PL247839B1 - Method of stimulating the growth of tomato and radish seedlings in in vitro culture conditions using growth medium with the addition of biochar - Google Patents

Abstract

The subject of the solution according to the application is a method of stimulating the growth of seedlings, i.e. young plants developing from germinated tomato (Solanum lycopersicum L.) and radish (Raphanus sativus L. var. sativus) seeds in in vitro culture conditions using an additive to the growth medium in the form of biochar obtained from pine sawdust, sycamore sawdust, or oak leaves, applicable in the production and breeding of vegetables to improve the efficiency indicators of micropropagation. The seeds are subjected to surface disinfection in a 1.6 - 2.0% sodium hypochlorite solution for 4 - 9 minutes, then the seeds are rinsed in distilled water 3 - 4 times for 5 - 7 minutes, then they are placed on a standard MS medium for micropropagation with the addition of biochar at a concentration of 50 - 100 mg•L^-1, obtained in the process of low-temperature pyrolysis at 400°C, from pine sawdust, sycamore sawdust, oak leaves, under atmospheric pressure for 60 minutes, and then the resulting in vitro cultures are placed for 3 weeks in a growth room at a temperature of 18 - 22°C, under photoperiod conditions with 18 hours of daylight, with a quantum light irradiance of 40 µmol•m^-2•s^-1.

Description

Description of the invention

The subject of the invention is a method of stimulating the growth of seedlings, i.e. young plants developing from germinated tomato (Solanum lycopersicum L.) and radish (Raphanus sativus L. var. sativus) seeds in in vitro culture conditions using an additive to the growth medium in the form of biochar obtained from pine sawdust, sycamore sawdust or oak leaves, applicable in the production and breeding of vegetables to improve the efficiency indicators of micropropagation.

Biochar is obtained by low-temperature pyrolysis of biomass, including plant material, to elemental carbon, in the absence or limited access of oxygen and at pressure close to atmospheric pressure. It has recently found increasing use in agriculture and horticulture as a product improving the properties and fertility of soils as well as the growth and yield of plants.

The use of biochar as an additive to the medium used for plant production in in vitro cultures (micropropagation) is not known.

In vitro plant cultures are based on the vegetative propagation of plants under strictly controlled, sterile laboratory conditions, using special media that serve both nutritional and regulatory functions. Micropropagation guarantees the production of high-quality and healthy plants, in a shorter time than under natural conditions, and in larger quantities. Plant production is possible year-round, regardless of weather conditions and the growing season. Plants propagated in vitro are intended for further cultivation in vivo. Furthermore, the use of in vitro cultures is crucial for the conservation and creative breeding of plants, including vegetable plants. Research is underway to develop media additives that stimulate plant growth and regeneration and allow for increased micropropagation rates, ensuring higher production profitability while maintaining/improving the quality of the resulting plants.

Patent PL.233005 discloses a multi-component fertilizer containing chicken manure (40-60% by weight), defecation lime, or alternatively, a calcium fertilizer, consisting of organic ingredients of animal origin and reactive lime hydrate (15-25% by weight). The fertilizer also contains 15-25% by weight of lignite or lignite fines and/or peat or biochar, as well as 5-15% by weight of bottom sludge from freshwater reservoirs.

The invention presented in patent PL.236421 concerns a method for using sewage sludge and municipal waste to burn mineral materials in rotary kilns. The sewage sludge and municipal waste are pretreated thermally by low-temperature pyrolysis, and the resulting biochar and pyro-oil serve as fuel for the rotary kiln burner.

Patent PL.237796 describes a method for obtaining biochar from biomass for methane absorption, characterized in that plant biomass from potato cultivation waste is used, in particular potato haulms.

The subject of patent PL.240190 is a method for producing carrier granules based on biochar obtained from agricultural waste, mainly cereal husks and chaff, lignocellulosic substrates and molasses, as well as a method for producing an organic fertilizer containing such carrier granules inoculated with an organic additive selected from mycorrhizal fungi, bacteria and marine algae, as well as a method for delivering this fertilizer to the soil in greenhouse and field cultivation of vegetables and cereals.

Application PL.435492 presents biocarbon sorbents obtained from agricultural biomass, in particular flax shives and corn waste, obtained pyrolytically under cascade heating conditions, at a temperature of 500°C, in a protective atmosphere of carbon dioxide, with a pore diameter of 0.8 to 2.0 nm and a specific surface area in the range of 200-374 m ² /g, intended for the removal of heavy metals, in particular chromium (III) from aqueous solutions.

Patent CN108040881A discloses a growth medium prepared from WPM, KT, NAA, ethylene, biochar, humic acid, tomato concentrate, rare earth solution, and agar, as well as a method for in vitro culture of pitaya. The developed medium stimulates the growth of single-node pitaya explants and accelerates the multiplication of progeny plants.

The subject of patent CN114031450A is a slow-release fertilizer that improves the growth and quality of tomatoes grown in the ground, as well as a method for producing this fertilizer. The fertilizer comprises: protein amino acids, biochar, a binder, and diatomaceous earth.

There is no known method in the available art for stimulating the in vitro growth of tomato and radish seedlings using the addition of biochar obtained from pine sawdust, sycamore sawdust or oak leaves, which would be analogous to the presented subject of the invention.

The essence of the solution according to the invention is a method of stimulating the in vitro growth of tomato and/or radish seedlings, which consists in first subjecting the seeds to surface disinfection in a 1.6-2.0% sodium hypochlorite solution for 4-9 minutes, and then transferring the seeds to sterile distilled water for rinsing 3-4 times for 5-7 minutes each, after which the seeds are placed under sterile conditions on a standard MS medium for micropropagation (Murashige and Skoog, 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15, 473-49) with a composition modified by the addition of biochar at a concentration of 50-100 mg^L ^-1 . The biochar was produced from wood sawdust, preferably pine sawdust, sycamore sawdust, or oak leaves, in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes.

Then, for seed germination and seedling growth, the resulting in vitro cultures are placed for 3 weeks in a growth room at a temperature of 18-22°C, under an 18-hour photoperiod, and a quantum light irradiance of 40 μmol·m ^-2 ·s ^-1 .

The advantages of the solution according to the invention include the stimulation of in vitro growth of the shoot and root parts of tomato and radish seedlings compared to seedlings growing on a medium without the addition of biochar, the lack of phytotoxicity symptoms of the types of biochar used, and the shortening and increasing the efficiency of tomato and radish multiplication cycles in in vitro culture.

The method according to the invention is illustrated in the implementation examples.

Example 1

The method of stimulating the in vitro growth of tomato seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, tomato seeds are surface disinfected in 1.6% sodium hypochlorite solution for 5 minutes and then rinsed 3 times for 5 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from sycamore sawdust at a concentration of 50 mg^L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at 18°C, under 18-hour photoperiod conditions, and a quantum light irradiance of 40 μmol·m ^-2 ·s ^-1 for seed germination and seedling growth.

Example 2

The method of stimulating the in vitro growth of tomato seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, tomato seeds are surface disinfected in 2.0% sodium hypochlorite solution for 7 minutes and then rinsed 4 times for 7 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of a standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from pine sawdust at a concentration of 100 mg^L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at 22°C, under 18-hour photoperiod conditions, and a quantum light irradiance of 40 μmol·m ^-2 ·s ^-1 for seed germination and seedling growth.

Example 3

The method of stimulating the in vitro growth of tomato seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, tomato seeds are surface disinfected in 2.0% sodium hypochlorite solution for 7 minutes and then rinsed 4 times for 7 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from oak leaves at a concentration of 100 mg^L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at 22°C, under 18-hour photoperiod conditions, and a quantum light irradiance of 40 μmol·m ^-2 ·s ^-1 for seed germination and seedling growth.

Example 4

The method of stimulating the in vitro growth of radish seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, radish seeds are surface disinfected in a 2.0% sodium hypochlorite solution for 4 minutes and then rinsed 4 times for 7 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from oak leaves at a concentration of 100 mg-L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at 20°C, under 18-hour photoperiod conditions, and a quantum light irradiance of 40 μmol-m ^-2 -s ^-1 for seed germination and seedling growth.

Example 5

The method of stimulating the in vitro growth of radish seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, radish seeds are surface disinfected in 1.8% sodium hypochlorite solution for 6 minutes and then rinsed 4 times for 6 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of a standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from pine sawdust at a concentration of 75 mg-L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at a temperature of 22°C, under an 18-hour photoperiod, and a quantum light irradiance of 40 gmol-m—zs· ¹ for seed germination and seedling growth.

Example 6

The method of stimulating the in vitro growth of radish seedlings is carried out in the following stages:

1. In a sterile laminar air flow cabinet, radish seeds are surface disinfected in 1.8% sodium hypochlorite solution for 6 minutes and then rinsed 4 times for 6 minutes in sterile distilled water.

2. Then the seeds are inoculated onto the surface of standard MS medium enriched with biochar obtained in the process of low-temperature pyrolysis at 400°C, under atmospheric pressure, for 60 minutes, from sycamore sawdust at a concentration of 75 mg-L ^-1 .

3. In vitro cultures are placed for 3 weeks in a growth room at 22°C, under an 18-hour photoperiod, and a quantum light irradiance of 40 μmol-m ^-2 -s ^-1 for seed germination and seedling growth.

Claims (4)

Patent claims 1. A method of stimulating the growth of tomato and radish seedlings under in vitro culture conditions using a growth medium with the addition of biochar, characterized in that the seeds are subjected to surface disinfection in a sodium hypochlorite solution at a concentration of 1.6-2.0% for 4-9 minutes, then the seeds are rinsed in distilled water 3-4 times for 5-7 minutes, and then placed on a standard MS medium for micropropagation with the addition of biochar at a concentration of 50-100 mg-L ^-1 , obtained in the process of low-temperature pyrolysis at a temperature of 400°C, from wood sawdust, under atmospheric pressure, for 60 minutes, and then the resulting in vitro cultures, for the purpose of seed germination and seedling growth, are placed for 3 weeks in a growth room at a temperature of 18-22°C, under photoperiod conditions with 18 hours of daylight, quantum light irradiance intensity of 40 μmol-m ^-2 -s ^-1 . 2. The method according to claim 1, characterized in that the biochar was obtained in the process of low-temperature pyrolysis from pine sawdust. 3. The method according to claim 1, characterized in that the biochar was obtained in the process of low-temperature pyrolysis from sycamore sawdust. 4. The method according to claim 1, characterized in that the biochar was obtained in the process of low-temperature pyrolysis from oak leaves.