Journal of Agricultural Science and Technology ›› 2023, Vol. 25 ›› Issue (8): 88-95.DOI: 10.13304/j.nykjdb.2022.0091
• BIOTECHNOLOGY & LIFE SCIENCE • Previous Articles Next Articles
Lei ZHENG1,2(), Huadong WANG1, Li CUI2, Xuelan LIANG1(
)
Received:
2022-02-08
Accepted:
2022-03-03
Online:
2023-08-20
Published:
2023-09-07
Contact:
Xuelan LIANG
通讯作者:
梁雪兰
作者简介:
郑雷 E-mail:zhenglei19870922@163.com;
基金资助:
CLC Number:
Lei ZHENG, Huadong WANG, Li CUI, Xuelan LIANG. Analysis on Seed Traits of Trichosanthes kirilowii Maxim. from Different Provenances[J]. Journal of Agricultural Science and Technology, 2023, 25(8): 88-95.
郑雷, 王化东, 崔丽, 梁雪兰. 不同种源栝楼种子性状分析[J]. 中国农业科技导报, 2023, 25(8): 88-95.
种源Provenance | 采集地点 Collection location | 经度 Longitude | 纬度 Latitude |
---|---|---|---|
1 | 河南省周口市项城市 Xiangcheng City, Zhoukou City, Henan Province | 114°50′49″ E | 33°26′52″ N |
2 | 山东省泰安市岱岳区 Daiyue District, Tai'an City, Shandong Province | 117°25′35″ E | 36°4′53″ N |
3 | 四川省巴中市南江县 Nanjiang County, Bazhong City, Sichuan Province | 106°46′54″ E | 32°22′13″ N |
4 | 山东省临沂市平邑县 Pingyi County, Linyi City, Shandong Province | 117°40′31″ E | 35°32′34″ N |
5 | 湖南省怀化市靖州县 Jingzhou County, Huaihua City, Hunan Province | 109°41′39″ E | 26°34′24″ N |
6 | 湖南省常德市澧县 Li County, Changde City, Hunan Province | 111°38′38″ E | 29°44′54″ N |
7 | 四川省绵阳市游仙区 Youxian District, Mianyang City, Sichuan Province | 104°55′57″ E | 31°40′26″ N |
8 | 安徽省滁州市定远县 Dingyuan County, Chuzhou City, Anhui Province | 117°40′49″ E | 32°31′14″ N |
9 | 河北省保定市博野县 Boye County, Baoding City, Hebei Province | 115°26′41″ E | 38°25′56″ N |
10 | 河南省南阳市唐家河县 Tangjiahe County, Nanyang City, Henan Province | 116°24′48″ E | 39°54′39″ N |
11 | 四川省广安市武胜县 Wusheng County, Guangan City, Sichuan Province | 106°25′18″ E | 30°22′05″ N |
12 | 山东省济南市济阳区 Jiyang District, Jinan City, Shandong Province | 117°1′44″ E | 37°1′44″ N |
Table 1 Basic information of T.kirilowii from different provenances
种源Provenance | 采集地点 Collection location | 经度 Longitude | 纬度 Latitude |
---|---|---|---|
1 | 河南省周口市项城市 Xiangcheng City, Zhoukou City, Henan Province | 114°50′49″ E | 33°26′52″ N |
2 | 山东省泰安市岱岳区 Daiyue District, Tai'an City, Shandong Province | 117°25′35″ E | 36°4′53″ N |
3 | 四川省巴中市南江县 Nanjiang County, Bazhong City, Sichuan Province | 106°46′54″ E | 32°22′13″ N |
4 | 山东省临沂市平邑县 Pingyi County, Linyi City, Shandong Province | 117°40′31″ E | 35°32′34″ N |
5 | 湖南省怀化市靖州县 Jingzhou County, Huaihua City, Hunan Province | 109°41′39″ E | 26°34′24″ N |
6 | 湖南省常德市澧县 Li County, Changde City, Hunan Province | 111°38′38″ E | 29°44′54″ N |
7 | 四川省绵阳市游仙区 Youxian District, Mianyang City, Sichuan Province | 104°55′57″ E | 31°40′26″ N |
8 | 安徽省滁州市定远县 Dingyuan County, Chuzhou City, Anhui Province | 117°40′49″ E | 32°31′14″ N |
9 | 河北省保定市博野县 Boye County, Baoding City, Hebei Province | 115°26′41″ E | 38°25′56″ N |
10 | 河南省南阳市唐家河县 Tangjiahe County, Nanyang City, Henan Province | 116°24′48″ E | 39°54′39″ N |
11 | 四川省广安市武胜县 Wusheng County, Guangan City, Sichuan Province | 106°25′18″ E | 30°22′05″ N |
12 | 山东省济南市济阳区 Jiyang District, Jinan City, Shandong Province | 117°1′44″ E | 37°1′44″ N |
种源 Provenance | 种子长度 Seed length/ mm | 种子宽度 Seed width/ mm | 种子厚度 Seed thickness/mm | 种子长宽比 Seed aspect ratio | 种仁长度 Seed kernel length/mm | 种仁宽度 Seed kernel width/mm | 种仁厚度 Seed kernel thickness/ mm | 种仁长宽比 Seed kernel aspect ratio | 种子千粒重 1 000-grain seed weight/g | 种仁千粒重 1 000-grain seed kernel weight/g | 种仁千粒重/种子千粒重 1 000-grain seed weight/ 1 000-grain seed kernel weight/% |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 13.90±0.76 b | 8.71±0.09 e | 3.37±0.10 c | 1.60±0.07 bc | 12.39±0.36 b | 6.57±0.18 c | 2.18±0.07 c | 1.89±0.01 ab | 170.86±3.43 d | 109.60±2.07 ef | 64.37±2.38 ab |
2 | 13.68±1.18 bc | 9.30±0.53 cd | 3.72±0.15 b | 1.47±0.05 cde | 1.47±0.05 cde | 6.86±0.57 bc | 2.15±0.06 cd | 1.71±0.13 cd | 198.93±4.08 c | 116.24±3.23 de | 57.31±2.55 cd |
3 | 15.36±0.63 a | 10.52±0.22 a | 3.89±0.11 b | 1.46±0.07 de | 1.46±0.07 de | 8.00±0.50 a | 2.77±0.23 ab | 1.68±0.11 cde | 290.26±4.34 a | 184.72±4.45 a | 63.66±0.50 ab |
4 | 12.93±0.75 bc | 8.84±0.26 de | 3.90±0.07 b | 1.46±0.04 de | 1.46±0.04 de | 6.72±0.12 bc | 2.22±0.13 c | 1.48±0.02 f | 155.92±2.39 e | 98.72±3.62 g | 62.94±2.46 b |
5 | 12.64±0.54 c | 7.49±0.09 g | 2.56±0.08 e | 1.69±0.08 ab | 1.69±0.08 ab | 5.89±0.19 d | 1.87±0.08 e | 1.95±0.04 ab | 141.31±4.36 f | 77.36±2.72 h | 56.04±0.88 cd |
6 | 13.19±0.13 bc | 7.48±0.29 g | 2.89±0.18 d | 1.77±0.06 a | 1.77±0.06 a | 5.56±0.07 a | 1.91±0.12 de | 1.88±0.02 ab | 139.48±1.89 f | 70.99±2.29 h | 51.35±0.67 e |
7 | 15.27±0.51 a | 8.59±0.04 ef | 3.02±0.04 d | 1.78±0.07 a | 1.78±0.07 a | 6.75±0.14 bc | 2.09±0.01 cde | 1.81±0.05 bc | 173.09±3.85 d | 103.70±2.93 fg | 59.17±0.53 c |
8 | 15.48±0.52 a | 9.84±0.31 bc | 3.79±0.20 b | 1.58±0.10 bcd | 1.58±0.10 bcd | 7.28±0.27 b | 2.79±0.07 ab | 1.83±0.17 bc | 281.64±4.32 a | 157.84±4.48 c | 55.56±2.34 d |
9 | 13.91±0.35 b | 10.33±0.3 ab | 3.86±0.12 b | 1.35±0.02 e | 1.35±0.02 e | 7.96±0.03 a | 2.30±0.04 c | 1.49±0.02 f | 282.26±1.90 a | 144.48±3.40 d | 50.94±1.28 e |
10 | 13.61±0.48 bc | 9.07±0.26 de | 3.91±0.03 b | 1.50±0.08 cd | 1.50±0.08 cd | 7.00±0.42 bc | 2.60±0.24 b | 1.55±0.08 def | 247.13±4.07 b | 122.63±3.03 d | 49.11±1.30 e |
11 | 13.58±0.19 bc | 10.13±0.4 ab | 4.32±0.06 a | 1.34±0.06 e | 1.34±0.06 e | 7.14±0.13 bc | 2.90±0.10 a | 1.51±0.04 ef | 253.93±2.68 b | 142.97±2.99 c | 56.04±0.93 cd |
12 | 13.77±0.09 bc | 8.07±0.13 fg | 3.70±0.08 b | 1.71±0.02 ab | 1.71±0.02 ab | 5.52±0.21 d | 2.69±0.09 ab | 2.04±0.09 a | 149.10±2.60 ef | 100.42±3.62 g | 67.07±2.65 a |
均值Mean | 13.95 | 9.03 | 3.58 | 1.56 | 11.63 | 6.77 | 2.37 | 1.73 | 206.99 | 119.14 | 57.80 |
变幅Range | 12.64~15.48 | 7.48~10.53 | 2.56~4.32 | 1.34~1.78 | 9.96~13.38 | 5.52~8.00 | 1.87~2.90 | 1.48~2.04 | 139.48~290.26 | 70.99~184.72 | 49.11~67.07 |
变异系数 Coefficient of variation | 6.76 | 11.51 | 14.33 | 9.74 | 9.10 | 11.96 | 15.16 | 11.03 | 28.89 | 27.94 | 10.00 |
方差值Variance value | 5.072** | 27.053** | 37.995** | 10.875** | 24.069** | 15.940** | 17.298** | 11.157** | 3 576.14** | 1 108.23** | 33.39** |
Table 2 Variance and variation analysis on seed traits of T.kirilowii from different provenances
种源 Provenance | 种子长度 Seed length/ mm | 种子宽度 Seed width/ mm | 种子厚度 Seed thickness/mm | 种子长宽比 Seed aspect ratio | 种仁长度 Seed kernel length/mm | 种仁宽度 Seed kernel width/mm | 种仁厚度 Seed kernel thickness/ mm | 种仁长宽比 Seed kernel aspect ratio | 种子千粒重 1 000-grain seed weight/g | 种仁千粒重 1 000-grain seed kernel weight/g | 种仁千粒重/种子千粒重 1 000-grain seed weight/ 1 000-grain seed kernel weight/% |
---|---|---|---|---|---|---|---|---|---|---|---|
1 | 13.90±0.76 b | 8.71±0.09 e | 3.37±0.10 c | 1.60±0.07 bc | 12.39±0.36 b | 6.57±0.18 c | 2.18±0.07 c | 1.89±0.01 ab | 170.86±3.43 d | 109.60±2.07 ef | 64.37±2.38 ab |
2 | 13.68±1.18 bc | 9.30±0.53 cd | 3.72±0.15 b | 1.47±0.05 cde | 1.47±0.05 cde | 6.86±0.57 bc | 2.15±0.06 cd | 1.71±0.13 cd | 198.93±4.08 c | 116.24±3.23 de | 57.31±2.55 cd |
3 | 15.36±0.63 a | 10.52±0.22 a | 3.89±0.11 b | 1.46±0.07 de | 1.46±0.07 de | 8.00±0.50 a | 2.77±0.23 ab | 1.68±0.11 cde | 290.26±4.34 a | 184.72±4.45 a | 63.66±0.50 ab |
4 | 12.93±0.75 bc | 8.84±0.26 de | 3.90±0.07 b | 1.46±0.04 de | 1.46±0.04 de | 6.72±0.12 bc | 2.22±0.13 c | 1.48±0.02 f | 155.92±2.39 e | 98.72±3.62 g | 62.94±2.46 b |
5 | 12.64±0.54 c | 7.49±0.09 g | 2.56±0.08 e | 1.69±0.08 ab | 1.69±0.08 ab | 5.89±0.19 d | 1.87±0.08 e | 1.95±0.04 ab | 141.31±4.36 f | 77.36±2.72 h | 56.04±0.88 cd |
6 | 13.19±0.13 bc | 7.48±0.29 g | 2.89±0.18 d | 1.77±0.06 a | 1.77±0.06 a | 5.56±0.07 a | 1.91±0.12 de | 1.88±0.02 ab | 139.48±1.89 f | 70.99±2.29 h | 51.35±0.67 e |
7 | 15.27±0.51 a | 8.59±0.04 ef | 3.02±0.04 d | 1.78±0.07 a | 1.78±0.07 a | 6.75±0.14 bc | 2.09±0.01 cde | 1.81±0.05 bc | 173.09±3.85 d | 103.70±2.93 fg | 59.17±0.53 c |
8 | 15.48±0.52 a | 9.84±0.31 bc | 3.79±0.20 b | 1.58±0.10 bcd | 1.58±0.10 bcd | 7.28±0.27 b | 2.79±0.07 ab | 1.83±0.17 bc | 281.64±4.32 a | 157.84±4.48 c | 55.56±2.34 d |
9 | 13.91±0.35 b | 10.33±0.3 ab | 3.86±0.12 b | 1.35±0.02 e | 1.35±0.02 e | 7.96±0.03 a | 2.30±0.04 c | 1.49±0.02 f | 282.26±1.90 a | 144.48±3.40 d | 50.94±1.28 e |
10 | 13.61±0.48 bc | 9.07±0.26 de | 3.91±0.03 b | 1.50±0.08 cd | 1.50±0.08 cd | 7.00±0.42 bc | 2.60±0.24 b | 1.55±0.08 def | 247.13±4.07 b | 122.63±3.03 d | 49.11±1.30 e |
11 | 13.58±0.19 bc | 10.13±0.4 ab | 4.32±0.06 a | 1.34±0.06 e | 1.34±0.06 e | 7.14±0.13 bc | 2.90±0.10 a | 1.51±0.04 ef | 253.93±2.68 b | 142.97±2.99 c | 56.04±0.93 cd |
12 | 13.77±0.09 bc | 8.07±0.13 fg | 3.70±0.08 b | 1.71±0.02 ab | 1.71±0.02 ab | 5.52±0.21 d | 2.69±0.09 ab | 2.04±0.09 a | 149.10±2.60 ef | 100.42±3.62 g | 67.07±2.65 a |
均值Mean | 13.95 | 9.03 | 3.58 | 1.56 | 11.63 | 6.77 | 2.37 | 1.73 | 206.99 | 119.14 | 57.80 |
变幅Range | 12.64~15.48 | 7.48~10.53 | 2.56~4.32 | 1.34~1.78 | 9.96~13.38 | 5.52~8.00 | 1.87~2.90 | 1.48~2.04 | 139.48~290.26 | 70.99~184.72 | 49.11~67.07 |
变异系数 Coefficient of variation | 6.76 | 11.51 | 14.33 | 9.74 | 9.10 | 11.96 | 15.16 | 11.03 | 28.89 | 27.94 | 10.00 |
方差值Variance value | 5.072** | 27.053** | 37.995** | 10.875** | 24.069** | 15.940** | 17.298** | 11.157** | 3 576.14** | 1 108.23** | 33.39** |
指标Index | X1 | X2 | X3 | X4 | X5 | X6 | X7 | X8 | X9 | X10 | X11 |
---|---|---|---|---|---|---|---|---|---|---|---|
X1 | 1.000 | ||||||||||
X2 | 0.537 | 1.000 | |||||||||
X3 | 0.209 | 0.792** | 1.000 | ||||||||
X4 | 0.035 | -0.821** | -0.813** | 1.000 | |||||||
X5 | 0.832** | 0.463 | 0.003 | 0.010 | 1.000 | ||||||
X6 | 0.543 | 0.944** | 0.614* | -0.755** | 0.506 | 1.000 | |||||
X7 | 0.465 | 0.670* | 0.809** | -0.480 | 0.285 | 0.464 | 1.000 | ||||
X8 | 0.065 | -0.666* | -0.672* | 0.838** | 0.255 | -0.701* | -0.267 | 1.000 | |||
X9 | 0.576 | 0.923** | 0.672* | -0.694* | 0.530 | 0.896** | 0.694* | -0.552 | 1.000 | ||
X10 | 0.687* | 0.941** | 0.702* | -0.649* | 0.648* | 0.880** | 0.765** | -0.440 | 0.937** | 1.000 | |
X11 | 0.177 | -0.066 | 0.061 | 0.168 | 0.214 | -0.169 | 0.152 | 0.362 | -0.304 | 0.035 | 1.000 |
Table 3 Correlation analysis on seed traits of T.kirilowii from different provenances
指标Index | X1 | X2 | X3 | X4 | X5 | X6 | X7 | X8 | X9 | X10 | X11 |
---|---|---|---|---|---|---|---|---|---|---|---|
X1 | 1.000 | ||||||||||
X2 | 0.537 | 1.000 | |||||||||
X3 | 0.209 | 0.792** | 1.000 | ||||||||
X4 | 0.035 | -0.821** | -0.813** | 1.000 | |||||||
X5 | 0.832** | 0.463 | 0.003 | 0.010 | 1.000 | ||||||
X6 | 0.543 | 0.944** | 0.614* | -0.755** | 0.506 | 1.000 | |||||
X7 | 0.465 | 0.670* | 0.809** | -0.480 | 0.285 | 0.464 | 1.000 | ||||
X8 | 0.065 | -0.666* | -0.672* | 0.838** | 0.255 | -0.701* | -0.267 | 1.000 | |||
X9 | 0.576 | 0.923** | 0.672* | -0.694* | 0.530 | 0.896** | 0.694* | -0.552 | 1.000 | ||
X10 | 0.687* | 0.941** | 0.702* | -0.649* | 0.648* | 0.880** | 0.765** | -0.440 | 0.937** | 1.000 | |
X11 | 0.177 | -0.066 | 0.061 | 0.168 | 0.214 | -0.169 | 0.152 | 0.362 | -0.304 | 0.035 | 1.000 |
性状 Trait | 类群Ⅰ Group Ⅰ | 类群Ⅱ Group Ⅱ | 类群 Ⅲ Group Ⅲ | F值 F value |
---|---|---|---|---|
种子长度Seed length/mm | 13.62±0.86 a | 13.68±1.18 a | 14.39±0.85 a | 0.81 |
种子宽度Seed width/mm | 8.20±0.56 b | 9.30±0.53 a | 9.98±0.51 a | 13.41** |
种子厚度Seed thickness/mm | 3.24±0.47 b | 3.72±0.15 ab | 3.95±0.19 a | 5.17* |
种子长宽比 Seed aspect ratio | 1.67±0.11 a | 1.47±0.05 b | 1.45±0.09 b | 7.13* |
种仁长度Seed kernel length/mm | 11.29±0.87 a | 11.63±0.19 a | 12.04±1.12 a | 0.78 |
种仁宽度Seed kernel width/mm | 6.17±0.53 b | 6.86±0.57 a | 7.48±0.42 a | 13.71** |
种仁厚度Seed kernel thickness/mm | 2.16±0.27 b | 2.15±0.06 b | 2.67±0.21 a | 7.06* |
种仁长宽比Seed kernel aspect ratio | 1.84±0.18 a | 1.71±0.13 ab | 1.61±0.13 b | 2.52 |
种子千粒重1000-grain seed weight/g | 154.96±13.18 c | 198.93±4.08 b | 271.04±17.16 a | 73.45** |
种仁千粒重1000-grain seed kernel weight/g | 93.47±14.17 b | 116.24±3.23 b | 150.53±20.47 a | 14.70** |
种仁千粒重/种子千粒重 1 000-grain seed weight/1 000-grain seed kernel weight/% | 60.16±5.30 a | 57.31±2.55 a | 55.06±5.05 a | 1.24 |
Table 4 Characteristics on seed traits of various T.kirilowii groups
性状 Trait | 类群Ⅰ Group Ⅰ | 类群Ⅱ Group Ⅱ | 类群 Ⅲ Group Ⅲ | F值 F value |
---|---|---|---|---|
种子长度Seed length/mm | 13.62±0.86 a | 13.68±1.18 a | 14.39±0.85 a | 0.81 |
种子宽度Seed width/mm | 8.20±0.56 b | 9.30±0.53 a | 9.98±0.51 a | 13.41** |
种子厚度Seed thickness/mm | 3.24±0.47 b | 3.72±0.15 ab | 3.95±0.19 a | 5.17* |
种子长宽比 Seed aspect ratio | 1.67±0.11 a | 1.47±0.05 b | 1.45±0.09 b | 7.13* |
种仁长度Seed kernel length/mm | 11.29±0.87 a | 11.63±0.19 a | 12.04±1.12 a | 0.78 |
种仁宽度Seed kernel width/mm | 6.17±0.53 b | 6.86±0.57 a | 7.48±0.42 a | 13.71** |
种仁厚度Seed kernel thickness/mm | 2.16±0.27 b | 2.15±0.06 b | 2.67±0.21 a | 7.06* |
种仁长宽比Seed kernel aspect ratio | 1.84±0.18 a | 1.71±0.13 ab | 1.61±0.13 b | 2.52 |
种子千粒重1000-grain seed weight/g | 154.96±13.18 c | 198.93±4.08 b | 271.04±17.16 a | 73.45** |
种仁千粒重1000-grain seed kernel weight/g | 93.47±14.17 b | 116.24±3.23 b | 150.53±20.47 a | 14.70** |
种仁千粒重/种子千粒重 1 000-grain seed weight/1 000-grain seed kernel weight/% | 60.16±5.30 a | 57.31±2.55 a | 55.06±5.05 a | 1.24 |
指标Index | 主成分 Principal component | ||
---|---|---|---|
1 | 2 | 3 | |
种子长度Seed length(X1) | 0.559 | 0.743 | -0.138 |
种子宽度Seed width(X2) | 0.988 | -0.018 | -0.017 |
种子厚度Seed thickness(X3) | 0.815 | -0.302 | 0.439 |
种子长宽比 Seed aspect ratio (X4) | -0.794 | 0.520 | -0.099 |
种仁长度Seed kernel length(X5) | 0.464 | 0.818 | -0.237 |
种仁宽度 Seed kernel width(X6) | 0.929 | -0.012 | -0.250 |
种仁厚度 Seed kernel thickness(X7) | 0.745 | 0.130 | 0.447 |
种仁长宽比 Seed kernel aspect ratio (X8) | -0.648 | 0.681 | 0.093 |
种子千粒重 1 000-grain seed weight(X9) | 0.952 | 0.050 | -0.228 |
种仁千粒重1 000-grain seed kernel weight(X10) | 0.961 | 0.242 | 0.012 |
种仁千粒重/种子千粒重1 000-grain seed weight/1 000-grain seed kernel weight(X11) | -0.088 | 0.473 | 0.770 |
贡献率 Contribution rate/% | 58.88 | 21.35 | 10.86 |
累计贡献率 Cumulative contribution rate/% | 58.88 | 80.23 | 91.09 |
Table 5 Principal component analysis on seed traits of T.kirilowii from different provenances
指标Index | 主成分 Principal component | ||
---|---|---|---|
1 | 2 | 3 | |
种子长度Seed length(X1) | 0.559 | 0.743 | -0.138 |
种子宽度Seed width(X2) | 0.988 | -0.018 | -0.017 |
种子厚度Seed thickness(X3) | 0.815 | -0.302 | 0.439 |
种子长宽比 Seed aspect ratio (X4) | -0.794 | 0.520 | -0.099 |
种仁长度Seed kernel length(X5) | 0.464 | 0.818 | -0.237 |
种仁宽度 Seed kernel width(X6) | 0.929 | -0.012 | -0.250 |
种仁厚度 Seed kernel thickness(X7) | 0.745 | 0.130 | 0.447 |
种仁长宽比 Seed kernel aspect ratio (X8) | -0.648 | 0.681 | 0.093 |
种子千粒重 1 000-grain seed weight(X9) | 0.952 | 0.050 | -0.228 |
种仁千粒重1 000-grain seed kernel weight(X10) | 0.961 | 0.242 | 0.012 |
种仁千粒重/种子千粒重1 000-grain seed weight/1 000-grain seed kernel weight(X11) | -0.088 | 0.473 | 0.770 |
贡献率 Contribution rate/% | 58.88 | 21.35 | 10.86 |
累计贡献率 Cumulative contribution rate/% | 58.88 | 80.23 | 91.09 |
种源 Provenance | 主成分得分Principal component score | 综合得分 Comprehensive score | 得分排名 Score ranking | ||
---|---|---|---|---|---|
F1 | F2 | F3 | |||
1 | -0.56 | 0.21 | 0.74 | -0.20 | 9 |
2 | 0.18 | -0.22 | -0.26 | 0.03 | 7 |
3 | 0.75 | 1.67 | 0.64 | 0.87 | 1 |
4 | 0.77 | -1.62 | 0.52 | 0.16 | 6 |
5 | -1.46 | -0.53 | -0.65 | -1.04 | 11 |
6 | -1.34 | -0.81 | -0.89 | -1.06 | 12 |
7 | -1.16 | 0.89 | -0.21 | -0.52 | 10 |
8 | 0.07 | 1.68 | 0.03 | 0.40 | 4 |
9 | 0.98 | 0.30 | -1.51 | 0.48 | 3 |
10 | 0.68 | -0.45 | -0.94 | 0.20 | 5 |
11 | 1.60 | -0.63 | 0.26 | 0.83 | 2 |
12 | -0.49 | -0.50 | 2.28 | -0.15 | 8 |
Table 6 Comprehensive evaluation on seed traits of T.kirilowii from different provenances
种源 Provenance | 主成分得分Principal component score | 综合得分 Comprehensive score | 得分排名 Score ranking | ||
---|---|---|---|---|---|
F1 | F2 | F3 | |||
1 | -0.56 | 0.21 | 0.74 | -0.20 | 9 |
2 | 0.18 | -0.22 | -0.26 | 0.03 | 7 |
3 | 0.75 | 1.67 | 0.64 | 0.87 | 1 |
4 | 0.77 | -1.62 | 0.52 | 0.16 | 6 |
5 | -1.46 | -0.53 | -0.65 | -1.04 | 11 |
6 | -1.34 | -0.81 | -0.89 | -1.06 | 12 |
7 | -1.16 | 0.89 | -0.21 | -0.52 | 10 |
8 | 0.07 | 1.68 | 0.03 | 0.40 | 4 |
9 | 0.98 | 0.30 | -1.51 | 0.48 | 3 |
10 | 0.68 | -0.45 | -0.94 | 0.20 | 5 |
11 | 1.60 | -0.63 | 0.26 | 0.83 | 2 |
12 | -0.49 | -0.50 | 2.28 | -0.15 | 8 |
1 | 郑向丽,韩海东,林昇平,等."闽选中科1号"瓜蒌主要性状、产量与品质试验[J].福建农业学报,2016,31(6): 668-670. |
ZHENG X L, HAN H D, LIN S P, et al..Main Traits, yield and quality tests on trichosanthes kirilowii Maxim MINXUAN-ZHONGKE 1 [J]. Fujian J. Agric.Sci., 2016, 31 (6): 668-670. | |
2 | 张荣超,辛杰,郭庆梅.施肥对瓜蒌品质影响的研究[J].四川农业大学学报,2016,34(3):328-335. |
ZHANG R C, XIN J, GUO Q M. Effect of different fertilizer regimes on quality of fructus trichosanthis [J]. J. Sichuan Agric.Univ.,2016,34(3):328-335. | |
3 | 韩琳娜,周凤琴,郭庆梅,等.中期施肥对栝楼果实产量与品质的影响[J].甘肃农业大学学报,2011,46(6): 36-40. |
HAN L N, ZHOU F Q, GUO Q M, et al.. Effect of mid-term applying fertilizer on yield and quality of trichosanthes kirilowii Maxim [J]. J. Gansu Agric.Univ.,2011,46(6): 36-40. | |
4 | MEIRELES J E, TOZZI A M G D A. Seed and embryo morphology of Poecilanthe (Fabaceae, Papilionoideae, Brongniartieae) [J]. Bot. J. Lin. Soc., 2010, 158(2):249-256. |
5 | 周智彬,徐新文.塔克拉玛干沙漠腹地植物引种试验[J].干旱区研究,2004,21( 4) : 363-368. |
ZHOU Z B, XU X W.Experiment on planting the introduced plants in the hinterland of the Taklimakan desert [J]. Arid Zone Res.,2004,21( 4) : 363-368. | |
6 | 任红剑,丰震,乔谦,等.元宝枫叶片形态特征的地理变异[J].西北林学院学报, 2018,33(1):119-125. |
REN H J, FENG Z, QIAO Q, et al..Geographic variation trend of leaf morphology in Acertruncatum [J]. J. Northwest Forest Univ., 2018,33(1):119-125. | |
7 | 魏胜利,王文全,秦淑英,等.甘草种源种子形态与萌发特性的地理变异研究[J].中国中药杂志,2008,33(8): 869-873. |
WEI S L, WANG W Q, QIN S Y, et al..Study on geographical variation of morphologic and germination characteristic of different glycyrrhizauralensis provenance seeds [J].Chin. J. Chin. Mater. Med.,2008,33(8): 869-873. | |
8 | 金关荣,奚秀洁,程舟,等.薏苡种子形态性状多样性评价[J].植物遗传资源学报, 2017,18(3): 421-428. |
JIN G R, XI X J, CHENG Z, et al..Evaluation of seed morphological characteristics diversity of job’s tears (Coix lacryma-jobi) germplasm [J].J. Plant Genet. Resour.,2017,18(3) : 421-428. | |
9 | 贺玉林,李先恩,淡红梅.远志种子质量分级标准研究[J].种子,2007,26(1):106-107. |
HE Y L, LI X M, DAN H M. Studies on grading standard of polygala tenuifolia willd seed [J]. Seed,2007,26(1):106-107. | |
10 | 陈巍,王力荣,朱更瑞,等.基于SSR标记和生物学性状进行桃遗传多样性的比较分析[J].植物遗传资源学报,2009,10(1):86-90. |
CHEN W, WANG L R, ZHU G R, et al..Comparison of genetic diversity among peach cultivars based on biological traits and SSR markers [J]. J. Plant Genet. Resour.,2009,10(1):86-90. | |
11 | 蒋会兵,宋维希,矣兵,等.云南茶树种质资源的表型遗传多样性[J].作物学报, 2013, 39 (11): 2000-2008. |
JIANG H B, SONG W X, YI B, et al..Genetic diversity of tea germplasm resources in yunnan province based on phenotypic characteristics [J].Acta Agron. Sin.,2013,39(11): 2000-2008. | |
12 | 何权,蒋瑞娟,朱军,等.新疆梭梭种子表型性状变异分析及相关研究[J].植物资源与环境学报,2019,28(3): 26-32. |
HE Q, JIANG R J, ZHU J, et al..Variation analysis on seed phenotypic traits of Haloxylon ammodendron in Xinjiang and related research [J]. J. Plant Resour. Environ.,2019,28(3): 26-32. | |
13 | 常恩福,张清,肖桂英,等.铁橡栎不同种源及家系种子的形态特征及变异[J].种子,2020,39(6):53-58. |
CHANG E F, ZHANG Q, XIAO G Y, et al..Morphological characteristics and variation analysis of seeds from difference provenances and families of Quercus cocciferoides [J].Seed,2020,39(6):53-58. | |
14 | 胡凌峰,宋曰钦,孟俊,等.基于数量性状的花榈木种子多样性分析及综合评价[J].分子植物育种,2019,17 (16):5504-5512. |
HU L F, SONG Y Q, MENG J, et al..Diversity analysis and comprehensive evaluation of Ormosia henryi seed based on quantitative traits [J]. Mol. Plant Breeding,2019,17 (16):5504-5512. | |
15 | 郭松,李在留,薛建辉.不同种源掌叶木果实和种子表型性状多样性分析及综合评价[J].植物资源与环境学报,2018,27(4) :11-20. |
GUO S, LI Z L, XUE J H. Diversity analysis and comprehensive evaluation on phenotypic traits of fruit and seed of Handeliodendron bodinieri from different provenances [J]. J. Plant Resour. Environ.,2018,27(4) :11-20. |
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