«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2024年2

Page:

15-22

Research Field:

Publishing date:

Info

Title:

Anatomical Analysis of Autotetraploid and Diploid of Black Wax Gourd

Author(s):

WAN Zhenglin1; LU Jianxun1; LIANG Yuanbin2; ZHANG Man1; LIU Wenjun1; ZHOU Jianhui1

(1.Guangxi Academy of Agricultural Sciences，Nanning,Guangxi 530007;2.Agricultural Science Research Institute of Xingye County，Yulin,Guangxi 537800)

Keywords:

black wax gourd; autotetraploid; anatomy; low fertility

PACS:

S 642.3

DOI:

10.11937/bfyy.20232767

Abstract:

Taking diploid and autotetrapolid black wax gourd as experimental materials，the effects of pollen morphology and vitality，double fertilization，and embryonic development on the fertility and seed setting rate of diploid and autotetraploid black wax gourd were studied by using optical microscopy and scanning electron microscopy,in order to provide reference for the mechanism of low fertility in self-pollination of autotetraploid black wax gourd.The results showed that the pollen grains of autotetraploid black wax gourd were larger than diploid，there were lots of abnormal structure of pollen grains，and the abnormal rate was 42.43%.The pollen viability of autotetraploid was lower than diploid and the growth speed of pollen tubes was slower than diploid.There was obvious disintegration，degradation or abortion of embryo-sac in autotetraploid black wax gourd，and the abnormal embryo-sac rate was about 40%.The double fertilization process of autotetraploid black wax gourd was delayed by 1 day，and the fertilization rate of autotetraploid was lower than diploid；the dormancy stage of zygote of autotetraploid was longer than diploid，and the embryo development of autotetraploid was later 5 days than diploid.During embryo development，there were higher frequency of embryo development lag，abnormal development of zygote，and lots of endosperm cells with large nuclei，and lots of free nuclei or endosperm cells disintegrated or degenerated at the dormancy stage of zygote and globular embryos stage.

References:

［1］吴婷，贾瑞冬，杨树华,等.蝴蝶兰多倍体育种研究进展与展望［J］.园艺学报，2022,49(2)：448-462.［2］宋莹，张咪，张昌伟,等.高产、抗病同源四倍体不结球白菜黄心乌新材料的创制［J］.核农学报，2022,36(7):1285-1292.［3］周辉明，林辉锋，莫智龙,等.四倍体白掌新品种‘绿萌’的选育［J］.热带作物学报,2022,43(5):964-970.［4］李香串.潞党参四倍体优良株系LDSS-5号的性状观察及多糖含量研究［J］.中国野生植物资源，2014,33(6)：21-25.［5］WANG W，TU Q，CHEN R R，et al.Polyploidization increases the lipid content and improves the nutritional quality of rice［J］.Plants，2022,11(1):132-148.［8］万正林，龙明华，邓俭英,等.黑皮冬瓜同源四倍体与起源二倍体农艺性状比较［J］.南方农业学报，2014,45(9):1621-1625.［9］李立志，何毅，卢焜光.黄皮西瓜化学诱变及四倍体利用研究初报［J］.中国蔬菜，2002(3)：8-11.［10］单折，代西梅，崔东洁,等.不同倍性水稻的花粉发育特征分析［J］.杂交水稻，2019,34(5)：51-56.［11］郑锋.小型西瓜四倍体诱变及不同倍性果实性状与胚胎发育研究［D］.海口：海南大学,2012.［12］詹园凤，郑锋，党选民.小型四倍体西瓜低稔性胚胎发育研究［J］.长江蔬菜,2012(22)：9-12.［13］谢兴刚.不同倍性西瓜胚胎发育及西瓜组培玻璃苗细胞学研究［D］.太原:山西大学,2008.［14］夏玉梅，胡远艺，詹祎捷,等.二倍体杂交稻及其同源四倍突变体生物学特性比较分析［J］.杂交水稻，2023,38(2)：19-24.［15］贾媛媛，张永兵，刁卫平,等.四倍体甜瓜花粉母细胞减数分裂的观察［J］.中国瓜菜，2009，22(2)：7-9.［16］顾欣，张延龙，牛立新.中国西部四省15种野生百合花粉形态研究［J］.园艺学报，2013,40(7)：1389-1398.［17］张永芳,胡超琼,杨勇,等.柿属8种植物花粉形态观察［J］.园艺学报,2016,43(6):1167-1174.［18］陈劲枫，雷春，钱春桃,等.黄瓜多倍体育种中同源四倍体的合成和鉴定［J］.植物生理学通讯，2004,40(2)：149-152.［19］蒋晶晶，曹家树.花粉管引导机制的研究进展［J］.中国细胞生物学学报，2011,33(9)：1022-1027.［20］代西梅，黄群策，梁秋霞,等.同源四倍体多胚苗水稻双受精过程及胚胎早期发育的观察［J］.中国水稻科学，2008,22(5):493-498.［21］李俊星，张蜀宁，赵冬,等.四倍体青花菜低稔性胚胎学研究［J］.西北植物学报，2009,29(11)：2228-2231.［22］张秋艳.暴马丁香(Syringa retlcular var.mandshurica)胚胎学研究［D］.哈尔滨：东北林业大学,2009.

Memo

Memo:

-

Common functions

Last Update: 2024-02-08