郭媛, 邵有全, 郭宝贝, 张旭凤. 梨花粉和柱头发育与温度关系研究[J]. 中国生态农业学报(中英文), 2014, 22(12): 1446-1452. DOI: 10.13930/j.cnki.cjea.140489
引用本文: 郭媛, 邵有全, 郭宝贝, 张旭凤. 梨花粉和柱头发育与温度关系研究[J]. 中国生态农业学报(中英文), 2014, 22(12): 1446-1452. DOI: 10.13930/j.cnki.cjea.140489
GUO Yuan, SHAO Youquan, GUO Baobei, ZHANG Xufeng. Relationship of pear pollen and stigma development with temperature[J]. Chinese Journal of Eco-Agriculture, 2014, 22(12): 1446-1452. DOI: 10.13930/j.cnki.cjea.140489
Citation: GUO Yuan, SHAO Youquan, GUO Baobei, ZHANG Xufeng. Relationship of pear pollen and stigma development with temperature[J]. Chinese Journal of Eco-Agriculture, 2014, 22(12): 1446-1452. DOI: 10.13930/j.cnki.cjea.140489

梨花粉和柱头发育与温度关系研究

Relationship of pear pollen and stigma development with temperature

  • 摘要: 考察环境温度对梨花发育的影响是引进蜜蜂为梨树授粉的前提。本研究以主栽品种'砀山酥梨'及其授粉品种'鸭梨'为试验材料, 设置了8 ℃、12 ℃、20 ℃ 3种温度条件, 考察'砀山酥梨'开花动态、柱头可授性及'鸭梨'散粉、花粉萌发、花粉管生长等指标, 旨在为梨树合理利用蜜蜂授粉提供理论依据。结果表明: 在8 ℃下, '砀山酥梨'花朵全部开放所需时间达到144 h以上, 柱头具有较强可授性出现时间为112 h, 且可授期持续时间短, '鸭梨'全部散粉时间为230 h, 花粉萌发率显著低于20 ℃(P<0.05), 培养96 h到达花柱上部、中部、基部的花粉管数量分别为84根、55 根、43根; 12 ℃下, 花朵全部开放时间为114 h, 柱头出现较强可授性时间为88 h之后, '鸭梨'全部散粉时间为158 h, 花粉萌发速度较8 ℃快, 但萌发率显著低于20 ℃(P<0.05), 培养96 h到达花柱上部、中部、基部的花粉管数量分别为111根、105根、92根; 20 ℃时, '砀山酥梨'开花所需时间为44 h, 柱头可授性强, 且可授期持续时间可达120 h, '鸭梨'全部散粉所需时间为64 h, 花粉萌发速度快, 萌发率高, 培养96 h到达花柱上部、中部、基部的花粉管数量分别为121根、120根、119根。20 ℃较12 ℃和8 ℃更适合梨花发育和蜜蜂采集。本试验结果为不同温度下梨花的开花生物学特性研究提供了科学依据, 也为梨树蜜蜂授粉技术的应用奠定了基础。

     

    Abstract: The effect of temperature on pear flower development is a prerequisite for using bees in pear pollination. In this study, the main varieties of Pyrus bretschneideri cv. 'Dangshansuli' and P. bretschneideri cv. 'Yali' served as pollination test materials. Three temperatures (8 ℃, 12 ℃ and 20 ℃) were set to explore the dynamic blossoming and stigma receptivity of 'Dangshansuli', and pollen release, pollen germination, pollen tube growth of 'Yali', and other indicators to lay the theoretical basis for the reasonable use of bee pollination of pears. The results showed that at 8 ℃, the required time for flower opening of 'Dangshansuli' exceeded 144 h. Also the time for stigma receptivity delayed to 112 h and that for pollination persistence shortened. The time for pollen release of 'Yali' extended to 230 h. Pollen germination rate at 8 ℃ was less than that at 20 ℃ (P< 0.05). After culturing for 96 h, the number of pollen tubes arriving at the top, middle and base of styles of 'Dangshansuli' was respectively 84, 55 and 43. At 12 ℃, the time for flower opening of 'Dangshansuli' was 114 h, and strong stigma receptivity occurred 88 h later. The time for total pollen release of 'Yali' was 158 h. While pollen germination at 12 ℃ was faster than that at 8 ℃, the pollen germination rate was significantly lower than that at 20 ℃ (P < 0.05). After culturing for 96 h, the number of pollen tubes arriving at the top, middle and base of styles of 'Dangshansuli' was respectively 111, 105 and 92. When temperature was 20 ℃, the required time for the blossoming of 'Dangshansuli' was 44 h. Stigma receptivity was strong and pollination persistence time reached 120 h. The required time for total pollen release of 'Yali' was 64 h and pollen germination rate was high. After culturing for 96 h, the number pollen tubes arriving at the top, middle and base of styles of 'Dangshansuli' was respectively 121, 120 and 119. The temperature of 20 ℃ was more suitable for pear growth and pollination by bees than 12 ℃ and 8 ℃. The present study laid the scientific basis for future studies on biological characteristics of pear blossoming at different temperatures. It also laid the foundation for practical application of honeybee pollination technology in pear farms.

     

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