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分子植物育种
(
网络版
), 2012
,
10
,
1265
-
1277
Fenzi Zhiwu Yuzhong (Online), 2012, Vol.10, 1265
-
1277
http://mpb.5th.sophiapublisher.com
1272
续表
2
Continuing table 2
材料
材料
Material
Material
绿苗
0.01
0.002
0.002
0.986
铁恢
157
0.973 0.011 0.012 0.004
Lvmiao
Tiehui157
黑黄棒子
0.006
0.031
0.002
0.961
F4B
0.011 0.002 0.985 0.002
Heihuangbangzi
铁恢
6
0.551 0.006 0.436 0.007
散穗红壳
0.004
0.002
0.001
0.993
Tiehui6hao
Sansuihongke
0
-
30
0.974 0.01
0.011 0.006
合恢
8
(R)
0.003
0.003
0.002
0.992
135B
0.853 0.005 0.139 0.003
Hehui8hao(R)
4003
0.837 0.006 0.153 0.004
克恢
22
(R)
0.027
0.037
0.002
0.935
吉恢
7384
0.986 0.003 0.005 0.005
Kehui22hao(R)
Jihui7384
v4B
0.014
0.005
0.964
0.017
133R
0.986 0.002 0.002 0.01
小散码
0.01
0.003
0.001
0.986
Nan133R
Xiaosanma
TAM428A
0.002 0.009 0.987 0.002
笤帚高粱
0.015
0.353
0.247
0.385
3148A
0.005 0.002 0.989 0.004
Tiaozhou sorghum
11A
0.193 0.017 0.750 0.039
多头高梁
0.012
0.106
0.013
0.869
Hei11A
Duotou sorghum
30A
0.175 0.015 0.803 0.008
饭高粱
0.009
0.005
0.006
0.980
Hei30A
Fan sorghum
R5933
0.707 0.261 0.005 0.026
绿高粱
0.009
0.009
0.003
0.979
Lv sorghum
3
模型聚类的各群材料最大
Q
值分布
Table 3 Distribution of Q-value in four groups by model-based cluster method
类群
各类群材料数
材料数
(%)
Groups
Number of materials in each group
Amount of materials (%)
Q
0.6
Q
0.6
Q
0.8
Q
0.9
29
0 (0)
29 (100.0)
26 (89.7)
23 (79.3)
15
2 (13.3)
13 (86.7)
10 (66.7)
7 (46.7)
10
3 (30.0)
7 (70.0)
5 (50.0)
4 (40.0)
24
1 (4.2)
23 (95.8)
17 (70.8)
13 (51.2)
合计
78
6 (7.7)
72 (92.3)
58 (74.4)
47 (60.3)
Total
4
模型聚类的各类群遗传多样性
Table 4 Genetic diversity of four groups by model-based cluster method
遗传参数
A
B
4
个类群
Genetic parameters
Four groups
等位变异数
2.8261
2.7826
2.3478
3.9348
4.4130
Number of alleles
有效等位变异
1.7769
1.9443
1.6318
2.7777
2.6462
Effective number of alleles
Shannon
多样性指数
0.5586
0.6800
0.5455
1.0784
1.0462
Shannon's information index
期望杂合度
0.3029
0.3820
0.3198
0.5890
0.5491
Expected heterozygosity (He)
遗传固定指数
0.7631
0.4431
0.1889
0.4166
0.2700
Fixation index (Fst)
基因流
0.6758
Gene flow (Nm)