WO2009143649A1 - 改变花色及叶色的方法 - Google Patents

改变花色及叶色的方法 Download PDF

Info

Publication number
WO2009143649A1
WO2009143649A1 PCT/CN2008/001029 CN2008001029W WO2009143649A1 WO 2009143649 A1 WO2009143649 A1 WO 2009143649A1 CN 2008001029 W CN2008001029 W CN 2008001029W WO 2009143649 A1 WO2009143649 A1 WO 2009143649A1
Authority
WO
WIPO (PCT)
Prior art keywords
dye
changing
flower
color
plant
Prior art date
Application number
PCT/CN2008/001029
Other languages
English (en)
French (fr)
Inventor
朱钦昌
Original Assignee
安龙生物科技股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 安龙生物科技股份有限公司 filed Critical 安龙生物科技股份有限公司
Priority to PCT/CN2008/001029 priority Critical patent/WO2009143649A1/zh
Publication of WO2009143649A1 publication Critical patent/WO2009143649A1/zh

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H3/00Processes for modifying phenotypes, e.g. symbiosis with bacteria
    • A01H3/04Processes for modifying phenotypes, e.g. symbiosis with bacteria by treatment with chemicals

Definitions

  • the present application relates to a method of altering flower color and leaf color, and more particularly to a method of altering the color and leaf color of a whole plant.
  • Taiwan is an important orchid producing area in the world. It is also a major orchid exporting country. Both Phalaenopsis, Gedalia, and Oncidium are internationally renowned orchid species. They are known as the “Orchid Kingdom”. Due to its diverse colors, beautiful flowers and long flowering period, Phalaenopsis is an ornamental value and is the darling of the flower market in Europe, America and Japan. Taking Phalaenopsis white flowers as an example, Phalaenopsis white flowers exported from Taiwan account for 60% to 70% of the total international marketing.
  • the present invention provides a method of changing the color of the flower to improve the above situation, avoiding waste of a large amount of white flowers being discarded.
  • the main purpose of the present application is to provide a method for changing the color of flowers, which can be dyed into colored flowers of different colors according to requirements, so that white flowers can be reused, and the diversity marketing of white flowers can be increased.
  • Another object of the present application is to provide a method for changing the color of a flower, which can be used to dye a whole plant, and can create various changes in the color of the flower, and the color of the flower is stable and does not fade, so that the applicability and the saleability of the plant can be increased.
  • a broader embodiment of the present application provides a method for changing a flower color by injecting a dye into a vascular bundle tissue of a whole plant with a syringe so that the dye can pass through the plant.
  • the vascular bundle tissue is transported to the target site for the purpose of changing the color of the flower.
  • the syringe is a syringe with a microinjection needle.
  • the dye is a water soluble dye and is preferably a food coloring.
  • the whole plant is a potted flower or a potted plant, and the dye is transported to the target site via the xylem of the vascular bundle tissue.
  • One of the injection sites of the syringe is the base of the peduncle, and the depth of the injection is about the center of the pedicel.
  • the temperature of the environment in which the plant was placed after the injection was maintained at 15 - 35 °C.
  • Another broad embodiment of the present application is to provide a method of changing leaf color by injecting a dye into a vascular bundle tissue of a whole plant with a syringe so that the dye can pass through the vascular bundle of the plant The tissue is transported to the target site for the purpose of changing the leaf color.
  • Figure 1 Schematic diagram of the method of changing the color of the application.
  • the present application provides a method for changing the appearance color of plants, such as changing the color of flower color, leaf color or other parts, and mainly using a syringe to inject the dye into the vascular bundle tissue of the whole plant, so that the dye can pass through the dimension of the plant.
  • the tube bundle tissue is transported to the target site for the purpose of changing the appearance of the plant.
  • FIG. 1 is a schematic diagram showing a method for changing the color of the present application.
  • the dye to be rendered in color can be injected into the white moth orchid plant 20 with the syringe 10, and the dye is transported upward through the vascular bundle to the flower.
  • the original part of the white flower gives the other colors.
  • the color formed by the method of the present application is bright, stable and does not fade, is more expressive than natural color, and has higher ornamental value. Different from the cut flower dyeing technology on the market, the method of changing the color provided by the application does not need to be cut, but straight
  • the syringe is a syringe with a microinjection needle, for example
  • the syringe can be, but is not limited to, injection of insulin.
  • Vascular bundles are the structure of water, nutrients transported by roots, stems and leaves of plants, where the xylem is responsible for transporting water and the phloem is responsible for transporting nutrients.
  • the dye used in the present application is a water-soluble dye that can be transported to the target site via the xylem of the vascular bundle.
  • the dye used is preferably a non-toxic or low-toxic water-soluble dye.
  • the dye can be, but is not limited to, a food coloring.
  • the injection site since the vascular bundle is present in the entire plant, it is generally possible to inject the dye into the xylem of the vascular bundle, and any part can be used as an injection site.
  • the injection site is preferably a base of the peduncle, so that the leaves and roots do not develop color, and the peduncle is less affected, and the base of the peduncle is relatively mature, so that the injection is not excessive in this part. Damage to plants, the success rate is also the highest.
  • the depth of injection is about the center of the pedicel, so that the dye is injected into the xylem, and the epidermis of the pedicel is not easy to develop color.
  • the timing of the injection can be from the appearance of the flower buds until the petals are fully opened.
  • Temperature is also one of the important factors affecting the dyeing effect of flowers. When the temperature is high, the dyeing effect is good, because the transpiration is strong when the temperature is high, and the dye can be quickly transported to the petals and flower buds to achieve the dyeing effect. According to the concept of the present application, the temperature of the environment in which the plants are placed after injection is maintained at 10-35 °C.
  • adjustments in ambient temperature and/or humidity may cause transpiration to accelerate, and the dye is transported along the xylem to the petal portion, exhibiting a line staining effect, or It is even transported quickly to the edge of the petals, allowing the dye to develop on the edge of the petals and achieve the effect of edging.
  • the number of injections can be adjusted one or more times, for different injections.
  • the dyes can be of the same color or different colors to achieve the effect of deepening the color or color.
  • the plant After the dye is injected, the plant should be fully supplied with water to avoid the phenomenon of buds due to lack of water.
  • the surrounding environment should also maintain good ventilation, so as to facilitate the transpiration, and the dye can be transported to the petals and flower buds through the
  • the present application provides a method for changing flower color, which uses a syringe to inject a water-soluble dye, such as a moderately diluted food color, into a vascular bundle tissue of a whole plant, so that the water-soluble dye can pass through the vascular bundle
  • a water-soluble dye such as a moderately diluted food color
  • the xylem is transported to the petals and flower buds, so that the white flowers appear in various colored colors to achieve the purpose of changing the color, thereby enhancing the diversified marketing of white flowers.
  • the method of changing the color provided by the present application has a number of advantages. First, in order to further reuse the large amount of white phalaenopsis remaining in the export,
  • the white flower can be dyed into colored flowers by the method provided by the present application to increase the diversified marketing of white flowers, avoiding the waste of a large number of white flowers being discarded, and recovering the cultivation and planting costs.
  • various dyeing effects can be achieved, such as various flower color changes, the same plant can be Multi-colored, or create new colors, can also create a color effect, or the effect of edging, so that the Phalaenopsis shows more appearance, greatly increasing the ornamental value of Phalaenopsis, and enhancing its applicability. With sales.
  • the market demand for color phalaenopsis it is common practice to first determine the color of the desired color, and to develop a variety of colors that can be used in a genetically modified manner, and then obtain a planting period of two to three years. Color orchids are needed.
  • the market demand may change, or the overproduction of the same color flower will exceed the demand, and the butterfly orchid planted will not be sold smoothly.
  • the white flower can be directly planted without involving genetic modification, and the white flower is dyed into the desired color flower according to the market demand when the flowering is performed, so that the cultivation of the Phalaenopsis can be simplified.
  • the dyeing method provided by the present application does not require cutting, but directly dyes intact living plants, such as potted plants or potted plants, so that whole plants can be sold to enhance the application of landscape design.
  • the technique of the present application can be applied to other colored flowers, such as the color of the light-colored flower system, or the effect of the single-color flower to the same color flower.
  • the technology of the present application is not limited.
  • the color formed by the application of the technique of the present application is not only bright and stable, but also does not fade, so it is more expressive and has higher ornamental value than the natural color.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Botany (AREA)
  • Developmental Biology & Embryology (AREA)
  • Environmental Sciences (AREA)
  • Cultivation Of Plants (AREA)

Description

改变花色及叶色的方法 技术领域
本申请涉及一种改变花色及叶色的方法, 尤其涉及 一种改变完整植株之花色及叶色的方法。 背景技术
台湾是世界上重要的兰花产地, 也是主要的兰花输出 国, 无论是蝴蝶兰、 嘉德利亚兰、 文心兰等均是享誉国际 的兰花种类, 自来即有 「兰花王国」 的美誉, 其中蝴蝶兰 由于颜色多样、 花型优美且花期长, 因此极具观赏价值, 更是欧美、 日本等花卉市场的宠儿。 以蝴蝶兰白花为例, 从台湾出口之蝴蝶兰白花就占了整个国际营销之六成至 七成。
由于蝴蝶兰白花之外销产量大, 一年可达三千五百万 株, 为确保订单数量完整交付, 植株栽种数量往往远大于 订单数量, 例如五千万株, 也因此有相当大的剩余量。 然 而在台湾、 中国大陆及东南亚等国家, 白色花由于习俗关 系并非如此受到喜爱, 因而往往造成大量剩余的白色花必 须丢弃, 成为无法回收的成本, 既不经济也不环保。
有鉴于此, 本发明提供一种改变花色的方法, 以改善 上述情形, 避免大量白色花被丢弃而浪费。
另外, 自然色花会在花期末期出现褪色的情形, 而渐 渐丧失其观赏价值。 因此, 如何维持花色之持久, 或是使
替换页(细则第 26条) 花色有多样性变化, 也是本申请所欲解决的问题 发明内容
本申请之主要目的在于提供一种改变花色的方法, 可 依需求将白花染成不同颜色的色花, 使白花可被再利用, 增加白花的多样性营销。
本申请之另一目的在于提供一种改变花色的方法, 对 完整植株进行染色, 可创造出花色之多样变化, 且花色稳 定不褪色, 故可增加植株之适用性与销售性。
为达上述目的, 本申请的一个较广义的实施方式是提 供一种改变花色的方法, 其以一注射器将一染剂注射入一 完整植株的维管束组织中, 使该染剂可经由该植株之该维 管束组织运送至标的部位, 以达到改变花色的目的。
根据本申请上述之构想, 该注射器为一具微注射针头 之注射器。 该染剂为一水溶性染剂, 且较佳为食用色素。 该完整植株为一盆花或一盆栽, 且该染剂系经由该维管束 组织之木质部运送至该标的部位。 该注射器之一注射部位 为花梗基部节位, 而注射深度约及花梗中心。 另外, 注射 后之该植株所处环境的温度维持在 15 -35 °C。
本申请的另一较广义的实施方式为提供一种改变叶 色的方法, 其以一注射器将一染剂注射入完整植株的维管 束组织中, 使该染剂可经由该植株之该维管束组织运送至 标的部位, 以达到改变叶色的目的。
替换页(细则第 26条) 附图说明
图 1 : 本申请改变花色的方法示意图。
1 0: 注射器;
20: 蝴蝶兰植株。 具体实施方式
体现本申请特征与优点的一些典型实施例将在后段 的说明中详细叙述。 应理解的是, 本申请能够在不同的方 式上具有各种的变化, 其皆不脱离本申请的范围, 且其中 的说明及图式在本质上是当作说明之用, 而非用以限制本 申请。
本申请提供一种改变植株外观显色的方法, 如改变花 色、 叶色或其他部位颜色的方法, 主要利用注射器将染剂 注射入完整植株的维管束组织中, 使染剂可经由植株之维 管束组织运送至标的部位, 以达到改变植株外观显色的目 的。
请参阅图 1,其为显示本申请改变花色的方法示意图。 如图所示, 在一实施例中, 为使白色蝴蝶兰呈现出其他色 彩, 可将欲呈现色彩之染剂以注射器 10 注射入白色蝴蝶 兰植株 20, 使染剂经由维管束向上运送至花的部位, 使得 原本的白花呈现出其他色彩。 经本申请之方法染色后形成 的花色鲜艳、稳定且不会褪色, 比自然花色更富有表现力, 具有更高的观赏价值。 不同于市面上的切花染色技术, 本 申请所提供之改变花色的方法并不需做切花处理, 而是直
3
替换页(细则第 26条) 接对完整的活体植株, 如盆花或盆栽等进行染色。 根据本 申请之构想, 该注射器为具有微注射针头之注射器, 例如
30号以上之细针,可减少对植株的伤害,并避免留下痕迹。 在一实施例中, 该注射器可为但不限于注射胰岛素的注射 益
维管束为植物之根、 茎及叶运输水分和养分的构造, 其中木质部负责运送水分, 而韧皮部负责运送养分。 为使 染剂能向上运送到花瓣及花蕾部位以改变花色, 本申请所 采用的染剂为水溶性染剂, 使其可经由维管束之木质部运 送至标的部位。 再者, 为避免环境污染, 所使用之染剂较 佳为无毒性或低毒性的水溶性染剂。 在一实施例中, 该染 剂可为但不限于食用色素。
关于注射部位, 由于维管束存在于整株植株, 因此原 则上只要能将染剂注射入维管束之木质部, 任何部位皆可 作为注射部位。 在一实施例中, 注射部位较佳为花梗基部 节位, 如此叶片和根就不会显色, 也比较不影响花梗美观, 且花梗基部组织比较成熟, 故在此部位进行注射比较不会 过度伤及植株, 成功率也最高。 注射深度约及花梗中心, 如此可保证染剂注射入木质部, 且花梗表皮也不易显色。 而注射时机则从花苞出现一直到花瓣全开之后皆可。
温度也是影响花色染色效果的重要因素之一。 温度高 时, 染色效果较好, 因为温度高时蒸腾作用旺盛, 染剂可 迅速被运送至花瓣及花蕾部位, 而达到染色效果。 根据本 申请之构想, 注射后植株所处环境的温度维持在 10-35 °C,
4
替换页(细则第 26条) 若温度低于 i o °c, 因根部不吸水使得上色不易, 若温度高 于 35 °C, 则容易消蕾, 导致花苞掉落, 因此, 温度应维持 在 1 0-35 °C, 且较佳为 15-35 °C。 同样地, 环境湿度亦会影 响蒸腾作用之进行, 因此也是影响花色染色效果的因素之 —。 在一些实施例中, 透过环境温度及 /或湿度的调整, 如 提高温度及 /或降低湿度, 可促使蒸腾作用加速, 染剂沿木 质部被运送至花瓣部位, 呈现出线条染色的效果, 或甚至 被迅速运送至花瓣边缘, 使染剂显色在花瓣边缘, 而达到 镶边染色的效果。
为得到不同之染色效果, 除调整染剂种类、染剂浓度、 染剂酸碱度、 染剂剂量、 环境温度及 /或湿度外, 亦可调整 注射次数为一次或多次, 不同次的注射所使用的染剂可为 同色或不同色, 以达到加深颜色或套色的效果。
在染剂注射后, 应对植株充分供水, 以免因缺水而造 成消蕾现象, 周围环境也应维持良好的通风, 以利蒸腾作 用之进行, 使染剂经由维管束运送到花瓣与花蕾, 达到上 色的目的。
综合而言, 本申请提供一种改变花色的方法, 其以注 射器将水溶性染剂, 例如经适度稀释之食用色素, 注射入 完整植株的维管束组织中, 使水溶性染剂可经由维管束之 木质部运送至花瓣及花蕾, 使白花显现出各种彩色花色, 以达到改变花色的目的, 进而增进白花之多样化营销。
因此, 本申请所提供之改变花色的方法具有多项优 点。 首先, 为进一步再利用外销剩余之大量白色蝴蝶兰,
5
替换页(细则第 26条) 可采用本申请所提供之方法将白花染成彩色花, 以增加白 花的多样化营销, 避免大量白色花被丢弃而浪费, 同时可 回收培育栽种成本。 尤其, 透过染剂之种类、 浓度、 酸碱 度及剂量之调整, 或是环境温度及湿度之变化, 以及注射 次数之控制, 可达成各种不同之染色效果, 例如多样的花 色变化, 同一植株可呈现多元花色, 或是创造新的花色, 亦可制造套色效果, 或是镶边染色效果, 使蝴蝶兰呈现更 多元的样貌, 大大地增加了蝴蝶兰之观赏价值, 亦增进其 适用性与销售性。
再者, 在彩色蝴蝶兰之市场需求上, 常见的做法是先 决定所需花色, 并以转基因方式培育出可开出所需色花之 品种, 再经过二至三年的栽种期而得到所需之彩色蝴蝶 兰。 然而, 由于栽种期长, 待蝴蝶兰开花时, 可能市场需 求花色已改变, 或是同色花生产过剩而供过于求, 都将造 成所栽种的蝴蝶兰无法顺利销售出去。 然而, 若应用本申 请之方法, 即可直接栽种白色花而无须涉及基因改造, 待 开花时再依市场需求将白色花染成所需色花, 如此一来, 将可简化蝴蝶兰之培育栽种过程, 并供应符合市场需求花 色之植株。 尤其, 本申请所提供之染色方法不需做切花处 理, 而是直接对完整的活体植株, 如盆花或盆栽等进行染 色, 因此可销售完整植株, 增进景观设计之应用。
此外, 本申请技术除可对白色花进行染色外, 亦可应 用于其他色花, 例如加深浅色花系之花色, 或是使单一色 系花达到等同多种色花的效果。 当然, 本申请技术并不限
6
替换页(细则第 26条) 应用于蝴蝶兰, 由于所有植株皆具有维管束组织, 并同样 利用木质部来运送生长所需水分, 因此皆可应用本申请方 法, 利用注射器将染剂注射入植株之维管束组织, 达到改 变花色之目的。 同样地, 除改变花色外, 本申请技术当然 亦可应用于改变叶色。
另外, 相对于自然花色会褪色之缺点, 应用本申请技 术染色后所形成的花色不但色泽鲜艳、稳定, 更不会褪色, 因此比自然花色更富有表现力, 具有更高的观赏价值。
综上所述, 本申请之改变花色及叶色的方法具有极高 的实用性, 为一具高度产业价值之发明, 故依法提出专利 申请。 在不违背本发明的精髓下, 本领域技术人员所实现 的各种变化形式都属于本申请的保护范围。
替换页(细则第 26条)

Claims

权利要求
1 . 一种改变花色的方法, 其以一注射器将一染剂注射入一 兀整植株的维管束组织中, 使该染剂可经由该植株之该维 束组织运送至标的部位, 以达到改变花色的目的。
2. 根据权利要求 1所述的改变花色的方法, 其中 , 该注射 器为一具微注射针头之注射器。
3.根据权利要求 1所述的改变花色的方法, 其中 , 该染剂 为一水溶性染剂。
4.根据权利要求 1所述的改变花色的方法, 其中 , 该染剂 为食用色素
5. 根据权利要求 1所述的改变花色的方法, 其中 , 该元整 植株为一盆花或一盆栽。
6. 根据权利要求 1所述的改变花色的方法, 其中 , 该染剂 经由该维管束组织之木质部运送至该标的部位。
7.根据权利要求 1所述的改变花色的方法, 其中 , 该注射 器的注射部位为花梗基部节位。
8. 根据权利要求 7所述的改变花色的方法, 其中 , 该注射 器的注射深度约达花梗中心。
9.根据权利要求 1所述的改变花色的方法, 其中 , 注射后 该植株所处环境的温度维持在 15 -35 °C。
10.—种改变叶色的方法, 其以一注射器将一染剂注射入 完整植株的维管束组织中, 使该染剂可经由该植株之该维 管束组织运送至标的部位, 以达到改变叶色的目的。
PCT/CN2008/001029 2008-05-27 2008-05-27 改变花色及叶色的方法 WO2009143649A1 (zh)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/CN2008/001029 WO2009143649A1 (zh) 2008-05-27 2008-05-27 改变花色及叶色的方法

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CN2008/001029 WO2009143649A1 (zh) 2008-05-27 2008-05-27 改变花色及叶色的方法

Publications (1)

Publication Number Publication Date
WO2009143649A1 true WO2009143649A1 (zh) 2009-12-03

Family

ID=41376531

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2008/001029 WO2009143649A1 (zh) 2008-05-27 2008-05-27 改变花色及叶色的方法

Country Status (1)

Country Link
WO (1) WO2009143649A1 (zh)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL2023508B1 (nl) * 2019-07-15 2021-02-08 Vg Orchids B V Potplant van het geslacht Phalaenopsis waarbij het inwendige van de steel is voorzien van een gat
NL2024429B1 (en) * 2019-12-11 2021-08-31 Gerard De Koning Bloemen B V Method for colouring flowers of pot plants
WO2023224483A1 (en) * 2022-05-20 2023-11-23 De Koning Planten B.V. Method for colouring flowers of pot plants

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1999019499A1 (en) * 1997-10-16 1999-04-22 Oms Investments, Inc. Transgenic plants and method for node segment transformation
CN1869241A (zh) * 2006-05-31 2006-11-29 浙江大学 用植物dna病毒沉默载体改变观赏植物叶色、花色的方法
CN101165186A (zh) * 2007-09-27 2008-04-23 复旦大学 从蝴蝶兰克隆出的类黄酮-3'5'-羟化酶基因,其编码序列和应用

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1999019499A1 (en) * 1997-10-16 1999-04-22 Oms Investments, Inc. Transgenic plants and method for node segment transformation
CN1869241A (zh) * 2006-05-31 2006-11-29 浙江大学 用植物dna病毒沉默载体改变观赏植物叶色、花色的方法
CN101165186A (zh) * 2007-09-27 2008-04-23 复旦大学 从蝴蝶兰克隆出的类黄酮-3'5'-羟化酶基因,其编码序列和应用

Non-Patent Citations (2)

* Cited by examiner, † Cited by third party
Title
CHEN W.S. ET AL.: "Gibberellin and temperature influence carbohydrate content and flowering in Phalaenopsis.", PHYSIOLOGIA PLANTARUM., vol. 90, 1994, pages 391 - 395 *
ZHANG Y.P. ET AL.: "Effects of food colors on dyeing of cut chrysanthemum.", SUBTROPICAL PLANT SCIENCE., vol. 33, no. 2, 2004, pages 25 - 27 *

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL2023508B1 (nl) * 2019-07-15 2021-02-08 Vg Orchids B V Potplant van het geslacht Phalaenopsis waarbij het inwendige van de steel is voorzien van een gat
NL2024429B1 (en) * 2019-12-11 2021-08-31 Gerard De Koning Bloemen B V Method for colouring flowers of pot plants
WO2023224483A1 (en) * 2022-05-20 2023-11-23 De Koning Planten B.V. Method for colouring flowers of pot plants
NL2031942B1 (en) * 2022-05-20 2023-11-27 De Koning Planten B V Method for colouring flowers of pot plants

Similar Documents

Publication Publication Date Title
Brickell American horticultural society encyclopedia of plants and flowers
CN101455156B (zh) 卡特兰花期调控的方法
CN104012289A (zh) 一种多色芽叶茶树盆景的培育方法
CN105432326B (zh) 油茶树做砧木嫁接茶花的培育工艺
CN109874587A (zh) 一种大油松景观造型方法
CN109089817A (zh) 一种火焰兰花期调控方法
CN106069143A (zh) 一种菊花在光型植物工厂中的种植方法
CN102487698A (zh) 利用5-azaC促进菊花提前开花的方法
CN103430713B (zh) 一种广玉兰高效栽培方法
CN102640672A (zh) 一种促使‘金陵黄枫’形成二次观赏效果的方法
WO2009143649A1 (zh) 改变花色及叶色的方法
CN102356730A (zh) 一种七彩玉兰的快速培育方法
CN101467529A (zh) 延长草坪绿色期的方法
CN103202157B (zh) 德国鸢尾黑骑士的促成栽培方法
CN104604623A (zh) 一种大树杨梅大小年控制方法
CN101473751B (zh) 中华金叶榆摘叶促芽叶色调控方法
CN201869636U (zh) 一种盆景
CN103229661A (zh) 一种“低干双枝法”盆景培育新方法
CN103070026A (zh) 快速培育树状观果冬青的方法
TW200948265A (en) Method for changing colors of flowers and leaves
CN105850487A (zh) 一种香石竹节水扦插生根的方法
CN101978809B (zh) 川鄂连蕊茶盆花促成栽培方法
CN107155542A (zh) 一种编干型树状月季的培育方法
CN106688757A (zh) 一种矮化嘉宝果无公害栽培方法
CN105145066A (zh) 一种采用植物生长控制剂缩短盐柏盆景培育周期的方法

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 08757360

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 08757360

Country of ref document: EP

Kind code of ref document: A1