KR100530301B1 - Medium for cultivating plants composed of cellular glass foam - Google Patents

Abstract

The present invention relates to a medium in which foamed glass particles are mixed with other materials such as peat moss. The present invention relates to a medium having good air permeability, good retention of moisture and nutrients, and low physical change in handling, thereby providing an environment suitable for growing crops. It is an invention useful in the horticultural industry as it can.

Description

Medium for cultivating plants composed of cellular glass foam}

The present invention relates to a medium for cultivating plants, and more particularly, to a medium for seedling, cutting, differentiation cultivation, etc. of plants formed by mixing cellular glass foam (CGF) particles with peatmoss and the like. will be.

Recently, with the increase in the production of plug seedlings and horticultural crops, the use of plant cultivation medium is increasing. These media must have nutrient storage, water retention and supply, gas distribution and plant support. Since most of the media currently used cannot satisfy these four functions at the same time, more than two kinds of substances Mixed medium is used. The mixed medium is mixed with organic materials such as peat moss, coir, and huntan, and inorganic materials such as perlite and vermiculite, which have good breathability and drainage, and adjust the physicochemical properties of the medium to be suitable for crop growth. Although the raw materials are imported from Canada, Sri Lanka, and Russia, they are a factor for enlarging foreign exchange expenditure and production cost of crops.

Inorganic media materials have lower moisture retention and are more alkaline than natural soils, so they are not only compensated for, but also supplemented with organic media to control air permeability and water retention, and to maintain pH and electrical conductivity (EC). Mix and use. The medium materials currently used are pearlite, peat moss, cocopeat, vermiculite, hultan, etc., and they are used singly or mixedly, and the selection of a suitable medium according to physicochemical properties is as follows: seedling, cutting and cultivation It is a very important issue that determines the success of a company. Perlite, which has good breathability and drainage, has been developed as a medium for growing seedlings and cultivation of vegetables and flowers by mixing with rock wool or peat moss, but perlite has a large water retention capacity but drainage according to particle diameter. Since the capacity is too good to make the initial growth of plants difficult, the utilization of mixed media using various materials such as granular rock surface with high water retention and peat moss has been considered. In addition, perlite, as in the case of most solid media, relies on imports of raw materials, and thus, a new medium material is required to recycle or replace perlite already used.

Conventionally, the contents of a plant cultivation medium (Patent Application No. 00-23321) using lung rock wool formed by mixing wood crushed particles, coir, pearlite, etc. with the used rock wool of the applicant of the present invention is disclosed. Currently, rock-molding media (US pat. 4,769,277) and Pitmos molding media (EP 248,777) and the like are known in the form of molded articles. Such media using rock wool have high water holding capacity and porosity and are chemically stable, and are easily wetted and easy to handle when watering, and Pittmoss medium has chemical stability and high water holding ability. Medium using rock wool or peat moss is used mainly in the United States. However, rock wool is not naturally decomposed, so it is difficult to dispose after use, and the possibility of secondary contamination by residual nutrient components is very high. In addition, hydroponic cultured rice hull shaping medium (Korea Patent No. 293199) manufactured by mixing waste paper or pulp, hygroscopic substances, etc. with chaff or Huntan rice husk is known, but this is because the material of the medium has a high moisture absorption ability The material must be added separately, there is a disadvantage that the physical and chemical properties of the medium is changed according to its content.

Accordingly, the present invention has been made in consideration of the problems of the prior art, and can replace perlite or rock wool, which is widely used as a mixed material in order to enhance the pores of the medium, and breathable, plant support ability as well as moisture and nutrients The purpose of the present invention is to provide a medium for plant cultivation that is excellent in capacity and can be used for various purposes such as seedling, cutting, and differentiation.

The object of the present invention was achieved by providing a medium formed by mixing cellular glass foam (CGF) particles with peatmoss and the like.

In the present invention, foamed glass and carbonized chestnut chips are used in order to achieve smooth gas distribution in the medium. Foam glass is a material currently used as a building insulation or insulation material, because it is a porous glass particles, light and breathable, and has a large amount of production as industrial by-products, which can be collected and recycled into plant growth media to lower the production cost of crops. In addition, the physicochemical properties are similar to pearlite, but rather porous materials can be used to supplement the shortcomings of pearlite with less effective moisture content and to increase the physical strength, which is advantageous for long-term cultivation. When controlling the particle size and mixing with other medium materials, it is easy, and the physical properties are not easily destroyed after processing.

In order to see if the medium can be formed using the foamed glass particles having the above characteristics, the medium is mixed with rock wool, pearlite and the above two materials and pitmos in various ratios of pepper, tomato and An experiment was conducted to investigate their growth characteristics using Kalanchoe as a test plant. As a result, it was found that the foamed glass particles showed an excellent growth effect when used as a medium. In the present invention, the experiment was performed using only the above plants, but the medium according to the present invention can be utilized for other common horticulture, agriculture or forest use.

Hereinafter, the present invention will be described in detail with reference to Examples, but the scope of the present invention is not limited to these Examples and includes those to those skilled in the art to which the present invention pertains.

Example 1 Preparation of Media Material

The cellular glass foam (CGF) used in the experiment was made of powdered waste glass discarded at Eugene Yanghang Co., Ltd., Pocheon, Gyeonggi-do, and then mixed with a blowing agent (CaCO ₂ ) to melt and carbon dioxide ( It is a low specific gravity porous glass structure made by the action of CO ₂ ), and its main component is silicon dioxide (SiO ₂ ), and includes other additives.

The pearlite used Parat (Samson), the granite rock wool Green Wool (Seoul rock wool), and the peat moss Canadian peatmoss (Sunshine, Sungro Co., LTD). Intosil was used as unsoiled soil (pH 6.70, EC 0.17 mS / cm, 1: 5 dilution method, Shinan Gro Co., Ltd.).

Example 2: Growth Environment and Characteristics of Pepper and Tomato in Medium Using Foamed Glass Particles

On December 7, 2000, 'green' pepper (Hungong Seedling Co., Ltd.) and the world in a 200-hole plug tray filled with the medium (see Table 1) mixed with the medium materials prepared in Example 1 above at various ratios. Sowing seeds of tomato (Seoul Seedling Co., Ltd.) at 28 ° C daytime and 20 ° C at night (operating near-floor heaters to increase the nighttime temperature), and germinating for 3 days in a breeding phase, which is sprayed for 1 minute every 3 minutes I was. After germination, it was placed 4 times per experiment and 100 objects per repetition and placed in the 3/4 type glass greenhouse by the egg mass method under the environmental conditions of minimum temperature 12.0 ℃, maximum temperature 38.4 ℃, average temperature 24 ℃ and average humidity 75%. After germination, the first three days after transfering to the growing phase, the nutrient solution was irrigated at around 10 am once a day, and thereafter, at 10 am once a day, with the ratio of process seedlings prepared in a 100L tank (see Table 2). Bottom irrigation.

Seedling rates were investigated for 2 weeks after sowing. Pepper and tomato seedlings were examined for plant growth after 69 and 42 days, respectively.

[Table 1] Composition ratio of medium used for growth experiment of pepper and tomato

Badge number Composition ratio (%, v / v) CCW CGF Pearlite GR Pete Moss One Control (tossile) 2 50 0 0 50 0 3 50 0 0 0 50 4 0 50 0 50 0 5 0 50 0 0 50 6 0 0 50 50 0 7 0 0 50 0 50 8 33 0 0 67 0 9 33 0 0 0 67 10 0 33 0 67 0 11 0 33 0 0 67 12 0 0 33 67 0 13 0 0 33 0 67 14 67 0 0 33 0 15 67 0 0 0 33 16 0 67 0 33 0 17 0 67 0 0 33 18 0 0 67 33 0 19 0 0 67 0 33

(CCW, carbonized chestnut woodchips; CGF, cellular glass foam; GR, granular rock wool)

[Table 2] Liquid ratio for process nursery used for bottom irrigation

ingredient Concentration (mg / L) ingredient density Ca (NO ₃ ) .4H ₂ O 472 Fe-EDTA 15.0 MgSO _{4 7} H ₂ O 246 H ₃ BO ₃ 1.4 KNO ₃ 202 CuSO ₄ · 5H ₂ O 0.2 NH ₄ NO ₃ 80 MnSO ₄ 4H ₂ O 2.1 KH ₂ PO ₄ 272 Na ₂ MoO ₄ 2H ₂ O 0.1 ZnSO ₄ 7H ₂ O 0.8

Changes in pH and Electrical Conductivity of the Medium

The medium used in the experiment was sampled 30 mL in each of three experiment groups before and after use, diluted 1: 5 (v / v) with 150 mL of secondary distilled water, stirred at 100 rpm / min for 24 hours, and then filtered. After filtering by paper (No. 2, Toyo Roshi Kaisha Co. Ltd), the pH and EC of the filtered solution were measured and the results are shown in FIGS. 1 and 2, respectively.

As shown in FIG. 1, the degree of change in pH was slightly different depending on the crop, but the pH was lowered as the ratio of pit moss contained in the medium was increased in the experiments 3, 5, 7, 9, 11 and 13 in common. Showed a tendency. Looking at the pH of the pepper medium before seedling, 4, 10, and 16 test zones showed alkalinity of 8.0 or higher, which is thought to be due to the influence of the two materials by mixing CGF and GR. After seedling, the pH range was 6.2 ~ 7.0, which is lower than 6.5 ~ 8.7 before seedling, especially between pH 5.6 ~ 6.2, which is generally known to be suitable for plant growth in experimental zones 1, 7, 9, 11, 13 after seedling. The value of is shown.

It can be seen from FIG. 1 that the pH of the medium after seeding was close to an appropriate value from alkaline to weak acidity compared to before seedling, which indicates that the medium has a buffering capacity of the plant itself as the medium and hydrogen ion exchange between the roots of the plant roots and the rhizosphere. It seems to be because it worked. In addition, no specific inorganic element deficiency or toxicity symptoms were observed during crop cultivation.

Figure 2 shows the change in EC, and as shown in the graph, the EC of the medium after seedling increased as a whole. This is presumably due to the accumulation of salt in the medium by irrigation of the nutrient solution in the growth of the greenhouse bed after germination. However, in the experiments No. 4 and 10 using the mixture of mineral medium CGF and GR, EC after seedling was lower than before seedling. From this, it could be estimated that the inorganic medium, unlike the organic medium, can be eluted without accumulating high concentrations of salts to create a rhizosphere environment suitable for the growth of crops.

EC ranges before and after pepper cultivation increased from 0.05 to 0.21 mS / cm to 0.15 to 0.32 mS / cm, respectively. EC was the highest.

Growth Characteristics of Red Pepper

At 69 days after planting, the height, muscle formation, maximum root length, hypocotyl length, number of leaves, chlorophyll concentration, leaf area, fresh weight and dry weight, total biomass and dry weight, dry weight and T / R rate were measured. Muscle formation was rated from the poorest 1 to the best 5 depending on the extent to which the roots wrapped the medium. Dry weight was measured immediately after drying for 72 hours in a thermo-dryer at 60 ℃ after measuring the live weight. Total chlorophyll concentration was extracted with 80% (v / v) acetone from plant leaves and measured for absorbance at 645 nm and 663 nm using a spectrophotometer (Unikon 922, Kotron Instrumens, Italy). Calculated using.

[Equation 1]

Growth of seedlings at 69 days after sowing, seedling rate and growth characteristics are summarized in Table 3 and Table 4 below.

[Table 3] Growth of pepper seedlings at 69 days after sowing

Badge number Extra long (cm) Root grade Root Length (cm) Lower axis length (cm) ground game Chlorophyll concentration (µg / mg fw) Leaf area (cm ² / plant) One 17.6 5.0 8.0 2.4 8 1.21 87.4 2 18.5 3.7 9.0 2.4 8 1.11 95.7 3 18.4 4.3 8.7 2.4 8 1.33 78.7 4 16.7 2.7 7.6 1.9 7 1.67 78.9 5 16.9 2.7 8.4 2.1 7 1.47 60.5 6 17.6 3.0 8.3 2.2 7 1.34 80.5 7 17.5 3.0 7.8 2.2 8 1.20 91.1 8 17.4 3.0 8.3 2.2 8 1.29 83.1 9 16.6 3.0 6.0 2.1 7 0.91 87.3 10 16.1 2.0 7.7 2.0 7 1.38 70.1 11 17.7 5.0 6.3 2.0 8 1.21 90.3 12 17.0 3.3 6.4 2.6 7 1.20 86.4 13 18.2 5.0 5.9 1.9 8 1.20 95.0 14 16.2 4.0 6.5 2.5 8 1.32 91.1 15 17.0 3.0 5.7 2.5 9 1.42 77.9 16 13.7 1.0 6.2 2.0 8 1.39 61.0 17 15.8 2.7 5.5 2.2 8 1.62 77.8 18 15.5 3.3 6.2 2.4 7 1.34 86.2 19 16.2 3.3 6.7 2.5 8 1.34 88.6

As shown in Table 3 above, experiment No. 2 mixed with CCW and GR at 50:50 (v / v), Experiment No. 3 mixed with CCW and peat moss at 50:50 (v / v), and pearlite and peat moss. The longest length was observed in experiment No. 13 mixed at a ratio of 33:67 (v / v), and the lowest in Experiment No. 16 mixed at a ratio of 67:33 (v / v) of CGF. The maximum root length and leaf area were the best in experiment 2 with 50:50 (v / v) of CCW and GR, and the root grade was 11 with 33:67 (v / v) of control and CGF. In experimental group No. 13, pearlite and peat moss were mixed in a ratio of 33:67 (v / v), which was good, and the experimental group in which the organic medium was mixed with peat moss at 67% (v / v) ratio Root growth of was found to be good. The number of leaves is the highest with 9 in experiment 15, where CCW and peat moss are mixed at 67:33 (v / v).

[Table 4] Appearance rate of seedlings and growth characteristics at 69 days after sowing

Badge number Prevalence (%) Live weight (mg) In dry weight (mg) Total live weight (mg) % Building T / R rate Ground Underground Ground Underground Live weight Building One 92 1244.4 188.0 95.8 16.8 1432.4 112.6 7.9 2.7 2 94 1145.1 173.0 77.1 20.1 1318.1 97.2 7.4 3.8 3 95 1238.9 228.9 90.6 23.3 1467.8 113.9 7.8 3.9 4 94 995.6 175.7 71.2 21.4 1171.3 92.7 7.9 3.3 5 92 1008.7 201.7 73.4 23.5 1210.3 96.9 8.0 3.1 6 93 1065.3 168.5 75.2 22.9 1233.9 98.1 8.0 3.3 7 94 1054.6 151.2 71.8 15.5 1205.8 87.3 7.2 4.6 8 93 1135.6 186.3 80.6 21.3 1321.9 101.9 7.7 3.8 9 95 1003.3 134.1 84.7 14.3 1137.4 99.0 8.7 5.9 10 92 1045.0 174.3 70.4 21.7 1219.3 92.1 7.6 3.2 11 93 1136.9 172.1 89.2 17.5 1309.0 106.7 8.2 5.1 12 95 1023.7 182.5 80.4 20.8 1206.1 101.2 8.4 3.9 13 91 1320. 188.8 105.5 17.2 1509.7 112.7 8.1 6.1 14 93 1004.1 154.1 83.7 16.5 1158.3 100.1 8.6 5.1 15 93 1143.1 219.9 89.3 19.4 1363.0 108.8 8.0 4.6 16 94 743.1 155.0 65.8 15.8 898.1 81.6 9.1 4.2 17 91 932.3 130.4 80.0 15.6 1062.7 95.6 9.0 5.1 18 91 886.3 146.9 73.5 15.9 1033.2 90.4 8.8 4.3 19 94 1021.1 131.8 95.4 16.2 1152.9 111.6 9.7. 5.9

As can be seen from Table 4 above, in the experiment 13 where perlite and peat moss were mixed at a ratio of 33:67 (v / v), the ground live weight, dry weight, total live weight and dry weight, and T / R ratio were The best results were found. Next, the control group and experiment No. 3 mixed with CCW and peat moss at 50:50 (v / v) showed good growth results, and the root freshness was highest in Experiment No. 3. The dry matter rate was experimental number 16 mixed with CGF and GR at 67:33 (v / v), experimental number 17 mixed with CGF and pitmoss at 67:33 (v / v), and 67:33 with pearlite and pitmos. v / v) was the best in experiment 19 mixed. This is thought to be the result obtained by creating a physicochemical environment suitable for crop growth by complementing each other during the mixing process with the high breathability and alkalinity of CGF, and the high water retention of pit moss.

Growth Characteristics of Tomato

The height, root formation, maximum root length, hypocotyl length, number of leaves, chlorophyll concentration, leaf area, live weight and dry weight, total biomass and dry weight, total biomass and dry weight, and building and T / R rates at 42 days after sowing. It was measured using the same method as in the growth characteristics of.

[Table 5] Growth result of tomato seedlings 42 days after sowing

Badge number Extra long (cm) Root grade Root Length (cm) Lower axis length (cm) ground game Chlorophyll concentration (µg / mg fw) Leaf area (cm ² / plant) One 10.5 4.9 7.3 5.3 4 1.58 106.1 2 9.3 4.3 7.6 4.9 4 1.61 105.6 3 10.6 4.7 8.2 5.3 4 1.57 124.0 4 .3 3.7 6.7 4.6 4 1.52 89.5 5 9.8 4.0 7.3 4.9 4 1.40 102.3 6 9.6 3.3 7.0 5.0 4 1.49 81.5 7 10.5 4.7 7.5 5.1 4 1.52 116.2 8 10.5 4.3 7.0 5.0 4 1.51 109.7 9 9.6 4.7 7.9 5.2 4 1.51 118.6 10 7.0 2.7 6.8 4.2 4 1.49 74.6 11 10.1 4.3 8.8 5.2 4 1.36 101.3 12 9.0 3.3 8.4 4.5 4 1.29 76.1 13 10.5 5.0 6.9 5.2 4 1.25 144.1 14 11.0 4.0 6.8 5.0 4 1.03 113.3 15 9.1 4.7 7.3 7.3 4 1.03 144.1 16 8.2 3.7 6.0 4.1 4 1.24 81.7 17 9.0 3.7 6.4 4.5 4 1.63 79.1 18 7.9 4.0 6.4 4.5 4 1.64 103.0 19 8.0 4.0 6.3 4.5 4 1.91 107.2

As shown in the table above, the longest length was observed in experiment No. 14, where CCW and GR were mixed at a ratio of 67:33 (v / v), and experiment No. 3, 7, 8, 11, and 13, including the control group. The length of the specimen was large at, except for the control and the eighth experiments, which had a high mixing ratio of carbonized chestnut chips or peat moss. The root grade was the highest in the 13th experimental group with pearlite and peat moss mixed at 33:67 (v / v). Maximum root length was the longest in experiment 11 with CGF and pitmoss at 33:67 (v / v). The hypocotyl length was highest in experiment 15 and leaf area was highest in experiments 13 and 15. In particular, the leaf area showed the lowest tendency in the experimental group composed only of mineral media such as CGF and GR, such as the experimental groups 4, 10, 12, and 16, and the 17 experimental group mixed with CGF and peat moss at 33:67 (v / v). This may be due to the use of inorganic porous media with good breathability and drainage, but with low water retention and nutrient retention.

[Table 6] Incidence rate of seedlings and growth characteristics of 42 days after sowing

Badge number Prevalence (%) Live weight (mg) In dry weight (mg) Total live weight (mg) % Building T / R rate Ground Underground Ground Underground Live weight Building One 81 1472.5 162.6 98.5 13.4 1635.1 111.8 6.8 7.4 2 75 1127.3 144.5 75.3 11.2 1271.8 86.5 6.8 6.7 3 84 1329.9 164.9 86.8 11.5 1494.8 98.2 6.6 7.6 4 74 960.2 153.3 69.3 12.6 1113.5 81.9 7.4 5.5 5 78 1284.4 173.2 86.2 12.7 1457.6 99.0 6.7 6.8 6 76 1150.1 155.2 79.2 13.7 1305.3 92.9 7.1 5.8 7 82 1392.4 175.6 102.9 16.7 1568.0 119.6 7.6 6.2 8 84 1196.2 132.3 77.0 10.9 1328.6 87.3 6.6 7.1 9 84 1489.7 178.7 105.0 13.3 1668.3 118.3 7.1 7.9 10 74 845.2 117.2 63.5 10.5 962.5 74.0 7.7 6.1 11 76 1567.2 184.9 114.5 15.3 1752.1 129.9 7.4 7.5 12 74 1065.5 148.6 78.6 14.9 1214.0 93.5 7.7 5.3 13 78 1612.1 193.1 114.1 13.2 1805.2 127.3 7.1 8.6 14 83 1421.3 192.2 90.8 12.7 1613.5 103.4 6.4 7.2 15 81 1702.4 209.2 117.8 15.5 1911.7 103.3 7.0 7.6 16 73 1010.3 155.7 73.7 12.0 1166.0 85.7 7.4 6.1 17 73 1105.4 174.9 84.0 14.7 1280.3 98.7 7.7 5.7 18 78 1019.0 155.0 73.1 12.6 1174.0 85.7 7.3 5.8 19 71 1198.4 185.3 91.8 15.5 1383.8 107.3 7.8 5.9

As can be seen from the table, above-ground and underground live weight, above-ground and underground buildings, and total biomass and building weight were the highest in Experiment 15, while the lowest in Experiment 10. This shows that if the medium is mixed at a ratio of 50% or more of the organic medium and 50% or less of the inorganic medium, the three phase ratios of the medium are properly distributed and optimized for growth.

The dry matter rate was highest in the experimental group with high breathability and drainage, such as 4, 5, 10, 16 and 17. As in the control and 3, 7, 9, 14, and 15 experiments, the germination and T / R rates were high in the medium containing carbonized chestnut chips and peat moss.

Example 3: Growth Environment and Characterization of Callancoe in Medium Using Foamed Glass

On the 29th October 2001, three leaf (six leaf) growth papers grown in the mother tree of Kalanchoe blossfeldiana 'Gold Strike' were collected, and the media materials prepared in Example 1 were mixed at various ratios. Inserted into a 72-hole tray filled with media (see Table 7). Roots were grown in the mist phase (4 min / 20 min) at an average temperature of 18.2 ° C and a relative humidity of 66.7% to cultivate precursors (specified 14 h / d, memorized 10 h / d) to suppress reproductive growth and flowering. Kallanco roots were rooted 15 days after cutting, head root irrigation was performed during rooting period, and the physical properties and plant growth characteristics of the medium were investigated after 37 days of cultivation.

[Table 7] Composition ratio of medium used for growth experiment of Kalanchoe

Badge number Composition ratio (%, v / v) CGF Pearlite GR Pete Moss One 100 0 0 0 2 0 100 0 0 3 50 0 50 0 4 0 50 50 0 5 50 0 0 50 6 0 50 0 50 7 33 0 67 0 8 0 33 67 0 9 33 67 0 0 10 0 33 0 67

(CGF, cellular glass foam; GR, granular rock wool)

Changes in pH and Electrical Conductivity of the Medium

The pH and EC of the medium used in the experiment were measured using the same method as used in Example 2, and the results are shown in FIGS. 3 and 4, respectively.

As shown in Figure 3, the pH before and after the cultivation was measured slightly alkaline in most treatments of pearlite and CGF, but decreased after cultivation showed a stable pH value. In the medium mixed with pearlite and pitmoss 1: 1 (v / v) or 1: 2 (v / v), it stabilized as it rose from weakly acidic to neutral.

As shown in Figure 4, the EC of the medium showed a tendency to be lower than before the experiment in all treatments except for the pearlite only treatment. When comparing CGF and pearlite, EC was higher than the pearlite treatment before the experiment, but decreased by salt water dissolution in the medium by watering during the experiment.

Investigation of growth characteristics of Kalanchoe

After 37 days of cultivation in Kalanchoe, the height, root length, diameter, leaf length, leaf area, rooting rate, ground weight and ground weight, rooting grade and total chlorophyll concentration of each plant were measured. It measured using the same method as the method used in Example 2.

[Table 8] Growth investigation result in Kalanchoe after 37 days of cultivation

Badge number Root grade Extra long (cm) Diameter (cm) ground game Root diameter (cm) Root Weight (g) Chlorophyll concentration (g / mg fw) Leaf area (cm ² ) T / R ratio % Building Underwater Building One 5 1.9 0.37 8 2.7 3.42 0.28 0.25 7.077 11.86 7.07 2 4 1.8 0.35 8 3.2 4.74 0.38 0.25 77.16 8.53 6.87 3 3 2.0 0.46 8 2.3 4.09 0.39 0.24 99.29 11.64 6.03 4 3 1.8 0.45 8 3.1 4.95 0.43 0.30 108.37 9.85 5.98 5 3 2.1 0.48 8 2.5 5.40 0.38 0.31 107.47 12.64 5.73 6 3 1.9 0.45 8 3.4 4.02 0.29 0.30 107.54 13.79 5.63 7 3 1.9 0.44 8 2.2 3.86 0.35 0.29 116.53 11.46 5.91 8 2 2.1 0.44 8 3.5 4.87 0.37 0.41 126.63 12.49 5.80 9 2 2.1 0.46 8 3.4 4.96 0.35 0.31 117.10 13.06 5.66 10 3 2.0 0.45 8 3.3 3.87 0.28 0.29 114.62 14.87 5.65

As shown in Table 8, plant growth and cultivation were best in medium mixed with CGF and pit moss 1: 1 (v / v), and compared with those in which granular rock wool and pit moss were mixed in the same ratio with CGF and pit moss, respectively. When CGF treatment was better than pearlite. The root length was longer in the pearlite treatment than in the CGF mixed treatment. Root grade, leaf area and dry matter ratio of the myopia state were the lowest in CGF and pearlite treatment after cutting. Root fresh weight and dry weight were higher in CGF and pitmoss mixed 1: 1 (v / v) and the lowest in CGF treatment. The T / R ratio was highest in the medium containing 1: 2 (v / v) of pearlite and pitmoss, and the lowest in the pearlite treatment. In addition, CGF and peat moss mixed with 1: 1 (v / v) had the highest surface fresh weight, dry weight, and total live weight and dry weight, and granular rock wool and peat moss were mixed with CGF and perlite at the same ratio. Compared with that, CGF mixing was better than pearlite mixing.

As a result of the above growth investigation, all media showed excellent growth without any special inhibitory effect, deficiency symptoms or adverse effects, especially in the medium mixed with pearlite CGF and carbonized chestnut chips with peat moss, the same or better than control. The result was shown. In the case of red pepper seedlings, the growth of seedlings in medium mixed with CCW and pitmoss at 50:50 (v / v) or medium mixed with 50% (v / v) pitmoss with CGF was found to be good. In the case of tomato, the seedling growth was better as the mixing ratio of the high-retention carbonized chestnut chips and peat moss was increased. However, the mineral medium containing only CGF and GR showed low nutrient retention and poor plant growth due to the disadvantage of poor sustainability. In addition, when CGF mixed medium and pearlite mixed medium were compared, the growth medium of CGF was found to be similar to or better than that of pearlite mixed medium, so that CGF can be used for seedling, cutting, and differentiation of plants. It was found that it can be used as a medium.

As described in detail above, the present invention relates to a medium formed by mixing foamed glass particles with other materials such as pit moss, and having good air permeability, good retention of moisture and nutrients, and small physical changes during handling. It is a useful invention in the horticulture industry that can provide a suitable environment for the growth of.

1 is a graph showing the pH change of the medium before and after seedling of pepper and tomato,

FIG. 2 is a graph showing changes in electrical conductivity (EC) of medium before and after seedling of red pepper and tomato.

3 is a graph showing the pH change of the medium before and after cultivation in Kalanchoe,

4 is a graph showing the electrical conductivity change of the medium before and after cultivation in Kalanchoe,

Claims (3)

delete A medium for plant cultivation, characterized in that the composition is formed by mixing 33-50% (v / v) of foam glass and 50-67% (v / v) of peat moss. Chestnut chips 33-67% (v / v) and peat moss 33 ~ 67% (v / v) is a plant cultivation medium, characterized in that the composition.