花粉直感效应对油茶种实特征的影响

doi:10.3969/j.issn.1000-2006.2016.05.009

国家林草科技领军期刊
中国精品科技期刊
中国高校百佳科技期刊
江苏省新闻出版政府奖期刊奖
RCCSE林学权威期刊（A+）
CSCD核心期刊
Scopus数据库收录期刊
中文核心期刊
SCD核心期刊

作者加群：102861116

微信公众号：南京林业大学学报

高级检索

南京林业大学学报（自然科学版） ›› 2016, Vol. 40 ›› Issue (05): 55-60.doi: 10.3969/j.issn.1000-2006.2016.05.009

花粉直感效应对油茶种实特征的影响

曹永庆¹, 姚小华^1*, 滕建华², 任华东¹, 王开良¹

1.中国林业科学研究院亚热带林业研究所,浙江省林木育种技术研究重点实验室,浙江杭州 311400;
2.浙江省金华市婺城区东方红林场,浙江金华 321025

出版日期:2016-10-18 发布日期:2016-10-18
基金资助:
收稿日期:2015-08-04 修回日期:2015-10-10
基金项目:浙江省农业新品种选育重大科技专项项目(2012C12908-16); 浙江省重点科技创新团队项目(2011R50030)
第一作者:曹永庆(caoyq1981@163.com),助理研究员,博士。*通信作者:姚小华(yaoxh168@163.com),研究员。
引文格式:曹永庆,姚小华, 滕建华,等. 花粉直感效应对油茶种实特征的影响[J]. 南京林业大学学报(自然科学版),2016,40(5):55-60.

Effects of xenia on fruit and seed characteristics in Camellia oleifera

CAO Yongqing¹, YAO Xiaohua^1*, TENG Jianhua², REN Huadong¹, WANG Kailiang¹

1. Research Institute of Subtropical Forestry of CAF, Key Laboratory of Tree Breeding of Zhejiang Province, Hangzhou 311400, China;
2 Dongfanghong State Forestry Farm of Wucheng District in Jinhua, Jinhua 321025, China

Online:2016-10-18 Published:2016-10-18

摘要/Abstract

摘要： 为了解油茶花粉直感效应对油茶种实特征的影响,以油茶主栽品种‘长林3号'和‘长林4号'为母本,‘长林166号'、‘长林53号'和‘长林18号'为父本进行人工授粉,对不同授粉处理的当代杂交种实特征以及油脂脂肪酸组分进行评价。结果表明:‘长林3号'和‘长林4号'两个母本品种在果实果形指数、鲜出籽率、单籽粒质量、种仁含油率及脂肪酸组分特征方面差异显著; 花粉直感效应对座果率、果质量、鲜出籽率、单籽粒质量和含油率影响显著,而果形指数和种子油脂主要脂肪酸组分则没有表现出明显的花粉直感效应; 果实性状座果率、果质量和鲜出籽率的相对花粉直感效应值(RX值)分别在-10.00%～81.14%、-46.15%～38.60%和-8.31%～19.29%之间变化,种子性状单籽粒质量和含油率的RX值分别在-24.63%～22.69%和0.30%～11.17%间变化,说明通过杂交授粉能提高种子含油率。可见,花粉直感效应对油茶果质量、单籽粒质量、鲜出籽率的影响并不都是向着优于亲本的方向转化,其效果受亲本因素的影响较大; 杂交座果率是油茶品种配置栽培中首先需要考虑的问题,该研究中‘长林3号'的适宜配置授粉品种为‘长林53号'和‘长林18号',‘长林4号'的适宜配置授粉品种为‘长林53号'和‘长林166号'。

Abstract: In order to clarify the effect of xenia on fruit and seed characteristics of Camellia oleifera, the main improved oil-tea camellia varieties including ‘Changlin 3', ‘Changlin 4', ‘Changlin 166', ‘Changlin 53' and ‘Changlin 18' were selected to do crossing by artificial pollination, and the fruit as well as seed characteristics including fatty acids composition were evaluated in this paper. The results showed that the fruit shape index, seed ratio, seed weight, oil content and fatty acid composition were significantly different between the female parents ‘Changlin 3' and ‘Changlin 4', and the fruit set, fruit weight, seed ratio, seed weight and oil content in kernel were significantly affected by xenia. However, no significant effect of xenia on fruit shape index and main fatty acid composition of camellia oil was found in female parents ‘Changlin 3' and ‘Changlin 4'. The relative xenia effect(RX)value of fruit set ratio, fruit weight and seed ratio in six hybridized conbination varied from -10.00% to 81.14%, -46.15% to 38.60% and -8.31% to 19.29%, respectively and the RX value of seed weight and oil content in kernel in six hybridized conbination varied from -24.63% to 22.69% and 0.30% to 11.17%, respectively. The oil content in kernel was increased by cross pollination and always showed the positive xenia effect. Overall, it has both the positive and negative xenia effect on fruit weight, seed weight as well as seed ratio, and the effect of xenia were dependent on parent. The fruit set ratio of cross fertilization should be given the priority during cultivation process. The appropriate pollination varieties for ‘Changlin 3' were ‘Changlin 53' as well as ‘Changlin 18', and the appropriate pollination varieties for ‘Changlin 4' were ‘Changlin 53' as well as ‘Changlin 166'.

中图分类号:

S722

曹永庆,姚小华,滕建华,等. 花粉直感效应对油茶种实特征的影响[J]. 南京林业大学学报（自然科学版）, 2016, 40(05): 55-60.

CAO Yongqing, YAO Xiaohua, TENG Jianhua, REN Huadong, WANG Kailiang. Effects of xenia on fruit and seed characteristics in Camellia oleifera[J].Journal of Nanjing Forestry University (Natural Science Edition), 2016, 40(05): 55-60.DOI: 10.3969/j.issn.1000-2006.2016.05.009.

参考文献

[1] 庄瑞林.中国油茶[M]. 2版.北京: 中国林业出版社, 2008:1-4.
[2] Ma J L, Ye H, Rui Y L, et al. Fatty acid composition of Camellia oleifera oil[J]. J Verbr Lebensm, 2011,6:9-12. Doi:10.1007/s00003-010-0581-3.
[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 Nangjing Forestry University(Natural Sciences Edition), 2011,35(2):131-134.
[4] 李春林.普通油茶主要无性系开花生物学及可配性研究[D]. 重庆:西南大学, 2011. Li C L. Study on the biological character of blossom and cross ability test of Camellia oleifera[D]. Chongqing: Southwest University, 2011.
[5] 国家油茶科学中心.油茶高效实用栽培技术[M]. 北京:科学出版社, 2010:73.
[6] Denny J O. Xenia includes metaxenia[J]. Hort Science, 1992,27(7):722-728.
[7] Marquard R D. Outcrossing rates in pecan and the potential for increased yields[J]. J Amer Soc Hort Sci, 1988,113:84-88.
[8] Pahlavani M H, Abolhasani K. Xenia effect on seed and embryo size in cotton(Gossypium hirsutum L.)[J]. J Appl Genet, 2006,47(4):331-335. Doi:10.1007/BF03194642.
[9] Liu Y E, Liu P, Dong S T, et al. Hormonal changes caused by the xenia effect during grain filling of normal corn and high-oil corn crosses[J]. Crop Science, 2010,50: 215-221. Doi:10.2135/cropsci2009.04.0186
[10] Duc G, Moessner A, Moussy F, et al. A xenia effect on number and volume of cotyledon cells and on seed weight in faba bean(Vicia faba L.)[J]. Euphytica, 2001,117: 169-174. Doi:10.1023/A:1004085013735.
[11] Gupton C L. Evidence of xenia in blueberry[J]. Acta Hort, 1997,446:119-123. Doi:10.17660/ActaHortic.1997.446.16
[12] Ehlenfeldt M K. Investigations of metaxenia in northern highbush blueberry(Vaccunium corymbosum L.)cultivars[J]. Journal American Pomological Society, 2003,57(1):26-31.
[13] Gaaliche B, Trad M, Mars M. Effect of pollination intensity, frequency and pollen source on fig(Ficus carica L.)productivity and fruit quality[J]. Scientia Horticulturae, 2011,130:737-742. Doi:10.1016/j.scienta.2011.08.032.
[14] Olfati J A, Sheykhtaher Z, Qamgosar R, et al. Xenia and metaxenia on cucumber fruit and seed characteristics[J]. International Journal of Vegetable Science, 2010,16:243-252. Doi:10.1080/19315260903584167.
[15] Kodad O, Estapanan G, Juan T, et al. Xenia effects on oil content and fatty acid and tocopherol concentrations in autogamous almond cultivars[J]. J Agric Food Chem, 2009,57: 10809-10803. Doi:10.1021/jf9023195.
[16] Kumar K, Das B. Studies on xenia in almond[J]. Journal of Horticultural Science, 1996,71(4):545-549.
[17] 国家标准局. GB /T 5512—1985 粮食、油料检验粗脂肪测定法[S]. 北京:中国标准出版社,1985.
[18] 赵云荣王文领, 王勇, 等.石榴籽中脂肪酸成分分析[J]. 化学研究, 2005,16(2):72-74. Zhao Y R, Wang W L, Wang Y, et al.Analysis of fatty acid in pomegranate seed[J]. Chemical Research, 2005,16(2):72-74.
[19] 姚小华, 王亚萍, 王开良, 等. 地理经纬度对油茶籽中脂肪及脂肪酸组成的影响[J]. 中国油脂, 2011,36(4): 31-34. Yao X H, Wang Y P, Wang K L,et al.Effects of geographic latitude and longitude on fat and its fatty acid composition of oil-tea camellia seeds[J]. China Oils and Fats, 2011,6(4): 31-34.
[20] Bulant C, Gallais A, Matthys-Rochon E, et al. Xenia effects in maize with normal endosperm: II. Kernel growth and enzyme activities during grain filling[J]. Crop Sci, 2000,40:182-189. Doi: 10.2135/cropsci2000.401182x.
[21] 沙海峰, 朱元娣, 高琪洁, 等.花粉直感对京白梨品质的影响[J]. 果树学报, 2006,23(2):287-289. Sha H F, Zhu Y D, Gao Q J, et al. Effect of xenia on fruit quality of Jingbaili pear cultivar[J]. Journal of Fruit Science, 2006,23(2):287-289.
[22] 齐秀娟, 韩礼星, 李明,等. 3个猕猴桃品种花粉直感效应研究[J]. 果树学报, 2007, 24(6):774-777. Qiu X J, Han L X, Li M, et al. Studies on pollen xenia of kiwifruit[J]. Journal of Fruit Science, 2007, 24(6):774-777.
[23] 张静茹, 孟照刚, 巩文红. 花粉直感对黑宝石李果实品质的影响[J]. 果树学报, 2009(6):836-839. Zhang J R, Meng Z G, Gong W H. Effect of pollen xenia on fruit quality of Frinar plum cultivar[J]. Journal of Fruit Science, 2009(6):836-839.
[24] Weiland R T. Cross-pollination effects on maize(Zea mays L.)hybrid yields[J]. Can J Plant Sci, 1992,72:27-33.
[25] Weingartner U, Kaeser O, Long M, et al. Combining cytoplasmic male sterility and xenia increases grain yield of maize hybrids[J]. Crop Sci, 2002,42:1848-1856. Doi:10.2135/cropsci2002.1848.

相关文章 15

[1]	许慧慧, 班卓, 王晨雪, 毕泉鑫, 刘肖娟, 王利兵. 文冠果BZR1基因家族鉴定及功能分析[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 12-22.
[2]	戚亚, 王改萍, 轩辕欣彤, 彭大庆, 李硕民, 李守科, 曹福亮. 文冠果药用优良无性系评价[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 38-44.
[3]	陈升侃, 郭东强, 邓紫宇, 唐庆兰, 廖长琨, 杨植旺, 朱原立, 李昌荣. 斑皮柠檬桉种源树高生长稳定性评价[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 67-74.
[4]	姚俊修, 任飞, 王因花, 李庆华, 燕丽萍, 郑岩, 吴德军. 基于荧光SSR标记的接骨木种质资源遗传多样性分析[J]. 南京林业大学学报（自然科学版）, 2025, 49(2): 75-82.
[5]	柯欣, 费琪, 夏馨蕊, 叶建仁, 朱丽华. 抗松针褐斑病湿地松胚性愈伤组织诱导及体胚产量影响因素的研究[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 87-94.
[6]	林强, 徐进, 李上前, 林云斌, 章允清, 欧阳磊. 福建福鼎柳杉种子园半同胞子代遗传变异分析与早期选择[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 78-86.
[7]	姜波, 安新民. 基因组精准编辑技术及其在林木育种中的应用[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 11-20.
[8]	张伟溪, 丁密, 苏晓华, 李爱平, 王小江, 余金金, 李政宏, 黄秦军, 丁昌俊. 小叶杨×欧洲黑杨杂交F₁代生长及叶片解剖结构杂种优势分析与抗旱性评价[J]. 南京林业大学学报（自然科学版）, 2025, 49(1): 46-58.
[9]	杨袁木, 李娜, 陈新宇, 徐放, 潘文, 张卫华. 红锥种源与无性系的材性变异研究[J]. 南京林业大学学报（自然科学版）, 2024, 48(6): 41-50.
[10]	闫平玉, 张磊, 王佳兴, 冯可乐, 王浩浩, 张含国. 红松天然种群遗传多样性分析及核心种质构建[J]. 南京林业大学学报（自然科学版）, 2024, 48(5): 69-80.
[11]	王佳兴, 闫平玉, 孙佰飞, 刘劲宏, 冯可乐, 张含国. 长白落叶松自由授粉家系生长变异及优良家系早期选择[J]. 南京林业大学学报（自然科学版）, 2024, 48(5): 81-89.
[12]	匡泽宇, 彭冶, 方炎明. 铁冬青花挥发性化合物对中华蜜蜂访花的影响[J]. 南京林业大学学报（自然科学版）, 2024, 48(4): 254-260.
[13]	刘莉, 瞿印权, 余延浩, 王倩, 洑香香. 青钱柳全基因组SSR位点分析及多态性引物开发[J]. 南京林业大学学报（自然科学版）, 2024, 48(4): 67-75.
[14]	刘夏岚, 宋子琪, 胡凤荣, 尚旭岚. 青钱柳二倍体和四倍体叶特征比较研究[J]. 南京林业大学学报（自然科学版）, 2024, 48(4): 76-84.
[15]	马坛, 田野, 王书军, 李文昊, 段启英, 张庆源. 不同性别南方型黑杨无性系叶片对土壤短期间歇性干旱的生理响应[J]. 南京林业大学学报（自然科学版）, 2024, 48(3): 172-180.

花粉直感效应对油茶种实特征的影响

Effects of xenia on fruit and seed characteristics in Camellia oleifera

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价

作者

读者

审稿