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油茶无性系丰产性状和稳定性分析(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2016年01期
Page:
174-178
Column:
研究简报
publishdate:
2016-01-31

Article Info:/Info

Title:
Evaluation of yield and stability of Camellia oleifera Abel. clones
Article ID:
1000-2006(2016)01-0174-05
Author(s):
WANG Kailiang1YAO Xiaohua1REN Huadong1*ZHANG Ping'an2
1.Research Institute of Subtropical Forestry,CAF, Zhejiang Prorincial Key Ladoratory of Tree Breeding Fuyang 311400,China, 2.Qingtian County Forestry Bureau of Zhejing Province, Qingtian 323900,China
Keywords:
clones of Camellia oleifera Abel. regional test yielding ability genetic stability
Classification number :
S727.32
DOI:
10.3969/j.issn.1000-2006.2016.01.028
Document Code:
A
Abstract:
The yield and stability are key factors for breeding of Camellia oleifera. Using the combined variance analysis and G×E interaction analysis and AMMI model, the interaction between the clonal genotype and environment effect was evaluated, the production stability of the clones was also investigated by biplot visual analysis based on yield data of 12 clones of Camellia oleifera in 4 testing farms. The results showed that the differences of yield in different clones and test farms were extremely significant. The interaction between the clones and environment was also significant. The number of higher yield trees with more than 8 kg product per plant was only 27.86% of the total number of trees. However, these higher yield tress contributed 58.4% of total yield. In another word, less than 1/3 trees contributed nearly 2/3 yield in test farms. The similar result was observed in Camellia oleifera forest originated from seeds. The result suggested that the productivity of clone 40, 4, 53 are strongly stable with high yield. Whereas the clones 166, 20, 21 are medium yield and stable; The clone 180 is high stable with the lowest yield. Clone 3 is high yield with the lowest stability.

References

[1] 庄瑞林.中国油茶[M].北京:中国林业出版社,1988:9-11.
[2] 姚小华,王开良,任华东,等.油茶资源与科学利研究[M].北京:科学出版社,2012:20-293.
[3] 王开良,曹福亮,姚小华,等.浙江红花油茶茶油中脂肪酸主要成分分析[J].南京林业大学学报(自然科学版),2011, 35(2):131-134.Doi:10.3969.j.issn.1000-2006.2011.02.028. Wang K L, Cao F L, Yao X H, et al. Chemical composition of fatty acid from Camellia chekiangoleosa Hu[J]. Journal of Nanjing Forestry University(natural science edition), 2011, 35(2): 131-134.
[4] 顾万春.统计遗传学[M].北京:科学出版社,2004:324-327.
[5] 顾万春.毛白杨优良无性系选育——生产力、遗传稳定性和适应性评价[J].林业科学研究,1990, 3(3):222-228. Gu M C. The selection breeding of excellent clones of populus tomentosa—an evaluation of productivity,genetic stability and adaptability[J]. Forest research, 1990, 3(3): 222-228.
[6] 董云,王毅,漆燕玲,等.应用AMMI模型分析评判甘肃省春油菜区试品种的稳定性和适应性[J].西北农业学报,2010, 19(7):74-78.Doi.10.3969/j.issn.1004-1389.2010.07.017 Dong Y, Wang Y,Qi Y L, et al,Application of ammi model to analyse stability and adaptability of spring rape in variety regional trial of Gansu Province[J]. Acta agriculturae boreali-occidentalis sinica, 2010, 19(7): 74-78.
[7] 姜岳忠,李善文,秦光华,等.黑杨派无性系区域化试验初报[J].林业科学,2006, 42(12):143-147. Jiang Y Z, Li S W, Qin G H, et al. Regional test of poplar clones in section aigeiros[J]. Scientia silvae sinicae, 2006, 42(12): 143-147.
[8] 王军辉,顾万春,李斌,等.桤木优良种源/家系的选择研究——生长的适应性和遗传稳定性分析[J].林业科学,2000, 36(3):59-66. Wang J H, Gu M C, Li B, et al. Study on selection ofalnus cremastogyne provenance/family—analysis of growth adaptation and genetic stability[J]. Scientia silvae sinicae, 2000, 36(3): 59-66.
[9] Eberilart S, Russell W A. Stability parameters for comparing varieties[J]. Crop sic, 1996, 21(6): 36-40.
[10] 尚龙山,张华,尚虎山.8个党参品种在定西主产区产量的AMMI模型分析[J].甘肃农业科技,2014(11):52-55. Shang L S, Zhang H, Shang H S. Application of AMMI model to analyze 8 Codonopsis pilosula varieties in Dingxi main producing areas[J]. Gansu Agr Sci and Techn, 2014(11): 52-55.
[11] 严威凯.双标图分析在农作物品种多点试验中的应用[J].作物学报,2010, 36(11):1805-1819.Doi:10.3724/sp.J.1006.2010.0185 Yan W K. Optimal use of biplots in analysis of multi-location variety test data[J]. Acta agronomica ainica, 2010, 36(11): 1805-1819.
[12] 唐启义.DPS数据处理系统:实验设计,统计分析及数据挖掘[M].北京:科学出版社,2014:21-26.
[13]许乃银,陈旭升,郭志刚,等.AMMI模型在棉花区试数据分析中的应用[J].江苏农业学报,2001, 17(4):205-210.Doi:10.3969/j.issn.1000-4440.2001.04.003. Xu N Y, Chen X S, Guo Z G, et al. Application of AMMI model to analyze cotton regional trial data [J]. Jiangsu journal of agricultural science, 2001, 17(4): 205-210.
[14] 王磊,杨仕华,沈希宏,等.作物品种区试数据分析的主效可加互作可乘模型(AMMI)图形[J].南京农业大学学报,1998, 21(2):21-26. Wang L, Yang S H, Shen X H, et al. Additive main effects and multiplicative iteraction model(AMMI)graphs used in the plant variety trial data analysis[J]. Journal of Nanjing Agricultural University, 1998, 21(2): 21-26.
[15] 马冬云,郭天财,王晨阳,等.用AMMI模型分析小麦品种品质性状的稳定性[J].西北农林科技大学学报(自然科学版),2005, 33(4):74-78. Ma D Y, Guo T C, Wang C Y, et al. Analyzing the stabili ty of wheat quality traits with AMM I model[J]. Journal of Northwest A & F University(natural science edition), 2005, 33(4): 74-78.

Last Update: 2016-02-25