CN115024152A - 一种多基质半无土栽培方法 - Google Patents
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Abstract
本发明公开了一种多基质半无土栽培方法,步骤包括营养土配比、土壤消毒、装盆、移苗或播种、育苗、浇水等步骤。与现有技术相比,本发明的有益效果是:用土壤减少其他基质的应用,较大程度上降低了成本。根系深入水或另一种基质时,能更好的吸收水分减少浇水次数,达到节约用水,同时根系在另一层机制中能够充分生长,更有利于植物的自身水分和营养的调节。植物根系可直接施入有机颗粒肥,大大降低无土栽培化肥的使用。改变传统无土栽培的较复杂的管理形式,更便于操作和养植;多基质形式更有利于植物生长和物流运输,扩大了家庭和办公场所等室内养植的植物种类范围。
Description
技术领域
本发明涉及植物栽培技术领域,具体是一种多基质半无土栽培方法。
背景技术
现有栽培方式包括1、有土栽培:有土栽培为千百年来常见的栽培方式,相对于无土栽培方式来说,且容易感染细菌和病虫害,容易吸收土壤中的重金属,相对于无土栽培无法达到更精确的管理。无土栽培是一门新兴并迅速发展成为热潮的植物栽培种植技术,其生产的农业产品普遍具有绿色、 健康、无污染的特点,与传统有土栽培相比,用水大幅减少,过程无需翻地、除草等作业,大大减少了人力资源的投入。作为一种高新作物种植方法,无土栽培摆脱了传统意义上对土壤的需求,能避免土壤病虫害和土壤盐渍化等问题;同时,土壤资源不再是植物种植的限制条件,在沙漠、岛礁等地区也可推广,扩展了农业生产空间,提高了空间利用率。无土栽培可以根据需求对作物生长环境进行调控,从而使农业生产摆脱自然环境的制约, 更易于管理,发展无土栽培技术有利于实现农业机械化、自动化。但是无土栽培存在的缺点是设施费用较高,需要更专业的人员去管理,相对于有土栽培,无法在根系周围形成固定益生菌菌群,无法吸收固体有机肥料。
发明内容
本发明的目的在于提供一种多基质半无土栽培方法,改变传统无土栽培的较复杂的管理形式,更便于操作和养殖;采用双基质,或多基质形式更有利于植物生长和物流运输,扩大了家庭和办公场所等室内养植的植物种类范围。
本发明是这样实现的:多基质半无土栽培方法,其特征在于,步骤如下:
1)营养土配比:按不同植物生长需求配置营养土,经化验选择无重金属超标的园土;
2)土壤消毒:对营养土,进行高温或者化学方法消毒杀菌,使其无虫卵无杂菌并杀死草籽;
3)装盆:将营养土放入透水透根控土膜材料制成的容器中;所述透水透根控土膜材料为无纺布等,形成第一基质层;
4)移苗或播种:将蔬菜苗、花卉苗、果树苗等移入已装好营养土的容器中定植,或在营养土表面播种;
5)育苗:将移完苗的营养土容器或播种完的营养土容器按株行距植入生长槽中,若较大苗木直接植入更大的定植容器中培育,生长槽或者定植容器中的基质形成第二基质层;
6)浇水:采用传统浇水、滴灌或喷灌的浇水方式浇水。
进一步地,所述营养土为用园土、珍珠岩、草炭土、蛭石、椰糠的一种或多种混合。
进一步地,根据植物生长要求营养土中施加有机肥、益生菌肥或氨基酸肥,施肥的过程可以在装盆前完成或者后续追肥。
进一步地,可根据植物生长要求在第一基质层或第二层基质层内中施用有机肥、益生菌肥、氨基酸肥。
进一步地,育苗过程中,苗床及大的定植容器可采用水、气雾作为第二层基质,或采用珍珠岩、蛭石、陶粒等作为第二层基质。
进一步地,育苗后的植株进行家庭养植,在家庭养植容器中加入适当清水、珍珠岩、蛭石或陶粒等,将营养土容器固定于容器上,且营养土容器底部高于在水面。
进一步地,针对大樱桃等有休眠期的植物,在营养土容器外层盘置降温管,或者将整个营养土容器移入冷库,或就地集中密封降温,渡过休眠期后以上述步骤培育。
与现有技术相比,本发明的有益效果是:用土壤减少其他基质的应用,较大程度上降低了成本。土壤经消毒后,不含杂菌和有害物质,断绝了土传病害的源头。土壤自身还有很多有益元素适合植物生产。施入益生菌肥,使植物根系形成良好的固定菌群,即适合植物生长需求,又能够较大程度上防止土传病虫害发生。根系深入水或另一种基质时,能更好的吸收水分减少浇水次数,达到节约用水,同时根系在另一层基质中能够充分生长,更有利于植物的自身水分和营养的调节。植物根系可直接施入有机颗粒肥,大大降低无土栽培化肥的使用,由于不使用无机化肥,生产出的产品为有机产品。便于运输及物流,相对于小型植物可迅速的包装运输,在运输过程中,土壤保存水分,更有利于长时间运输,相对于较大植物整个容器运输也起到不缓苗的作用,如大樱桃现有种植方式会耽误一年的生长,而以双基质半无土栽培方式,可实现不缓苗,当年种植当年收益。相对于小型植物,运至家庭后可继续生长,在植物食用或处理后亦可直接发送营养土袋植物,减少了运输及购买成本。
附图说明
为了更清楚地说明本发明实施方式的技术方案,下面将对实施方式中所需要使用的附图作简单地介绍,应当理解,以下附图仅示出了本发明的某些实施例,因此不应被看作是对范围的限定,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他相关的附图。
图1是家庭小型植物培育方式示意图。
图2是工业化生产育苗过程示意图。
图3是樱桃工业化生产育苗过程示意图。
具体实施方式
为使本发明实施方式的目的、技术方案和优点更加清楚,下面将结合本发明实施方式中的附图,对本发明实施方式中的技术方案进行清楚、完整地描述,显然,所描述的实施方式是本发明一部分实施方式,而不是全部的实施方式。基于本发明中的实施方式,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施方式,都属于本发明保护的范围
实施例1对于普通蔬菜、花卉等可苗床中生产的小型植物。
1)营养土配比:按不同植物生长需求配置营养土,所述营养土为用园土、珍珠岩、草炭土、蛭石、椰糠等的多种混合;
2)土壤消毒:对营养土,进行高温或者化学方法消毒杀菌,使其无虫卵无杂菌并杀死草籽;
3)装盆:将营养土放入透水透根控土膜材料制成的容器中;所述透水透根控土膜材料为无纺布等,形成第一基质层;
4)移苗或播种:将蔬菜苗、花卉苗、果树苗等移入已装好营养土的容器中定植,或在营养土表面播种;
5)育苗:将移完苗的营养土容器或播种完的营养土容器按株行距植入生长槽中,若较大苗木直接植入更大的定植容器中培育,生长槽或者定植容器中的基质形成第二基质层。
6)浇水:采用传统浇水、滴灌或喷灌的浇水方式浇水。
根据植物生长要求营养土中施加有机肥、益生菌肥或氨基酸肥,施肥的过程在装盆前完成。
可根据植物生长要求在第一基质层或第二层基质层内中施用有机肥、益生菌肥、氨基酸肥。以番茄一茬为例,氮磷钾为主要元素,每立方米基质所用肥料含有全氮(N)为1.5~2.0公斤,全磷(P2O5)为0.5~0.8公斤,全钾(K2O)为0.8~2.4公斤。
育苗过程中,苗床及大的定植容器可采用水作为第二层基质,或采用珍珠岩、蛭石、陶粒作为第二层基质,如图1所示。育苗过程可在生产场地进行规模化生产。育苗后的植株再进行家庭或者办公场所等地养植,在家庭养植容器中加入适当清水或珍珠岩,将营养土容器固定于容器上,且营养土容器底部高于在水面或珍珠岩。
另外,对于蔬菜、花卉等可苗床中生产的植物,待植物达到要求后,可直接取出,根系清洗后,进行快递包装,连同家庭养植容器一同邮寄至客户,客户收到后,可将家庭养植容器加入适当的清水,将营养土袋,固定于水面上,令根系充分吸水,可继续生长,对于较大容器如大樱桃苗木可直接连容器一起包装运输。
实施例2针对一根棍大樱桃的盆栽双基质半无土栽植。
如图3所示,其中需要注意的是:1、营养土配置要真对大樱桃的习性配置;2、可在盆外层盘置降温管;3、采用滴灌或喷灌装置;4、大樱桃需经过700多小时低温休眠才能正常开花结果;5、可整盆移入冷库,营养土盆移入冷库,或就地集中密封降温,依条件而定;6、升温时仍采取正常措施养护。
以上所述仅为本发明的优选实施方式而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (7)
1.多基质半无土栽培方法,其特征在于,步骤如下:
1)营养土配比:按不同植物生长需求配置营养土;
2)土壤消毒:对营养土,进行高温或者化学方法消毒杀菌,使其无虫卵无杂菌并杀死草籽;
3)装盆:将营养土放入透水透根控土膜材料制成的容器中,形成第一基质层;
4)移苗或播种:将蔬菜苗、花卉苗、果树苗等移入已装好营养土的容器中定植,或在营养土表面播种;
5)育苗:将移完苗的营养土容器或播种完的营养土容器按株行距植入生长槽中,若较大苗木直接植入更大的定植容器中培育,生长槽或者定植容器中的基质形成第二基质层;
6)浇水:采用传统浇水、滴灌或喷灌的浇水方式浇水。
2.根据权利要求1所述的多基质半无土栽培方法,其特征在于,所述营养土为用园土、珍珠岩、草炭土、蛭石、椰糠的一种或者多种混合。
3.根据权利要求1或2所述的多基质半无土栽培方法,其特征在于,根据植物生长要求营养土中施加有机肥、益生菌肥或氨基酸肥,施肥的过程在装盆前完成或者后续追肥。
4.根据权利要求1所述的多基质半无土栽培方法,其特征在于,可根据植物生长要求在第一基质层或第二层基质层内中施用有机肥、益生菌肥、氨基酸肥。
5.根据权利要求1或3所述的多基质半无土栽培方法,其特征在于,育苗过程中,苗床及大的定植容器可采用水、气雾作为第二层基质,或采用珍珠岩、蛭石、陶粒作为第二层基质。
6.根据权利要求1所述的多基质半无土栽培方法,其特征在于,育苗后的植株进行家庭养植,在家庭养殖容器中加入适当清水、珍珠岩、蛭石或陶粒,将营养土容器固定于容器上,且营养土容器底部高于在水面。
7.根据权利要求1所述的多基质半无土栽培方法,其特征在于,针对大樱桃等有休眠期的植物,在营养土容器外层盘置降温管,或者将整个营养土容器移入冷库,或就地集中密封降温,渡过休眠期后以上述步骤培育。
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CN106508395A (zh) * | 2016-11-12 | 2017-03-22 | 曹庆寰 | 一种农作物浅水漂浮育苗技术 |
CN110122297A (zh) * | 2019-04-30 | 2019-08-16 | 中国林业科学研究院亚热带林业研究所 | 一种薄壳山核桃两段容器育苗方法 |
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CN101147459A (zh) * | 2007-11-06 | 2008-03-26 | 湖南农业大学 | 旱土作物干湿两段托盘育苗方法 |
CN106508395A (zh) * | 2016-11-12 | 2017-03-22 | 曹庆寰 | 一种农作物浅水漂浮育苗技术 |
CN110122297A (zh) * | 2019-04-30 | 2019-08-16 | 中国林业科学研究院亚热带林业研究所 | 一种薄壳山核桃两段容器育苗方法 |
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