Assessment of genetic variability in prairie grass

doi:10.11686/cyxb2017260

Abstract

Abstract: To estimate the selection effect and breeding potential of Bromus catharticus, 21 quantitative traits of 9 new strains and 2 varieties were used to calculate phenotypic coefficients of variation, genetic coefficient of variation, heritability and genetic improvement using analysis of variance, correlation analysis and cluster analysis. Analysis of variance showed that 17 traits reached significant among 11 accessions. Among them, 14 traits had a very high level of heritability; ranked (high to low) were dry matter yield, flag leaf sheath length, first leaf width, number of primary branches per panicle, penultimate leaf width, stem diameter, seed yield per plant, plant height and total number of flowers per panicle. The remaining 3 traits had medium or medium high heritability. Genetic analysis revealed that 11 traits had a high level of genetic improvement, including plant height, penultimate leaf sheath length, first leaf width, penultimate leaf width, stem diameter, tiller number, number of panicles per plant, spikelet number, number of primary branches per panicle, dry matter yield and seed yield per plant. Three traits, first internode length, flag leaf sheath length and number of florets per spikelet showed medium level of genetic improvement while flag leaf length and number of nodes per panicle showed low rates of improvement. Performance of the 9 new strains was generally better than the existing varieties, particularly in yield related traits including plant height, leaf size, stalk diameter, basal internode length, shoot number, dry matter yield and seed yield. Among the new strains, BCS1103 had the greatest plant height, dry matter yield and shoot numbers; BCS1106 possessed wide leaves, high shoot, panicle and spikelet numbers per plant, and high dry matter and seed yield; BCS1109 possessed the long basal internodes and leaf sheath, narrow leaves, thin stem, and high primary branche numbers. In the second group, B. catharticus cv. Qiannan showed better performances than B. catharticus cv. Jiangxia in yield related traits. We suggest that plant height, flag leaf width, tiller number, penultimate leaf width, stem diameter and number of panicles per plant are the most reliable traits when considering grass yield. When focusing on the grain yield, traits like tiller number, number of panicles per plant, dry matter yield and plant height might be more reliable and effective. The new prairie grass strains are likely to be released as new varieties due to their excellent performance.

SUN Ming, LEI Xiong, ZHANG Xin-quan, ZHANG Cheng-lin, WU Wen-dan, ZHAO Wen-da, YANG Xiao-peng, MA Xiao. Assessment of genetic variability in prairie grass[J]. Acta Prataculturae Sinica, 2018, 27(1): 131-141.

References

[1] Zhou X, Wang Q, Chen G. Research progress of Bromus catharticus . Prataculture & Animal Husbandry, 2014, (4): 54-56.
周潇, 王巧, 陈刚. 扁穗雀麦研究进展. 草业与畜牧, 2014, (4): 54-56.
[2] Aulicino M B, Arturi M J. Phenotypic diversity in Argentinian populations of Bromus catharticus (Poaceae). Genetic and environmental components of quantitative traits. New Zealand Journal of Botany, 2002, 40(2): 223-234.
[3] Hao F, Xu Z, Yan W H, et al . Morphological variations analysis of Bromus catharticus germplasm. Acta Agrestia Sinica, 2011, 19(4): 668-673.
郝峰, 徐柱, 闫伟红, 等. 扁穗雀麦种质资源形态变异分析. 草地学报, 2011, 19(4): 668-673.
[4] Ma X, Zhou C J, Zhang C L, et al . Patterns of morphological variation and agronomic traits in a worldwide sample of prairie grass germplasm. Acta Agrestia Sinica, 2015, 23(5): 1048-1056.
马啸, 周朝杰, 张成林, 等. 扁穗雀麦种质资源形态和农艺性状变异的初步分析. 草地学报, 2015, 23(5): 1048-1056.
[5] Luo T Q, Mo B T, Long Z F. A study on the management and utilization of artificial sward of Bromus catharticus in winter. Prataculture & Animal Husbandry, 2000, (2): 18-23.
罗天琼, 莫本田, 龙忠富. 优良冬季青绿禾草扁穗雀麦在人工草地中的建植及利用研究. 草业与畜牧, 2000, (2): 18-23.
[6] Fu X N, Wang Z, Gao H W, et al . Morphologic variation of imported Dactylis glomerata . Acta Agrestia Sinica, 2012, 20(2): 358-362.
富新年, 王赞, 高洪文, 等. 国外引进鸭茅种质形态变异研究. 草地学报, 2012, 20(2): 358-362.
[7] Sun M, Fu K X, Fan Y, et al . Analysis of phenotypic variations in 15 introduced elite germplasm of Lolium multiflorum Lam. Journal of Plant Genetic Resources, 2016, 17(4): 655-662.
孙铭, 符开欣, 范彦, 等. 15份多花黑麦草优良引进种质的表型变异分析. 植物遗传资源学报, 2016, 17(4): 655-662.
[8] Wang Y X, Zhang B. Phenotypic variation of Trifolium repens in Xinjiang. Acta Agrestia Sinica, 2012, 20(6): 1163-1168.
王玉祥, 张博. 新疆野生白三叶表型性状变异研究. 草地学报, 2012, 20(6): 1163-1168.
[9] Mao S X, Feng X Q. The basis of quantitative genetics in cropsⅱ. Heritability and its estimation. Hereditas, 1979, (4): 42-47.
毛盛贤, 冯新芹. 作物数量遗传学基础——二、遗传力及其估算. 遗传, 1979, (4): 42-47.
[10] Chen Y N. Estimation of heritability, genetic advance and genetic correlation of main characters in sugarbeet varieties. Sugar Crops of China, 1983, (4): 9-13.
陈煜南. 甜菜品种主要性状遗传力、遗传进度和遗传相关的估算. 中国糖料, 1983, (4): 9-13.
[11] Publishing S. SAS 9.2 SQL Procedure User’s Guide. Cary, North Carolina: SAS Publishing, 2008: 995-1014.
[12] Rohlf F J. NTSYS-PC: Numerical Taxonomy and Multivariate Analysis System. version 2.2. New York: Setauket, 2000.
[13] Syukur M, Agronomy D O. Estimation of genetic parameter for quantitative characters of pepper ( Capsicum annuum L.). Journal of Tropical Crop Science, 2014, 1(1): 4-7.
[14] Allard R W. Principles of Plant Breeding. 6th edition. New York: Willy, 1999.
[15] Johnson H W, Robinson H F, Comstock R E. Estimates of genetic and environmental variability in soybeans. Agronomy Journal, 1955, 47(7):314-318.
[16] Deshmukh S N, Basu M S, Reddy P S. Genetic variability, character association and path coefficients of quantitative traits in Virginia bunch varieties of groundnut. Rev Árvore, 2013, 37(1): 175-180.
[17] Singh B. Plant Breeding: Principles and Methods. 6th edition. New Delhi, India: Kalyani Publishers, 2001.
[18] Luo H Y, Zhou Y L, Hu X Y, et al . Genetic study on several important quantitative traits of wheat. Chinese Agricultural Science Bulletin, 2006, 22(7): 139-141.
罗怀勇, 周玉琳, 胡学运, 等. 小麦几个重要数量性状的遗传分析. 中国农学通报, 2006, 22(7): 139-141.
[19] Gao Z R. Quantitative Genetics. Chengdu: Sichuan University Press, 1986.
高之仁. 数量遗传学. 成都: 四川大学出版社, 1986.
[20] Ai S L. Study on heritability and genetic advance of main economic characters in flue-cured tobacco. Chinese Tobacco Science, 1981, (4): 14-17.
艾树理. 烤烟主要经济性状的遗传力及遗传进度的研究. 中国烟草科学, 1981, (4): 14-17.
[21] Liu Y H, Leng R, Zhang Z R, et al . Preliminary study on heritability and hereditary progress of the main quantitative characters in tumorous stem mustard ( Brassica juncea var. tumida Tsen et Lee). Journal of Plant Genetic Resources, 2006, 7(4): 442-444.
刘义华, 冷蓉, 张召荣, 等. 茎瘤芥主要数量性状遗传力和遗传进度的初步研究. 植物遗传资源学报, 2006, 7(4): 442-444.