Genetic Diversity Analysis of 22 Lotus corniculatus Germplasm Resources Based on Phenotypic Quantitative Traits

doi:10.11733/j.issn.1007-0435.2023.01.020

Acta Agrestia Sinica ›› 2023, Vol. 31 ›› Issue (1): 173-179.DOI: 10.11733/j.issn.1007-0435.2023.01.020

Previous Articles Next Articles

Genetic Diversity Analysis of 22 Lotus corniculatus Germplasm Resources Based on Phenotypic Quantitative Traits

XIE Wen-hui¹, ZHAO Wen-wu¹, WANG Lei-ting¹, ZHAO Li-li¹, WANG Pu-chang²

1. College of Animal Science, Guizhou University, Guiyang, Guizhou Province 550025, China；;
2. School of Life Sciences, Guizhou Normal University, Guiyang, Guizhou Province 550001, China

Received:2022-07-05 Revised:2022-08-30 Online:2023-01-15 Published:2023-02-07

22份百脉根种质资源表型数量性状的遗传多样性分析

谢文辉¹, 赵文武¹, 王雷挺¹, 赵丽丽¹, 王普昶²

1. 贵州大学动物科学学院, 贵州贵阳 550025;
2. 贵州师范大学生命科学学院, 贵州贵阳 550025

通讯作者: 赵丽丽, E-mail:zhaolili_0508@163.com
作者简介:谢文辉(1998-)，男，甘肃天水人，硕士研究生，主要从事草种质资源育种研究，E-mail:1002191514@qq.com
基金资助:
贵州省教育厅科技拔尖人才支持项目(黔教技[2022]076号)；贵州省科技计划项目(黔科合支撑[2021]一般155)；国家自然科学基金(32060391、31560664)共同资助

Abstract

Abstract: In this study,11 phenotypic traits of 22 Lotus corniculatus germplasm resources were analyzed for genetic diversity. The results showed that there was significant variation in phenotypic traits,except for seed width,among the 22 Lotus corniculatus germplasm resources and the variation in phenotypic trait indicators ranged from 12.11% to 69.48%,with significant or highly significant correlations among the phenotypic traits. 22 Lotus corniculatus germplasm were divided into three groups based on cluster analysis. Among them,the germplasm seeds of group I were small but the plants were tall,the germplasm seeds of group II were small and the plants were dwarf,and the germplasm seeds of group III had large seed pods. Principal component analysis showed that stem length,plant height,crown,seed circumference,seed length,seed width,and seed length to width ratio had high principal component loads and were the main factors of the phenotypic variation in Lotus corniculatus germplasm resources. Comprehensive evaluation showed that the germplasm resources 11 and 12 had excellent overall performance,belonged to group III and had the characteristics of larger seed pods and seeds,which could be utilized as a target parent for the selection of high seed yielding varieties. The results of this study could provide theoretical references for germplasm application and variety selection of Lotus corniculatust.

Key words: Lotus corniculatus, Germplasm resources, Phenotypic traits, Genetic diversity, Comprehensive evaluation of principal components

摘要： 本研究对22份百脉根(Lotus corniculatus)种质资源的11个表型性状指标进行多样性研究分析。结果表明：除种宽外，22份百脉根种质间的表型性状均存在显著变异，表型性状指标变异幅度为12.11% ~ 69.48%，各表型性状之间存在显著或极显著相关性。主成分分析表明，茎长、株高、冠幅、种子周长、种子长、种子宽和种子长宽比的主成分载荷较高，是造成百脉根种质表型性状差异的主要因素。根据聚类分析将22份百脉根种质分为3个类群，其中，第Ⅰ类群种质的种子小，但植株高大，第Ⅱ类群种质的种子小且植株矮小，第Ⅲ类群种质的种子和种荚大但植株矮小。综合评价11和12号这2份种质资源整体表现优良，且归属于第Ⅲ类群，具有种荚和种子较大的特性，可作为选育种子高产品种的目标亲本利用。本研究结果可为百脉根的种质应用和品种选育提供理论参考。

关键词: 百脉根, 种质资源, 表型性状, 遗传多样性, 主成分综合评价

CLC Number:

S324
S541

XIE Wen-hui, ZHAO Wen-wu, WANG Lei-ting, ZHAO Li-li, WANG Pu-chang. Genetic Diversity Analysis of 22 Lotus corniculatus Germplasm Resources Based on Phenotypic Quantitative Traits[J]. Acta Agrestia Sinica, 2023, 31(1): 173-179.

谢文辉, 赵文武, 王雷挺, 赵丽丽, 王普昶. 22份百脉根种质资源表型数量性状的遗传多样性分析[J]. 草地学报, 2023, 31(1): 173-179.

0
/ / Recommend

Add to citation manager EndNote|Ris|BibTeX

URL: https://manu40.magtech.com.cn/Jweb_cdxb/EN/10.11733/j.issn.1007-0435.2023.01.020

https://manu40.magtech.com.cn/Jweb_cdxb/EN/Y2023/V31/I1/173

References

[1] 孙艳香,杨红梅,耿云红,等.根癌农杆菌介导的百脉根遗传转化体系的优化研究[J].南开大学学报(自然科学版),2006,32(2):51-57
[2] 任健,代微然,宋丽梅,等.青藏高原野生百脉根种子休眠及萌发特性的研究[J].种子,2017,36(2):1-4
[3] 穆尼热·买买提,田聪,朱忠艳,等.观赏牧草——百脉根[J].中国花卉园艺,2017,12(8):45-48
[4] 何永生.胡枝子缩合单宁含量与结构的季节动态变化及其对体外瘤胃发酵的影响[D].兰州:兰州大学,2019:15-18
[6] 赵孟良,韩睿,田闵玉,等. 126份芜菁种质资源地上部表型的多样性分析[J]. 分子植物育种,2021,19(1):318-332
[5] 李宇宇,涂明亮,王伟,等.典型草原不同地势主要牧草叶绿素含量与蛋白质含量的相关性研究[J].草原与草业,2020,32(1):41-46
[6] ŘEPKOVÄ J,HOFBAUER J.Seed pod shattering in the genus lotus and its overcoming[J].Czech Journal of Genetics and Plant Breeding,2009,45(2):39-44
[7] 赵丽丽,王普昶,陈超,等.干旱胁迫对百脉根叶绿素荧光特性的影响[J].中国草地学报,2014,36(1):18-23
[8] 崔亚飞.百脉根早熟品系特征特性的研究及再生体系建立[D].兰州:甘肃农业大学,2009:19-20
[9] 宋淑明,聂朝相.Mirabel(迈瑞佰)百脉根引种及生产性能的动态研究[J].草业科学,1995(3):66-69
[10] 胡永超,马洁,唐建宁,等.不同树龄枸杞古树的遗传多样性研究[J].植物遗传资源学报,2022,23(3):755-767
[11] 张本瑜,师尚礼.俄罗斯百脉根种质资源农艺性状鉴定与评价[J].草业科学,2016,33(9):1779-1787
[12] 郝裕辉,李瑶,唐凤,等.29份无芒雀麦种质资源农艺性状的遗传多样性[J].草业科学,2020,37(9):1770-1778
[13] DONG R,JAHUFER M,DONG D K,et al.Characterisation of the morphological variation for seed traits among 537 germplasm accessions of common vetch(Vicia sativa L.)using digital image analysis[J].New Zealand Journal of Agricultural Research,2016,59(4):225-230
[14] RUMBAUGH M D,GRAVES W L,CADDEL J L,et al.Variability in a collection of alfalfa germplasm from morocco[J].Crop Science,1988,28(4):45-51
[15] 杨正禹,陆忠杰,张茂,等.利用数字图像分析132份胡枝子种子表型性状遗传多样性[J].草业学报,2021,30(11):87-97
[16] 史建磊,宰文珊,陈依凯,等.基于表型的樱桃番茄种质遗传多样性分析[J].热带作物学报,2019,40(6):1095-1101
[17] 姚祝芳,张雄坚,杨义伶,等.177份甘薯地方资源表型性状的遗传多样性分析[J].作物学报,2022(1):1-17
[18] 武艳虹,樊泽璐,李佳,等.茶条槭自然种群种子和果实表型多样性研究[J].广西植物,2018,38(6):795-803
[19] 赵孟良,韩睿,田闵玉,等.126份芜菁种质资源地上部表型的多样性分析[J].分子植物育种,2021,19(1):318-332
[20] 郝峰,徐柱,李平,等.雀麦属13种植物形态遗传多样性研究[J].中国草地学报,2011,33(2):17-24
[21] 吕伟,韩俊梅,文飞,等.不同来源芝麻种质资源的表型多样性分析[J].植物遗传资源学报,2020,21(1):234-242
[22] 冯秋红,史作民,徐峥静茹,等.岷江柏天然种群种实表型变异特征[J].应用生态学报,2017,28(3):748-756
[23] 赵朝森,赵现伟,孙丽萍,等.不同来源大豆种质资源的田间鉴定与筛选[J].西北农业学报,2021,30(11):1638-1647
[24] GEGAS V C,NAZARI A,GRIFFITHS S,et al.A genetic framework for grain size and shape variation in wheat[J].The Plant Cell,2010,22(4):1046-1056
[25] 程式华.中国超级稻育种技术创新与应用[J].中国农业科学,2016,49(2):205-206
[26] 贾波,谢庆春,倪向群.玉米理想株型研究进展[J].江西农业学报,2012,24(4):31-33
[27] 王建永,李朴芳,程正国,等.旱地小麦理想株型与生长冗余[J].生态学报,2015,35(8):2428-2437
[28] 张雨桐,石凤翎.株型形成及牧草株型相关研究进展[J].草业学报,2020,29(9):203-214
[29] 芮文婧,王晓敏,张倩男,等.番茄353份种质资源表型性状遗传多样性分析[J].园艺学报,2018,45(3):561-570
[30] 王方琳,柴成武,尉秋实,等.沙埋和种子大小对沙蒿种子萌发及幼苗生长的影响[J].西北林学院学报,2020,35(6):129-134
[31] 麦静,杨志玲,杨旭,等.厚朴种子大小变异对萌发及幼苗生长的影响[J].种子,2015,34(4):32-36
[32] 吉春容,李世清,李生秀.品种、种子大小和施肥对冬小麦生物学特性的影响[J].生态学报,2007(6):2498-2506
[33] 王建丽,刘杰淋,朱瑞芬,等.28份籽粒苋种质资源的主要农艺性状遗传多样性分析[J].草地学报,2020,28(4):1050-1059
[34] 张琦,魏臻武,闫天芳,等.燕麦种质资源农艺性状遗传多样性的鉴定评价[J].草地学报,2021,29(2):309-316
[35] 唐凤,李瑶,王永琪,等.22份野生披碱草属种质农艺性状遗传多样性分析及综合评价[J].种子,2021,40(6):44-51
[36] 李陈建,付彦博,万江春,等.30份苏丹草种质资源农艺性状的遗传多样性分析[J].草业科学,2015,32(1):85-93
[37] 赵孟良,韩睿,田闵玉,等.126份芜菁种质资源地上部表型的多样性分析[J].分子植物育种,2021,19(1):318-332

Genetic Diversity Analysis of 22 Lotus corniculatus Germplasm Resources Based on Phenotypic Quantitative Traits

22份百脉根种质资源表型数量性状的遗传多样性分析

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	ZHENG Rong-jia, KONG Wei-yi, FENG Jia-xin, ZHENG Yi-qi, YE Gang, SHEN Ze-yu, LIU Jian-xiu, GUO Hai-lin. Phenotypic Diversity Analysis of Zoysia Willd. and Screening of the Excellent Germplasm Resources [J]. Acta Agrestia Sinica, 2022, 30(9): 2325-2335.
[2]	ZHANG Xu, SU Shi-ping, SHI Wei-ning, Alizet Didi Dom, MA Qiang. Genetic Diversity Analysis of Reaumuria soongorica Populations [J]. Acta Agrestia Sinica, 2022, 30(9): 2336-2344.
[3]	DING Ming-lei, WANG Jing-hong, WANG Wei-wei, LI Song, WANG Zhi-cheng, ZHANG Chao, SUN Feng-li, LIU Shu-dong, XI Ya-jun. Screening and Evaluation of Dual-purpose Wheat Germplasm Resources [J]. Acta Agrestia Sinica, 2022, 30(8): 2027-2036.
[4]	MA Zi-wei, NIU Lu, YANG Xiang-dong, REN Wei, YANG Chun-ming, ZHAO Han-dong, ZHANG Yuan-yu. Genetic Diversity Analysis and Comprehensive Assessment of Agronomic and Biochemical Traits of Tigernut Germplasm [J]. Acta Agrestia Sinica, 2022, 30(8): 2135-2143.
[5]	WANG Qi, ZHENG Jia-hua, ZHAO Meng-li, ZHANG Jun. Plastic Response of Phenotypic Traits in Stipa breviflora to Simulated Sheep Feeding in Desert Steppe [J]. Acta Agrestia Sinica, 2022, 30(7): 1748-1754.
[6]	MAO Pei, SHEN Shu-heng, PU Jun, LOU Ke-ke, ZHOU Qiang, WANG Zeng-yu, SUN Juan, LIU Zhi-peng. Optimizing Sample Size for Assessing the Genetic Diversity in Alfalfa (Medicago sativa) Based on Start Codon Targeted (SCoT) Markers [J]. Acta Agrestia Sinica, 2022, 30(5): 1110-1121.
[7]	HOU Xiang-yang, BAI Wu-yun. Evaluation of Genetic Diversity of Leymus chinensis Based on Phenotypic Traits [J]. Acta Agrestia Sinica, 2022, 30(3): 631-636.
[8]	LI Ya-jiao, MA Pei-jie, LONG Zhong-fu, SHU Jian-hong, CHEN Ying, WANG Xiao-li. Metabonomic Analysis of Lotus corniculatus under Low Phosphorus and Drought Stress [J]. Acta Agrestia Sinica, 2022, 30(2): 329-338.
[9]	SUN Hao-nan, LI Rong, WANG Xin, ZHOU Xin-ying, LI Ming-yang, LIU Dong-yun, LI He. Genetic Diversity and Relationship of Cultivated Coreopsis Based on Three Kinds of Molecular Markers [J]. Acta Agrestia Sinica, 2022, 30(11): 2922-2936.
[10]	WU Hai-yan, Danzengsangbu, Qu Zhen, SHEN Bao-bin, WANG Xiao-li, CUI Jian-zhao, Labadun-zhu, LAI Ke, Zhaxipingcuo, Danzengwangbu, LIU Hong-xu, YANG Shi-hai, MA Yu-shou. Genetic Diversity Analysis of Phenotypic Quantitative traits of 20 Milula spicata Germplasm resources [J]. Acta Agrestia Sinica, 2022, 30(11): 2949-2958.
[11]	ZENG Han-guo, YUE Jia-ming, ZHANG Shu-heng, YI Kun, WEI Kai, YANG Shuang-feng, LIU Gui-xia, LI Man-li, YANG Chun-hua. Comprehensive Evaluation of Agronomic Traits of 76 Germplasm Resources of Elymus sibiricus [J]. Acta Agrestia Sinica, 2022, 30(11): 3046-3055.
[12]	WANG Chang, YANG Fa-rong, LI Min-quan, LU Jian-ying, WEI Yu-ming, ZHAO Gui-qin. Identification and Evaluation of Downy Mildew (Peronospora variabilis) Resistance in Quinoa (Chenopodium quinoa) Germplasm Resources [J]. Acta Agrestia Sinica, 2022, 30(10): 2626-2634.
[13]	ZHANG Hao-rui, FU Gang. Responses of Phylogenetic Diversity of Soil Fungal Community to Grazing in Alpine Grasslands of the Northern Tibet [J]. Acta Agrestia Sinica, 2022, 30(1): 21-28.
[14]	ZHANG Jing-xue, SHENG Wei, LI Xin-yong, LUO Li-juan. Selection of Germplasm With Low Seed Shattering Rate and Evaluation of Agronomic Traits of Stylosanthes [J]. Acta Agrestia Sinica, 2022, 30(1): 108-117.
[15]	MA Cong-yu, HAN Chong-yang, MA Sai-nan, LI Xu-xu, CAI Jia-bang, WANG Yang, ZHANG Xin-quan, NIE Gang. The Fingerprints of 13 White Clover (Trifolium repens L.) Cultivars Based on SSR Markers [J]. Acta Agrestia Sinica, 2021, 29(9): 1892-1899.