. dicoccoides Körn. | 欧洲 Europe | C35 | 兴农2号 Xingnong 2 | 山东 Shandong | C55 | 内麦8号 Neimai 8 | 四川 Sichuan |
C16 | 波兰小麦 T. polonicum L. | 波兰 Poland | C36 | 黄-3 Huang-3 | 宁夏 Ningxia | C56 | 内麦9号 Neimai 9 | 四川 Sichuan |
C17 | 红秃子 Hongtuzi | 宁夏 Ningxia | C37 | 黄绿-3 Huanglv-3 | 河南 Henan | C57 | 内麦10号 Neimai 10 | 四川 Sichuan |
C18 | 小和尚头 Xiaoheshangtou | 甘肃 Gansu | C38 | 周麦17 Zhoumai 17 | 河南 Henan | C58 | 内麦11号 Neimai 11 | 四川 Sichuan |
C19 | 火麦 Huomai | 宁夏 Ningxia | C39 | 新疆97-24-1 Xinjiang 97-24-1 | 新疆 Xinjiang | C59 | 内麦836 Neimai 836 | 四川 Sichuan |
C20 | 毛火麦 Maohuomai | 宁夏 Ningxia | C40 | 咸农2344 Xiannong 2344 | 陕西 Shaanxi | C60 | 内麦3416 Neimai 3416 | 四川 Sichuan |
Table 1 Code and name of the test materials
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C1 | 硬粒小麦 T. durum Desf. | 云南 Yunnan | C21 | 白红火麦 Baihonghuomai | 宁夏 Ningxia | C41 | 武农148 Wunong 148 | 陕西 Shaanxi |
C2 | 大麦 Hordeum vulgare L. | 青海 Qinghai | C22 | 山麦 Shanmai | 宁夏 Ningxia | C42 | 武农168 Wunong 168 | 陕西 Shaanxi |
C3 | 东方小麦 T. turanicum Jakubz. | 前苏联 Former Soviet Union | C23 | 红齐麦 Hongqimai | 甘肃 Gansu | C43 | 西农2000-7 Xinong 2000-7 | 陕西 Shaanxi |
C4 | 黑麦 Secale cereale L. | 华北 North China | C24 | 白芒春麦 Baimangchunmai | 甘肃 Gansu | C44 | 西农889 Xinong889 | 陕西 Shaanxi |
C5 | 云南小麦 T. yunnanense King. | 云南 Yunnan | C25 | 红芒春麦 Hongmangchunmai | 甘肃 Gansu | C45 | 云南大穗 Yunnandasui | 云南 Yunnan |
C6 | 硬粒小麦 T. durum Desf. | 江苏 Jiangsu | C26 | 荆州黑麦 Jingzhou Rye | 湖北 Hubei | C46 | 农393 Nong 393 | 北京 Beijing |
C7 | 小黑麦 Wheat rye | 中国西南 Southwest China | C27 | 荆辉1号 Jinghui 1 | 江苏 Jiangsu | C47 | 农大135 Nongda 135 | 北京 Beijing |
C8 | 栽培一粒小麦 T. monococcum L. | 土耳其 Turkey | C28 | 小大麦 Wheat-barley | 美国 American | C48 | 高黑麦 High rye | 江苏 Jiangsu |
C9 | 小佛手 Xiaofushou | 河南 Henan | C29 | 多子房小麦 Multi-ovary wheat | 浙江 Zhejiang | C49 | 矮黑麦 Dwarf rye | 江苏 Jiangsu |
C10 | 提摩菲维小麦 T. timopheevii Zhuk. | 土耳其 Turkey | C30 | 温麦8号 Wenmai 8 | 浙江 Zhejiang | C50 | 石麦14号 Shimai 14 | 河北 Hebei |
C11 | 斯卑尔脱小麦 T. spelta L. | 伊朗 Iran | C31 | 郑优6号 Zhengyou 6 | 河南 Henan | C51 | 金禾9123 Jinhe 9123 | 河北 Hebei |
C12 | 新疆小麦 Xinjiang wheat | 新疆 Xinjiang | C32 | 皖麦38号 Wanmai 38 | 安徽 Anhui | C52 | 中育9号 Zhongyu 9 | 河南 Henan |
C13 | 密穗小麦 T. compactum Host. | 云南 Yunnan | C33 | 徐25 Xu 25 | 江苏 Jiangsu | C53 | 兰天17号 Lantian 17 | 甘肃 Gansu |
C14 | 圆锥小麦 T. turgidum L. | 宁夏 Ningxia | C34 | 兴育7号 Xingyu 7 | 贵州 Guizhou | C54 | 兰天24号 Lantian 24 | 甘肃 Gansu |
C15 | 野生二粒小麦 T. dicoccoides Körn. | 欧洲 Europe | C35 | 兴农2号 Xingnong 2 | 山东 Shandong | C55 | 内麦8号 Neimai 8 | 四川 Sichuan |
C16 | 波兰小麦 T. polonicum L. | 波兰 Poland | C36 | 黄-3 Huang-3 | 宁夏 Ningxia | C56 | 内麦9号 Neimai 9 | 四川 Sichuan |
C17 | 红秃子 Hongtuzi | 宁夏 Ningxia | C37 | 黄绿-3 Huanglv-3 | 河南 Henan | C57 | 内麦10号 Neimai 10 | 四川 Sichuan |
C18 | 小和尚头 Xiaoheshangtou | 甘肃 Gansu | C38 | 周麦17 Zhoumai 17 | 河南 Henan | C58 | 内麦11号 Neimai 11 | 四川 Sichuan |
C19 | 火麦 Huomai | 宁夏 Ningxia | C39 | 新疆97-24-1 Xinjiang 97-24-1 | 新疆 Xinjiang | C59 | 内麦836 Neimai 836 | 四川 Sichuan |
C20 | 毛火麦 Maohuomai | 宁夏 Ningxia | C40 | 咸农2344 Xiannong 2344 | 陕西 Shaanxi | C60 | 内麦3416 Neimai 3416 | 四川 Sichuan |
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C61 | 蜀麦482 Shumai 482 | 四川 Sichuan | C81 | 矮抗58 Aikang 58 | 河南 Henan | C101 | 扬麦14号 Yangmai 14 | 江苏 Jiangsu |
C62 | 川麦54 Chuanmai 54 | 四川 Sichuan | C82 | 郑麦1308 Zhengmai 1308 | 河南 Henan | C102 | 扬麦15号 Yangmai 15 | 江苏 Jiangsu |
C63 | 云麦52号 Yunmai 52 | 云南 Yunnan | C83 | 衡观35 Hengguan 35 | 河北 Hebei | C103 | 扬麦16号 Yangmai 16 | 江苏 Jiangsu |
C64 | 绵阳26-1 Mianyang 26-1 | 四川 Sichuan | C84 | 92R137 | 江苏 Jiangsu | C104 | 扬麦18号 Yangmai 18 | 江苏 Jiangsu |
C65 | 石麦4185 Shimai 4185 | 河北 Hebei | C85 | 东麦1301 Dongmai 1301 | 江苏 Jiangsu | C105 | 扬麦19号 Yangmai 19 | 江苏 Jiangsu |
C66 | 中梁29号 Zhongliang 29 | 甘肃 Gansu | C86 | 国红6号 Guohong 6 | 安徽 Anhui | C106 | 扬麦20号 Yangmai 20 | 江苏 Jiangsu |
C67 | 中国春 Chinese Spring | 四川 Sichuan | C87 | 华麦1028 Huamai 1028 | 江苏 Jiangsu | C107 | 扬麦21号 Yangmai 21 | 江苏 Jiangsu |
C68 | 中国春(ph1b) Chinese Spring (ph1b) | 四川 Sichuan | C88 | 安农1124 Annong 1124 | 安徽 Anhui | C108 | 扬麦22号 Yangmai 22 | 江苏 Jiangsu |
C69 | 宁糯1号 Ningnuo 1 | 江苏 Jiangsu | C89 | 山农10-2 Shannong 10-2 | 山东 Shandong | C109 | 扬麦23号 Yangmai 23 | 江苏 Jiangsu |
C70 | 扬糯1号 Yangnuo 1 | 江苏 Jiangsu | C90 | 济麦24 Jimai 24 | 山东 Shandong | C110 | 扬麦24号 Yangmai 24 | 江苏 Jiangsu |
C71 | 河东乌麦 Hedong black wheat | 山西 Shanxi | C91 | 锦麦52 Jinmai 52 | 辽宁 Liaoning | C111 | 扬麦25号 Yangmai 25 | 江苏 Jiangsu |
C72 | 宁麦9号 Ningmai 9 | 江苏 Jiangsu | C92 | 金丰0515 Jinfeng 0515 | 江苏 Jiangsu | C112 | 扬麦27号 Yangmai 27 | 江苏 Jiangsu |
C73 | 济麦20号 Jimai 20 | 山东 Shandong | C93 | 鄂麦170 Emai 170 | 湖北 Hubei | C113 | 扬麦158 Yangmai 158 | 江苏 Jiangsu |
C74 | 济麦22号 Jimai 22 | 山东 Shandong | C94 | 宁麦26 Ningmai 26 | 江苏 Jiangsu | C114 | 扬辐麦2049 Yangfumai 2049 | 江苏 Jiangsu |
C75 | 烟农19号 Yannong 19 | 山东 Shandong | C95 | 镇麦10号 Zhenmai 10 | 江苏 Jiangsu | C115 | 扬辐麦2054 Yangfumai 2054 | 江苏 Jiangsu |
C76 | 绵阳26号 Mianyang 26 | 四川 Sichuan | C96 | 苏麦3号 Sumai 3 | 江苏 Jiangsu | C116 | 陇春23号 Longchun 23 | 甘肃 Gansu |
C77 | 墨麦03J-83 Mexico wheat 03J-83 | 墨西哥 Mexico | C97 | 苏麦899 Sumai 899 | 江苏 Jiangsu | C117 | 陇春24号 Longchun 24 | 甘肃 Gansu |
C78 | 墨麦03J-130 Mexico wheat 03J-130 | 墨西哥 Mexico | C98 | 南农0686 Nannong 0686 | 江苏 Jiangsu | C118 | 陇春26号 Longchun 26 | 甘肃 Gansu |
C79 | 兰考198 Lankao 198 | 河南 Henan | C99 | 扬麦11号 Yangmai 11 | 江苏 Jiangsu | C119 | 陇春27号 Longchun 27 | 甘肃 Gansu |
C80 | 兰考380 Lankao 380 | 河南 Henan | C100 | 扬麦13号 Yangmai 13 | 江苏 Jiangsu | C120 | 陇春29号 Longchun 29 | 甘肃 Gansu |
Table 1 Code and name of the test materials
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C61 | 蜀麦482 Shumai 482 | 四川 Sichuan | C81 | 矮抗58 Aikang 58 | 河南 Henan | C101 | 扬麦14号 Yangmai 14 | 江苏 Jiangsu |
C62 | 川麦54 Chuanmai 54 | 四川 Sichuan | C82 | 郑麦1308 Zhengmai 1308 | 河南 Henan | C102 | 扬麦15号 Yangmai 15 | 江苏 Jiangsu |
C63 | 云麦52号 Yunmai 52 | 云南 Yunnan | C83 | 衡观35 Hengguan 35 | 河北 Hebei | C103 | 扬麦16号 Yangmai 16 | 江苏 Jiangsu |
C64 | 绵阳26-1 Mianyang 26-1 | 四川 Sichuan | C84 | 92R137 | 江苏 Jiangsu | C104 | 扬麦18号 Yangmai 18 | 江苏 Jiangsu |
C65 | 石麦4185 Shimai 4185 | 河北 Hebei | C85 | 东麦1301 Dongmai 1301 | 江苏 Jiangsu | C105 | 扬麦19号 Yangmai 19 | 江苏 Jiangsu |
C66 | 中梁29号 Zhongliang 29 | 甘肃 Gansu | C86 | 国红6号 Guohong 6 | 安徽 Anhui | C106 | 扬麦20号 Yangmai 20 | 江苏 Jiangsu |
C67 | 中国春 Chinese Spring | 四川 Sichuan | C87 | 华麦1028 Huamai 1028 | 江苏 Jiangsu | C107 | 扬麦21号 Yangmai 21 | 江苏 Jiangsu |
C68 | 中国春(ph1b) Chinese Spring (ph1b) | 四川 Sichuan | C88 | 安农1124 Annong 1124 | 安徽 Anhui | C108 | 扬麦22号 Yangmai 22 | 江苏 Jiangsu |
C69 | 宁糯1号 Ningnuo 1 | 江苏 Jiangsu | C89 | 山农10-2 Shannong 10-2 | 山东 Shandong | C109 | 扬麦23号 Yangmai 23 | 江苏 Jiangsu |
C70 | 扬糯1号 Yangnuo 1 | 江苏 Jiangsu | C90 | 济麦24 Jimai 24 | 山东 Shandong | C110 | 扬麦24号 Yangmai 24 | 江苏 Jiangsu |
C71 | 河东乌麦 Hedong black wheat | 山西 Shanxi | C91 | 锦麦52 Jinmai 52 | 辽宁 Liaoning | C111 | 扬麦25号 Yangmai 25 | 江苏 Jiangsu |
C72 | 宁麦9号 Ningmai 9 | 江苏 Jiangsu | C92 | 金丰0515 Jinfeng 0515 | 江苏 Jiangsu | C112 | 扬麦27号 Yangmai 27 | 江苏 Jiangsu |
C73 | 济麦20号 Jimai 20 | 山东 Shandong | C93 | 鄂麦170 Emai 170 | 湖北 Hubei | C113 | 扬麦158 Yangmai 158 | 江苏 Jiangsu |
C74 | 济麦22号 Jimai 22 | 山东 Shandong | C94 | 宁麦26 Ningmai 26 | 江苏 Jiangsu | C114 | 扬辐麦2049 Yangfumai 2049 | 江苏 Jiangsu |
C75 | 烟农19号 Yannong 19 | 山东 Shandong | C95 | 镇麦10号 Zhenmai 10 | 江苏 Jiangsu | C115 | 扬辐麦2054 Yangfumai 2054 | 江苏 Jiangsu |
C76 | 绵阳26号 Mianyang 26 | 四川 Sichuan | C96 | 苏麦3号 Sumai 3 | 江苏 Jiangsu | C116 | 陇春23号 Longchun 23 | 甘肃 Gansu |
C77 | 墨麦03J-83 Mexico wheat 03J-83 | 墨西哥 Mexico | C97 | 苏麦899 Sumai 899 | 江苏 Jiangsu | C117 | 陇春24号 Longchun 24 | 甘肃 Gansu |
C78 | 墨麦03J-130 Mexico wheat 03J-130 | 墨西哥 Mexico | C98 | 南农0686 Nannong 0686 | 江苏 Jiangsu | C118 | 陇春26号 Longchun 26 | 甘肃 Gansu |
C79 | 兰考198 Lankao 198 | 河南 Henan | C99 | 扬麦11号 Yangmai 11 | 江苏 Jiangsu | C119 | 陇春27号 Longchun 27 | 甘肃 Gansu |
C80 | 兰考380 Lankao 380 | 河南 Henan | C100 | 扬麦13号 Yangmai 13 | 江苏 Jiangsu | C120 | 陇春29号 Longchun 29 | 甘肃 Gansu |
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C121 | 陇春34号 Longchun 34 | 甘肃 Gansu | C141 | 武春7号 Wuchun 7 | 甘肃 Gansu | C161 | 新克旱9号 Xinkehan 9 | 黑龙江 Heilongjiang |
C122 | 陇春39号 Longchun 39 | 甘肃 Gansu | C142 | 武春8号 Wuchun 8 | 甘肃 Gansu | C162 | 克丰3号 Kefeng 3 | 黑龙江 Heilongjiang |
C123 | 甘春20号 Ganchun 20 | 甘肃 Gansu | C143 | 武春9号 Wuchun 9 | 甘肃 Gansu | C163 | 克涝4号 Kelao 4 | 黑龙江 Heilongjiang |
C124 | 甘春21号 Ganchun 21 | 甘肃 Gansu | C144 | 武春10号 Wuchun 10 | 甘肃 Gansu | C164 | 新曙光1号 Xinshuguang 1 | 黑龙江 Heilongjiang |
C125 | 甘春24号 Ganchun 24 | 甘肃 Gansu | C145 | 酒春6号 Jiuchun 6 | 甘肃 Gansu | C165 | 东农101号 Dongnong 101 | 黑龙江 Heilongjiang |
C126 | 甘春25号 Ganchun 25 | 甘肃 Gansu | C146 | 酒春7号 Jiuchun 7 | 甘肃 Gansu | C166 | 吉春1016 Jichun 1016 | 吉林 Jilin |
C127 | 甘春26号 Ganchun 26 | 甘肃 Gansu | C147 | 酒春8号 Jiuchun 8 | 甘肃 Gansu | C167 | 上林小麦 Shanglin wheat | 广西 Guangxi |
C128 | 甘春27号 Ganchun 27 | 甘肃 Gansu | C148 | 酒春9号 Jiuchun 9 | 甘肃 Gansu | C168 | 抗锈10号 Kangxiu 10 | 山东 Shandong |
C129 | 甘春32号 Ganchun 32 | 甘肃 Gansu | C149 | 酒春12号 Jiuchun 12 | 甘肃 Gansu | C169 | 台中23 Taizhong 23 | 台湾 Taiwan |
C130 | 会宁19号 Huining 19 | 甘肃 Gansu | C150 | 张春23号 Zhangchun 23 | 甘肃 Gansu | C170 | 内乡5号 Neixiang 5 | 河南 Henan |
C131 | 银春8号 Yinchun 8 | 甘肃 Gansu | C151 | 掖丰315 Yefeng 315 | 甘肃 Gansu | C171 | 郑州6号 Zhengzhou 6 | 河南 Henan |
C132 | 银春9号 Yinchun 9 | 甘肃 Gansu | C152 | 白皮小麦 White wheat | 内蒙古 Inner Mongolia | C172 | 郑州741 Zhengzhou 741 | 河南 Henan |
C133 | 银春10号 Yinchun 10 | 甘肃 Gansu | C153 | 大白皮 Dabaipi | 内蒙古 Inner Mongolia | C173 | 大口麦 Dakoumai | 河南 Henan |
C134 | 甘育2号 Ganyu 2 | 甘肃 Gansu | C154 | 小红皮 Xiaohongpi | 宁夏 Ningxia | C174 | 秃芒麦 Bald awn wheat | 山东 Shandong |
C135 | 甘育3号 Ganyu 3 | 甘肃 Gansu | C155 | 大红麦 Dahongmai | 宁夏 Ningxia | C175 | 墨脱小麦 Motuo wheat | 西藏 Tibet |
C136 | 甘育4号 Ganyu 4 | 甘肃 Gansu | C156 | 江西早 Jiangxizao | 湖北 Hubei | C176 | 金麦4号 Jinmai 4 | 陕西 Shaanxi |
C137 | 武春3号 Wuchun 3 | 甘肃 Gansu | C157 | 白蒲 Baipu | 浙江 Zhejiang | C177 | 青春28 Qingchun 28 | 青海 Qinghai |
C138 | 武春4号 Wuchun 4 | 甘肃 Gansu | C158 | 糯麦 Glutinous wheat | 重庆 Chongqing | C178 | 定西24 Dingxi 24 | 甘肃 Gansu |
C139 | 武春5号 Wuchun 5 | 甘肃 Gansu | C159 | 骊英5号 Liying 5 | 江苏 Jiangsu | C179 | 毕麦26 Bimai 26 | 贵州 Guizhou |
C140 | 武春6号 Wuchun 6 | 甘肃 Gansu | C160 | 大青芒 Daqingmang | 黑龙江 Heilongjiang | C180 | 成都光头 Chengdu bald | 四川 Sichuan |
Table 1 Code and name of the test materials
编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin | 编号 Code | 名称 Name | 来源 Origin |
---|---|---|---|---|---|---|---|---|
C121 | 陇春34号 Longchun 34 | 甘肃 Gansu | C141 | 武春7号 Wuchun 7 | 甘肃 Gansu | C161 | 新克旱9号 Xinkehan 9 | 黑龙江 Heilongjiang |
C122 | 陇春39号 Longchun 39 | 甘肃 Gansu | C142 | 武春8号 Wuchun 8 | 甘肃 Gansu | C162 | 克丰3号 Kefeng 3 | 黑龙江 Heilongjiang |
C123 | 甘春20号 Ganchun 20 | 甘肃 Gansu | C143 | 武春9号 Wuchun 9 | 甘肃 Gansu | C163 | 克涝4号 Kelao 4 | 黑龙江 Heilongjiang |
C124 | 甘春21号 Ganchun 21 | 甘肃 Gansu | C144 | 武春10号 Wuchun 10 | 甘肃 Gansu | C164 | 新曙光1号 Xinshuguang 1 | 黑龙江 Heilongjiang |
C125 | 甘春24号 Ganchun 24 | 甘肃 Gansu | C145 | 酒春6号 Jiuchun 6 | 甘肃 Gansu | C165 | 东农101号 Dongnong 101 | 黑龙江 Heilongjiang |
C126 | 甘春25号 Ganchun 25 | 甘肃 Gansu | C146 | 酒春7号 Jiuchun 7 | 甘肃 Gansu | C166 | 吉春1016 Jichun 1016 | 吉林 Jilin |
C127 | 甘春26号 Ganchun 26 | 甘肃 Gansu | C147 | 酒春8号 Jiuchun 8 | 甘肃 Gansu | C167 | 上林小麦 Shanglin wheat | 广西 Guangxi |
C128 | 甘春27号 Ganchun 27 | 甘肃 Gansu | C148 | 酒春9号 Jiuchun 9 | 甘肃 Gansu | C168 | 抗锈10号 Kangxiu 10 | 山东 Shandong |
C129 | 甘春32号 Ganchun 32 | 甘肃 Gansu | C149 | 酒春12号 Jiuchun 12 | 甘肃 Gansu | C169 | 台中23 Taizhong 23 | 台湾 Taiwan |
C130 | 会宁19号 Huining 19 | 甘肃 Gansu | C150 | 张春23号 Zhangchun 23 | 甘肃 Gansu | C170 | 内乡5号 Neixiang 5 | 河南 Henan |
C131 | 银春8号 Yinchun 8 | 甘肃 Gansu | C151 | 掖丰315 Yefeng 315 | 甘肃 Gansu | C171 | 郑州6号 Zhengzhou 6 | 河南 Henan |
C132 | 银春9号 Yinchun 9 | 甘肃 Gansu | C152 | 白皮小麦 White wheat | 内蒙古 Inner Mongolia | C172 | 郑州741 Zhengzhou 741 | 河南 Henan |
C133 | 银春10号 Yinchun 10 | 甘肃 Gansu | C153 | 大白皮 Dabaipi | 内蒙古 Inner Mongolia | C173 | 大口麦 Dakoumai | 河南 Henan |
C134 | 甘育2号 Ganyu 2 | 甘肃 Gansu | C154 | 小红皮 Xiaohongpi | 宁夏 Ningxia | C174 | 秃芒麦 Bald awn wheat | 山东 Shandong |
C135 | 甘育3号 Ganyu 3 | 甘肃 Gansu | C155 | 大红麦 Dahongmai | 宁夏 Ningxia | C175 | 墨脱小麦 Motuo wheat | 西藏 Tibet |
C136 | 甘育4号 Ganyu 4 | 甘肃 Gansu | C156 | 江西早 Jiangxizao | 湖北 Hubei | C176 | 金麦4号 Jinmai 4 | 陕西 Shaanxi |
C137 | 武春3号 Wuchun 3 | 甘肃 Gansu | C157 | 白蒲 Baipu | 浙江 Zhejiang | C177 | 青春28 Qingchun 28 | 青海 Qinghai |
C138 | 武春4号 Wuchun 4 | 甘肃 Gansu | C158 | 糯麦 Glutinous wheat | 重庆 Chongqing | C178 | 定西24 Dingxi 24 | 甘肃 Gansu |
C139 | 武春5号 Wuchun 5 | 甘肃 Gansu | C159 | 骊英5号 Liying 5 | 江苏 Jiangsu | C179 | 毕麦26 Bimai 26 | 贵州 Guizhou |
C140 | 武春6号 Wuchun 6 | 甘肃 Gansu | C160 | 大青芒 Daqingmang | 黑龙江 Heilongjiang | C180 | 成都光头 Chengdu bald | 四川 Sichuan |
标记类型 Marker type | 编号Code | 引物序列Sequence of primer (5’-3’) | |
---|---|---|---|
SSR标记 SSR marker | Xbarc105 | F:CAGGAAGAAAAGGAAAGCATGCGACAA | R:GCGGTGTGGCAATAATTACTTTTT |
Xmag694 | F:TGCACTGCAAACACAGAGGAAG | R:CTGCTCATGGGCACGAAATC | |
Xwmc256 | F:CCAAATCTTCGAACAAGAACCC | R:ACCGATCGATGGTGTATACTGA | |
Xpsp3071 | F:CGTGCCCTACACCTCCTTTTCTCTC | R:TCCGTACATACTCCGGGAGACC | |
Xgwm47 | F:TTGCTACCATGCATGACCAT | R:TTCACCTCGATTGAGGTCCT | |
Xbarc220 | F:CCTCTGCCATAAACATCACCTCTC | R:GGCCTCAACATCATGTGAAAGA | |
Xgpw3087 | F:CTCTAAGAAGTCCAATGCAACA | R:AATTGCAGAAACTGGATGCC | |
Xgpw2277 | F:TCAGAAGAGCGATGAGATAGAAA | R:GCCATTTTTAGGGCTCAGTG | |
Xbarc287 | F:CGGATGGGTTACTTACTTAGGATG | R:CGCAACTCCATTTCAGAATCATT | |
Xwmc385 | F:GAAATGGCAATGGACTCAC | R:CCATCATATCCCTAGCACAA | |
Xwmc170 | F:ACATCCACGTTTATGTTGTTGC | R:TTGGTTGCTCAACGTTTACTTC | |
Xbarc201 | F:GCGTTACTAGCCCAGGATTTACATT | R:GCGTCGATGTGAGTAGCGGGAAAC | |
SSR标记 SSR marker | Xbarc78 | F:CTCCCCGGTCAAGTTTAATCTCT | R:GCGACATGGGAATTTCAGAAGTGCCTAA |
Xwmc420 | F:ATCGTCAACAAAATCTGAAGTG | R:TTACTTTTGCTGAGAAAACCCT | |
Xbarc106 | F:GCCCTCAAATAATTACGCCAATCCCTATG | R:GCGTCAAGATCAGAAGGCATCCTATTATTG | |
Xbarc64 | F:GCGGAGTCTGCAATTAGTATAGGTAT | R:GCATCCACCTCCGCAGTCAGT | |
Xgpw2107 | F:CGTGAGGCATGTGAGAAGAA | R:TTGAGGAACATGGCTAAGGG | |
Xbarc80 | F:GCGAATTAGCATCTGCATCTGTTTGAG | R:CGGTCAACCAACTACTGCACAAC | |
Xwmc627 | F:GATCCGAGAAGGGCAATGGTAG | R:AGCAACAGCAGCGTACCATAAA | |
Xwmc54 | F:TATTGTGCAATCGCAGCATCTC | R:TGCGACATTGGCAACCACTTCT | |
Xcfd54 | F:TCGTTCCAAAATGCATGAAA | R:AAGGGCCAGAAATCTGTGTG | |
Xbarc198 | F:CGCTGAAAAGAAGTGCCGCATTATGA | R:CGCTGCCTTTTCTGGATTGCTTGTCA | |
Xbarc137 | F:GGCCCATTTCCCACTTTCCA | R:CCAGCCCCTCTACACATTTT | |
Xbarc114 | F:GGGTATCACGCATTGTAAAATCCGAAA | R:GCTGACTTCCGCAAATGCCATTCGCTGAT | |
Xbarc160 | F:GGTTGTTCCTAGGAAATTTCTATAATAACTG | R:GCGACTTTCATGATCAAGATGGCATC | |
Xgwm144 | F:TTTGCTGTGGTACGAAACATAC | R:ACTCACAAATGTCTAATAAAAC | |
Xwmc657 | F:CGGGCTGCGGGGGTAT | R:CGGTTGGGTCATTTGTCTCA | |
XbarcM172 | F:GCGAAATGTGATGGGGTTTATCTA | R:GCGATTTGATTTAACTTTAGCAGTGAG | |
Xbarc61 | F:TGCATACATTGATTCATAACTCTCT | R:TCTTCGAGCGTTATGATTGAT | |
XbarcM156 | F:CGCATCGAGGTCTTCCCCGCTGTCCAA | R:CGCACCCACACATGTATCTGAGTTTCCTA | |
XbarcM160 | F:GGTTGTTCCTAGGAAATTTCTATAATAACTG | R:GCGACTTTCATGATCAAGATGGCATC | |
Xcfb3530 | F:TTGTGCTTGTGCTACTATTACC | R:CAACATCTTACTGCTAACGTCC | |
Xcfb53 | F:CACGATACAACACATAAGAGGG | R:TGTGACATGTATACAGTG | |
XbarcM174 | F:TGGCATTTTTCTAGCACCAATACAT | R:GCGAACTGGACCAGCCTTCTATCTGTTC | |
Xbarc79 | F:GCGTTGGAAAGGAGGTAATGTTAGATAG | R:TCGTGGGTTACAAGTTTGGGAGGTCA | |
Xgwm344 | F:CAAGGAAATAGGCGGTAACT | R:ATTTGAGTCTGAAGTTTGCA | |
Xbarc1073 | F:GCGGGCACAATATTCTAATGGACAAAGT | R:GCGCAGATGCAGAGGCCAGGGGTCA | |
Xbarc77 | F:GCGTATTCTCCCTCGTTTCCAAGTCTG | R:GTGGGAATTTCTTGGGAGTCTGTA | |
Xbarc102 | F:GGAGAGGACCTGCTAAAATCGAAGACA | R:GCGTTTACGGATCAGTGTTGGAGA | |
Xmag799 | F:TCGAGGAAGGAAACGGAGTA | R:GGTCGGAAACGTAAACCAGA | |
Xbarc152 | F:CTTCCTAAAATCGGGCAACCGCTTGTTG | R:GCGTAATGATGGGAGTGGCTATAGGGCAGTT | |
Xcfd50 | F:TTCTGCAACATTTTGTCCCA | R:CGTATGATCCTAACGAGGGC | |
XbarcM121 | F:ACTGATCAGCAATGTCAACTGAA | R:CCGGTGTCTTTCCTAACGCTATG | |
Xgdm8 | F:TTCTCCAACGCACGTTAGC | R:CCCAAATGATGGCAGCTACT | |
Xbarc93 | F:GCCGGACGGATTTAGGTGGAGGAGA | R:CGCAACCTCACCATCACCGCCTCATC | |
Xgpw2220 | F:TGACACCCCTTTCTTATCCG | R:TAGCGAGGGGGTTAAGTGTG | |
Xgpw5210 | F:CAGCGGACCTAAGCATCATA | R:CGCTAAAGATGAAGTGAAGACA |
Table 2 Code and sequence of SSR and SRAP primers
标记类型 Marker type | 编号Code | 引物序列Sequence of primer (5’-3’) | |
---|---|---|---|
SSR标记 SSR marker | Xbarc105 | F:CAGGAAGAAAAGGAAAGCATGCGACAA | R:GCGGTGTGGCAATAATTACTTTTT |
Xmag694 | F:TGCACTGCAAACACAGAGGAAG | R:CTGCTCATGGGCACGAAATC | |
Xwmc256 | F:CCAAATCTTCGAACAAGAACCC | R:ACCGATCGATGGTGTATACTGA | |
Xpsp3071 | F:CGTGCCCTACACCTCCTTTTCTCTC | R:TCCGTACATACTCCGGGAGACC | |
Xgwm47 | F:TTGCTACCATGCATGACCAT | R:TTCACCTCGATTGAGGTCCT | |
Xbarc220 | F:CCTCTGCCATAAACATCACCTCTC | R:GGCCTCAACATCATGTGAAAGA | |
Xgpw3087 | F:CTCTAAGAAGTCCAATGCAACA | R:AATTGCAGAAACTGGATGCC | |
Xgpw2277 | F:TCAGAAGAGCGATGAGATAGAAA | R:GCCATTTTTAGGGCTCAGTG | |
Xbarc287 | F:CGGATGGGTTACTTACTTAGGATG | R:CGCAACTCCATTTCAGAATCATT | |
Xwmc385 | F:GAAATGGCAATGGACTCAC | R:CCATCATATCCCTAGCACAA | |
Xwmc170 | F:ACATCCACGTTTATGTTGTTGC | R:TTGGTTGCTCAACGTTTACTTC | |
Xbarc201 | F:GCGTTACTAGCCCAGGATTTACATT | R:GCGTCGATGTGAGTAGCGGGAAAC | |
SSR标记 SSR marker | Xbarc78 | F:CTCCCCGGTCAAGTTTAATCTCT | R:GCGACATGGGAATTTCAGAAGTGCCTAA |
Xwmc420 | F:ATCGTCAACAAAATCTGAAGTG | R:TTACTTTTGCTGAGAAAACCCT | |
Xbarc106 | F:GCCCTCAAATAATTACGCCAATCCCTATG | R:GCGTCAAGATCAGAAGGCATCCTATTATTG | |
Xbarc64 | F:GCGGAGTCTGCAATTAGTATAGGTAT | R:GCATCCACCTCCGCAGTCAGT | |
Xgpw2107 | F:CGTGAGGCATGTGAGAAGAA | R:TTGAGGAACATGGCTAAGGG | |
Xbarc80 | F:GCGAATTAGCATCTGCATCTGTTTGAG | R:CGGTCAACCAACTACTGCACAAC | |
Xwmc627 | F:GATCCGAGAAGGGCAATGGTAG | R:AGCAACAGCAGCGTACCATAAA | |
Xwmc54 | F:TATTGTGCAATCGCAGCATCTC | R:TGCGACATTGGCAACCACTTCT | |
Xcfd54 | F:TCGTTCCAAAATGCATGAAA | R:AAGGGCCAGAAATCTGTGTG | |
Xbarc198 | F:CGCTGAAAAGAAGTGCCGCATTATGA | R:CGCTGCCTTTTCTGGATTGCTTGTCA | |
Xbarc137 | F:GGCCCATTTCCCACTTTCCA | R:CCAGCCCCTCTACACATTTT | |
Xbarc114 | F:GGGTATCACGCATTGTAAAATCCGAAA | R:GCTGACTTCCGCAAATGCCATTCGCTGAT | |
Xbarc160 | F:GGTTGTTCCTAGGAAATTTCTATAATAACTG | R:GCGACTTTCATGATCAAGATGGCATC | |
Xgwm144 | F:TTTGCTGTGGTACGAAACATAC | R:ACTCACAAATGTCTAATAAAAC | |
Xwmc657 | F:CGGGCTGCGGGGGTAT | R:CGGTTGGGTCATTTGTCTCA | |
XbarcM172 | F:GCGAAATGTGATGGGGTTTATCTA | R:GCGATTTGATTTAACTTTAGCAGTGAG | |
Xbarc61 | F:TGCATACATTGATTCATAACTCTCT | R:TCTTCGAGCGTTATGATTGAT | |
XbarcM156 | F:CGCATCGAGGTCTTCCCCGCTGTCCAA | R:CGCACCCACACATGTATCTGAGTTTCCTA | |
XbarcM160 | F:GGTTGTTCCTAGGAAATTTCTATAATAACTG | R:GCGACTTTCATGATCAAGATGGCATC | |
Xcfb3530 | F:TTGTGCTTGTGCTACTATTACC | R:CAACATCTTACTGCTAACGTCC | |
Xcfb53 | F:CACGATACAACACATAAGAGGG | R:TGTGACATGTATACAGTG | |
XbarcM174 | F:TGGCATTTTTCTAGCACCAATACAT | R:GCGAACTGGACCAGCCTTCTATCTGTTC | |
Xbarc79 | F:GCGTTGGAAAGGAGGTAATGTTAGATAG | R:TCGTGGGTTACAAGTTTGGGAGGTCA | |
Xgwm344 | F:CAAGGAAATAGGCGGTAACT | R:ATTTGAGTCTGAAGTTTGCA | |
Xbarc1073 | F:GCGGGCACAATATTCTAATGGACAAAGT | R:GCGCAGATGCAGAGGCCAGGGGTCA | |
Xbarc77 | F:GCGTATTCTCCCTCGTTTCCAAGTCTG | R:GTGGGAATTTCTTGGGAGTCTGTA | |
Xbarc102 | F:GGAGAGGACCTGCTAAAATCGAAGACA | R:GCGTTTACGGATCAGTGTTGGAGA | |
Xmag799 | F:TCGAGGAAGGAAACGGAGTA | R:GGTCGGAAACGTAAACCAGA | |
Xbarc152 | F:CTTCCTAAAATCGGGCAACCGCTTGTTG | R:GCGTAATGATGGGAGTGGCTATAGGGCAGTT | |
Xcfd50 | F:TTCTGCAACATTTTGTCCCA | R:CGTATGATCCTAACGAGGGC | |
XbarcM121 | F:ACTGATCAGCAATGTCAACTGAA | R:CCGGTGTCTTTCCTAACGCTATG | |
Xgdm8 | F:TTCTCCAACGCACGTTAGC | R:CCCAAATGATGGCAGCTACT | |
Xbarc93 | F:GCCGGACGGATTTAGGTGGAGGAGA | R:CGCAACCTCACCATCACCGCCTCATC | |
Xgpw2220 | F:TGACACCCCTTTCTTATCCG | R:TAGCGAGGGGGTTAAGTGTG | |
Xgpw5210 | F:CAGCGGACCTAAGCATCATA | R:CGCTAAAGATGAAGTGAAGACA |
标记类型 Marker type | 编号Code | 引物序列Sequence of primer (5’-3’) | ||
---|---|---|---|---|
SRAP标记 SRAP marker | Me1-Em14 | TGAGTCCAAACCGGAAA | — | GACTGCGTACGAATTAGT |
Me1-Em55 | TGAGTCCAAACCGGAAA | — | GACTGCGTACGAATTGTC | |
Me2-Em3 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTAAC | |
Me2-Em26 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTACA | |
Me2-Em42 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTCCT | |
Me3-Em2 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTAAT | |
Me3-Em3 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTAAC | |
Me3-Em9 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTTCT | |
Me3-Em23 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTTTC | |
Me4-Em16 | TGAGTCCAAACCGGAAG | — | GACTGCGTACGAATTAGG | |
Me4-Em24 | TGAGTCCAAACCGGAAG | — | GACTGCGTACGAATTTTG | |
Me6-Em19 | TGAGTCCAAACCGGATT | — | GACTGCGTACGAATTTAC | |
Me5-Em53 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGTA | |
Me5-Em56 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGTG | |
Me5-Em62 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGGT | |
Me7-Em14 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTAGT | |
Me7-Em16 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTAGG | |
Me7-Em44 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTCCG | |
Me9-Em21 | TGAGTCCAAACCGGACA | — | GACTGCGTACGAATTTTA | |
Me9-Em27 | TGAGTCCAAACCGGACA | — | GACTGCGTACGAATTTCC | |
Me10-Em11 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTACG | |
Me10-Em12 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTTAG | |
Me10-Em54 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTGTT | |
Me12-Em26 | TGAGTCCAAACCGGACG | — | GACTGCGTACGAATTACA | |
Me12-Em38 | TGAGTCCAAACCGGACG | — | GACTGCGTACGAATTCTT |
Table 2 Code and sequence of SSR and SRAP primers
标记类型 Marker type | 编号Code | 引物序列Sequence of primer (5’-3’) | ||
---|---|---|---|---|
SRAP标记 SRAP marker | Me1-Em14 | TGAGTCCAAACCGGAAA | — | GACTGCGTACGAATTAGT |
Me1-Em55 | TGAGTCCAAACCGGAAA | — | GACTGCGTACGAATTGTC | |
Me2-Em3 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTAAC | |
Me2-Em26 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTACA | |
Me2-Em42 | TGAGTCCAAACCGGAAT | — | GACTGCGTACGAATTCCT | |
Me3-Em2 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTAAT | |
Me3-Em3 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTAAC | |
Me3-Em9 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTTCT | |
Me3-Em23 | TGAGTCCAAACCGGAAC | — | GACTGCGTACGAATTTTC | |
Me4-Em16 | TGAGTCCAAACCGGAAG | — | GACTGCGTACGAATTAGG | |
Me4-Em24 | TGAGTCCAAACCGGAAG | — | GACTGCGTACGAATTTTG | |
Me6-Em19 | TGAGTCCAAACCGGATT | — | GACTGCGTACGAATTTAC | |
Me5-Em53 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGTA | |
Me5-Em56 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGTG | |
Me5-Em62 | TGAGTCCAAACCGGATA | — | GACTGCGTACGAATTGGT | |
Me7-Em14 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTAGT | |
Me7-Em16 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTAGG | |
Me7-Em44 | TGAGTCCAAACCGGATC | — | GACTGCGTACGAATTCCG | |
Me9-Em21 | TGAGTCCAAACCGGACA | — | GACTGCGTACGAATTTTA | |
Me9-Em27 | TGAGTCCAAACCGGACA | — | GACTGCGTACGAATTTCC | |
Me10-Em11 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTACG | |
Me10-Em12 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTTAG | |
Me10-Em54 | TGAGTCCAAACCGGACT | — | GACTGCGTACGAATTGTT | |
Me12-Em26 | TGAGTCCAAACCGGACG | — | GACTGCGTACGAATTACA | |
Me12-Em38 | TGAGTCCAAACCGGACG | — | GACTGCGTACGAATTCTT |
性状类型 Trait type | 性状 Trait | 变异幅度 Variation rang | 均值 Mean | 标准差 Standard deviation | 方差 Variance | 变异系数 Coefficient of variation/% |
---|---|---|---|---|---|---|
农艺性状Agronomic trait | 分蘖数 Tiller number | 1.00~12.00 | 4.19 | 1.75 | 3.06 | 41.77 |
株高 Plant height/cm | 44.60~167.00 | 89.43 | 21.17 | 448.13 | 23.67 | |
穗下茎长 Ear stem length/cm | 11.00~68.50 | 34.45 | 8.84 | 78.18 | 25.66 | |
穗长 Ear length/cm | 3.50~18.10 | 9.70 | 2.18 | 4.74 | 22.44 | |
小穗数 Spikelet number | 12.00~38.00 | 19.10 | 2.76 | 7.60 | 14.43 | |
结实数 Fertile spikelet | 11.00~38.00 | 18.25 | 2.60 | 6.77 | 14.25 | |
穗粒数 Kernels per spike | 9.00~118.00 | 46.31 | 12.54 | 157.23 | 27.08 | |
穗粒重 Grain weight per spike/g | 0.10~4.90 | 1.90 | 0.69 | 0.48 | 36.58 | |
千粒重 Thousand kernels weight/g | 20.00~61.50 | 37.81 | 6.73 | 45.31 | 17.80 | |
经济系数 Economic coefficient | 0.02~0.93 | 0.37 | 0.10 | 0.01 | 26.43 | |
品质性状 Quality trait | 水分含量 Moisture content/% | 10.21~12.99 | 11.54 | 0.46 | 0.21 | 3.99 |
粗蛋白含量 Crude protein content/% | 12.60~21.22 | 15.56 | 1.39 | 1.93 | 8.94 | |
湿面筋含量 Wet gluten content/% | 25.65~45.88 | 33.25 | 3.04 | 9.26 | 9.15 | |
出粉率 Flour yield/% | 55.13~69.15 | 63.99 | 2.04 | 4.14 | 3.18 | |
吸水率 Water absorption/% | 47.53~68.93 | 59.70 | 3.09 | 9.54 | 5.17 | |
降落值 Falling number/s | 210.51~544.60 | 421.35 | 38.87 | 1 510.97 | 9.23 | |
沉降值 Sedimentation value/mL | 20.11~57.85 | 36.50 | 5.63 | 31.70 | 15.42 | |
容重 Volume weight/(g·L-1) | 726.94~832.45 | 787.97 | 17.63 | 310.70 | 2.24 | |
硬度指数 Hardness index | 44.35~80.85 | 67.83 | 5.15 | 26.57 | 7.60 |
Table 3 Agronomic traits and quality traits of 251 wheat cultivar resources
性状类型 Trait type | 性状 Trait | 变异幅度 Variation rang | 均值 Mean | 标准差 Standard deviation | 方差 Variance | 变异系数 Coefficient of variation/% |
---|---|---|---|---|---|---|
农艺性状Agronomic trait | 分蘖数 Tiller number | 1.00~12.00 | 4.19 | 1.75 | 3.06 | 41.77 |
株高 Plant height/cm | 44.60~167.00 | 89.43 | 21.17 | 448.13 | 23.67 | |
穗下茎长 Ear stem length/cm | 11.00~68.50 | 34.45 | 8.84 | 78.18 | 25.66 | |
穗长 Ear length/cm | 3.50~18.10 | 9.70 | 2.18 | 4.74 | 22.44 | |
小穗数 Spikelet number | 12.00~38.00 | 19.10 | 2.76 | 7.60 | 14.43 | |
结实数 Fertile spikelet | 11.00~38.00 | 18.25 | 2.60 | 6.77 | 14.25 | |
穗粒数 Kernels per spike | 9.00~118.00 | 46.31 | 12.54 | 157.23 | 27.08 | |
穗粒重 Grain weight per spike/g | 0.10~4.90 | 1.90 | 0.69 | 0.48 | 36.58 | |
千粒重 Thousand kernels weight/g | 20.00~61.50 | 37.81 | 6.73 | 45.31 | 17.80 | |
经济系数 Economic coefficient | 0.02~0.93 | 0.37 | 0.10 | 0.01 | 26.43 | |
品质性状 Quality trait | 水分含量 Moisture content/% | 10.21~12.99 | 11.54 | 0.46 | 0.21 | 3.99 |
粗蛋白含量 Crude protein content/% | 12.60~21.22 | 15.56 | 1.39 | 1.93 | 8.94 | |
湿面筋含量 Wet gluten content/% | 25.65~45.88 | 33.25 | 3.04 | 9.26 | 9.15 | |
出粉率 Flour yield/% | 55.13~69.15 | 63.99 | 2.04 | 4.14 | 3.18 | |
吸水率 Water absorption/% | 47.53~68.93 | 59.70 | 3.09 | 9.54 | 5.17 | |
降落值 Falling number/s | 210.51~544.60 | 421.35 | 38.87 | 1 510.97 | 9.23 | |
沉降值 Sedimentation value/mL | 20.11~57.85 | 36.50 | 5.63 | 31.70 | 15.42 | |
容重 Volume weight/(g·L-1) | 726.94~832.45 | 787.97 | 17.63 | 310.70 | 2.24 | |
硬度指数 Hardness index | 44.35~80.85 | 67.83 | 5.15 | 26.57 | 7.60 |
标记类型 Marker type | 引物数量 Primer number | 多态性比例 Percentage of polymorphic prime/% | ||
---|---|---|---|---|
总计 Total | 多态性 Polymorphic | 稳定性 Stabilize | ||
SSR | 747 | 153 | 47 | 20.48 |
SRAP | 754 | 96 | 25 | 12.73 |
总计 Total | 1 501 | 249 | 72 | 16.59 |
Table 4 Number and proportion of polymorphism primer screening
标记类型 Marker type | 引物数量 Primer number | 多态性比例 Percentage of polymorphic prime/% | ||
---|---|---|---|---|
总计 Total | 多态性 Polymorphic | 稳定性 Stabilize | ||
SSR | 747 | 153 | 47 | 20.48 |
SRAP | 754 | 96 | 25 | 12.73 |
总计 Total | 1 501 | 249 | 72 | 16.59 |
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SSR标记 SSR marker | Xbarc105 | 8 | 1.393 | 0.261 | 0.420 | 0.829 |
Xmag694 | 5 | 1.338 | 0.220 | 0.357 | 0.550 | |
Xwmc256 | 3 | 1.569 | 0.331 | 0.497 | 0.494 | |
Xpsp3071 | 3 | 1.657 | 0.335 | 0.474 | 0.503 | |
Xgwm47 | 5 | 1.501 | 0.300 | 0.459 | 0.678 | |
Xbarc220 | 5 | 1.629 | 0.380 | 0.566 | 0.786 | |
Xgpw3087 | 6 | 1.505 | 0.320 | 0.494 | 0.759 | |
Xgpw2277 | 4 | 1.621 | 0.370 | 0.551 | 0.722 | |
Xbarc287 | 6 | 1.549 | 0.314 | 0.476 | 0.750 | |
Xwmc385 | 3 | 1.654 | 0.385 | 0.571 | 0.576 | |
Xwmc170 | 4 | 1.576 | 0.348 | 0.524 | 0.709 | |
Xbarc201 | 4 | 1.575 | 0.340 | 0.513 | 0.632 | |
Xbarc78 | 11 | 1.444 | 0.279 | 0.435 | 0.862 | |
Xwmc420 | 4 | 1.431 | 0.238 | 0.351 | 0.475 | |
Xbarc106 | 4 | 1.555 | 0.330 | 0.498 | 0.677 | |
Xbarc64 | 3 | 1.103 | 0.089 | 0.181 | 0.097 | |
Xgpw2107 | 7 | 1.558 | 0.326 | 0.491 | 0.806 | |
Xbarc80 | 4 | 1.523 | 0.314 | 0.479 | 0.661 |
Table 5 Polymorphic information of SSR and SRAP markers in 251 wheat cultivar resources
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SSR标记 SSR marker | Xbarc105 | 8 | 1.393 | 0.261 | 0.420 | 0.829 |
Xmag694 | 5 | 1.338 | 0.220 | 0.357 | 0.550 | |
Xwmc256 | 3 | 1.569 | 0.331 | 0.497 | 0.494 | |
Xpsp3071 | 3 | 1.657 | 0.335 | 0.474 | 0.503 | |
Xgwm47 | 5 | 1.501 | 0.300 | 0.459 | 0.678 | |
Xbarc220 | 5 | 1.629 | 0.380 | 0.566 | 0.786 | |
Xgpw3087 | 6 | 1.505 | 0.320 | 0.494 | 0.759 | |
Xgpw2277 | 4 | 1.621 | 0.370 | 0.551 | 0.722 | |
Xbarc287 | 6 | 1.549 | 0.314 | 0.476 | 0.750 | |
Xwmc385 | 3 | 1.654 | 0.385 | 0.571 | 0.576 | |
Xwmc170 | 4 | 1.576 | 0.348 | 0.524 | 0.709 | |
Xbarc201 | 4 | 1.575 | 0.340 | 0.513 | 0.632 | |
Xbarc78 | 11 | 1.444 | 0.279 | 0.435 | 0.862 | |
Xwmc420 | 4 | 1.431 | 0.238 | 0.351 | 0.475 | |
Xbarc106 | 4 | 1.555 | 0.330 | 0.498 | 0.677 | |
Xbarc64 | 3 | 1.103 | 0.089 | 0.181 | 0.097 | |
Xgpw2107 | 7 | 1.558 | 0.326 | 0.491 | 0.806 | |
Xbarc80 | 4 | 1.523 | 0.314 | 0.479 | 0.661 |
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SSR标记 SSR marker | Xwmc627 | 4 | 1.502 | 0.306 | 0.474 | 0.620 |
Xwmc54 | 4 | 1.573 | 0.326 | 0.479 | 0.662 | |
Xcfd54 | 5 | 1.448 | 0.279 | 0.436 | 0.655 | |
Xbarc198 | 3 | 1.541 | 0.329 | 0.502 | 0.578 | |
Xbarc137 | 4 | 1.402 | 0.239 | 0.375 | 0.507 | |
Xbarc114 | 8 | 1.644 | 0.378 | 0.560 | 0.842 | |
Xbarc160 | 4 | 1.537 | 0.318 | 0.481 | 0.663 | |
Xwmc657 | 6 | 1.320 | 0.219 | 0.358 | 0.754 | |
XbarcM172 | 3 | 1.584 | 0.342 | 0.514 | 0.572 | |
Xbarc61 | 7 | 1.307 | 0.206 | 0.336 | 0.762 | |
XbarcM156 | 4 | 1.772 | 0.429 | 0.618 | 0.710 | |
XbarcM160 | 5 | 1.451 | 0.263 | 0.400 | 0.670 | |
Xcfb3530 | 5 | 1.501 | 0.287 | 0.433 | 0.665 | |
Xcfb53 | 3 | 1.325 | 0.239 | 0.399 | 0.359 | |
XbarcM174 | 5 | 1.445 | 0.290 | 0.456 | 0.757 | |
Xbarc79 | 4 | 1.569 | 0.353 | 0.534 | 0.725 | |
Xgwm344 | 6 | 1.364 | 0.247 | 0.401 | 0.774 | |
Xbarc1073 | 5 | 1.549 | 0.307 | 0.457 | 0.705 | |
Xbarc77 | 9 | 1.239 | 0.169 | 0.291 | 0.799 | |
Xbarc102 | 5 | 1.343 | 0.218 | 0.355 | 0.628 | |
Xmag799 | 3 | 1.332 | 0.240 | 0.398 | 0.353 | |
Xbarc152 | 9 | 1.213 | 0.163 | 0.291 | 0.839 | |
Xcfd50 | 4 | 1.584 | 0.353 | 0.531 | 0.646 | |
XbarcM121 | 3 | 1.568 | 0.343 | 0.520 | 0.524 | |
Xgdm8 | 8 | 1.243 | 0.171 | 0.288 | 0.779 | |
Xbarc93 | 4 | 1.228 | 0.169 | 0.296 | 0.320 | |
Xgpw2220 | 6 | 1.293 | 0.212 | 0.358 | 0.778 | |
Xgpw5210 | 6 | 1.487 | 0.290 | 0.440 | 0.756 | |
Xgwm144 | 3 | 1.734 | 0.422 | 0.613 | 0.663 | |
平均 Mean | 4.979 | 1.474 | 0.289 | 0.445 | 0.652 | |
SRAP标记 SRAP marker | Me1-Em14 | 6 | 1.662 | 0.382 | 0.565 | 0.855 |
Me1-Em55 | 13 | 1.416 | 0.253 | 0.397 | 0.892 | |
Me2-Em3 | 20 | 1.380 | 0.241 | 0.383 | 0.869 | |
Me2-Em26 | 14 | 1.372 | 0.237 | 0.377 | 0.884 | |
Me2-Em42 | 17 | 1.310 | 0.199 | 0.321 | 0.657 | |
Me3-Em2 | 13 | 1.417 | 0.248 | 0.386 | 0.677 |
Table 5 Polymorphic information of SSR and SRAP markers in 251 wheat cultivar resources
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SSR标记 SSR marker | Xwmc627 | 4 | 1.502 | 0.306 | 0.474 | 0.620 |
Xwmc54 | 4 | 1.573 | 0.326 | 0.479 | 0.662 | |
Xcfd54 | 5 | 1.448 | 0.279 | 0.436 | 0.655 | |
Xbarc198 | 3 | 1.541 | 0.329 | 0.502 | 0.578 | |
Xbarc137 | 4 | 1.402 | 0.239 | 0.375 | 0.507 | |
Xbarc114 | 8 | 1.644 | 0.378 | 0.560 | 0.842 | |
Xbarc160 | 4 | 1.537 | 0.318 | 0.481 | 0.663 | |
Xwmc657 | 6 | 1.320 | 0.219 | 0.358 | 0.754 | |
XbarcM172 | 3 | 1.584 | 0.342 | 0.514 | 0.572 | |
Xbarc61 | 7 | 1.307 | 0.206 | 0.336 | 0.762 | |
XbarcM156 | 4 | 1.772 | 0.429 | 0.618 | 0.710 | |
XbarcM160 | 5 | 1.451 | 0.263 | 0.400 | 0.670 | |
Xcfb3530 | 5 | 1.501 | 0.287 | 0.433 | 0.665 | |
Xcfb53 | 3 | 1.325 | 0.239 | 0.399 | 0.359 | |
XbarcM174 | 5 | 1.445 | 0.290 | 0.456 | 0.757 | |
Xbarc79 | 4 | 1.569 | 0.353 | 0.534 | 0.725 | |
Xgwm344 | 6 | 1.364 | 0.247 | 0.401 | 0.774 | |
Xbarc1073 | 5 | 1.549 | 0.307 | 0.457 | 0.705 | |
Xbarc77 | 9 | 1.239 | 0.169 | 0.291 | 0.799 | |
Xbarc102 | 5 | 1.343 | 0.218 | 0.355 | 0.628 | |
Xmag799 | 3 | 1.332 | 0.240 | 0.398 | 0.353 | |
Xbarc152 | 9 | 1.213 | 0.163 | 0.291 | 0.839 | |
Xcfd50 | 4 | 1.584 | 0.353 | 0.531 | 0.646 | |
XbarcM121 | 3 | 1.568 | 0.343 | 0.520 | 0.524 | |
Xgdm8 | 8 | 1.243 | 0.171 | 0.288 | 0.779 | |
Xbarc93 | 4 | 1.228 | 0.169 | 0.296 | 0.320 | |
Xgpw2220 | 6 | 1.293 | 0.212 | 0.358 | 0.778 | |
Xgpw5210 | 6 | 1.487 | 0.290 | 0.440 | 0.756 | |
Xgwm144 | 3 | 1.734 | 0.422 | 0.613 | 0.663 | |
平均 Mean | 4.979 | 1.474 | 0.289 | 0.445 | 0.652 | |
SRAP标记 SRAP marker | Me1-Em14 | 6 | 1.662 | 0.382 | 0.565 | 0.855 |
Me1-Em55 | 13 | 1.416 | 0.253 | 0.397 | 0.892 | |
Me2-Em3 | 20 | 1.380 | 0.241 | 0.383 | 0.869 | |
Me2-Em26 | 14 | 1.372 | 0.237 | 0.377 | 0.884 | |
Me2-Em42 | 17 | 1.310 | 0.199 | 0.321 | 0.657 | |
Me3-Em2 | 13 | 1.417 | 0.248 | 0.386 | 0.677 |
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SRAP标记 SRAP marker | Me3-Em3 | 15 | 1.425 | 0.254 | 0.395 | 0.905 |
Me3-Em9 | 14 | 1.420 | 0.252 | 0.395 | 0.795 | |
Me3-Em23 | 20 | 1.428 | 0.261 | 0.409 | 0.878 | |
Me4-Em16 | 11 | 1.438 | 0.258 | 0.394 | 0.848 | |
Me4-Em24 | 11 | 1.387 | 0.236 | 0.374 | 0.832 | |
Me6-Em19 | 21 | 1.152 | 0.125 | 0.235 | 0.735 | |
Me5-Em53 | 6 | 1.529 | 0.300 | 0.444 | 0.826 | |
Me5-Em56 | 8 | 1.570 | 0.324 | 0.482 | 0.812 | |
Me5-Em62 | 10 | 1.734 | 0.403 | 0.584 | 0.651 | |
Me7-Em14 | 16 | 1.347 | 0.209 | 0.331 | 0.811 | |
Me7-Em16 | 12 | 1.466 | 0.287 | 0.442 | 0.876 | |
Me7-Em44 | 8 | 1.693 | 0.375 | 0.547 | 0.932 | |
Me9-Em21 | 14 | 1.429 | 0.247 | 0.379 | 0.834 | |
Me9-Em27 | 14 | 1.505 | 0.288 | 0.437 | 0.909 | |
Me10-Em11 | 20 | 1.242 | 0.161 | 0.271 | 0.859 | |
Me10-Em12 | 18 | 1.407 | 0.260 | 0.412 | 0.836 | |
Me10-Em54 | 12 | 1.251 | 0.166 | 0.277 | 0.842 | |
Me12-Em26 | 13 | 1.377 | 0.229 | 0.357 | 0.833 | |
Me12-Em38 | 16 | 1.364 | 0.233 | 0.375 | 0.800 | |
平均 Mean | 13.680 | 1.429 | 0.257 | 0.399 | 0.826 |
Table 5 Polymorphic information of SSR and SRAP markers in 251 wheat cultivar resources
标记类型 Marker type | 引物名称 Name of primer | 等位变异数 Number of alleles | 有效等位基因数Ne | 基因多样性指数H | Shannon信息指数I | 多态性信息量PIC |
---|---|---|---|---|---|---|
SRAP标记 SRAP marker | Me3-Em3 | 15 | 1.425 | 0.254 | 0.395 | 0.905 |
Me3-Em9 | 14 | 1.420 | 0.252 | 0.395 | 0.795 | |
Me3-Em23 | 20 | 1.428 | 0.261 | 0.409 | 0.878 | |
Me4-Em16 | 11 | 1.438 | 0.258 | 0.394 | 0.848 | |
Me4-Em24 | 11 | 1.387 | 0.236 | 0.374 | 0.832 | |
Me6-Em19 | 21 | 1.152 | 0.125 | 0.235 | 0.735 | |
Me5-Em53 | 6 | 1.529 | 0.300 | 0.444 | 0.826 | |
Me5-Em56 | 8 | 1.570 | 0.324 | 0.482 | 0.812 | |
Me5-Em62 | 10 | 1.734 | 0.403 | 0.584 | 0.651 | |
Me7-Em14 | 16 | 1.347 | 0.209 | 0.331 | 0.811 | |
Me7-Em16 | 12 | 1.466 | 0.287 | 0.442 | 0.876 | |
Me7-Em44 | 8 | 1.693 | 0.375 | 0.547 | 0.932 | |
Me9-Em21 | 14 | 1.429 | 0.247 | 0.379 | 0.834 | |
Me9-Em27 | 14 | 1.505 | 0.288 | 0.437 | 0.909 | |
Me10-Em11 | 20 | 1.242 | 0.161 | 0.271 | 0.859 | |
Me10-Em12 | 18 | 1.407 | 0.260 | 0.412 | 0.836 | |
Me10-Em54 | 12 | 1.251 | 0.166 | 0.277 | 0.842 | |
Me12-Em26 | 13 | 1.377 | 0.229 | 0.357 | 0.833 | |
Me12-Em38 | 16 | 1.364 | 0.233 | 0.375 | 0.800 | |
平均 Mean | 13.680 | 1.429 | 0.257 | 0.399 | 0.826 |
性状 Trait | 类群 Group | |||
---|---|---|---|---|
Ⅰ | Ⅱ | Ⅲ | Ⅳ | |
分蘖数 Tiller number | 3.98±1.65 Bb | 4.59±1.82 Aa | 4.13±1.73 Bb | 4.50±1.91 Aa |
株高 Plant height/cm | 88.39±11.81 Cc | 104.87±18.64 Bb | 72.96±15.74 Dd | 116.42±18.86 Aa |
穗下茎长 Ear stem length/cm | 34.81±6.18 Cc | 40.47±7.29 Bb | 27.99±7.09 Dd | 42.63±9.51 Aa |
穗长 Ear length/cm | 10.84±1.26 Aa | 9.95±1.93 Bc | 7.97±1.63 Cd | 10.20±3.06 Bb |
小穗数 Spikelet number | 20.15±2.28 Aa | 18.82±2.33 Bb | 17.54±2.15 Cc | 20.16±3.85 Aa |
结实数 Fertile spikelet | 19.24±2.21 Aa | 17.89±2.27 Bb | 16.89±2.02 Cc | 19.03±3.63 Aa |
穗粒数 Kernels per spike | 51.42±12.68 Aa | 43.14±11.62 Bb | 43.97±10.17 Bb | 39.96±12.81 Cc |
穗粒重 Grain weight per spike/g | 2.21±0.69 Aa | 1.62±0.63 Cc | 1.78±0.56 Bb | 1.57±0.72 Cc |
千粒重 Thousand-kernel weight/g | 39.62±5.75 Aa | 34.05±7.51 Dd | 37.92±5.58 Bb | 36.40±8.85 Cc |
经济系数 Economic coefficient | 0.39±0.08 Ab | 0.32±0.09 Bc | 0.41±0.09 Aa | 0.30±0.11 Cd |
Table 6 Agronomic traits of 4 groups
性状 Trait | 类群 Group | |||
---|---|---|---|---|
Ⅰ | Ⅱ | Ⅲ | Ⅳ | |
分蘖数 Tiller number | 3.98±1.65 Bb | 4.59±1.82 Aa | 4.13±1.73 Bb | 4.50±1.91 Aa |
株高 Plant height/cm | 88.39±11.81 Cc | 104.87±18.64 Bb | 72.96±15.74 Dd | 116.42±18.86 Aa |
穗下茎长 Ear stem length/cm | 34.81±6.18 Cc | 40.47±7.29 Bb | 27.99±7.09 Dd | 42.63±9.51 Aa |
穗长 Ear length/cm | 10.84±1.26 Aa | 9.95±1.93 Bc | 7.97±1.63 Cd | 10.20±3.06 Bb |
小穗数 Spikelet number | 20.15±2.28 Aa | 18.82±2.33 Bb | 17.54±2.15 Cc | 20.16±3.85 Aa |
结实数 Fertile spikelet | 19.24±2.21 Aa | 17.89±2.27 Bb | 16.89±2.02 Cc | 19.03±3.63 Aa |
穗粒数 Kernels per spike | 51.42±12.68 Aa | 43.14±11.62 Bb | 43.97±10.17 Bb | 39.96±12.81 Cc |
穗粒重 Grain weight per spike/g | 2.21±0.69 Aa | 1.62±0.63 Cc | 1.78±0.56 Bb | 1.57±0.72 Cc |
千粒重 Thousand-kernel weight/g | 39.62±5.75 Aa | 34.05±7.51 Dd | 37.92±5.58 Bb | 36.40±8.85 Cc |
经济系数 Economic coefficient | 0.39±0.08 Ab | 0.32±0.09 Bc | 0.41±0.09 Aa | 0.30±0.11 Cd |
性状 Trait | 类群 Group | |||
---|---|---|---|---|
Ⅰ | Ⅱ | Ⅲ | Ⅳ | |
水分含量 Moisture content/% | 11.50±0.45 Bb | 11.60±0.50 Aa | 11.54±0.46 ABab | 11.55±0.43 ABab |
粗蛋白含量 Crude protein content/% | 15.11±1.13 Dd | 16.02±1.45 Bb | 15.36±0.96 Cc | 16.92±1.92 Aa |
湿面筋含量 Wet gluten content/% | 32.50±2.40 Cc | 34.15±3.14 Bb | 32.60±2.23 Cc | 36.26±4.27 Aa |
出粉率 Flour yield rate/% | 64.94±1.82 Aa | 63.11±1.85 Cc | 63.58±1.60 Bb | 63.11±2.60 Cc |
吸水率 Water absorption rate/% | 60.51±2.52 Aa | 58.79±2.60 Bb | 58.81±3.51 Bb | 60.56±3.21 Aa |
降落值 Falling number/s | 423.90±33.40 Aa | 428.01±36.41 Aa | 413.67±42.74 Bb | 424.79±44.35 Aa |
沉降值 Sedimentation value/mL | 35.40±4.65 Cc | 37.72±5.32 Bb | 35.30±5.16 Cc | 41.65±6.78 Aa |
容重 Volume weight/(g·L-1) | 792.52±17.60 Aa | 786.34±14.38 Bb | 786.06±15.51 Bb | 780.30±22.19 Cc |
硬度指数 Hardness index | 69.99±3.68 Aa | 66.16±4.75 Bc | 66.34±5.87 Bbc | 66.86±5.26 Bb |
Table 7 Quality traits of 4 groups
性状 Trait | 类群 Group | |||
---|---|---|---|---|
Ⅰ | Ⅱ | Ⅲ | Ⅳ | |
水分含量 Moisture content/% | 11.50±0.45 Bb | 11.60±0.50 Aa | 11.54±0.46 ABab | 11.55±0.43 ABab |
粗蛋白含量 Crude protein content/% | 15.11±1.13 Dd | 16.02±1.45 Bb | 15.36±0.96 Cc | 16.92±1.92 Aa |
湿面筋含量 Wet gluten content/% | 32.50±2.40 Cc | 34.15±3.14 Bb | 32.60±2.23 Cc | 36.26±4.27 Aa |
出粉率 Flour yield rate/% | 64.94±1.82 Aa | 63.11±1.85 Cc | 63.58±1.60 Bb | 63.11±2.60 Cc |
吸水率 Water absorption rate/% | 60.51±2.52 Aa | 58.79±2.60 Bb | 58.81±3.51 Bb | 60.56±3.21 Aa |
降落值 Falling number/s | 423.90±33.40 Aa | 428.01±36.41 Aa | 413.67±42.74 Bb | 424.79±44.35 Aa |
沉降值 Sedimentation value/mL | 35.40±4.65 Cc | 37.72±5.32 Bb | 35.30±5.16 Cc | 41.65±6.78 Aa |
容重 Volume weight/(g·L-1) | 792.52±17.60 Aa | 786.34±14.38 Bb | 786.06±15.51 Bb | 780.30±22.19 Cc |
硬度指数 Hardness index | 69.99±3.68 Aa | 66.16±4.75 Bc | 66.34±5.87 Bbc | 66.86±5.26 Bb |
1 | 何中虎,庄巧生,程顺和,等.中国小麦产业发展与科技进步[J].农学学报,2018,8(1):99-106. |
HE Z H, ZHUANG Q S, CHENG S H, et al.. Wheat production and technology improvement in China [J]. J. Agric., 2018, 8(1):99-106. | |
2 | 郑永胜,王丽媛,段丽丽,等.350份小麦种质的SSR遗传多样性分析[J].山东农业科学,2020,52(12):1-6. |
ZHENG Y S, WANG L Y, DUAN L L, et al.. Genetic diversity analysis of 350 wheat germplasms by SSR markers [J]. Shandong Agric. Sci., 2020, 52(12):1-6. | |
3 | 王掌军,刘妍,李阳,等.宁春4号与河东乌麦杂交F2品质性状及其分子标记分析[J].河南农业科学,2019,48(2):17-24. |
WANG Z J, LIU Y, LI Y, et al.. Analysis of quality traits and their molecular markers of F2 hybrids from Ningchun No. 4 and Hedong Black Wheat [J]. J. Henan Agric. Sci., 2019, 48(2):17-24. | |
4 | 徐默然,蔺瑞明,王凤涛,等.103份小麦品种(系)抗条锈性和遗传多样性评价及基因检测[J].中国农业科学,2020,53(4):748-760. |
XU M R, LIN R M, WANG F T, et al.. Evaluation of resistance to stripe rust and genetic diversity and detection of resistance genes in 103 wheat cultivars (lines) [J]. Sci. Agric. Sin., 2020, 53(4):748-760. | |
5 | BHATTA M, SHAMANIN V, SHEPELEV S, et al.. Genetic diversity and population structure analysis of synthetic and bread wheat accessions in Western Siberia [J]. J. Appl. Genet., 2019, 60 (3-4):283-289. |
6 | 蒲艳艳,宫永超,李娜娜,等.中国小麦作物遗传多样性研究进展[J].中国农学通报,2016,32(30):7-13. |
PU Y Y, GONG Y C, LI N N, et al.. A review of genetic diversity of wheat crops in China [J]. Chin. Agric. Sci. Bull., 2016, 32(30):7-13. | |
7 | 王宏飞,李宏琪,丛花,等.新疆小麦地方品种遗传多样性的SSR分析[J].中国农业科技导报,2010,12(6):98-104. |
WANG H F, LI H Q, CONG H, et al.. Genetic diversity of wheat landraces from Xinjiang region using SSR markers [J]. J. Agric. Sci. Technol., 2010, 12(6):98-104. | |
8 | FARHANGIAN-KASHANI S, AZADI A, KHAGHANI S H, et al.. Association analysis and evaluation of genetic diversity in wheat genotypes using SSR markers [J]. Biol. Futura, 2021, 72:441-452. |
9 | 丁明亮,周国雁,方艺瑾,等.云南省小麦育成品种(系)遗传多样性分析[J].西南农业学报,2020,33(3):494-502. |
DING M L, ZHOU G Y, FANG Y J, et al.. Genetic diversity analysis of wheat breed cultivars (lines) in Yunnan province [J].Southwest China J. Agric. Sci., 2020, 33(3):494-502. | |
10 | AL-KAAB D H, HAMDALLA M S, DWEIKAT I, et al.. Estimation of the degree of diversity for some Iraqi wheat varieties through ISSR, SRAP and RAPD markers [J]. J. Exp. Agric. Int., 2016, 11(3):1-11. |
11 | OUAJA M, BAHRI B A, AOUINI L, et al.. Morphological characterization and genetic diversity analysis of Tunisian durum wheat (Triticum turgidum var. durum) accessions [J]. BMC Genomic Data, 2021, 22(1):1-17. |
12 | 张彦军,苟作旺,王兴荣,等.西北地区和尚头小麦遗传多样性及农艺性状的关联分析[J].草业学报,2019,28(2):142-155. |
ZHANG Y J, GOU Z W, WANG X R, et al.. An analysis of genetic diversity and linked agronomic traits of Heshangtou wheat in northwest China [J]. Acta Pratac. Sin., 2019, 28(2):142-155. | |
13 | 高艳,唐建卫,邹少奎,等.小麦周麦22及其衍生品种的遗传多样性分析[J].植物遗传资源学报,2021,22(1):38-49. |
GAO Y, TANG J W, ZOU S K, et al.. Genetic diversity assessment on derivatives from wheat cultivar Zhoumai 22 [J]. J. Plant Genet. Resour., 2021, 22(1):38-49. | |
14 | 罗琴,杨在君,彭正松,等.人工合成六倍体小麦的ISSR位点遗传多样性分析[J].华北农学报,2016,31(4):119-125. |
LUO Q, YANG Z J, PENG Z S, et al.. Evaluation of genetic diversity in synthetic hexaploid wheats using ISSR markers [J]. Acta Agric. Boreali-Sin., 2016, 31(4):119-125. | |
15 | 张莉莉,韩芳,马守才,等.小麦品种豫麦2号及其衍生系的遗传差异分析[J].中国农业大学学报,2015,20(4):1-11. |
ZHANG L L, HAN F, MA S C, et al.. Genetic differentiation analysis on derived lines from wheat cultivar Yumai 2 [J]. J. China Agric. Univ., 2015, 20(4):1-11. | |
16 | 王秋云,冯雯杰,张巧玲,等.56份人工合成六倍体小麦的遗传多样性分析[J].麦类作物学报,2021,41(8):960-968. |
WANG Q Y, FENG W J, ZHANG Q L, et al.. Genetic diversity analysis of 56 synthetic hexaploid wheats [J]. J. Triticeae Crops, 2021, 41(8):960-968. | |
17 | 张思妮,王震,赵丹阳,等.人工合成小麦农艺性状与SSR标记的关联分析[J].农业生物技术学报,2018,26(4):564-575. |
ZHANG S N, WANG Z, ZHAO D Y, et al.. Association analysis of agronomic traits with SSR markers in synthetic hexaploid wheat (Triticum aestivum) [J]. J. Agric. Biotech., 2018, 26(4):564-575. | |
18 | WANG X, LUO G, YANG W, et al.. Genetic diversity, population structure and marker-trait associations for agronomic and grain traits in wild diploid wheat Triticumurartu [J]. BMC Plant Biol., 2017, 17(112):1-17. |
19 | DONG P, WEI Y M, CHEN G Y, et al.. Sequence-related amplified polymorphism (SRAP) of wild emmer wheat (Triticum dicoccoides) in Israel and its ecological association [J]. Biochem. Syst. Ecol., 2010, 38(1):1-11. |
20 | HASSAN R, WAHEED M Q, SHOKAT S, et al.. Estimation of genomic diversity using sequence related amplified polymorphism (SRAP) markers in a mini core collection of wheat germplasm from Pakistan [J]. Cereal Res. Commun., 2020, 48(1):33-40. |
21 | 赵小庆,史功赋,张向前,等.内蒙古地区典型春小麦亲缘关系的SRAP分析[J].分子植物育种,2020,18(8):2606-2612. |
ZHAO X Q, SHI G F, ZHANG X Q, et al.. Genetic relationship of spring wheat varieties in Inner Mongolia region by SRAP markers [J]. Mol. Plant Breed., 2020, 18(8):2606-2612. | |
22 | 许娜丽,王新华,马冬花,等.251份小麦种质资源的主要农艺与品质性状遗传多样性分析[J].南方农业学报,2021,52(9):2404-2416. |
XU N L, WANG X H, MA D H, et al.. Genetic diversity analysis of main agronomic and quality traits of 251 wheat germplasm resources [J]. J. Southern Agric., 2021, 52(9):2404-2416. | |
23 | 李立会,李秀全,杨欣明.小麦种质资源描述规范和数据标准[M].北京:中国农业出版社,2006. |
LI L H, LI X Q, YANG X M. Description Specification and Data Standard of Wheat Germplasm Resources [M]. Beijing: China Agriculture Press, 2006. | |
24 | 王掌军,姚明明,余慧霞,等.宁春4号×河东乌麦F2:5家系遗传图谱构建与籽粒蛋白质性状QTL分析[J].浙江农业学报,2021,33(8):1367-1378. |
WANG Z J, YAO M M, YU H X, et al.. Construction of genetic map and analysis of QTL for grain protein traits using F2:5 pedigrees derived from Ningchun No.4×Hedong black wheat [J]. Acta Agric. Zhejiangensis, 2021, 33(8):1367-1378. | |
25 | ZHANG L L, WANG B, PAN L, et al.. Recycling isolation of plant DNA, a novel method [J]. J. Genet. Genomics, 2013, 40(1):45-54. |
26 | 王珊珊,李秀全,田纪春.利用SSR标记分析小麦骨干亲本“矮孟牛”及衍生品种(系)的遗传多样性[J].分子植物育种,2007,5(4):485-490. |
WANG S S, LI X Q, TIAN J C. Genetic diversity of main parent of wheat ‘Aimengniu’ and its pedigree on SSR markers [J]. Mol. Plant Breed., 2007,5(4):485-490. | |
27 | 马艳明,娄鸿耀,陈朝燕,等.新疆冬小麦地方品种与育成品种基于SNP芯片的遗传多样性分析[J].作物学报,2020,46(10):1539-1556. |
MA Y M, LOU H Y, CHEN Z Y, et al.. Genetic diversity assessment of winter wheat landraces and cultivars in Xinjiang via SNP array analysis [J]. Acta Agron. Sin., 2020, 46(10):1539-1556. | |
28 | 程西永,吕建华,毛瑞喜,等.山东省近期育成小麦品种(系)的遗传多样性及其与产量性状的关联分析[J].麦类作物学报,2017,37(11):1399-1408. |
CHENG X Y, LYU J H, MAO R X, et al.. Genetic diversity of recent wheat varieties in Shandong province and their association analysis with yield traits [J]. J. Triticeae Crops, 2017, 37(11):1399-1408. | |
29 | 刘志勇,王道文,张爱民,等.小麦育种行业创新现状与发展趋势[J].植物遗传资源学报,2018,19(3):430-434. |
LIU Z Y, WANG D W, ZHANG A M, et al.. Current status and perspective of wheat genomics, genetics and breeding [J]. J. Plant Genet. Resour., 2018, 19(3):430-434. | |
30 | 亓晓蕾,李兴锋,吕广德,等.基于SNP分子标记的泰山/泰科麦系列小麦遗传解析[J].作物杂志,2021(5):64-71. |
QI X L, LI X F, LYU G D, et al.. Genetic analysis of Taishan/Taikemai serial wheat based on SNP molecular markers [J]. Crops, 2021(5):64-71. | |
31 | 施立安,沈祥宏,张玉荣.小麦种质资源引进创新及应用研究[J].农业科技通讯,2017(12):17-25. |
SHI L A, SHEN X H, ZHANG Y R. Innovation and application research of wheat germplasm resources [J]. Bull. Agric. Sci. Technol., 2017(12):17-25. | |
32 | 张文涛,杜久元,陈新宏,等.华山新麦草在小麦遗传改良中的应用研究进展[J].草业学报,2014,23(5):330-337. |
ZHANG W T, DU J Y, CHEN X H, et al.. Progress report on the study of Psathyrostachys huashanica and its application to wheat improvement [J]. Acta Pratac. Sin., 2014, 23(5):330-337. | |
33 | 程斌,张淑英,张明霞,等.山东省近年育成小麦品种(系)的遗传多样性分析[J].山东农业科学,2016,48(9):17-22. |
CHENG B, ZHANG S Y, ZHANG M X, et al.. Genetic diversity analysis of recent bred wheat varieties (lines) in Shandong province [J]. Shandong Agric. Sci., 2016, 48(9):17-22. | |
34 | ABDELKHALIK S M, SALEM A K M, ABDELAZIZ A R, et al.. Morphological and sequence-related amplified polymorphism-based molecular diversity of local and exotic wheat genotypes [J]. Genet. Mol. Res., 2016, 15(2):1-9. |
35 | QUOC N B, TRANG H T T, PHUONG N D N, et al.. Development of a SCAR marker linked to fungal pathogenicity of rice blast fungus Magnaporthe oryzae [J]. Int. Microbiol., 2021, 24(2):149-156. |
36 | ABBASOV M, AKPAROV Z, GROSS T, et al.. Genetic relationship of diploid wheat (Triticum spp.) species assessed by SSR markers [J]. Genet. Resour. Crop Evol., 2018, 65(5):1441-1453. |
37 | ABBASABAD E Z, MOHAMMADI S A, MOGHADDAM M, et al.. Analysis of genetic diversity, population structure and linkage disequilibrium in Iranian wheat landraces using SSR markers [J]. PGR, 2017, 15(4):327-334. |
38 | SALEHI M, ARZANI A, TALEBI M, et al.. Genetic diversity of wheat wild relatives using SSR markers [J]. Genetica, 2018, 50(1):131-141. |
39 | 胡立芹,张超,徐林涛,等.基于SSR标记的六倍体小黑麦遗传多样性分析[J].植物遗传资源学报,2015,16(4):796-805. |
HU L Q, ZHANG C, XU L T, et al.. Genetic diversity of hexaploid Triticale analyzed by SSR markers [J]. J. Plant Genet. Resour., 2015, 16(4):796-805. | |
40 | 郑军,李晓华,赵佳佳,等.山西省小麦育成品种遗传多样性分析[J].植物遗传资源学报,2018,19(4):619-626. |
ZHENG J, LI X H, ZHAO J J, et al.. Genetic diversity analysis of wheat cultivars in Shanxi province [J]. J. Plant Genet. Resour., 2018, 19(4):619-626. | |
41 | 王凤涛,蔺瑞明,欧阳宏雨,等.利用SRAP标记分析河南小麦栽培品种的遗传多样性[J].植物遗传资源学报,2009,10(4):517-521. |
WANG F T, LIN R M, OUYANG H Y, et al.. The application of SRAP-PCR in genetic diversity study of Henan wheat cultivars [J]. J. Plant Genet. Resour., 2009, 10(4):517-521. | |
42 | 袁汉民,张富国,钱晓曦,等.宁夏小麦品种资源研究的回顾与展望[J].作物品种资源,1995(4):11-13. |
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