CN111480564A - Method for regulating and controlling flowering phase of hippeastrum rutilum - Google Patents

Abstract

The application provides a method for regulating and controlling the florescence of hippeastrum rutilum, which comprises the following steps: selecting seed balls of hippeastrum with the diameter of 10-15cm, removing redundant leaves, cleaning the seed balls, and placing the seed balls in a container; injecting hot water with the water temperature of 45 +/-5 ℃ into the container, and steaming the seed balls for 100-120 minutes at the temperature; performing secondary sterilization treatment on the cooked seed balls; the seed balls are refrigerated at the temperature of 14-17 ℃ for 7-9 weeks; moisturizing and root promoting are carried out on the refrigerated seedballs; and (4) planting the seed balls. The treatment method provided by the invention has the advantages that the steps are simple and easy to implement, the flowering uniformity of the hippeastrum rutilum can be regulated, the flowering rate is improved, the storage cost in the early-stage treatment of the seed balls is saved, the actual production is facilitated, and the industrial utilization value is realized.

Description

Method for regulating and controlling flowering phase of hippeastrum rutilum

Technical Field

The application relates to the technical field of planting, in particular to a method for regulating and controlling the florescence of hippeastrum rutilum.

Background

The hippeastrum (hippeastrum hybridum) belongs to the bulbus flower of the hippeastrum of the lycopodaceae, and has large flower size, fragrance, soft and bright color, rich color and high ornamental value. The production of the cut flowers of the hippeastrum rutilum is mainly carried out in a sunlight greenhouse, and the normal flowering period is 5-6 months. The outdoor cultivation needs about 3 years from sowing to flowering and marketing, and the sunlight greenhouse cultivation can advance the flowering and marketing for 1 year, thereby obtaining better benefit. The hippeastrum belongs to perennial herb plants, and each seed ball can be continuously produced for 5-8 years. Therefore, in order to ensure the flowering quality in the next year, a series of treatments are required to be carried out on the seed balls before planting. And (3) opening the field of the cultured hippeastrum rutilum, blooming in summer and autumn, stopping growth in 10 months, stopping fertilizing and watering, and withering the overground part after blooming. Therefore, the key point is how to effectively solve the flower forcing technology by taking the hippeastrum as a new favorite for flowers in the night or high-grade potted flowers.

The current research based on the florescence control of the hippeastrum roseum is mainly focused on experimental research. The proto-yali-lingo [1] shows that the seed balls of hippeastrum rutilum are beneficial to growth of hippeastrum rutilum flower buds under the storage condition of 4-9 ℃, but the optimal storage temperature and storage time of the hippeastrum rutilum are still required to be further explored. A hippeastrum flowering phase regulation test of Lvwentao [2] shows that the seed balls are stored for 60 days at the temperature of 5-7 ℃ and have favorable influence on the leaf bud germination, the flower bud germination, the leaf unfolding rate and the flowering rate of hippeastrum. Cao Rong Xiang [3] research results on the harvesting period and pretreatment of hippeastrum indicate that the flower bud germination rate of the seedball of hippeastrum harvested in 10 months is higher than that of the seedball harvested in 9 months, but the flowering rate before the spring festival is lower than that of the seedball harvested in 9 months; the germination rate, the height and the flowering rate of the flower buds of the seedballs of the hippeastrum which is stored at low temperature are all higher than those of the seedballs which are stored at normal temperature and directly put into a pot; the seedball dormancy breaking of the hippeastrum can be effectively broken by storing for 30-60 days at the temperature of 9 ℃.

The research starts from the angle of breaking dormancy of the seed balls to regulate and control the flowering period of the hippeastrum, the storage temperature is low, the flowering rate, particularly the flowering uniformity, is not researched and explored, and how to save the storage cost and regulate and control the flowering uniformity is not considered from the angle of large-scale production. The low-temperature storage is beneficial to breaking dormancy and flower bud differentiation, but if a proper seedball treatment method is found, the seedball storage cost is reduced, the flowering uniformity of the hippeastrum is promoted, the circulation of potted flowers is accelerated, and therefore the labor cost, the rent cost and the like are saved, and the method is of great significance for large-scale production.

Disclosure of Invention

In view of the above problems in the prior art, the present application aims to provide a method for regulating the period of hippeastrum to promote the differentiation of hippeastrum buds, increase the flowering rate and the flowering regularity of hippeastrum, and solve the problem of high storage cost of the seed balls at low temperature.

In order to achieve the above object, the present application provides a method for regulating and controlling a flowering phase of hippeastrum rutilum, comprising the steps of:

s1, selecting a seed ball of hippeastrum with the diameter of 10-15cm, and cleaning the seed ball;

s2, carrying out primary sterilization treatment on the seed balls;

s3, carrying out secondary sterilization treatment on the seed balls;

s4 refrigerating the seed balls at 14-17 deg.C for 7-9 weeks;

s5, moisturizing and root promoting are carried out on the seedballs;

s6, planting the seedball in a flowerpot;

wherein, the step S2 is to perform a primary sterilization treatment on the seedball, specifically to steam the seedball for 100-120 minutes by injecting and maintaining hot water at 45 + -5 ℃.

Optionally, the step S3 of performing secondary sterilization treatment on the seed ball further includes the steps of:

s31 soaking the seedball in 700 times of 70% carbendazim solution for 40-60 min.

Optionally, before the S4 freezing the seedball for 7-9 weeks at 14-17 ℃, the method comprises the steps of:

s41 soaking coconut husk;

s42, placing the seed balls into the soaked coconut coir;

optionally, the step of moisturizing and root promoting the refrigerated hippeastrum seed balls by the step of S5 includes:

s51 adding gibberellin into clear water at 25 deg.C, and adjusting the concentration to 150 mg/L;

s52, soaking the seed ball in the prepared gibberellin diluent for 100-120 minutes.

Optionally, S6 will the seedball carries out the field planting in the flowerpot, including preparing the cultivation matrix of cultivation the seedball specifically includes the step:

s61, mixing the sand, the coconut chaff and the peat according to the ratio of 1:1: 1;

s62 mixing 10% of bone meal and 10% of calcium superphosphate;

s63, sterilizing after mixing uniformly, and adjusting the pH to 6-7;

will the seedball carries out the field planting in the flowerpot, including the step:

s64 filling 6-8cm of culture medium prepared in the step S61-S63 into the bottom of the basin;

s65, planting the seed balls into the culture medium;

s66, fixing the seed balls and watering the seed balls thoroughly at one time;

wherein the planting depth is 2/3 of the seed balls exposed on the surface of the culture substrate.

Optionally, the step of planting the seed ball by the S6 further includes:

s7, placing the flowerpot with the seedball in a ventilation environment with the temperature of 20-25 ℃ and the relative humidity of 70-80%;

s8 watering is started after the seed ball sends out new leaves;

s9 applying the compound fertilizer once every 12-16 days.

Optionally, the method comprises the following steps after the flower buds grow out:

s10, increasing the temperature, keeping the temperature at 25-30 ℃, and adjusting the relative humidity to 60% -70%;

s11 continuing to apply the compound fertilizer and controlling the flower diameter height using paclobutrazol.

Optionally, the compound fertilizer is a 1000-fold liquid of 20-20-20 all-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering.

Optionally, the paclobutrazol is 500-800 times of liquid, and the using times are 2-4 times.

This application is through handling such as the cold-stored root promotion of seedball with hippeastrum by cleaning and disinfecting, and the seedball of rethread specific planting mode cultivation hippeastrum, and process steps is simple, and the operation is implemented the back, and the flowering rate reaches more than 98%, neatly goes out the flower in 16 th-17 th week simultaneously, reduces seedball storage cost, promotes the hippeastrum blossoming regularity for the potted flower circulation, thereby practices thrift manpower and rent cost, is favorable to actual production, has the industrial value of utilizing.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the application, are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. It is obvious that the drawings in the following description are only some embodiments of the application, from which other drawings can be derived without inventive faculty for a person skilled in the art. In the drawings:

FIG. 1 is a schematic flow chart of a method for regulating and controlling the florescence of hippeastrum in example 1 of the application;

FIG. 2 is a schematic flow chart of a secondary sterilization step of a method for regulating and controlling the florescence of hippeastrum in example 1 of the application;

FIG. 3 is a flow chart of the steps before refrigeration seedball of the method for regulating and controlling the florescence of hippeastrum in example 1 of the application;

FIG. 4 is a schematic flow chart of a step of moisturizing the bulbs in the method for regulating and controlling the flowering phase of hippeastrum;

FIG. 5 is a schematic flow chart of the field planting step of a method for regulating and controlling the florescence of hippeastrum in example 1 of the application;

FIG. 6 is a schematic flow chart of the steps after field planting of a method for regulating and controlling the florescence of hippeastrum rutilum in example 1 of the application;

FIG. 7 is a schematic flow chart of a method for regulating and controlling the flowering phase of hippeastrum in example 2 of the present application;

FIG. 8 is a schematic flow chart of the secondary sterilization step of the method for regulating and controlling the florescence of hippeastrum in example 2 of the application;

FIG. 9 is a schematic flow chart showing the steps before freezing the bulb of a method for controlling the flowering phase of hippeastrum in example 2 of the present application;

FIG. 10 is a schematic flow chart of a step of moisturizing the bulbs of the method for regulating and controlling the flowering phase of hippeastrum;

FIG. 11 is a schematic flow chart of the field planting step of a method for regulating and controlling the florescence of hippeastrum in example 2 of the application;

FIG. 12 is a schematic flow chart showing the steps after field planting in a method for regulating and controlling the florescence of hippeastrum in example 2 of the present application;

FIG. 13 is a schematic flow chart of a method for regulating and controlling the flowering phase of hippeastrum in example 3 of the present application;

FIG. 14 is a schematic view of a flow chart of a secondary sterilization step of a method for regulating and controlling the florescence of hippeastrum rutilum in example 3 of the present application;

FIG. 15 is a schematic flow chart showing the steps before refrigeration seedball of a method for controlling the flowering phase of hippeastrum in example 3 of the present application;

FIG. 16 is a schematic flow chart of a step of moisturizing the bulbs of the method for regulating and controlling the flowering phase of hippeastrum;

FIG. 17 is a schematic flow chart of the field planting step of a method for regulating and controlling the florescence of hippeastrum in example 3 of the application;

FIG. 18 is a schematic flow chart showing the steps after field planting in a method for regulating and controlling the florescence of hippeastrum in example 3 of the present application;

FIG. 19 is a schematic flow chart of a method for controlling the flowering phase of hippeastrum in example 4 of the present application;

FIG. 20 is a schematic view of a flow chart of a secondary sterilization step of a method for controlling the flowering phase of hippeastrum rutilum in example 4 of the present application;

FIG. 21 is a schematic flow chart showing the steps before refrigeration seedball of a method for controlling the flowering phase of hippeastrum in example 4 of the present application;

FIG. 22 is a schematic flow chart of a step of moisturizing the bulbs of the method for regulating and controlling the flowering phase of hippeastrum;

FIG. 23 is a schematic flow chart showing a step of preparing a culture medium in a method for controlling the flowering phase of hippeastrum in example 4 of the present application;

FIG. 24 is a schematic flow chart of the field planting step of a method for regulating and controlling the florescence of hippeastrum in example 4 of the application;

FIG. 25 is a schematic flow chart showing the steps after field planting in a method for regulating and controlling the florescence of hippeastrum in example 5 of the present application;

FIG. 26 is a schematic flow chart of a method for controlling the flowering phase of hippeastrum in example 5 of the present application;

FIG. 27 is a flow chart of a secondary sterilization step of a method for controlling the flowering phase of hippeastrum in example 5 of the present application;

FIG. 28 is a schematic flow chart showing the steps before refrigeration of bulbs in a method for controlling the flowering phase of hippeastrum in example 5 of the present application;

FIG. 29 is a schematic flow chart of a step of moisturizing the bulbs in the method for regulating and controlling the flowering phase of hippeastrum;

fig. 30 is a schematic flow chart of the planting step of a method for regulating and controlling the flowering phase of hippeastrum in embodiment 5 of the present application.

Detailed Description

The present application is further described below with reference to the accompanying drawings and examples.

Referring to fig. 1 to 3, an embodiment of the present application discloses a method for regulating and controlling a hippeastrum florescence, which includes the steps of:

s10, selecting a seed ball of hippeastrum with the diameter of 15cm, and cleaning the seed ball;

s11, carrying out primary sterilization treatment on the seed balls;

s12, carrying out secondary sterilization treatment on the seed balls;

s13 refrigerating the seed balls at 15 ℃ for 8 weeks;

s14, moisturizing and root promoting are carried out on the seedballs;

s15, planting the seedball in a flowerpot;

in step S11, the seedball is sterilized once, and the seedball is cooked for 100 minutes by injecting and maintaining hot water at 47 ℃.

In the embodiment, orange red hippeastrum (amarylis vittaai.) seed balls of about 15cm are cleaned, the seed balls are boiled in warm water at 45 ℃ for 100 minutes to kill eggs for primary sterilization, then secondary sterilization is carried out to kill microbial bacteria in the seed balls, and after insect damage is prevented, the flowering rate of the hippeastrum seed balls is ensured; then, refrigerating the sterilized seed balls of the hippeastrum rutilum, supplementing water and promoting roots, and using the seed balls of the hippeastrum rutilum for storage culture; the refrigerating temperature of 15 ℃ is compared with the temperature of low-temperature storage of common seed balls of 4-9 ℃, so that the refrigerating chamber is more electricity-saving, and a large amount of electric power cost is saved during storage, thereby saving rent and labor cost of storage.

Then, special fertile soil and base fertilizer suitable for growth of the hippeastrum are planted, so that the hippeastrum seed balls are further protected from being polluted by germs, the flowering time of the hippeastrum seed balls is prolonged, and the flowering time is increased.

Optionally in this embodiment, in S12, the secondary sterilization treatment of the cooked seedballs includes:

s121, soaking the seedballs in 700 times of 70% carbendazim solution for 45 minutes.

After killing eggs with warm water, performing secondary sterilization by using carbendazim to kill microbial bacteria, preventing insect pests, then washing with clear water and drying for later use. The healthy growth of the seed balls of the hippeastrum can be ensured, the seed balls which are failed to bloom due to germs and worm eggs are avoided, and the flowering rate of the hippeastrum is improved.

In an optional embodiment, before the S13 is used to store the seedballs in an environment at 15 ℃ for 8 weeks, the method includes the following steps:

s131, foaming coconut coir;

s132, placing the seed balls into the soaked coconut coir.

Compared with other storage matrixes, the coconut coir has low cost and high cost performance; when the coconut husk is foamed, the humidity is based on that the coconut husk can be kneaded into a group by hand and water drops can not be extruded, and the coconut husk serving as a storage substrate has too large water content, so that the air permeability of the seed balls is reduced, and the storage of the seed balls is not facilitated.

This embodiment is optional, the seed ball of the refrigerated back hippeastrum is moisturized and root is promoted by S14 includes the step:

s141, adding gibberellin into clear water at 25 ℃ to adjust the concentration to 150 mg/L;

s142, soaking the seed balls in the prepared gibberellin diluent for 100 minutes.

Gibberellin is a hormone, promotes the rooting of seed balls, shortens the growth cycle of the seed balls of hippeastrum and accelerates the turnover rate of the utilization of soil.

Optionally, S15 will carry out the field planting in the seedball flowerpot including preparing the cultivation the culture medium of seedball, including the step:

s151, mixing sand, coconut chaff and peat according to a ratio of 1:1: 1;

s152, mixing 10% of bone meal and 10% of calcium superphosphate;

s153, sterilizing after uniformly mixing, and adjusting the pH to be approximately equal to 7;

s154, filling 8cm of culture medium prepared in the steps S61-S63 into the bottom of the basin;

s155, planting the seed balls into the culture medium;

s156, fixing the seed balls and watering the seed balls thoroughly once;

wherein the soil and base fertilizer cover the seedball 1/3.

The culture medium is usually mixed with river sand, peat and the like, possibly carries germs and can be used as soil only after being disinfected; the coconut coir has low cost and high cost performance, and the coconut coir as the storage substrate is mixed with the sand and the peat, so that the soil of the seed balls of the hippeastrum is more favorable for storage while better growing in an aseptic environment. In addition, the bone meal and the calcium superphosphate are used as base fertilizers, because the required amount of macronutrient elements and micronutrient elements of the hippeastrum is large, the base fertilizers prepared from the bone meal and the calcium superphosphate can be more favorable for providing nutrient elements for the hippeastrum and the early growth of the hippeastrum.

The flowerpot is used for accommodating the sterilized seed balls, and a through hole is formed in the bottom of the flowerpot; filling the flowerpot with the mixture of the soil and the base fertilizer prepared in the steps S151 to S153 as a culture medium until the thickness is 8 cm; planting the treated seed balls, covering soil continuously until the seed balls 2/3 are exposed on the surface, tamping soil layers, fixing the seed balls, and watering the potted plants at one time after planting until water drops from the bottom holes of the pots.

Further, the step of S15, after planting the seed ball, includes:

s16, placing the flowerpot with the seedball in a ventilation environment with the temperature of 25 ℃ and the relative humidity of 75%;

s17 watering is started after the seed ball sends out new leaves;

s18 compound fertilizer is applied every 15 days.

Further, the method comprises the following steps after the flower buds grow out:

s19, keeping the temperature at 25 ℃, and adjusting the relative humidity to 70%;

s20 applying the compound fertilizer and controlling the height of the flower diameter by using paclobutrazol.

Specifically, the compound fertilizer is a 1000-fold liquid of 20-20-20 total-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering, and the height of the flower diameter is controlled by 3 times of 500-fold liquid of paclobutrazol. The method is characterized in that the flowering time is judged, fertilization is stopped 15 days before flowering, the fertilization can be determined according to the observation of the condition of buds on the pistachio chinensis, and the fertilization can also be stopped after buds appear on the pistachio chinensis; the flowering rate is improved, the flower bud differentiation of the hippeastrum rutilum is promoted, and the consistency of the flowering time of a large amount of hippeastrum rutilum is controlled; when the ornamental effect is convenient for viewing on holidays, the hippeastrum flower blooms in order, and the ornamental effect is improved.

As another example of the present application, the present application further discloses a method of regulating treatment of a seed ball of 10cm reticulate red pigment (amaryli reticulata L' her. var. striatifoa herb.), comprising the steps of:

s30, selecting a seed ball of hippeastrum with the diameter of 10cm, and cleaning the seed ball;

s31, carrying out primary sterilization treatment on the seed balls;

s32, performing secondary sterilization treatment on the cooked seed balls;

s33, the seed balls are refrigerated at 15 ℃ for 9 weeks;

s34, moisturizing and root promoting are carried out on the refrigerated seed balls of the hippeastrum;

s35, planting the seed balls;

in step S31, the seed ball is sterilized once, and the seed ball is cooked by injecting hot water at 50 ℃ for 120 minutes.

Optionally in this embodiment, in S32, the secondary sterilization treatment of the cooked seedballs includes:

s321, soaking the seed balls in 700 times of 70% carbendazim solution for 55 minutes.

In an optional embodiment, before the S33 is used to store the seedballs in an environment at 15 ℃ for 9 weeks, the method includes the following steps:

s331, foaming coconut coir;

s332, placing the seed balls into the soaked coconut coir.

Compared with other storage matrixes, the coconut coir has low cost and high cost performance; when the coconut husk is foamed, the humidity is based on that the coconut husk can be kneaded into a group by hand and water drops can not be extruded, and as a storage substrate, the coconut husk has too large water content, which can cause the air permeability of seed balls to be reduced and is not beneficial to seed ball storage.

This embodiment is optional, the seed ball of the refrigerated back hippeastrum is moisturized and root is promoted by S34 includes the step:

s341 adding gibberellin into clear water at 25 ℃ to adjust the concentration to 150 mg/L;

s342, soaking the seed balls in the prepared gibberellin diluent for 120 minutes.

This embodiment is optional, and S35 will carry out the field planting in the ball planting flowerpot includes the step:

s351, mixing the sand, the coconut chaff and the peat according to a ratio of 1:1: 1;

s352, mixing 10% of bone meal and 10% of calcium superphosphate;

s353, sterilizing after mixing uniformly, and adjusting the pH value to be approximately equal to 6.

S354 filling 6cm of soil and base fertilizer for cultivating the seedballs into the pot bottom;

s355 planting the seedballs into the soil and a base fertilizer;

s356, fixing the seed balls and pouring water for one time;

wherein the planting depth is 2/3 of the seed balls exposed on the surface of the culture substrate.

The flowerpot is used for accommodating the sterilized seed balls, and a through hole is formed in the bottom of the flowerpot; filling the mixture of the soil and the base fertilizer prepared in the steps S351 to S353 into the flowerpot until the thickness is 6 cm; the treated seed balls are lightly taken for planting, soil covering is continuously carried out, the planting depth is that the seed balls 2/3 are exposed on the surface, a soil layer is tamped, the seed balls are fixed, after planting, the potted plant is watered thoroughly in one step, and the aim of dripping water from the pot bottom holes is fulfilled.

Further, the step of S35, after planting the seed ball, includes:

s36, placing the flowerpot with the seedball in a ventilation environment with the temperature of 25 ℃ and the relative humidity of 70%;

s37 watering is started after the seed ball sends out new leaves;

s38 compound fertilizer is applied once every 12 days.

The method comprises the following steps after flower buds grow out:

s39, increasing the temperature to 30 ℃, keeping the temperature, and adjusting the relative humidity to 60%;

s40 applying compound fertilizer;

s41 controlling the height of the floral diameter using paclobutrazol.

Specifically, the compound fertilizer is a 1000-fold liquid of 20-20-20 all-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering, and the height of the flower diameter is controlled by 2 times of 600-fold liquid of paclobutrazol. The flowering rate is improved, the flower bud differentiation of the hippeastrum rutilum is promoted, and the consistency of the flowering time of a large amount of hippeastrum rutilum is controlled; when the ornamental effect is convenient for viewing on holidays, the hippeastrum flower blooms in order, and the ornamental effect is improved.

As another embodiment of the present application, the present application further discloses a method for regulating and controlling the treatment of a 12cm diameter hippeastrum (L ady Jane) seedball, comprising the steps of:

s50, selecting a seed ball of hippeastrum with the diameter of 12cm, and cleaning the seed ball;

s51, carrying out primary sterilization treatment on the seed balls;

s52, performing secondary sterilization treatment on the cooked seed balls;

s53, the seed balls are refrigerated at the temperature of 14 ℃ for 7 weeks;

s54, moisturizing and root promoting are carried out on the refrigerated seed balls of the hippeastrum;

s55, planting the seed balls;

in step S31, the seedball is sterilized once, and the seedball is cooked for 100 minutes by injecting and maintaining hot water at 45 ℃.

Optionally in this embodiment, in S52, the secondary sterilization treatment of the cooked seedballs includes:

s521 soaking the seedball in 700 times of 70% carbendazim solution for 50 minutes.

In an optional embodiment, before the S53 is used to store the seedballs in an environment at 14 ℃ for 7 weeks, the method includes the following steps:

s531 soaking coconut coir;

s532, placing the seed balls into the soaked coconut coir.

Compared with other storage matrixes, the coconut coir has low cost and high cost performance; when the coconut husk is foamed, the humidity is based on that the coconut husk can be kneaded into a group by hand and water drops can not be extruded, and the coconut husk serving as a storage substrate has too large water content, so that the air permeability of the seed balls is reduced, and the storage of the seed balls is not facilitated.

This embodiment is optional, the seed ball of the refrigerated back hippeastrum is moisturized and root is promoted by S54 includes the step:

s541 adding gibberellin into clear water at 25 ℃ to adjust the concentration to 150 mg/L;

s542 soaking the seed ball in the prepared gibberellin diluent for 100 minutes.

This embodiment is optional, and S55 will carry out the field planting in the ball planting flowerpot includes the step:

s551, mixing the sand, the coconut chaff and the peat according to a ratio of 1:1: 1;

s552 mixing 10% of bone meal and 10% of calcium superphosphate;

s553, sterilizing after mixing uniformly, and adjusting the pH value to be approximately equal to 7;

s554 filling 8cm of culture medium prepared in the steps S551-S553 into the pot bottom;

s555 planting the seedballs into the soil and a base fertilizer;

s556, fixing the seed balls and watering the seed balls thoroughly once; wherein the soil and base fertilizer are covered to the seed ball 1/3.

The flowerpot is used for accommodating the sterilized seed balls, and a through hole is formed in the bottom of the flowerpot; filling the mixture of the soil and the base fertilizer prepared in the steps S551 to S553 into the flowerpot until the thickness is 8 cm; and (4) planting the treated seed balls by lightly holding the treated seed balls, continuously covering soil, tamping a soil layer to ensure the planting depth to be proper when the seed balls 2/3 are exposed on the surface, fixing the seed balls, and watering the potted plants thoroughly at one time after planting on the basis of water dripping from the holes at the bottoms of the pots.

Further, the step of S55, after planting the seed ball, includes:

s56, placing the flowerpot with the seedball in a ventilation environment with the temperature of 25 ℃ and the relative humidity of 75%;

s57 watering is started after the seed ball sends out new leaves;

s58 applying the compound fertilizer once every 15 days;

further, the method comprises the following steps after the flower buds grow out:

s59, keeping the temperature to 25 ℃, and adjusting the relative humidity to 70%;

s60 continuing to apply the compound fertilizer and controlling the floral height 3 times with paclobutrazol.

Specifically, the compound fertilizer is a 1000-fold liquid of 20-20-20 total-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering, and the height of the flower diameter is controlled by 3 times of 700-fold liquid of paclobutrazol. The flowering rate is improved, the flower bud differentiation of the hippeastrum rutilum is promoted, and the consistency of the flowering time of a large amount of hippeastrum rutilum is controlled; when the ornamental effect is convenient for viewing on holidays, the hippeastrum flower blooms in order, and the ornamental effect is improved.

As another embodiment of the present application, the present application further discloses a method for regulating and controlling seed ball treatment of hippeastrum (blossom peach) of about 15cm, comprising the steps of:

s70, selecting a seed ball of hippeastrum with the diameter of 15cm, and cleaning the seed ball;

s71, carrying out primary sterilization treatment on the seed balls;

s72, performing secondary sterilization treatment on the cooked seed balls;

s73, the seed balls are refrigerated at the temperature of 17 ℃ for 7 weeks;

s74, moisturizing and root promoting are carried out on the refrigerated seed balls of the hippeastrum;

s75, planting the seed balls;

in step S71, the seed ball is sterilized once, and the seed ball is cooked by injecting hot water at 48 ℃ for 120 minutes.

Optionally in this embodiment, in S72, the secondary sterilization treatment of the cooked seedballs includes:

s721, soaking the seed balls in 700 times of 70% carbendazim solution for 60 minutes.

In an optional embodiment, before the S73 is used to store the seedballs in the 17 ℃ environment for 7 weeks, the method includes the following steps:

s731 soaking coconut husk;

s732, placing the seed balls in the soaked coconut coir.

This embodiment is optional, the seed ball of the refrigerated back hippeastrum is moisturized and root is promoted by S74 includes the step:

s741 gibberellin is added into clear water at 25 ℃ to regulate the concentration to 150 mg/L;

s742 the seed balls are soaked in the prepared gibberellin diluent for 120 minutes.

This embodiment is optional, and S75 will carry out the field planting in the ball planting flowerpot includes the step:

s751, mixing sand, coconut chaff and peat according to a ratio of 1:1: 1;

s752 mixing 10% bone meal and 10% calcium superphosphate;

s753 mixing, sterilizing, and adjusting pH to 7.

S754, filling 8cm of soil and base fertilizer for cultivating the seedballs into the pot bottom;

s755 planting the seedballs into the soil and a base fertilizer;

s756, fixing the seed balls and watering the seed balls thoroughly at one time; wherein the planting depth is 2/3 of the seed balls exposed on the surface of the culture substrate; the culture substrate is covered to the seed ball 1/3.

Further, the step of S75, after planting the seed ball, includes:

s76, placing the flowerpot with the seedball in a ventilation environment with the temperature of 25 ℃ and the relative humidity of 75%;

s77 watering is started after the seed ball sends out new leaves;

s78 applying the compound fertilizer once every 15 days;

the method comprises the following steps after flower buds grow out:

s79, increasing the temperature to 30 ℃ and maintaining the temperature, and maintaining the relative humidity at 70%;

s80 continuously applying the compound fertilizer and controlling the height of the flower diameter by using paclobutrazol;

specifically, the compound fertilizer is a 1000-fold liquid of 20-20-20 total-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering, and the height of the flower diameter is controlled by 2 times of 500-fold liquid of paclobutrazol. The flowering rate is improved, the flower bud differentiation of the hippeastrum rutilum is promoted, and the consistency of the flowering time of a large amount of hippeastrum rutilum is controlled; when the ornamental effect is convenient for viewing on holidays, the hippeastrum flower blooms in order, and the ornamental effect is improved.

As another embodiment of the present application, the present application further discloses a method for regulating and controlling the treatment of hippeastrum (applebiosom) seedballs of about 13cm, comprising the steps of:

s90, selecting a seed ball of hippeastrum with the diameter of 13cm, and cleaning the seed ball;

s91, injecting hot water with the water temperature of 45 ℃, and cooking the seed balls for 110 min;

s92, performing secondary sterilization treatment on the cooked seed balls;

s93, the seed balls are refrigerated at the temperature of 15 ℃ for 7 weeks;

s94, moisturizing and root promoting the refrigerated seedballs;

and S95 planting the seed ball.

Optionally in this embodiment, in S92, the secondary sterilization treatment of the cooked seedballs includes:

s921 soaking the seedball in 700 times of 70% carbendazim solution for 40 minutes.

In an optional embodiment, before the S93 is used to store the seedballs in an environment at 15 ℃ for 7 weeks, the method includes the following steps:

s931, soaking coconut coir;

s932, placing the seed balls into the soaked coconut coir.

This embodiment is optional, the seed ball of the refrigerated back hippeastrum is moisturized and root is promoted by S94 includes the step:

s941 adding gibberellin into clear water at 25 ℃ to adjust the concentration to 150 mg/L;

s942 the seedballs are soaked in the prepared gibberellin diluent for 120 minutes.

This embodiment is optional, and S95 will carry out the field planting in the ball planting flowerpot includes the step:

s951, mixing the sand, the coconut husk and the peat according to a ratio of 1:1: 1;

s952 mixing 10% bone meal and 10% calcium superphosphate;

s953 mixing, sterilizing, and adjusting pH to 7.

Further, the step of planting the seed ball by the S96 includes:

s954, filling 8cm of soil and base fertilizer for cultivating the seedballs into the pot bottom;

s955, planting the seedball into the soil and a base fertilizer;

s956 fixing the seed balls and watering the seed balls thoroughly at one time; wherein the soil and base fertilizer are covered to the seed ball 1/3.

Further, the step of S95, after planting the seed ball, includes:

s96, placing the planted seedballs in an environment with good ventilation, the temperature of 25 ℃ and the relative humidity of 70%;

s97 watering is started after the seed ball sends out new leaves;

s98 applying the compound fertilizer once every 15 days;

the method comprises the following steps after flower buds grow out:

s99, increasing the temperature to 30 ℃, keeping the temperature, and adjusting the relative humidity to 70%;

s100, continuously applying the compound fertilizer and controlling the height of the flower diameter by using the paclobutrazol.

Specifically, the compound fertilizer is a 1000-fold liquid of 20-20-20 total-element compound fertilizer, wherein the compound fertilizer stops fertilizing 15 days before flowering, and the height of the flower diameter is controlled by 4 times of paclobutrazol 800-fold liquid. The flowering rate is improved, the flower bud differentiation of the hippeastrum rutilum is promoted, and the consistency of the flowering time of a large amount of hippeastrum rutilum is controlled; when the ornamental effect is convenient for viewing on holidays, the hippeastrum flower blooms in order, and the ornamental effect is improved.

According to the method for regulating and controlling the seed ball treatment of hippeastrum rutilum of about 13cm, insect damage is prevented through twice sterilization, and particularly, the seed ball is refrigerated at 14-17 ℃ and is supplemented with water to promote root growth, so that the storage cost is saved; then, special fertile soil and a base fertilizer rich in nutrition are used for planting the seed balls, and watering, fertilizing and cultivating are carried out before the hippeastrum rutilum flowers grow flower buds to bloom, so that the flowering rate of the hippeastrum rutilum flowers can reach more than 98%, and meanwhile, the flowers are neatly grown in 16 th to 17 th weeks after the seed balls are treated, thereby being more beneficial to actual production and having industrial utilization value.

The foregoing is a more detailed description of the present application in connection with specific preferred embodiments and it is not intended that the present application be limited to these specific details. For those skilled in the art to which the present application pertains, several simple deductions or substitutions may be made without departing from the concept of the present application, and all should be considered as belonging to the protection scope of the present application.

Reference documents:

【1】 Yuan ya Ling, Li Shujuan, Zhao jin Li, Jupith red festival for the study of flower seed ball processing technology [ J ]. proceedings of northwest Lin academy of sciences, 2009, 24 (6): 80-82

【2】 Study on the flowering period regulation and control technique of Spanish red flower, Lvwentao, Zhouyizhen, Chenghai clock, etc. [ J ]. North horticulture, 2010(20):110-

【3】 Cao Rong Xiang, Zhang Ning, Wang Yong, etc. influence of seed ball harvesting stage and pretreatment on the forcing culture of hippeastrum [ J ] Jiangsu agricultural science, 2012, 40(7):165-

Claims (9)

1. A method for regulating and controlling the florescence of hippeastrum rutilum is characterized by comprising the following steps:

s1, selecting a seed ball of hippeastrum with the diameter of 10-15cm, and cleaning the seed ball;

s2, carrying out primary sterilization treatment on the seed balls;

s3, carrying out secondary sterilization treatment on the seed balls;

s4 refrigerating the seed balls at 14-17 deg.C for 7-9 weeks;

s5, moisturizing and root promoting are carried out on the seedballs;

s6, planting the seedball in a flowerpot;

wherein, the step S2 is to perform a primary sterilization treatment on the seedball, specifically to steam the seedball for 100-120 minutes by injecting and maintaining hot water at 45 + -5 ℃.

2. The method for regulating and controlling the flowering phase of hippeastrum rutilum as claimed in claim 1, wherein the step S3 of performing secondary sterilization treatment on the seed balls further comprises the steps of:

s31 soaking the seedball in 700 times of 70% carbendazim solution for 40-60 min.

3. The method for regulating the flowering phase of hippeastrum rutilum as claimed in claim 1, wherein the step S4 comprises the following steps before the seedball is refrigerated at 14-17 ℃ for 7-9 weeks:

s41 soaking coconut husk;

s42, placing the seed balls into the soaked coconut coir.

4. The method for regulating and controlling the flowering phase of hippeastrum rutilum as claimed in claim 1, wherein the step of S5 moisturizing and rooting the seed bulbs further comprises the steps of:

s51 adding gibberellin into clear water at 25 deg.C, and adjusting the concentration to 150 mg/L;

s52, soaking the seed ball in the prepared gibberellin diluent for 100-120 minutes.

5. The method for regulating and controlling the flowering period of hippeastrum rutilum as claimed in claim 1, wherein the S6 is used for planting the seedball in a flowerpot, and comprises the following steps:

s61, mixing the sand, the coconut chaff and the peat according to the ratio of 1:1: 1;

s62 mixing 10% of bone meal and 10% of calcium superphosphate;

s63, sterilizing after mixing uniformly, and adjusting the pH to 6-7;

will the seedball carries out the field planting including the step in the flowerpot:

s64 filling 6-8cm of culture medium prepared in the step S61-S63 into the bottom of the basin;

s65, planting the seed balls into the culture medium;

s66, fixing the seed balls and watering the seed balls thoroughly at one time;

wherein the planting depth is 2/3 of the seed balls exposed on the surface of the culture substrate.

6. The method for regulating the flowering phase of hippeastrum rutilum as claimed in claim 1, wherein the step of planting the seed ball by S6 further comprises the following steps:

s7, placing the flowerpot with the seedball in a ventilation environment with the temperature of 20-25 ℃ and the relative humidity of 70-80%;

s8 watering is started after the seed ball sends out new leaves;

s9 applying the compound fertilizer once every 12-16 days.

7. The method for regulating the flowering phase of hippeastrum rutilum as claimed in claim 6, comprising the steps of, after the flower buds grow out:

s10, increasing the temperature, keeping the temperature at 25-30 ℃, and adjusting the relative humidity to 60% -70%;

s11 continuing to apply the compound fertilizer and controlling the flower diameter height using paclobutrazol.

8. The method for regulating and controlling the flowering phase of hippeastrum rutilum according to claim 7, wherein the compound fertilizer is a 1000-fold solution of a 20-20-20 all-element compound fertilizer, and the compound fertilizer is stopped from being applied 15 days before flowering.

9. The method for regulating and controlling the flowering phase of hippeastrum as claimed in claim 7, wherein the paclobutrazol is a 500-fold liquid and is used for 2-4 times.

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