CN105684891B - 一种花粉辐射诱变创制无核柚的方法 - Google Patents

一种花粉辐射诱变创制无核柚的方法 Download PDF

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CN105684891B
CN105684891B CN201610065023.XA CN201610065023A CN105684891B CN 105684891 B CN105684891 B CN 105684891B CN 201610065023 A CN201610065023 A CN 201610065023A CN 105684891 B CN105684891 B CN 105684891B
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刘勇
杨莉
刘德春
张涓涓
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Jiangxi Agricultural University
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
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    • A01H1/06Processes for producing mutations, e.g. treatment with chemicals or with radiation
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H1/00Processes for modifying genotypes ; Plants characterised by associated natural traits
    • A01H1/02Methods or apparatus for hybridisation; Artificial pollination ; Fertility

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Abstract

本发明公开了一种花粉辐射诱变创制无核柚的方法,包括以下步骤:(1)酸柚花粉的收集及辐射处理;(2)红心柚去雄及授粉处理;(3)疏花和套袋处理;(4)适时摘袋。本发明采用60Co‑γ射线辐照酸柚花粉,并通过人工授粉获得无核柚果实的方法,可推广适合柑橘多个品种;经过处理后的红心柚果实中种子数为0,果实品质与处理前无显著变化。该方法操作步骤简单,获得无核果实的几率大,并且仍可保持品种的优良品质。

Description

一种花粉辐射诱变创制无核柚的方法
技术领域
本发明涉及一种花粉辐射诱变创制无核果实的方法,尤其涉及一种花粉辐射诱变创制无核柚的方法。
背景技术
江西省上饶市广丰县的马家柚是在20世纪80年代中期筛选出来的优良地方品种,因其产自大南镇古村马家自然村,故名“马家柚”,是红心柚的一个品种,马家柚具有果形大,多汁爽口,口味清甜,低糖,果肉粉红,耐贮藏,富含营养物质等优良特性,深受消费者青睐。
然而,马家柚具有自交不亲和的特性,自花授粉结实率低,常采用其他柚类品种的花粉进行人工授粉来提高坐果率,但种子较多,单果种子数为80-120粒,严重影响了它的商品性和市场竞争力。有研究表明,可以通过外界环境影响、激素诱导、辐射处理等方法获得无核果实,但到目前为止,还未有任何关于无核马家柚成功获得的报道。
因此,需要提供一种新的技术方案来解决上述问题。
发明内容
为消除红心柚因种子多,对食用甚至商品可塑性所产生的影响,本发明提供一种花粉辐射诱变创制无核柚的方法,采用60Co-γ射线辐照酸柚花粉,并通过人工授粉获得无核柚果实。
为解决本发明的技术问题,本发明采用的技术方案是:
一种花粉辐射诱变创制无核柚的方法,包括以下步骤:
(1)酸柚花粉的收集:采集即将开放和饱满的酸柚花朵,放入洁净塑料袋中当天带回,待花朵的花瓣顶端裂开1-2mm时,拨开花瓣用剪刀剪下雄蕊部分的花药,平铺在底部装有称量纸的培养皿中,盖上培养皿盖准备用于辐射处理;
(2)酸柚花粉的辐射处理:将步骤(1)中装有花药的培养皿盖打开进行辐射处理,辐射源为60Co-γ射线,辐射剂量为1000-1200Gy,辐射率为50Gy/min,将辐射后的酸柚花药和未经辐射处理的对照酸柚花药置于22-25℃温度和70%-75%相对湿度下,在花粉粒成熟后,花粉粒从雄蕊的花药中散落出来,再盖上培养皿盖放入3-5℃冰箱保存待用,但时间不超过1个星期;
(3)红心柚去雄及授粉处理:选择即将开放和饱满的红心柚花朵,用手拨开花瓣,并剪去雄蕊;将步骤(2)中辐射处理过的酸柚花粉用毛笔或授粉器涂于红心柚裸露的雌蕊柱头上,每个花序授1-2朵花,其余花朵全部疏掉,并进行套袋处理和标记,授粉时间为上午9点到下午6点之间;
(4)摘袋:授粉12-15天后,将步骤(3)中套于花朵上的授粉袋摘除。
(5)定果后统计坐果率,果实成熟后采果并分析种子败育及果实品质情况。
本发明采用60Co-γ射线辐照酸柚花粉,并通过人工授粉获得无核柚果实的方法,经过处理后的红心柚果实中种子数为0,果实品质与处理前无显著变化。该方法操作步骤简单,获得无核果实的几率大,并且仍可保持品种的优良品质。
具体实施方式
下面结合具体实施例对本发明作进一步说明。以下实施例仅用于说明本发明,不用来限制本发明的保护范围。
本实施例的供试材料红心柚采用马家柚,本发明的一种花粉辐射诱变创制无核柚的方法,具体包括以下步骤:
(1)酸柚花粉的收集:采集即将开放和饱满的酸柚花朵1000–2000朵,放入洁净塑料袋中当天带回,待大部分花朵的花瓣顶端裂开1-2mm时,选取花瓣顶端裂开1-2mm的花朵,将花朵中花药用剪刀剪下,置于底部放有称量纸的培养皿中,每个培养皿中的花药平铺一层,盖上培养皿盖准备用于辐射处理;
(2)酸柚花粉的辐射处理:将步骤(1)中装有花药的培养皿的盖打开,取1/2进行辐射处理,辐射源为60Co-γ射线,辐射剂量为1000-1200Gy,辐射率为50Gy/min;另1/2作为对照;将辐射后的酸柚花药和未经辐射处理的对照酸柚花药置于22-25℃温度和70%-75%相对湿度下,雄蕊的花药里含有许多花粉粒,待花粉粒成熟后,雄蕊的花药开裂,花粉粒从花药中散落出来,盖上培养皿盖放入3-5℃冰箱保存待用,但时间不超过1个星期;
(3)马家柚去雄及授粉处理:选择健壮及花量较多的马家柚树,去除已开放和发育不良的花朵,选择即将开放和饱满的马家柚花朵,用手拨开花瓣,并剪去雄蕊;将步骤(2)中辐射处理过的酸柚花粉用毛笔涂于马家柚裸露的雌蕊柱头上,共380朵;将步骤(2)中的未经辐射处理的对照酸柚花粉用毛笔涂于马家柚裸露的雌蕊柱头上,共400朵。每个花序授1-2朵花,其余花朵全部疏掉,并进行套袋处理和标记,授粉时间为上午9点到下午6点之间;
(4)摘袋:授粉12-15天后,将步骤(3)中套于花朵上的授粉袋摘除;
(5)定果后统计坐果率,果实成熟后采果并分析种子败育及果实品质情况。
相比未经辐射处理的对照材料,本实施例中经辐射处理的酸柚花粉人工授粉马家柚后,种子数为0,而果实品质中除可溶性固形物和总糖略有下降外,单果重、总糖、可滴定酸、维生素c等并未有显著变化(见表1)。
表1辐射处理后对马家柚种子发育及果实品质的影响

Claims (1)

1.一种花粉辐射诱变创制无核柚的方法,其特征在于,包括以下步骤:
(1)酸柚花粉的收集:采集即将开放和饱满的酸柚花朵,放入洁净塑料袋中当天带回,待花朵的花瓣顶端裂开1-2mm时,拨开花瓣用剪刀剪下雄蕊部分的花药,平铺在底部装有称量纸的培养皿中,盖上培养皿盖准备用于辐射处理;
(2)酸柚花粉的辐射处理:将步骤(1)中装有花药的培养皿盖打开进行辐射处理,辐射源为60Co-γ射线,辐射剂量为1000-1200Gy,辐射率为50Gy/min,将辐射后的酸柚花药和未经辐射处理的对照酸柚花药置于22-25℃温度和70%-75%相对湿度下,在花粉粒成熟后,花粉粒从雄蕊的花药中散落出来,再盖上培养皿盖放入3-5℃冰箱保存待用,但时间不超过1个星期;
(3)红心柚去雄及授粉处理:选择即将开放和饱满的红心柚花朵,用手拨开花瓣,并剪去雄蕊;将步骤(2)中辐射处理过的酸柚花粉用毛笔或授粉器涂于红心柚裸露的雌蕊柱头上,每个花序授1-2朵花,其余花朵全部疏掉,并进行套袋处理和标记,授粉时间为上午9点到下午6点之间;
(4)摘袋:授粉12-15天后,将步骤(3)中套于花朵上的授粉袋摘除;
(5)定果后统计坐果率,果实成熟后采果并分析种子败育及果实品质情况。
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