Crops ›› 2026, Vol. 42 ›› Issue (1): 33-46.doi: 10.16035/j.issn.1001-7283.2026.01.006

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Analysis of Genetic Diversity by SSR Markers and Correlation of Main Agronomic Traits of Rice Germplasm Resources in Border Areas of Yunnan

Tang Cuifeng1(), A Xinxiang1, Dong Chao1, Zhang Feifei1, Yang Yayun1(), Yang Hongmei2, Dai Luyuan1(), Su Zhenxi3   

  1. 1Biotechnology and Germplasm Resources Institute, Yunnan Academy of Agricultural Sciences / Yunnan Provincial Key Laboratory of Agricultural Biotechnology / Key Laboratory of Southwestern Crop Gene Resources and Germplasm Innovation, Ministry of Agriculture and Rural Affairs / Scientific Observation Station for Rice Germplasm Resources of Yunnan, Ministry of Agriculture and Rural Affairs, Kunming 650032, Yunnan, China
    2Institute of Agricultural Research of Xishuangbanna, Xishuangbanna 666100, Yunnan, China
    3Institute of Food Crops,Yunnan Academy of Agricultural Sciences, Kunming 650000, Yunnan, China
  • Received:2024-08-27 Revised:2024-10-16 Online:2026-02-15 Published:2026-02-10

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Abstract:

To analyze the genetic diversity of rice germplasm resources in the border areas of Yunnan Province and identify SSR markers closely related to major agronomic traits, a total of 376 newly collected rice germplasm resources from Yunnan (China), and its adjacent Myanmar and Laos were used as experimental materials. These resources were divided into three analysis units, and 11 phenotypic traits were investigated. Genetic diversity and association with phenotypic traits were analyzed using 27 pairs of SSR markers. Results showed that a total of 142 allelic variation loci were detected, including 100 rare allelic variation loci and nine peculiar allelic variation loci. Based on the comprehensive evaluation of six genetic diversity parameters, the scoring order of rice germplasm resources from the three analysis units was: Yunnan, China analysis unit > Myanmar analysis unit > Laos analysis unit. Among the 27 pairs of SSR markers, RM214, RM1086, RM5481, RM6089, RM1509, and RM7479 were closely associated with phenotypic traits, could explain more than 10.0% of the variation in panicle length, panicle exsertion, filled grains per panicle, unfilled grains per panicle, grains per panicle, and 1000-grain weight. Principal component analysis of phenotypic traits extracted four principal components with a cumulative contribution rate of 77.218%. A total of 36 excellent germplasm resources (comprehensive score ≥1.000) were selected. Among these, Huake, Nalei 5, and Haonuolang had a score greater than 2.000. They demonstrated potential as parents for multiple-tillering and large-panicle type, large-panicle type, and glutinous type, respectively.

Key words: Yunnan border areas, Rice germplasm resources, Genetic diversity, SSR marker, Correlation analysis

Table 1

Genetic diversity index and score of rice germplasm in three analysis units"

分析单元
Analysis unit		 等位基因数
Na		 有效等位基因数
Ne		 基因多样性指数
H		 Shannon多样性指数
I		 多态位点数
NPL		 多态位点百分率
PPL (%)		 得分
Score
老挝Laos 1.8803±0.3258 1.2424±0.3224 0.1526±0.1672 0.2510±0.2295 125 88.03 8
缅甸Myanmar 1.9014±0.2992 1.2306±0.2847 0.1526±0.1538 0.2555±0.2141 128 90.14 11
中国云南Yunnan, China 1.9437±0.2314 1.2487±0.2587 0.1704±0.1420 0.2871±0.1969 134 94.37 18

Table 2

Rare allelic variation, peculiar allelic variation and their distribution in three analysis units"

标记
Marker		 稀有等位变异位点Rare allelic variation loci 特有等位变异位点Peculiar allelic variation loci
老挝
Laos		 缅甸
Myanmar		 中国云南
Yunnan, China		 老挝
Laos		 缅甸
Myanmar		 中国云南
Yunnan, China
RM1812 A、B、C、D A、B、C、D、E A、B、C
RM574 B A A
RM551 B、E B、E A、E A
RM434 B A、B B A
RM214 A、B、C、F A、C、E、F A、C、E、F、H D、H
RM202 A、F B、C B
RM7097 C、D C、D D
RM3395 A、D、E、G A、D、G A、D、E、G
RM241 A、D D
RM10806 B
RM8004 A、D C A
RM471 A、B、D E D
RM1986 A、B A、B、C、D、E A、B、G、H G
RM3466 A、D C A、D
RM3525 D E
RM3643 C、D、F、I、J、K C、D、E、I、J C、F E
RM3855 A、B、C、D、E、G A、C、D、F、G A、C、D、G
RM5481 A、B、D E、F C、D F
RM5611 A、D C B
RM6089 B、C D C
RM3394 B、D、E A、B、D、F、G A、B、E、G
RM7396 A、D E A、B、D、E
RM7390 B、F F A、B、C
RM8268 A、B A、D、E E
RM15090 B、C C
RM3421 A、D D A
RM7479 A

Fig.1

Cluster analysis of 376 rice germplasm resources based on SSR genetic similarity coefficient"

Table 3

Correlation coefficient between allelic variation of SSR markers and phenotypic traits in rice"

标记
Marker		 等位
变异
Allelic
variation		 有效穗数
Effective
panicle number
per plant		 株高
Plant
height
(cm)		 穗长
Panicle
length
(cm)		 穗抽出度
Panicle
exsertion
(cm)		 剑叶长
Flag leaf
length
(cm)		 剑叶宽
Flag leaf
width
(cm)		 穗实粒数
Filled grain
number
per panicle		 穗秕粒数
Unfilled
grain number
per panicle		 穗粒数
Grains
per
panicle		 结实率
Seed
setting
rate (%)		 千粒重
1000-grain
weight
(g)
RM574 A -0.092 0.098 -0.064 0.161** -0.025 -0.015 -0.191** -0.003 -0.145** -0.124* 0.041
B -0.002 -0.100 0.078 -0.122* 0.121* 0.115* 0.210** -0.053 0.129* 0.166** -0.025
C 0.093 0.015 -0.045 -0.014 -0.123* -0.118* -0.090 0.073 -0.027 -0.096 0.005
RM434 A 0.093 -0.115* -0.060 -0.070 -0.080 -0.090 -0.020 -0.010 -0.030 -0.000 -0.060
B -0.076 0.086 0.077 0.019 0.137* -0.002 0.040 -0.035 0.011 0.045 0.042
C -0.176** -0.024 -0.179** 0.178** -0.153** 0.026 -0.291** -0.159** -0.313** -0.010 0.225**
D 0.190** 0.022 0.164** -0.163** 0.111* -0.007 0.268** 0.173** 0.303** -0.012 -0.225**
RM551 A 0.101 0.019 -0.012 -0.032 -0.078 -0.002 -0.058 -0.011 -0.051 -0.037 -0.048
B -0.095 -0.079 -0.357** 0.329** -0.272** -0.251** -0.362** -0.226** -0.405** -0.029 0.118*
C -0.093 0.008 0.045 0.079 0.081 -0.043 0.007 -0.049 -0.021 0.057 0.015
D 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
E 0.029 0.080 0.066 -0.064 0.062 -0.029 0.005 -0.041 -0.020 0.040 0.022
RM214 A -0.063 -0.038 -0.070 0.165** 0.000 0.010 -0.044 -0.099 -0.090 0.059 0.093
B -0.128* -0.117* -0.279** 0.163** -0.240** -0.178** -0.246** -0.190** -0.293** 0.061 0.061
C -0.183** -0.078 -0.148** 0.126* -0.040 -0.005 -0.264** -0.144** -0.284** 0.000 0.272**
D -0.045 0.004 -0.171** 0.158** -0.217** -0.110* -0.254** -0.144** -0.275** -0.019 0.073
E 0.031 0.045 -0.021 0.162** -0.096 -0.054 -0.079 -0.048 -0.088 -0.048 -0.031
F 0.031 0.011 0.015 0.081 0.076 -0.020 0.043 -0.054 0.001 0.080 0.061
G 0.185** 0.058 0.328** -0.415** 0.219** 0.186** 0.476** 0.340** 0.555** -0.032 -0.273**
H -0.010 0.148** 0.126* 0.057 0.148** 0.041 -0.096 0.000 -0.074 -0.076 0.020
RM7097 A -0.198** -0.145** -0.121* -0.355** 0.052 0.095 -0.236** -0.128* -0.251** 0.047 -0.098
B -0.211** 0.138* -0.069 0.188** 0.018 0.009 -0.188** -0.138* -0.221** 0.011 0.182**
C 0.090 0.010 -0.119* -0.181** -0.110* -0.155** -0.134* 0.060 -0.068 -0.146** -0.159**
D -0.093 0.014 0.009 0.222** -0.044 -0.078 0.033 -0.059 -0.009 0.036 -0.008
RM202 A -0.189** -0.037 -0.114* 0.126* -0.038 -0.060 -0.117* -0.161** -0.181** 0.120* 0.252**
B -0.129* -0.016 -0.064 0.167** 0.013 -0.016 -0.101 -0.147** -0.161** 0.083 0.218**
C -0.020 -0.023 -0.261** 0.153** -0.275** -0.185** -0.266** -0.113* -0.267** -0.093 -0.064
D -0.084 0.008 0.049 -0.086 -0.041 0.084 0.025 0.135* 0.098 -0.097 0.047
E 0.078 -0.201** 0.146** -0.179** 0.099 -0.021 0.095 0.039 0.094 0.004 0.054
F 0.064 -0.004 -0.059 0.105 -0.044 0.011 -0.087 -0.105 -0.126* 0.061 -0.017
RM1812 A 0.059 0.067 0.086 -0.133* 0.080 0.060 0.081 0.129* 0.135* -0.078 -0.158**
B 0.068 -0.032 0.093 -0.053 0.081 0.066 0.096 0.053 0.104 0.005 0.038
C -0.134* -0.002 -0.024 -0.002 0.051 -0.033 -0.077 0.031 -0.041 -0.055 -0.032
D -0.026 -0.051 -0.321** 0.191** -0.262** -0.187** -0.285** -0.154** -0.306** -0.040 0.008
E -0.126* -0.037 -0.132* 0.190** -0.119* -0.102 -0.216** -0.156** -0.253** 0.028 0.162**
F 0.151** -0.063 0.121* -0.073 0.078 -0.010 0.120* 0.057 0.125* 0.027 -0.076
RM3395 A 0.064 0.056 -0.038 -0.012 0.021 -0.026 0.005 0.145** 0.086 -0.098 -0.047
B 0.106 -0.140* -0.057 -0.043 0.024 -0.052 -0.106 0.061 -0.047 -0.142* 0.017
C 0.019 0.118* 0.027 0.088 -0.093 -0.093 0.074 -0.069 0.019 0.077 -0.200**
D -0.246** 0.005 -0.002 0.019 0.015 0.039 -0.090 -0.101 -0.126* 0.059 0.211**
E 0.062 -0.006 -0.090 0.076 -0.039 -0.002 -0.066 0.068 -0.011 -0.039 -0.018
F 0.015 0.087 0.183** -0.116* 0.056 0.132* 0.106 0.003 0.082 0.049 0.044
G -0.073 -0.128* -0.170** 0.067 0.015 0.022 0.071 -0.092 0.002 0.134* 0.053
RM241 A 0.016 0.093 0.078 0.089 0.057 0.041 -0.075 0.064 -0.021 -0.013 -0.079
B 0.073 -0.286** -0.142* -0.026 -0.268** -0.131* -0.228** -0.041 -0.198** -0.092 -0.087
C -0.028 0.116* 0.055 -0.076 0.154** 0.098 0.217** 0.027 0.180** 0.063 0.038
D -0.094 0.185** 0.060 0.076 0.124* 0.034 0.085 -0.042 0.043 0.056 0.175**
RM1086 A -0.255** -0.060 -0.198** 0.260** -0.147** -0.010 -0.416** -0.233** -0.447** -0.022 0.377**
B -0.020 -0.127* -0.348** 0.256** -0.275** -0.280** -0.297** -0.020 -0.237** -0.168** -0.090
RM8004 A -0.255** -0.058 -0.198** 0.260** -0.147** -0.013 -0.416** -0.233** -0.447** -0.002 0.377**
B -0.021 -0.127* -0.348** 0.256** -0.275** -0.280** -0.297** -0.019 -0.237** -0.168** -0.086
C 0.037 -0.018 -0.159** 0.164** -0.096 -0.064 -0.084 -0.060 -0.099 0.030 0.037
D -0.176** -0.036 -0.246** 0.244** -0.176** -0.133* -0.285** -0.162** -0.310** -0.011 0.224**
E 0.186** 0.058 0.214** -0.180** 0.167** 0.093 0.297** 0.152** 0.313** 0.025 -0.178**
F -0.076 -0.038 0.102 -0.101 0.031 0.094 -0.025 -0.015 -0.028 0.011 -0.008
RM471 A 0.078 0.048 0.107 -0.004 0.022 -0.013 0.056 0.064 0.080 -0.002 -0.018
B -0.069 0.175** -0.165** 0.130* -0.113 -0.005 -0.060 -0.080 -0.092 0.029 0.004
C 0.022 -0.003 0.011 0.066 0.109 -0.076 -0.049 -0.151* -0.125* 0.063 0.160**
D 0.064 0.063 -0.043 -0.071 0.023 0.080 -0.005 0.228** 0.127* -0.164** -0.171**
E -0.051 -0.227** 0.096 -0.156** -0.054 0.057 0.081 0.080 0.110 -0.004 -0.085
RM1986 A -0.037 0.042 -0.112 0.159** -0.145* -0.027 -0.122* 0.073 -0.052 -0.107 -0.056
B -0.111 0.061 -0.062 0.012 0.008 0.238** 0.117* -0.017 0.080 0.053 0.139*
C -0.111 0.061 -0.062 0.012 0.008 0.238** 0.117* -0.017 0.080 0.053 0.139*
D -0.034 -0.174** -0.003 -0.126* -0.072 0.059 0.042 -0.066 -0.006 0.105 0.083
E 0.009 0.084 0.059 0.099 0.101 0.003 0.066 -0.071 0.009 0.105 0.136*
F 0.046 -0.101 0.062 0.074 -0.060 -0.189** -0.075 -0.094 -0.113 0.026 -0.123*
RM3466 A -0.020 -0.208** -0.346** 0.104 -0.117* -0.110 -0.040 -0.146* -0.110 0.168** 0.049
B -0.226** -0.040 -0.155** 0.268** -0.144* -0.040 -0.380** -0.195** -0.404** -0.030 0.276**
C 0.181** 0.039 0.241** 0.289** 0.113 0.034 0.346** 0.236** 0.402** -0.060 -0.272**
D 0.048 0.200** 0.138* 0.031 0.132* 0.112 -0.020 -0.060 -0.050 0.020 0.067
RM3525 A 0.079 0.151* 0.130* -0.040 0.236** 0.089 0.124* 0.115 0.161** -0.060 -0.143*
B -0.060 0.022 -0.142* -0.030 -0.100 -0.070 -0.050 -0.110 -0.110 0.065 0.071
C -0.121* -0.080 0.004 -0.002 -0.030 -0.010 -0.060 -0.060 -0.080 -0.010 0.073
D -0.080 0.157** -0.040 0.140* -0.126* 0.029 -0.020 0.048 0.015 -0.100 -0.003
E -0.040 0.127* -0.050 0.075 -0.030 0.042 -0.050 0.133* 0.040 -0.050 0.090
RM3643 A 0.180** -0.196** 0.171** -0.208** 0.103 0.092 0.248** 0.090 0.243** 0.043 -0.090
B -0.090 0.202** 0.136* -0.159** 0.073 0.144* 0.211** 0.052 0.192** 0.076 0.017
C -0.040 0.241** 0.135* -0.030 0.237** -0.003 0.159** 0.214** 0.245** -0.080 -0.206**
D -0.100 -0.020 0.058 -0.010 0.031 0.005 -0.070 0.006 -0.050 -0.020 0.075
E 0.228** -0.386** -0.060 -0.178** -0.127* -0.050 0.115 0.036 0.110 0.009 -0.155**
F -0.050 0.244** 0.077 0.016 0.057 0.081 0.073 0.033 0.074 0.038 0.042
G 0.013 0.241** 0.056 0.087 0.136* -0.060 0.038 0.095 0.084 -0.060 -0.177**
H -0.020 -0.010 -0.080 0.095 -0.110 -0.050 -0.268** -0.090 -0.258** -0.110 0.114
I -0.309** 0.052 -0.010 0.126* 0.042 0.103 -0.135* -0.166** -0.199** 0.101 0.331**
RM3855 A -0.273** 0.205** 0.067 0.204** 0.096 0.060 0.036 -0.070 -0.020 0.098 0.092
B -0.030 0.004 -0.030 -0.020 -0.040 0.004 0.030 -0.080 -0.020 0.013 0.109
C 0.031 -0.100 -0.163** 0.067 -0.151* -0.204** -0.228** -0.169** -0.273** 0.016 -0.030
D -0.040 -0.030 -0.002 0.075 -0.030 -0.050 -0.020 -0.127* -0.090 0.118* 0.129*
E 0.041 -0.040 -0.170** 0.171** -0.144* -0.040 -0.260** -0.128* -0.273** -0.010 0.068
F 0.176** -0.050 0.202** -0.321** 0.154** 0.114 0.237** 0.319** 0.364** -0.146* -0.185**
G 0.107 -0.117* -0.149* 0.034 -0.100 -0.129* -0.050 -0.070 -0.080 0.087 -0.110
RM5481 A -0.259** -0.002 -0.123* 0.149* -0.090 0.010 -0.267** -0.175** -0.307** -0.030 0.334**
B -0.100 -0.136* -0.310** 0.331** -0.245** -0.251** -0.347** -0.238** -0.401** -0.001 0.137*
C 0.044 -0.117* -0.362** 0.166** -0.359** -0.313** -0.245** -0.118* -0.256** -0.026 -0.151*
D 0.050 0.230** 0.112 -0.030 0.097 0.056 0.229** 0.150* 0.262** 0.014 -0.187**
E 0.166** -0.040 0.315** -0.349** 0.243** 0.214** 0.308** 0.205** 0.353** 0.006 -0.125*
RM5611 A 0.078 -0.070 -0.249** 0.253** -0.276** -0.295** -0.305** -0.110 -0.296** -0.070 -0.060
B -0.030 -0.060 -0.010 0.011 0.067 -0.010 0.091 -0.010 0.066 0.057 -0.040
C -0.060 0.058 0.173** -0.266** 0.108 0.193** 0.074 0.146* 0.142* -0.090 0.026
D 0.051 0.009 -0.080 0.192** -0.030 -0.030 0.015 -0.154** -0.080 0.173** 0.081
RM6089 A -0.151* -0.138* -0.409** 0.342** -0.281** -0.269** -0.407** -0.271** -0.469** 0.015 0.140*
B -0.134* -0.020 0.020 0.046 0.002 0.011 -0.010 -0.060 -0.040 0.048 0.154**
C -0.030 -0.002 0.002 0.036 0.069 0.050 0.012 -0.010 0.005 0.021 0.018
D 0.173** 0.124* 0.352** -0.329** 0.205** 0.204** 0.349** 0.252** 0.414** -0.030 -0.163**
RM3394 A 0.093 -0.070 -0.070 0.043 -0.090 -0.100 -0.060 0.022 -0.030 -0.050 -0.185**
B 0.116* -0.177** -0.040 -0.001 -0.030 -0.040 -0.010 -0.050 -0.040 0.042 0.021
C 0.112 -0.403** -0.149* -0.050 -0.137* -0.232** -0.060 -0.206** -0.164** 0.153** 0.004
D -0.164** -0.010 -0.100 0.190** -0.145* 0.002 -0.297** -0.120* -0.298** -0.080 0.158**
E -0.060 -0.110 -0.222** 0.098 -0.060 -0.030 -0.137* -0.070 -0.144* 0.074 0.128*
F -0.050 0.305** 0.288** -0.131* 0.233** 0.149* 0.185** 0.219** 0.269** -0.118* -0.020
G 0.009 0.046 0.069 -0.010 0.089 0.035 -0.004 -0.030 -0.020 0.033 0.029
RM7396 A 0.058 -0.080 -0.110 0.020 -0.080 -0.080 -0.040 -0.050 -0.060 0.068 -0.070
B -0.123* 0.067 0.045 -0.060 0.128* 0.096 0.095 0.117* 0.140* -0.050 -0.127*
C 0.036 -0.070 -0.010 -0.060 -0.080 0.022 -0.080 -0.050 -0.090 -0.060 0.180**
D 0.055 0.041 0.005 0.140* -0.010 -0.110 0.052 -0.050 0.012 0.127* -0.080
RM7390 A -0.040 -0.060 -0.189** 0.028 -0.213** -0.050 -0.200** -0.080 -0.198** -0.050 -0.050
B -0.148* 0.037 0.043 0.086 0.090 -0.002 0.016 -0.090 -0.040 0.098 0.085
C -0.080 0.082 -0.030 0.132* -0.050 0.008 -0.144* -0.135* -0.189** 0.041 0.204**
D -0.040 -0.080 -0.237** 0.253** -0.110 -0.133* -0.197** -0.070 -0.190** -0.010 0.131*
E -0.158** -0.117* -0.256** 0.080 -0.238** -0.143* -0.360** -0.040 -0.300** -0.167** 0.096
F 0.117* 0.123* 0.049 0.047 0.061 -0.030 0.002 0.017 0.011 -0.010 -0.119*
RM8268 A -0.020 0.110 0.117* -0.100 0.051 0.074 -0.010 0.045 0.015 -0.070 0.135*
B -0.030 -0.030 -0.120 0.083 -0.040 -0.060 -0.157** -0.050 -0.151* -0.010 0.000
C -0.133* 0.030 -0.119* 0.127* -0.030 0.031 -0.195** -0.040 -0.169** -0.070 0.163**
D 0.004 0.222** 0.197** -0.080 0.057 0.122* 0.234** 0.130* 0.253** 0.010 -0.110
E 0.166** -0.340** -0.070 -0.050 0.001 -0.139* 0.058 -0.110 -0.020 0.154** -0.070
RM1509 A -0.333** -0.090 -0.225** 0.222** -0.110 -0.110 -0.321** -0.227** -0.400** 0.074 0.360**
B 0.353** -0.030 0.152* -0.262** 0.045 0.038 0.232** 0.081 0.231** -0.001 -0.230**
C -0.110 0.234** 0.111 0.127 0.122 0.134* 0.127 0.266** 0.279** -0.139* -0.205**
RM3421 A -0.090 -0.010 0.003 0.107 0.008 0.137* -0.197** -0.130 -0.207** -0.020 0.259**
B -0.030 -0.010 -0.100 0.130 -0.168* 0.025 -0.100 -0.100 -0.120 0.094 0.039
C 0.158* -0.110 0.048 -0.207** 0.135 -0.110 0.181** 0.135 0.197** -0.060 -0.163*
D -0.120 0.155* 0.014 0.059 0.011 0.025 -0.030 -0.020 -0.030 -0.030 0.009
RM7479 A -0.030 -0.156* -0.470** 0.426** -0.384** -0.338** -0.363** -0.228** -0.418** 0.023 -0.040
B -0.204** 0.019 -0.243** 0.139* -0.175** -0.070 -0.319** -0.181** -0.356** -0.050 0.311**
C 0.183** 0.078 0.527** -0.421** 0.403** 0.299** 0.532** 0.305** 0.596** 0.039 -0.217**

Table 4

Percentage change of observed values of rice traits explained by molecular markers"

标记
Marker		 指标
Index		 有效穗数
Effective
panicle number
per plant		 株高
Plant
height		 穗长
Panicle
length		 穗抽出度
Panicle
exsertion		 剑叶长
Flag leaf
length		 剑叶宽
Flag leaf
width		 穗实粒数
Filled
grain number
per panicle		 穗秕粒数
Unfilled
grain number
per panicle		 穗粒数
Grains
per
panicle		 结实率
Seed-
setting
rate		 千粒重
1000-grain
weight
RM574 P (%) 1.4 0.3 0.0 1.2 0.4 0.5 0.4 0.3 0.5 0.0 0.1
F 4.602* 0.859 0.034 3.934* 1.393 1.533 1.141 0.802 1.684 0.061 0.169
RM434 P (%) 2.2 0.0 1.6 1.5 0.6 0.0 4.8 2.3 6.5 0.0 3.2
F 7.018** 0.159 5.267* 4.886* 1.950 0.098 16.157** 7.618** 22.132** 0.100 10.519**
RM551 P (%) 0.0 0.5 2.4 2.0 1.9 0.4 2.4 0.6 2.5 0.2 0.1
F 0.100 1.389 7.224** 5.940* 5.752* 1.208 7.227** 1.857 7.496** 0.589 0.245
RM214 P (%) 5.3 2.3 16.5 13.1 8.6 3.4 19.3 11.1 27.4 0.6 7.2
F 17.655** 7.498** 62.736** 48.014** 29.888** 11.036** 75.928** 39.613** 119.915** 1.772 24.803**
RM7097 P (%) 2.2 1.1 1.3 16.0 0.8 2.3 3.3 0.9 3.6 0.3 0.0
F 7.199** 3.606 4.131* 61.081** 2.690 7.422** 10.845** 2.850 12.109** 1.126 0.030
RM202 P (%) 8.2 0.3 4.1 6.5 1.2 0.7 4.3 3.9 7.4 0.8 8.2
F 18.939** 0.720 8.923** 14.640** 2.511 1.518 9.435** 8.492** 16.801** 1.647 18.829**
RM1812 P (%) 0.1 0.1 0.0 0.2 0.1 0.1 0.1 0.4 0.0 0.6 0.4
F 0.227 0.411 0.040 0.627 0.216 0.234 0.147 1.248 0.115 1.783 1.062
RM3395 P (%) 0.9 0.1 0.2 0.0 0.1 1.6 1.2 0.8 0.1 2.6 0.8
F 2.962 0.198 0.546 0.043 0.304 5.248* 3.941* 2.495 0.413 8.522** 2.676
RM241 P (%) 0.8 3.0 0.2 0.0 2.7 0.4 5.0 0.2 2.2 0.7 3.3
F 2.717 9.882** 0.774 0.148 8.870** 1.370 16.722** 0.485 7.280** 2.340 10.809**
RM1086 P (%) 3.0 4.0 7.0 2.3 5.0 10.1 0.9 2.8 0.1 3.5 17.4
F 2.855 3.873 6.914** 2.194 4.839* 10.356** 0.873 2.684 0.102 3.379 19.356**
RM8004 P (%) 0.4 0.0 8.8 8.6 3.3 2.9 5.1 1.7 6.1 0.0 3.0
F 1.391 0.065 30.779** 30.042** 10.879** 9.507** 17.004** 5.511* 20.581** 0.002 9.794**
RM471 P (%) 0.1 5.0 0.4 2.7 0.0 0.4 0.2 1.0 0.9 0.2 0.8
F 0.359 15.082** 1.139 7.830** 0.011 1.164 0.704 2.863 2.709 0.580 2.195
RM1986 P (%) 1.7 1.1 2.6 0.0 0.4 8.8 0.3 2.2 1.3 0.7 1.2
F 3.742 2.449 5.735* 0.006 0.777 20.559** 0.654 4.868* 2.900 1.501 2.669
RM3466 P (%) 2.8 5.8 15.7 5.4 4.7 2.0 6.4 4.4 9.9 1.0 3.4
F 8.187** 17.371** 52.774** 16.042** 13.904** 5.729* 19.361** 13.041** 31.221** 2.863 9.829*
RM3525 P (%) 1.1 0.1 0.7 1.7 3.5 0.0 1.0 0.3 0.2 0.3 1.6
F 2.640 0.199 1.513 3.895* 8.213** 0.000 2.425 0.604 0.562 0.664 3.796
RM3643 P (%) 1.2 0.3 1.3 2.6 0.5 0.3 4.2 0.8 4.7 0.0 1.2
F 5.961* 1.667 6.535* 13.156** 2.244 1.271 21.812** 4.119* 24.060** 0.181 5.955*
RM3855 P (%) 7.1 2.1 0.3 6.2 0.1 0.1 0.7 5.2 3.8 1.5 3.4
F 21.356** 5.929* 0.729 18.638** 0.190 0.311 2.013 15.242** 11.111** 4.336* 9.789**
RM5481 P (%) 6.8 0.4 13.4 15.0 8.3 4.7 21.1 9.2 27.7 0.0 9.0
F 20.714** 1.179 43.844** 49.916** 25.590** 13.936** 75.681** 28.778** 108.266** 0.127 29.119**
RM5611 P (%) 0.0 0.7 2.2 1.0 2.2 4.2 3.1 0.0 2.0 1.0 1.0
F 0.097 1.922 6.295* 2.712 6.217* 12.165** 8.916** 0.021 5.605* 2.765 2.965
RM6089 P (%) 3.1 2.0 16.4 12.7 7.0 6.6 16.3 7.9 22.3 0.1 2.8
F 9.133** 5.681* 55.593** 41.220** 21.420** 19.910** 55.326** 24.219** 81.372** 0.200 8.145**
RM3394 P (%) 2.2 21.5 6.5 0.5 6.2 5.7 2.6 4.6 6.5 1.0 0.3
F 5.851* 69.705** 17.672** 1.344 16.917** 15.346** 6.927** 12.299** 17.670** 2.612 0.882
RM7396 P (%) 0.6 0.0 0.1 1.1 0.2 0.6 0.0 0.6 0.3 0.4 0.5
F 1.655 0.124 0.247 3.146 0.466 1.648 0.024 1.611 0.718 1.162 1.388
RM7390 P (%) 2.8 0.1 0.1 0.7 0.3 0.4 0.1 4.1 2.8 1.6 3.2
F 2.435 0.066 0.123 0.568 0.258 0.354 0.118 3.592 2.358 1.376 2.710
RM8268 P (%) 2.2 3.7 0.0 0.4 0.0 0.5 4.2 0.0 2.1 2.2 3.0
F 6.450* 10.727** 0.109 1.175 0.026 1.537 12.482** 0.135 5.960* 6.410* 8.572**
RM1509 P (%) 5.8 3.4 6.0 1.8 2.4 2.5 11.3 10.1 22.3 1.6 16.3
F 13.739** 8.035** 14.418** 4.165* 5.427* 5.742* 28.569** 25.198** 64.646** 3.719 43.945**
RM3421 P (%) 0.1 0.6 0.3 1.4 1.0 0.8 2.7 1.8 3.3 0.3 3.5
F 0.139 1.217 0.685 2.883 1.942 1.709 5.564* 3.589 6.861** 0.648 7.239**
RM7479 P (%) 1.8 1.8 31.9 22.2 20.1 12.4 26.1 9.4 33.5 0.0 1.6
F 4.203* 4.203* 105.892** 64.563** 56.990** 32.023** 79.993** 23.362** 113.933** 0.010 3.648

Table 5

Differences of rice phenotypic traits among allelic variations of SSR markers"

标记
Marker		 性状
Trait		 等位变异Allelic variation
A B C D E F G
RM574 穗抽出度(cm) 5.110a 3.634b 3.869b
穗实粒数 93.568b 118.674a 104.204b
RM1509 有效穗数 5.241b 7.440a 5.867b
株高(cm) 114.975b 121.514b 158.033a
穗抽出度(cm) 5.947a 3.068b 6.437a
剑叶宽(cm) 1.623b 1.710b 1.917a
穗实粒数 87.827b 126.353a 151.822a
穗秕粒数 22.179b 45.994b 100.388a
穗粒数 110.006c 172.432b 252.210a
RM7479 穗长(cm) 20.352c 22.730b 25.712a
穗抽出度(cm) 8.782a 5.372b 3.010c
剑叶长(cm) 23.981c 27.842b 31.825a
剑叶宽(cm) 1.385b 1.617a 1.722a
穗实粒数 64.971b 75.195b 122.804a
穗秕粒数 18.655b 25.032b 45.232a
穗粒数 83.627b 100.258b 168.135a
千粒重(g) 26.833b 30.986a 26.695b
RM7097 穗抽出度(cm) 2.589c 4.943b 6.834ab 8.553a
RM241 株高(cm) 129.749ab 113.999c 126.473b 136.312a
剑叶长(cm) 31.926a 29.075b 32.040a 33.004a
千粒重(g) 25.527b 26.118b 26.860b 29.076a
M3466 株高(cm) 99.543c 120.741b 123.502b 149.720a
穗长(cm) 20.051c 23.708b 25.318b 27.194a
剑叶长(cm) 27.916b 28.890b 31.283b 34.952a
穗实粒数 105.561a 72.997b 120.944a 107.380a
结实率(%) 85.070a 72.790b 73.350b 75.400b
RM5611 穗长(cm) 21.411b 24.795a 25.221a 23.095a
剑叶长(cm) 23.825b 31.995a 31.293a 30.354a
剑叶宽(cm) 1.300b 1.667a 1.705a 1.648a
穗实粒数 54.438b 123.596a 114.577a 114.779a
穗粒数 79.724b 163.798a 158.224a 139.047a
RM6089 有效穗数 6.463a 3.900b 6.951a 7.349a
千粒重(g) 28.211b 35.575a 27.028b 26.250b
RM8004 穗长(cm) 21.460c 23.502b 25.444a 25.987a
穗抽出度(cm) 8.813a 5.957b 3.494bc 2.686c
RM3421 穗实粒数 75.087b 102.912a 118.110a 105.922a
穗粒数 99.072b 135.735a 158.124a 141.240a
千粒重(g) 31.875a 27.465b 26.421b 27.288b
RM471 穗秕粒数 47.960b 35.188b 35.502b 69.342a 45.679b
千粒重(g) 26.393a 26.739a 27.525a 23.495b 25.918a
RM3525 剑叶长(cm) 34.282a 29.566b 30.686b 28.836b 30.326b
RM5481 穗长(cm) 23.661b 22.484b 15.225c 25.802a 25.686a
剑叶长(cm) 29.285ab 27.415b 13.325c 32.358a 32.039a
剑叶宽(cm) 1.681ab 1.496b 0.920c 1.713a 1.720a
穗粒数 98.766b 98.156b 32.300c 191.251a 169.199a
千粒重(g) 31.803a 28.320b 20.558d 24.384c 26.218bc
RM8268 株高(cm) 137.000a 120.047b 124.452ab 128.778ab 104.802c
RM202 穗长(cm) 23.607a 24.258a 20.758b 25.334a 25.682a 24.110a
剑叶长(cm) 30.124a 31.245a 22.711b 30.446a 31.836a 29.752a
剑叶宽(cm) 1.612a 1.662a 1.404b 1.732a 1.662a 1.692a
穗实粒数 92.390a 95.910a 52.414b 114.300a 118.600a 94.130a
穗粒数 112.411a 118.741a 73.673b 164.907a 160.624a 118.331a
RM1812 穗长(cm) 26.100a 26.100a 24.681ab 21.746c 23.894b 25.330ab
千粒重(g) 23.331b 27.380a 25.980a 26.780a 28.780a 26.380a
RM1986 穗抽出度(cm) 7.252a 4.249bc 4.249bc 2.568c 5.126b 4.922b
剑叶长(cm) 26.870b 31.026a 31.026a 29.636a 32.360a 30.001a
RM3395 穗秕粒数 73.633a 42.805bc 36.777bc 28.864c 52.440b 40.561bc 27.626c
RM3855 有效穗数 5.706c 6.928bc 7.363bc 6.800bc 7.398bc 7.496b 9.267a
株高(cm) 136.477a 123.272a 114.501a 120.412a 119.928a 121.798a 94.000b
穗长(cm) 25.443a 24.607a 23.144a 24.865a 23.281a 25.514a 20.307b
千粒重(g) 27.848a 28.396a 26.214a 29.181a 27.679a 25.833a 21.453b
RM3394 千粒重(g) 21.730b 27.043a 26.728a 29.020a 29.013a 26.546a 27.890a

Table 6

Principal component analysis of phenotypic traits of rice germplasm"

项目
Item		 主成分Principle component
PC1 PC2 PC3 PC4
株高Plant height (cm) 0.247 0.108 -0.372 0.606
穗长Panicle length (cm) 0.400 0.126 -0.095 0.101
有效穗数Effective panicle number per plant -0.114 -0.125 0.507 0.254
穗实粒数Filled grain number per panicle 0.369 0.268 0.392 0.071
穗秕粒数Unfilled grain number per panicle 0.306 -0.537 -0.080 -0.008
穗粒数Grains per panicle 0.455 -0.103 0.252 0.051
结实率Seed setting rate (%) -0.064 0.628 0.332 0.011
千粒重1000-grain weight (g) 0.017 0.351 -0.380 -0.468
穗抽出度Panicle exsertion (cm) -0.188 0.198 -0.295 0.607
剑叶长Flag leaf length (cm) 0.391 0.132 -0.029 0.029
剑叶宽Flag leaf width (cm) 0.370 0.109 -0.171 -0.211
特征值Eigenvalue 3.796 1.946 1.458 1.294
方差贡献率Variance contribution rate (%) 34.510 17.690 13.251 11.767
累计贡献率Cumulative contribution rate (%) 34.510 52.200 65.451 77.218

Table 7

Rice germplasm with comprehensive principal component score ≥1.000"

编号Code 分析单元Analysis unit 种质名称Germplasm name PC1 PC2 PC3 PC4 D
Z7 中国云南 大白谷 2.385 1.095 -0.282 2.361 1.628
Z15 中国云南 huoheng 0.932 5.537 -0.718 1.370 1.771
Z21 中国云南 花壳 2.866 3.401 0.973 2.451 2.600
Z25 中国云南 小勐卯 2.282 -0.585 1.569 0.009 1.157
Z30 中国云南 毫糯浪 0.078 8.905 -0.693 0.838 2.084
Z82 中国云南 黄板所 1.882 1.099 0.308 -0.063 1.136
Z107 中国云南 桂朝糯 1.667 1.559 0.299 0.557 1.238
Z112 中国云南 红吊谷 2.336 0.581 0.745 2.510 1.687
Z113 中国云南 绿帮谷 1.727 1.038 0.595 2.181 1.444
Z143 老挝 纳列3 3.113 0.772 0.249 -1.674 1.356
Z162 老挝 纳列5 4.308 -0.336 1.730 -0.146 2.123
Z163 老挝 纳列13 3.750 0.327 -0.228 -0.664 1.610
Z170 老挝 曼岛9 2.126 2.077 0.050 1.961 1.733
Z173 老挝 曼岛16 2.512 0.862 -0.003 0.266 1.360
Z194 老挝 纳列9 1.571 1.956 -1.059 1.552 1.205
Z211 老挝 南元Y10 2.240 0.576 -0.406 -0.415 1.000
Z213 老挝 南元Y12 2.213 2.070 0.235 -0.259 1.464
Z232 老挝 BLKS1176 1.926 1.997 -0.336 -0.983 1.111
Z298 缅甸 Ssin thukha 1.984 -1.077 1.880 0.650 1.062
Z329 缅甸 Naung Tu Mee She 1.160 1.096 0.794 1.418 1.122
Z339 缅甸 Yakhine Bo 2.925 -0.637 1.196 1.038 1.524
Z341 缅甸 Kyun Put Gyi 2.753 -0.135 -0.939 1.952 1.335
Z342 缅甸 Saba Phyu 3.811 -1.893 -1.926 3.008 1.397
Z343 缅甸 Shwe Pyi Aye 1.867 0.716 1.186 1.023 1.358
Z347 缅甸 Nga Hhmwe 1.384 0.774 1.542 1.142 1.234
Z349 缅甸 Man Sar 0.646 1.157 0.354 3.137 1.093
Z351 缅甸 Ta Yay Gyi 2.033 2.333 -1.360 3.814 1.791
Z352 缅甸 Kyaung Thwa 3.682 -1.981 -0.973 2.669 1.431
Z354 缅甸 Mayin Ni 1.874 0.799 0.394 0.156 1.112
Z356 缅甸 Lone Phyu 2.838 0.173 1.218 0.561 1.602
Z357 缅甸 Let Thae Gyan 2.531 1.097 -1.089 3.505 1.729
Z358 缅甸 Myin Thwa Gyi 2.001 0.870 -0.357 0.848 1.162
Z362 缅甸 Saw Pha Gyi 2.568 0.428 -1.080 1.645 1.311
Z363 缅甸 Khao La Shae 1.858 1.225 -0.348 0.463 1.122
Z364 缅甸 Khaw Ma Kyaw 3.820 -1.353 0.393 0.778 1.583
Z369 缅甸 Ye Tha 1.793 0.222 1.247 0.703 1.173
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