KR102071287B1 - Method for inducing early flowering and improving fruit yield of strawberry by controlling nutrient solution supplying period before transplant - Google Patents

Abstract

The present invention relates to a method for inducing early flowering of strawberry and improving fruit yield using a nutrient solution. The method of the present invention investigates proper feeding time of the nutrient solution before transplanting strawberry seedlings to increase the growth of the strawberry seedlings and shorten the strawberry growing period, thereby contributing to improvement of strawberry productivity.

Description

Method for inducing early flowering and improving fruit yield of strawberry by controlling nutrient solution supplying period before transplant}

The present invention relates to a method for inducing early flowering and improving fruit yield of strawberries by adjusting the feeding time of nutrient solution before diet.

Strawberry ( Fragaria × ananassa Duch.) Is a herbaceous perennial plant belonging to the Rosaceae family and is an economically important horticultural crop widely grown around the world, including China, the United States, Mexico, Egypt, Turkey, Spain, Russia, Poland, Korea, and Japan. Strawberries are low-calorie carbohydrates, high in fiber, high-value crops that contain carotenoids, anthocyanins, phenols, flavonoids, vitamin C, and ellagic acid known as anticancer substances. To improve their health. In addition, as a representative low-temperature crop among the plant vegetables, it is a popular horticultural crop that is cultivated in winter because of its low heating cost and stable price. Korea's strawberry production amounted to 196,122 tons, which is the 7th in the world, while exports accounted for 18th (FAOSTAT, 2013 Statistics DB), and the major strawberry exports in Gyeongsangnam-do accounted for more than 95%, serving as an export base. have. Among them, forcing culture strawberry is a high-income crop with a high income per 10a in 2016 with 10,334 thousand won and an income rate of 51.1%.

Seedlings are known to be of great importance in fruit crops, and strawberry cultivation, in particular, is an important factor that affects the yield and quality of fruit after planting in mainpo so that the success of seedlings accounts for 80% of the total cultivation. Strawberries, unlike other fruit crops that grow as seeds, are a unique crop that takes a lot of time to grow after nutrient breeding to produce runners and seedlings from the parent. Strawberry seedlings are grown from mid-March through early-September to mid-September from the establishment of mother plants, the development of runners and seedlings, the fixation of seedlings, the independence from seedlings, and the induction of flower differentiation. Unlike raising seedlings, it takes five to six months. Due to the long growing time, labor and capital input, the production and supply of stable and uniform seedlings account for 80% of the total strawberry cultivation.

These strawberries can be consumed raw or ingested as salads, sandwiches, etc., and can also be consumed as processed foods such as jams, jelly, ice cream, frozen strawberries, syrups, juices and milk products. In addition, it is gaining popularity as a well-being food containing a large amount of various useful ingredients for the human body, but the growing method is unique, and it takes a lot of effort, cost, and time. Various studies are needed to improve the quality and quantity.

Meanwhile, Korean Laid-Open Patent No. 2018-0050896 discloses a 'growth control agent processing method for producing runners when planting strawberry berries in a seedling', and Korean Laid-Open Patent No. 2012-0062464 discloses a strawberry seedling method using a bottom irrigation method. Although it is disclosed, there is no description of a method for inducing early flowering and improving fruit yield of strawberries by controlling the feeding time of the nutrient solution before the present invention.

The present invention is derived from the above-described demand, and the present inventors, unlike the conventional method of stopping the feeding of the nutrient solution before the planting (transplant), the supply of the nutrient solution before the formalities to the seedlings of 'scented', As a result of analyzing the growth, flowering rate, fruit characteristics, and yield of the seedlings according to the nutrient supply period, the nutrient solution was supplied for 20 days before planting under the condition that the nutrient solution was not fed from 40 days before the planting. After early flowering was induced, by confirming that strawberry yield is improved, the present invention was completed.

In order to solve the above problems, the present invention is a method for inducing early flowering and improving fruit yield of the strawberry including the step of planting after nutrient solution (transplant) for 17-23 days in strawberry seedlings To provide.

In addition, the present invention provides a method for cultivating a strawberry is early flowering (early flowering) including the step of planting after the nutrient solution before the planting (transplant) to the strawberry seedlings and fruit yield is improved.

The method of the present invention was able to improve the growth of fruit seedlings and increase the yield of fruit as compared to the existing strawberry cultivation method which did not process the nutrient solution before formulating by determining the proper feeding time of the nutrient solution before the formulation of strawberry seedlings. Thus, the method of the present invention may contribute to the income increase of strawberry nurseries and strawberry cultivation farmers.

Figure 1 shows the time when the water (W; water) and / or nutrient solution (N; nutrient solution) was supplied before the transplant of strawberry seedlings of the present invention (X; September 13, 2017) It is a schematic diagram shown.
Figure 2 is a graph showing the discharge rate and flowering rate of one and two hwabang of strawberry 'Maesang' according to the regulation of nutrient solution before the formulation.
Figure 3 of the fruit per week of strawberry 'falcon' according to the regulation of the nutrient solution supply timing before It is a graph which shows the number (A), the goods, and the quantity (B).

In order to achieve the object of the present invention, the present invention induces early flowering and improved fruit yield of the strawberry comprising the step of formulating after processing the nutrient solution before the planting (transplant) 17-23 days to strawberry seedlings It provides a method to make it.

In a method of inducing early flowering and improving fruit yield of a strawberry according to an embodiment of the present invention, the strawberry may be preferably 'scented' variety. Strawberries may have different growth characteristics depending on the variety, so the timing of feeding the proper nutrient solution for the variety is different.

In a method of inducing early flowering and improving fruit yield of strawberries according to an embodiment of the present invention, the strawberry seedlings may be grown in a cultivation pot for 135 to 140 days, preferably 137 days in a cultivation pot It may be, but is not limited thereto.

In particular, the method for inducing early flowering of strawberries and improving fruit yield is

(a) planting strawberry seedlings in the coco-filled pot to grow seedlings for 135-140 days;

(b) irrigating the propagated strawberry seedlings of step (a) with water once or twice a day for 17 to 23 days, and then irrigation with nutrient solution once or twice a day for 17 to 23 days; And

(c) planting seedlings treated with the nutrient solution of step (b) in BC2 medium and cultivating for 137 to 141 days; more specifically,

(a) planting strawberry seedlings in the coco-filled pots to grow seedlings for 137 days;

(b) watering the propagated strawberry seedlings of step (a) once or twice a day for 20 days, and then irrigation of the nutrient solution once or twice a day for 20 days; And

(c) planting seedlings treated with the nutrient solution of step (b) in BC2 medium and cultivating for 139 days; but is not limited thereto.

In a method of inducing early flowering of strawberries and improving fruit yield according to an embodiment of the present invention, the nutrient solution is preferably Ca (NO ₃ ) ₂ · 4H ₂ O 990-1,010 mg · L ^-1 , KNO ₃ 280-290 mgL- ¹ , KH ₂ PO ₄ 590-610 mgL- ¹ , MgSO ₄ 7H ₂ O 380-390 mgL- ¹ , NH ₄ NO ₃ 50-60 mgL- ¹ , K ₂ SO ₄ 10-20mgL ^-1 , Fe-EDTA 20-30mgL ^-1 , H ₃ BO ₃ 2.5-3.5mgL ^-1 , CuSO ₄ .5H ₂ O 0.10-0.20mg L ^-1 , MnSO ₄ · 5H ₂ O 1.5 ~ 2.5 mg · L ⁻¹ , Na ₂ MoO ₄ · 2H ₂ O 0.05 ~ 0.15 mg · L ^-1 and ZnSO ₄ · 7H ₂ O 0.5 ~ 1.5 mg · L ^-1 And more preferably Ca (NO ₃ ) ₂ .4H ₂ O 1,001.8 mg.L ^-1 , KNO ₃ 283.8 mg.L ^-1 , KH ₂ PO ₄ 598.4 mg.L ^-1 , MgSO ₄ 7H ₂ O 383.2 mg L- ¹ , NH ₄ NO ₃ 56.0 mg L- ¹ , K ₂ SO ₄ 15.7 mgL- ¹ , Fe-EDTA 23.08 mg L- ¹ , H ₃ BO ₃ 2.94 mg L ^-1 , CuSO ₄ · 5H ₂ O 0.16 mg · L ^-1 , MnSO ₄ · 5H ₂ O 2.0 mg · L ^-1 , Na ₂ MoO ₄ · 2H ₂ O 0.10 mg · L ^-1 and ZnSO ₄ · 7H ₂ O may contain 0.87 mg · L ⁻¹ However, the present invention is not limited thereto.

The present invention also provides a method for cultivating a strawberry in which early flowering, which comprises the step of treating the nutrient solution before planting in strawberry seedlings after 17-23 days, is induced and fruit yield is improved.

According to one embodiment of the present invention, a method of growing strawberries in which early flowering is induced and fruit yield is improved,

(a) planting strawberry seedlings in the coco-filled pot to grow seedlings for 135-140 days;

(b) irrigating the propagated strawberry seedlings of step (a) with water once or twice a day for 17 to 23 days, and then irrigation with nutrient solution once or twice a day for 17 to 23 days; And

(c) planting seedlings treated with the nutrient solution of step (b) in BC2 medium and cultivating for 137 to 141 days; more specifically,

(a) planting strawberry seedlings in the coco-filled pots to grow seedlings for 137 days;

(b) watering the propagated strawberry seedlings of step (a) once or twice a day for 20 days, and then irrigation of the nutrient solution once or twice a day for 20 days; And

(c) planting seedlings treated with the nutrient solution of step (b) in BC2 medium and cultivating for 139 days; but is not limited thereto.

The method according to the present invention does not process the nutrient solution 30-40 days before the formulation of strawberry seedlings, compared to the conventional strawberry cultivation method of reducing the nitrogen concentration in the seedlings and promoting flower bud differentiation, the crown diameter of the seedlings, above-ground live weight and Increasing leaf length improves the growth of seedlings, and increases the tolling rate and flowering rate of 1-hwabang (junghwabang) and 2-hwabang (liquefied bangbang) without affecting the nitrogen content in seedlings that affect germination Early flowering can be induced and fruit yield can be improved without affecting the properties of the fruit.

Hereinafter, the present invention will be described in detail by way of examples. However, the following examples are merely to illustrate the invention, but the content of the present invention is not limited to the following examples.

Materials and methods

1. Experimental materials and cultivation environment

The `` scented '' berries ( Fragaria x ananassa Duch.cv.Maehyang) were planted in a heavy hydroponic growing seedling bench on March 22, 2017, and then grown for 316 days until January 31, 2018. Strawberries per pot using strawberry cultivation pots (61x27x18cm, Hwaseong Industrial Co. Ltd., Korea) filled with three coco houses (Koier, Shinan Grow Co. Ltd., Korea) in Gyeongsang National University farm. The stocks were planted for 4 weeks. During the cultivation period, the plastic house temperature was maintained at 26 ± 5 ℃ for the daytime and 16 ± 5 ℃ for the nighttime. From mid-May, 35% shading net was installed to prevent direct sunlight and rapid temperature rise. The nutrient management of strawberry seedlings was prepared by drip tape prepared by preparing the strawberry-only liquid fertilizer (Table 1) of the Gyeongsangnam-do Agricultural Research and Extension Institute. ) To the liquid supply. From April 1, 2017, when root rooting was completed, water or / and nutrient solution was supplied 1-2 ~ 200 times per day (10 minutes per time) during the growing season. Did not supply. During the cultivation period, all the treatment areas were managed uniformly by removing red leaves, old leaves and germination, and the runners generated from the mother trees removed all runners that occurred until early May, Proliferation. The seedlings were attracted sequentially for three days starting July 4, 2017, and temporarily fixed with pins in a seedling tray (60x34x10 cm, 24 ~ cell, Hwaseong Industrial Co. Ltd., Korea) to induce rooting. After the seedlings were completed, the leaves of the seedlings were removed, and on August 5, 2017, the runners connected with the seedlings were cut off and the seedlings were separated. The treatment was carried out according to the time. After completion of the nutrient feeding process, strawberry seedlings were planted in a pot in a double roof type glass greenhouse on September 13, 2017, and hydroponically grown until January 31, 2018. After rooting, the culture of EC 0.6 dS · m ⁻¹ was sufficiently supplied for 7 days to induce the development of new roots. Thereafter, drip irrigation was used to gradually increase the culture level from 0.6 to 1.2 dS · m ⁻¹ , from flowering to harvesting. In winter, the warm air was heated at night based on the minimum temperature of 5 ℃. In addition, the drug was sprayed every 4 to 7 days for the control of the main pests such as white powder, anthrax, small root flies, aphids, mites until the strawberry seedling and flowering.

Composition of Nutrient Solution Used in the Present Invention Chemical Concentration (mgL- ¹ ) Chemical Concentration (mgL- ¹ ) Ca (NO ₃ ) ₂ 4H ₂ O 1,001.8 Fe-EDTA 23.08 KNO ₃ 283.8 H ₃ BO ₃ 2.94 KH ₂ PO ₄ 598.4 CuSO ₄ · 5H ₂ O 0.16 MgSO _{4 7} H ₂ O 383.2 MnSO ₄ 5H ₂ O 2.00 NH ₄ NO ₃ 56.0 Na ₂ MoO ₄ 2H ₂ O 0.10 K ₂ SO ₄ 15.7 ZnSO ₄ · 7H ₂ O 0.87

2. Survey Items

The seedlings were planted in cultivation pots to grow seedlings for 137 days (17.03.22. ~ 17.08.05.), And 40 days before planting the grown seedlings (17.08.05. ~ 17.09.13.) The experiment was performed otherwise. The experiments were carried out under five conditions, and the conditions were as follows: 40 days of water treatment alone, 20 days of nutrient solution after 20 days of water treatment, 15 days of nutrient solution after 25 days of water treatment, 30 days of nutrient solution after water treatment 10 days treatment, or 35 days water followed by 5 days of nutrient solution. After treatment with different nutrient supply timing, the height, root length, leaf length, leaf length, leaf width, crown diameter, leaf area, live weight and dry weight of the seedlings were measured immediately before planting. Was measured based on the third leaf from the new leaf. The crown diameter is 1 cm above the top of the branch using vernier calipers (CD-20CPX, Mitutoyo Co. Ltd., Japan), and the value of SPAD is fully developed using a chlorophyll meter (SPAD-502, Konica Minolta Inc., Japan). The leaf area was measured using a leaf area meter (LI-3000, LI-COR Inc., USA). The live weight and dry weight of the ground were measured using an electronic balance (EW220-3NM, Kern & Sohn GmbH., Germany), and the dry weight of the sample was measured in a 70 ° C constant temperature dryer (Venticell-222, MMM Medcenter Einrichtungen GmbH., Germany). Measured after time drying. Strawberry seedling leaves were dried for 72 hours in a 70 ° C. constant temperature dryer (Venticell-222, MMM Medcenter Einrichtungen GmbH., Germany) and then ground to a fine powder using a mortar and pestle. 1 g of the ground sample was incubated at 525 ° C. for 4 hours, 5 mL of HCL was added to the grayed sample, and 20 mL of warm distilled water was added thereto. After that, 25 mL of cold distilled water was added again, and the solution was filtered using a filter paper. Total nitrogen (TN) content, carbon (C), and sulfur (S) were measured using phosphorous (P), potassium (K), calcium (Ca) and magnesium (Mg) using high-capacity automatic element analyzers (TruMAC, LECO, USA). ), Iron (Fe), manganese (Mn), zinc (Zn), copper (Cu) were analyzed using ICP-AEX (OPTIMA 4300DV, PerkinElmer Inc., USA).

In addition, the seedlings supplied with the nutrient solution was grown on BC2 medium (BVB substrates, The Netherlands) and cultivated for 139 days (17.09.13. ~ 18.01.29.). After the seedlings were planted on September 13, 17, the dispatch rate of one flower garden (Jhwahwabang) was measured every three days from October 12 to October 27, and the flowering rate of one flower garden was from October 27 to November. It was measured every three days until 11th, and the dispatch rate of two-flower room (liquid room) was measured every 10 days from November 10 to January 10, 18. The flowering rate of two-flower room was from November 30 to 18 years. Measurements were made at 10-day intervals until January 10. The number of fruits per week, products, and yields were calculated by cumulative monthly harvest from November 17 to January 18.

3. Experimental Design and Statistical Analysis

The batch of the experiment was treated with nutrient solution 5 times (Fig. 1: water 40 days, water 20 days + nutrient solution 20 days, water 25 days + nutrient solution 15 days, water 30 days + nutrient solution 10 days, water 35 days + nutrient solution 5 days), A total of 150 weeks were placed in a randomized complete block design with 3 repetitions for each treatment and 10 objects per iteration. Statistical analysis of the experimental results was carried out using ANOVA using SAS program (SAS 9.4, SAS Institute Inc., USA), and the comparison between means was 5% using Turkish's multiple range test. The significance between each treatment was verified at the significance level. The graph was shown using the SigmaPlot program (Sigma Plot 12.0, Systat Software Inc., USA).

Example 1 Analysis of Growth Characteristics of Strawberries 'Fructus' Seedlings with Different Feeding Times

Growth characteristics of seedlings at different nutrient supply timings were measured before planting.

As a result, it was confirmed that the 20 days of water + 20 days of nutrient solution significantly increased the leaf length, crown diameter, and ground live weight compared to the control (water only 40 days), but the height, root length, leaf length, leaf width, and underground live weight It was confirmed that there was no significant difference between the control and nutrient solutions in the ground, ground and underground buildings (Tables 2 and 3).

In addition, as a result of analyzing the inorganic element content of the seedling leaves, it was confirmed that there was no significant difference in the total nitrogen content between the control and nutrient solution treatment, and it could be inferred that the nutrient treatment did not affect the induction of flower bud differentiation. . The contents of carbon (C), phosphorus (P), magnesium (Mg), sulfur (S), C / N ratio and iron (Fe) were significantly increased in the nutrient solution compared to the control, especially in the nutrient solution 20 days treatment. It was confirmed that the increase significantly. Potassium (K), calcium (Ca), manganese (Mg), zinc (Zn) and copper (Cu) also increased in 20 days of nutrient solution compared to the control, but there was no significant difference (Table 4 and Table 5).

Example  2. Before formality Nutrient solution  Strawberry by time of supply '' Selling Blooming rate and error Yield Analysis

After the seedlings with different nutrient solution feeding time were planted, the discharge rate and the flowering rate of one and two flower beds were measured. As a result, the discharge rate and the flowering rate of one flower pot were increased in the nutrient solution 20 days and 15 days compared to the control (40 days of water treatment), and the discharge rate and the flowering rate of the two flower baskets were 10 days, 15 days and 20 days compared to the control group. It was confirmed that the increase in the day treatment, especially significantly increased in the nutrient solution 20 days treatment (Fig. 2).

In addition, as a result of analyzing the characteristics of fruit, it was confirmed that the weight, fruit, fruit, hardness, sugar, and acidity of the fruit were not significantly different between the control and nutrient solution treatments, so that the nutrient solution did not affect the fruit characteristics. It was found (Table 6).

In addition, as a result of measuring the number of fruits per week and the quantity of commodities (more than 10 g per piece), the harvesting started from November in the group that processed the nutrient solution for 10 days, 15 days or 20 days due to the fast dispatch rate and the flowering rate of the flower garden. In particular, the 20-day treatment of nutrient solution was found to have a significantly higher number of fruits per week in December and January. Fruit marketable was confirmed to increase in the nutrient solution 20 days treatment compared to the control (Fig. 3).

Through the above results, it was judged that it would be appropriate to treat the nutrient solution for 20 days before the formulation of strawberry seedlings in order to improve the growth characteristics of strawberry seedlings, induce early flowering and improve the yield.

Claims (6)

(a) planting the berry berries in a pot filled with coco peat to propagate seedlings for 135-140 days;
(b) irrigation of the propagated strawberry syrup seedling of step (a) with water once or twice a day for 17 to 23 days, and then irrigation with nutrient solution once or twice a day for 17 to 23 days; And
(c) formulating seedlings treated with the nutrient solution of step (b) in BC2 medium and cultivating for 137 to 141 days; inducing early flowering of strawberries, including improving fruit yield,
The nutrient solution contained Ca (NO ₃ ) ₂ 4H ₂ O 990-1,010 mg · L ^-1 , KNO ₃ 280-290 mg-L ^-1 , KH ₂ PO ₄ 590-610 mg · L ^-1 , MgSO ₄ · 7H ₂ O 380-390 mg-L ^-1 , NH ₄ NO ₃ 50-60 mg-L ^-1 , K ₂ SO ₄ 10-20 mg-L ^-1 , Fe-EDTA 20-30 mgL ^-1 , H ₃ BO ₃ 2.5-3.5 mg-L ^-1 , CuSO ₄ · 5H ₂ O 0.10-0.20 mg-L ^-1 , MnSO ₄ · 5H ₂ O 1.5-2.5 mgL ^-1 , Na ₂ MoO ₄ · 2H ₂ O 0.05 to 0.15 mg · L ⁻¹ and ZnSO ₄ · 7H ₂ O 0.5 to 1.5 mg · L ⁻¹ . delete delete delete delete As a method of cultivating a strawberry in which early flowering, including the step of treating the nutrient solution before the planting for 17 days to 23 days and then planting it on the fruit seedling seedlings, improves the fruit yield,
The nutrient solution contained Ca (NO ₃ ) ₂ 4H ₂ O 990-1,010 mg · L ^-1 , KNO ₃ 280-290 mg-L ^-1 , KH ₂ PO ₄ 590-610 mg · L ^-1 , MgSO ₄ · 7H ₂ O 380-390 mg-L ^-1 , NH ₄ NO ₃ 50-60 mg-L ^-1 , K ₂ SO ₄ 10-20 mg-L ^-1 , Fe-EDTA 20-30 mgL ^-1 , H ₃ BO ₃ 2.5-3.5 mg-L ^-1 , CuSO ₄ · 5H ₂ O 0.10-0.20 mg-L ^-1 , MnSO ₄ · 5H ₂ O 1.5-2.5 mgL ^-1 , Na ₂ MoO ₄ · 2H ₂ O 0.05 to 0.15 mg · L ⁻¹ and ZnSO ₄ · 7H ₂ O 0.5 to 1.5 mg · L ⁻¹ .

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