PL228655B1 - Methods of vegetables biofortification in iodine - Google Patents

Description

(21) Application number: 410808

Patent Office of the Republic of Poland (22) Application date: 30.12.2014 (51) Int.CI.

A01G 1/00 (2006.01) A01G 7/00 (2006.01) A01G 31/00 (2006.01) A01C 21/00 (2006.01) (54)

The method of biofortification of vegetables with iodine (73) The holder of the patent:

(43) Application was announced:

23.11.2015 BUP 24/15 (45) The following was announced about the grant of the patent:

30.04.2018 WUP 04/18 m

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AGRICULTURAL UNIVERSITY

THEM. HUGONA KOŁÓŁTAJA IN KRAKÓW, Kraków, PL (72) Inventor (s):

WŁODZIMIERZ SADY, Kraków, PL NEW YEAR'S EVE SMOLEŃ, Łysa Góra, PL IWONA LEDWOŻYW-SMOLEŃ, Kraków, PL (74) Plenipotentiary:

thing, pat. Marta Bartula-Toch

PL 228 655 B1

Description of the invention

The subject of the invention is a method of iodine biofortification of vegetables with the use of technical salts and salicylic acid in hydroponic cultivation.

The basic model of iodine prophylaxis in the world is the introduction of this element to table salt. Despite its wide spread, still a significant part of the human population (from 30% to 38%) are diagnosed with disease symptoms related to insufficient supply of this element to the diet. The search for alternative iodine carriers to table salt is extremely important due to the efforts in many countries around the world to reduce excessive salt consumption in relation to the WHO recommended level of 5.0 g NaCl / day. Since reducing salt consumption may consequently worsen the level of iodine supply in humans, research is being conducted into ways to enrich crops with this element.

Iodine is not a nutrient for plants, but accumulates in them, therefore it becomes toxic to them even at small doses. The second problem that needs to be solved is the strong sorption of iodine in the soil, which makes it difficult to uptake it from the soil by the roots. In the soil environment, iodine is sorbed into the mineral and organic phases. Strong iodine binding in the soil is observed already from several dozen hours to several days after its introduction into the soil environment (regardless of the chemical form used). This is done by forming covalent bonds with double-bonded aromatic compounds (e.g. phenolic and polyphenolic compounds) that are part of the structure of fulvic acids and humins. Iodine desorption - release to the soil in forms available to plants - is a very slow process. After soil fertilization with iodine compounds, the uptake of this element by the roots, and consequently its accumulation in the usable parts of the crop, is much lower than it results from the iodine dose applied. This results in the need to use high doses of iodine for soil fertilization, which significantly increases the cost of cultivation. It may also cause damage to plants when the toxicity threshold is exceeded which is difficult to empirically determine - it strongly depends on the cultivation conditions. It also has negative effects on the soil environment - excessive doses of iodine are also toxic to the microflora and soil mesofauna.

Patent description WO 2009/087178 describes a method of enriching potato, carrot and onion crops with iodine, in which both the leaves and the soil are treated with an aqueous solution of iodine with an iodine content of 0.1% to 5% (m / about). Additionally, phosphoric acid is used to regulate the pH of the solution in the range from 1 to 7. This means the application of 2 to 30 kg of iodine per hectare of soil.

From the patent description CN 101080986 there is known a method of biofortification of sweet potato crops with iodine by means of solid fertilizer placed in soil cavities. An alternative method of sprinkling sweet potato leaves with liquid fertilizer 5-6 times during cultivation has also been described. The fertilizer is applied in the amount of 12-150 mg / m ² , which means no more than 1.5 kg / ha, of which only a part is iodine.

EP 1 153 901 describes the composition of a fertilizer for enriching plants with certain elements such as vanadium, iodine, zinc and molybdenum as well as substances such as vitamin C. An aqueous solution containing the desired ingredients is sprayed on the leaves of the plants. With regard to iodine, an aqueous solution containing 0.0000005% to 2% iodine (w / w) is used, the pH of this solution is from 5 to 9.

The application of the solution is repeated several times during the vegetative cycle, so that the amount of iodine applied is up to 1 kg per hectare.

From WO 2008/104600 A1, a method of enriching potato crops with iodine is known, which consists in spraying leaves with an iodine salt solution with an iodine content of 0.01 to 50% (w / w), preferably 34% (w / w), which means from 0.1 to 500 g / l, preferably 340 g / l of iodine. The iodine solution is combined with 5% phosphorus pentoxide and 12% potassium oxide. Ultimately, the amount of iodine applied per hectare of cultivation is up to 17 kg. If a solution with the preferred concentration of 340 g / l is used, 50 liters of solution are required to feed 17 kg of iodine hectare of land.

The essence of the solution according to the invention consists in the fact that in hydroponic crops for fertigation of plants, a solution of iodine salts such as KI, KIO3, salicylic acid and a medium containing macro- and micro-nutrients is used simultaneously. The iodine concentration in the used iodine salt solution ranges from 0.0001 to 0.0004%, while the concentration of salicylic acid is from 0.01 to 10 mg per dm ³ . Fertigation of plants with a mixture of iodine compounds, salicylic acid and nutrients is carried out each time during the watering of the plants throughout their vegetation period, starting 2-3 weeks after planting the plants permanently until the end of harvesting the consumption part of the plants.

PL 228 655 B1

The total dose of iodine for plants with a short growing season is from 1 to 4 kg I / ha of cultivation, and for plants with a long growing season - from 4 to 20 kg I / ha of cultivation, while the total dose of salicylic acid for plants with a short growing season is from 0.1 to 4 kg / ha of cultivation, and for plants with a long growing season - no more than 20 kg / ha of cultivation.

Preferably, for plants with a short growing season, fertigation with iodine compounds is carried out with a solution with a concentration of 0.0003 to 0.0004% I (w / w).

Preferably for plants with a long growing season, fertigation with iodine compounds is carried out with a solution with a concentration of 0.0001 to 0.0002% I (w / w), while the concentration of salicylic acid is not higher than 1 mg / dm ³ .

Preferably, in hydroponic cultivation, fertigation is used each time the plants are watered, both in the open and closed system of the nutrient solution.

The advantage of the solution according to the invention is the fact that the simultaneous use of iodine salts and salicylic acid enables more efficient transport of iodine from the roots to the above-ground parts of plants (vegetative and generative). As a result of the application of salicylic acid, better results of enriching plants with iodine are achieved than when using only technical salts of iodine. The conducted research shows that in the hydroponic cultivation of tomatoes, the amount of iodine in the control sample is 0.0153 mg / kg of FW, fertigation of the crop using KIO3 raises the level of iodine to 0.09 mg L / kg of FW. m., while the simultaneous use of KIO3 and salicylic acid allows to achieve the amount of 0.14 mg I / kg FW. vegetables.

The subject of the invention is illustrated by the following examples.

P r z k ł a d I

In hydroponic cultivation of tomato (in the system of thin-layer flow cultures), the iodine compound KI at a concentration of 0.0001% (m / o) and salicylic acid at a concentration of 1 mg are introduced into the medium containing all macro- and micronutrients necessary for the proper growth and development of plants. / dm ³ . Fertigation with a solution of iodine and salicylic acid begins 2 weeks after the tomato seedlings are planted at their destination and is carried out each time when watering the plants throughout their vegetation period, until the last harvest.

The joint application of salicylic acid with the KI iodine compound significantly increases the level of accumulation of this element in tomato fruit by 1076% (m / m) compared to the control. It is also important that the combination of the application of KI and salicylic acid causes a significant increase in the efficiency of fruit biofortification with iodine compared to introducing only KI of 20% (m / m) into the media.

P r z x l a d II

In hydroponic lettuce cultivation (in the system of thin-layer flow cultures), KIO3 at a concentration of 0.0001% (m / o) and salicylic acid at a concentration of 0.1 mg / dm ³ are introduced into the nutrient medium for fertigation. Fertigation begins 3 weeks after sowing lettuce seeds and is carried out each time the plants are watered throughout their growing season until harvest.

Compared to the application of KIO3, the combined use of KIO3 and salicylic acid increases the degree of iodine accumulation in lettuce by 28.2% (m / m). The use of higher concentrations of salicylic acid causes the level of accumulation of iodine in lettuce to decrease again from the maximum of 94.6 mg / kg at the concentration of 0.1 mg of salicylic acid per dm ^{3 of the} medium to 82.8 mg of iodine per kg of lettuce at the concentration of salicylic acid at the level of 10 mg / dm ^{3 of the} medium.

Claims (4)

Patent claims 1. The method of biofortification of vegetables into iodine, which consists in using a solution of iodine technical salts for irrigation of crops several times during the vegetation period, characterized in that in hydroponic crops for fertigation of plants, a solution of iodine salts such as KI, KIO3, salicylic acid is used and a medium containing macronutrients and micronutrients, the concentration of iodine in the used iodine salt solution ranges from 0.0001 to 0.0004% (w / w), while the concentration of salicylic acid is from 0.01 to 10 mg per dm ³ , and fertigation of plants with a mixture of iodine compounds, salicylic acid and nutrients is carried out each time when watering the plants throughout their vegetation period, starting 2-3 weeks after planting the plants permanently until the end of harvesting the consumption part of the plants, so that the total dose of iodine for plants with a short growing season amounted to The amount of salicylic acid for plants with a short growing season is from 1 to 4 kg I / ha of cultivation, and for plants with a long growing season - from 4 to 20 kg I / ha of cultivation, while the total dose of salicylic acid for plants with a short growing season is from 0.1 to 4 kg / ha of cultivation, and for plants with a long growing season - no more than 20 kg / ha of cultivation. 2. The method according to p. A method according to claim 1, characterized in that for plants with a short growing season, fertigation with iodine compounds is carried out with a solution with a concentration of 0.0003 to 0.0004% I (w / w). 3. The method according to p. 1, characterized in that for plants with a long growing season, fertigation with iodine compounds is carried out with a solution with a concentration of 0.0001 to 0.0002% I (w / o), while the concentration of salicylic acid is not higher than 1 mg / dm ³ . 4. The method according to p. The method of claim 1, characterized in that in hydroponic cultivation, fertigation is used each time when watering the plants, both in an open and closed system of the nutrient solution.