Catalog Adaptamin short eng - Concentrated chelated microfertilizer with complex of bio-stimulators by bestadaptor

Healthy plants! Healthy animals! Healthy man!

Mission, vision, values Our mission We help our customers to increase yield of plants, to raise productivity of animals and to improve human health. Our vision To make hi-tech products, which will provide health for plants, animals and man. People, knowledge, advanced technologies, partnership and synergy are in the basis of our success. Our values Responsibility. Company exists due to its customers and it shall correspond to public interest. We bear responsibility for the quality of our products and for the result of their application. Knowledge. We strive to achieve the best result due to our constant research and improvements. We shall be ahead of demands and propose new products to our customers. Team. Together in team we can achieve prominent results. We are consolidated by mission and goals, which we are trying to pursue. Partnership. We appreciate and develop partnership, which is the key to mutual success. Synergy. We achieve efficiency in interrelated activity.

ADAPTAMIN® Concentrated chelated microfertilizer with complex of bio-stimulators ТU U 20.1-37999502-001:2012 About the Company NANOMIX is an interregional research and production agricultural union specialized in development of new bioactive substances for medicine, livestock breeding and plant cultivation. Company employees have more than 360 inventor’s certificates and patents.

Products for plant cultivation ADAPTAMIN® trade mark and trade brand are patented in Ukraine, Russia and CIS countries. In the countries of European Community this product is registered and actively used under NANOFERTI® trade mark. In Great Britain it is used as NANOFERTI® and as NANOAGRICOLE® in Africa.

International certification This product received international certificates of quality and under NANOFERTI® trade mark it was recommended for application in European ecological farms as the most effective and harmless in accordance with EU directive No. (EC) 834/2007 and No. (EC) 889/2008.

Significance for plant cultivation Microelements provide fundamental metabolic processes of plants, photosynthesis is impossible without them, sweetening and protein substances are not produced, ferments do not work, oxidation processes are stopped. Significant change of climate in some regions into sharp continental, extreme weather conditions of the last years, reduction of yields in many traditional crops require development of adaptogenic products, which increase plant resistance to unfavorable environmental factors.

Composition Liquid concentrate ADAPTAMIN® is a complex of microelements - Fe, Mn, Zn, Cu, Co, Мо, В, Mg, Са, S with organic “energy” acids (succinic, malic, tartaric, racemic, aspartic, oxalic and citric acids) and their biologically active derivatives (succinates, malates, tartrates, asparaginates, oxalates and citrates), amino acids, provitamins, biogenic aminoalcohols and auxins.

Advantages In contrast to well-known products, ADAPTAMIN® contains Co, Mo and B in bioavailable organic form. Variety of used chelating agents increases chemical stability and mobility of microelement complex in a wide pH range. Penetration speed of chelating agents inside the plant increases in tens of times! This allows to decrease its hectare dose in many times from 0.250 l/ha till 1 l/ha maximum.

Mechanism of action Organic acids in ADAPTAMIN® act as complexing agents similar to living cell. They cover microelements by natural organic layer, mask their penetration through stomas, increase rate of absorption and facilitate movement in plant tissue. Derivatives of succinic, malic, tartaric, racemic, aspartic, oxalic, citric and isocitric acids (which belong to ADAPTAMIN®) participate in crucial oxidation cycle of substance transformation in organism (Krebs, Roberts, Barro, gluconeogenesis, neoglycolysis), act as activators of energy processes, promote production of main energy substance – ATP (adenosine triphosphate) inside the cell, in many times increase plant resistance to unfavorable environmental factors. Heteroauxin promotes accelerated root formation.

Biological effect ADAPTAMIN® microfertilizer: • Increases germinating ability and sprouting energy of seeds • Improves root growth • Increases cold endurance, shade tolerance, heat resistance and drought hardness • Accelerates photosynthesis, eliminates plant chlorosis • Strengthens immunity and resistance to diseases • Increases sugar content in fruits • Promotes accumulation of protein and gluten in cereals • Increases oil content in oil crops • Accelerates intracellular transformation of nitrates into digestible amine components and amino acids • Increases number of seeds in ears, cobs and pods • Increases crop yield

Technology Production is based on application of cavitation effect in RPD-typed choppers developed and patented by our company. Effect of hydrodynamic cavitation of rotor and pulsating action was applied in these units. Crushing, dilution of substances and synthesis of separate reagents take place without direct mechanical contact and heating under active influence of exploding micro-bubbles.

Product range ADAPTAMIN® microfertilizer is adopted for various types of agricultural crops for pre-seeding treatment of seeds and foliar (leaf) fertilizing of plants.

Product quality control Product quality control is made by combination of standard methods: atomic absorption spectrophotometry, including direct electrothermal atomization of samples together with plasma photometry, ion, ion-pair, reversed-phase high efficiency liquid chromatography and chromatography mass spectrometry.

ADAPTAMIN® is a microfertilizer, bio-stimulator and adaptogen Chelating agents: succinic, malic, tartaric, racemic, aspartic, oxalic, citric, ethylene diamine disuccinic, ethylene diamine tetraaccetric and hydroxyethylidene diphosphonic acids. Adjuvants: Patented original component TFV (“Transfoliovector” is a mixture of amidated derivates of gluconeogenesis including derivatives of oxalosuccinic, oxaloacetric and α-ketoglutaric acids) in 15 times increases penetration of nutrient chemicals through epidermis and cuticular layer of plants, it is a growth-promoting agent and adaptogen. By agreement with customer (!) it can contain additional composite of polyvinyl alcohol with amido betaine. Schemes of treatment were selected during long-standing tests, including tests made on the basis of Yuryev Plant Production Research Institute (Kharkov). The first stage of foliar treatment impacts on plant morphology (tilling capacity of cereals, increase of number of fertile tillers, formed ears, heads, pods, etc.). The second stage influences on product quality (thousand-kernel weight, number of kerns in heads, class: content of protein and gluten, level of carbohydrates and fats). Adaptamin is a molecular solution of emerald green color. Heterogeneous and colloidal components are not available in final product. Production technology is based on original use of cavitation effect by RPD-typed choppers and mixers developed and patented by us for preparation of solutions for agricultural application (ТU U 29.2-36626417001:2009, patent No. 22997 dd. 25.04.2007 and No. 40030 dd. 25.03.2009). This type of units uses effect of hydrodynamic cavitation of rotor and pulsating action. Crushing, dilution, mixing of treated substances and synthesis (!) of separate components (ethylene diamine disuccinic acid, TFV and HV components, etc.) take place without direct mechanical contact and heating under active influence of exploding micro-bubbles in cavitation area. We successfully use this type of units for cold cracking of oil products and deep compounding of petroleum mixtures, “dilution” and hydrolysis of bird feathers, production of foam concrete from bottom ashes, etc. Effect of Adaptamin is related with supplementing of microelements in living matter, strengthening of tissue oxygenation and additional generation of adenosine triphosphate due to participation in tricarboxylic acid cycle. Almost half of product composition is acids of Krebs cycle, neoglycolysis and gluconeogenesis.

Novelty and Advantages of ADAPTAMIN® Confirmed by patents No. 61566, No. 59911, etc. The product contains the fullest composition of vital microelements, including cobalt, molybdenum and boron in bioavailable complex form. Well-balanced set of chelating agents (ethylene diamine disuccinic, succinic, malic, tartaric, racemic, aspartic, oxalic and citric acids) make complexes with microelements stable in wide pH range. This provides efficient use of microfertilizer on acidic, neutral and even weakly alkaline soils. The product is stable in calcinated media, it is not destroyed in hard water. Product amphoteric microelements, molybdenum (Mo) and boron (B), in a less degree, have the form of complexes with accelerated absorption. Availability of cobalt (Co) chelated microelement (powerful stimulator of nitrogen metabolism, component of vitamin B12 and nitroreductase enzyme, activator of nitrobacteria, which fix atmospheric nitrogen in soil), ensures transformation of nitro compounds into amino-containing compounds and provides increased accumulation of amino acids and proteins in treated plant. Natural chelating agents, adaptogen stimulators on the basis of polycarboxilic acids, participate in crucial energetic transformations of organism, strengthen oxygenation (oxygen supply) of tissues, increase generation of main energy substance - ATP (adenosine triphosphate), promote accumulation of nutritional substances, activate protective properties of plants, sharply suppress product toxicity. Low stability constant of such complexes promotes their fast metabolism in organism and occurrence of biostimulate effect. Heliovector is a complex biochemical composition of gluconeogenesis derivates, which in several times increases plants adaptability to unfavorable conditions, stimulates their growth and increases yield. Product for seed treatment contains powerful stimulator of growth for root system – heteroauxin in the form of β-indoleacetric and β-indolebutyric acids. Due to specific chelate construction and special Foliovector transfer factor the product is absorbed in tens times faster through epidermis and cuticular layer of plants. It is less washed off by raining and dew that permits to use its efficiently for foliar treatment of vegetative plants and to decrease its working concentration in several times till 1 l/ha and therefore to reduce its toxicity.

Concentrated and physicochemical parameters of variations for ADAPTAMIN® and methods of their control Parameter name

Rate

Mass content of Fe chelate, %

0,27-1,52

Mass content of Fe chelate, g/l

3,2-18,2

Mass content of Mn chelate, %

0,25-1,35

Mass content of Mn chelate, g/l

3,1-15,8

Mass content of Zn chelate, %

0,17-0,73

Mass content of Zn chelate, g/l

2,0-8,45

Mass content of Cu, %

0,05-1,2

Mass content of Cu, g/l

0,6-12,6

Mass content of Co chelate, %

0,004-0,05

Mass content of Co chelate, g/l

0,05-0,65

Mass content of B compl, %

0,2-0,9

Mass content of B compl, g/l

2,2-1,0

Mass content of Mo chelate, %

0,01-0,07

Mass content of Mo chelate, g/l

0,1-0,8

Mass content of Mg chelate, %

0,8-0,9

Mass content of Mg chelate, g/l

9,6-10,2

Mass content of Са chelate, %

0-1,1

Mass content of Са chelate, g/l

0-13

Mass content of S, %

2,3-3,7

Mass content of S, g/l

25,3-48,0

Mass content of К2О, %

0,5-3,5

Mass content of К2О, g/l

6,5-28,9

Mass content of N (amide), %

1,2-6,0

Mass content of N (amide), g/l

13,2-67,5

Succinates, %

0,05-0,50

Succinates, g/l

0,55-5,85

Malates, %

0,05-0,50

Malates, g/l

0,55-5,85

Citrates, %

1,1-1,4

Citrates, g/l

12,1-15,6

Tartrates, %

0,02

Tartrates, g/l

0,25

Asparaginates, %

0,02

Asparaginates, g/l

0,25

Oxalates, %

0,02

Oxalates, g/l

0,25

β-indoleacetric acid, %

0-0,005

β-indoleacetric acid, g/l

0-0,06

β-indolebutyric acid, %

0-0,002

β-indolebutyric acid, g/l

0-0,03

Hydrogen index рН

5,9±1,1

Density at 20 С, g/ml

1,1-1,3

Control method Determination of iron in chelated form by ion-pair chromatography method EN 15451:2008 and reverseface high efficiency liquid chromatography method EN 15452:2008 Fertilizers with microelements. Determination of manganese COMECON Standard 3366-81 Fertilizers with microelements. Determination of zinc COMECON Standard 3368-81 Fertilizers with microelements. Determination of copper COMECON Standard 3365-81 Fertilizers with microelements. Determination of cobalt COMECON Standard 3364-81 Fertilizers with microelements. Determination of boron COMECON Standard 3363-81 Fertilizers with microelements. Determination of molybdenum COMECON Standard 3367-81 Determination of magnesium by spectrometric method of atomic absorption EN 12947:2000 Determination of calcium by atomic absorption method EN 12947:2000 and Central Research Institute of Agrochemical Support for Agriculture (CINAO) GOST 26487 Determination of free sulfur GOST 26490 Determination of total Flame photometry.

potassium

GOST18-85.

Determination of total nitrogen GOST 26715-85 and Devard EN 15476:2009

Determination of chelating agents by ion, ion-pair, reverse-face high efficiency liquid chromatography and chromatography mass spectrometry methods: EN 13368-1:2001, EN 13368-2:2007, CEN/TR 15106:2005.

Determination of auxins by reverse-face high efficiency liquid chromatography and mass spectrometry methods: EN 13368-2:2007, CEN/TR 15106:2005. Potentiometry GOST 26483, 26484 Densimetry GOST 18995.1-73, COMECON Standard 1504-79

Determination of chelated microelements is made by atomic absorption spectrophotometry method (GOST 30178-96, Regulative Document 52.18.191-89 and Regulative Document 52.286-91), including direct electrothermal atomization of samples (Regulative Document 52.24.377-2008) together with plasma photometry method (M-02Vd/2001).

Role of microelements in plant life Element Nitrogen N Phosphorus P Potassium K Magnesium Mg Calcium Ca

Sulfur S Iron Fe

Manganese Mn

Zink Zn

Function Basic element for generation of organic substances. It participates in construction of proteins and various vitamins, particularly B vitamins. Nitrogen regulates growth of vegetative mass and defines yield level. Element of energy supply (ATP, ADP). It accelerates plant growth, activates growth of root system and generative organs. Phosphorus stimulates flowering and fruiting, increases winter resistance and drought hardness. Element of cell youth. It regulates turgor and cell growth, preserves and keeps water. Potassium ensures generation of sugars and their migration, increases winter resistance and drought hardness, strengthens immunity. Element of energy transfer. It enters into composition of chlorophyll, participates in photosynthesis, carbohydrate metabolism, fermentation and fruit formation. Magnesium activates redox processes. Regulator for mobilization of reserve nutrients. It enhances nutrition of seed germs, stimulates plant growth and development of root system, strengthens metabolism, activates enzymes, participates in construction of some proteins. Calcium strengthens cell walls, increases protoplasm viscosity and operates as potassium antipodes in some processes. It enters into composition of amino acids, proteins, various vitamins, phytoncids, essential oils. Sulfur participates in nitrogen and protein metabolism, influences on redox processes. It regulates photosynthesis, respiration, protein metabolism and biosynthesis of growth substances â&#x20AC;&#x201C; auxins. Iron enters into composition of hemecontaining enzymes: catalase, peroxidase and cytochrome oxidase (main catalyst of all redox processes). It participates in chlorophyll synthesis, nitrogen and sulfur metabolism, cell division and growth. Iron can be found in chloroplasts. Powerful regulator of photosynthesis, respiration, carbohydrate and protein metabolism. It enters into composition of various enzymes, ensures increase of chlorophyll content in leaves, synthesis of ascorbic acid, energized acids and sugars, strengthens hydrolytic processes. Manganese accelerates migration of amino acids and sugars from leaves into seeds and fruits, regulates water balance, increases resistance to unfavorable factors, influences on fruiting. It accelerates ripening, decreases degree of lodging, regulates iron oxidation, activates regeneration of nitrites and hydroxylamine till ammonium salts and amines. Manganese can be found in germs, seed coats and green leaves. It regulates lipid, protein, carbohydrate, phosphoric metabolism, biosynthesis of vitamins A, B, C, P, carotene and folic acid, growth substances (auxins). Zink catalyzes metabolism of tryptophane and tryptomine amino acids, nucleic acid and energy production cycles, provides immunity, growth and reproduction processes. It increases heat, drought, winter and salt resistance of plants, participates in construction of 24 zinc-dependent enzymes, respiratory ferments (cytochrome A and B), cytochrome oxidase, alcohol dehydrogenase and glycyl glyzyn dipeptidase, carbon dioxide utilizer (carbonic ahnydrase). Zinc deficiency causes deceleration of sucrose, starch and growth hormones generation, disorder of glucose phosphorylation, fats and proteins generation, stop of photosynthesis, retardation of cell division, termination of fruiting. It enhances stability to bacterial and fungous diseases.

It regulates respiration, photosynthesis, carbohydrate, protein and water metabolism, concentration of growth substances. Copper increases stability to lodging, drought, winter and heat resistance. It works as enzyme activator, participates in construction and stabilization of chlorophyll, anthocyanin, ferriporphyrins, copper proteids, various oxidative enzymes: cytochrome oxidase, polyphenol, di, amine and ascorbate oxidase, iron-containing peroxidase. Copper enhances water retaining ability, stability to bacterial and fungous diseases, activates reproduction, improves scent of fruits and vegetables. It regulates pollination and fertilization, carbohydrate and protein metabolism, Boron number of phytohormones â&#x20AC;&#x201C; auxins and biophenols. Boron controls cell division, B general linear growth and development of tissues, participates in RNA and DNA synthesis, carbohydrate metabolism, calcium absorption and plant water supply, increases stability to fungous, bacterial and viral diseases. It is particularly important during vegetation period. Boron accelerates growth of pollen tubes, pollen germination, increases number of blooms, fruits and seeds. Boron deficiency causes disorder of synthesis, transformation and movement of carbohydrates, formation of reproductive organs, fertilization (pollen sterility) and fruiting of plants. Molybdenum It stimulates fixation of atmospheric nitrogen, regulates nitrogen, carbohydrate and phosphoric metabolism, synthesis of chlorophyll and vitamins, participates in Mo synthesis of nucleic acids (RNA and DNA), vitamin C and carotene. Molybdenum regulates photosynthesis and respiration. Its deficiency causes accumulation of toxic nitrates. Molybdenum enters into composition of nitrate reductase enzyme (molybdoflavoprotein), restores nitrates into amides and amines, stimulates synthesis of amino acids and protein from them. It concentrates in legumes nodules, facilitates their growth, stimulates fixation of atmospheric nitrogen by nodule bacteria. It participates in synthesis of proteins, nucleic and fatty acids, carbohydrates, Cobalt methionine, folic and ascorbic acids. It is a component of vitamin Đ&#x2019;12 and Co transcarboxylase enzyme. Cobalt influences on generation of nitrogenous matters and carbohydrates in plants, accelerates their outflow from vegetative organs to generative organs. It enhances respiration and photosynthesis intensity, promotes generation of chlorophyll by decreasing its decomposition at night time. Cobalt participates in enzyme systems of nodule bacteria, which make fixation of atmospheric nitrogen. It stimulates growth, development and productivity of plants, increases general content of water in cells. Copper Cu

Plants, which are the most sensitive to the microelement deficiency and types of depleted soils Element Nitrogen N

Sensitive plants

Depleted soils

-cabbage, rheum; soddy-podzolic, particularly sandy and sandy -pumpkin, leek, celery, asparagus, cucumbers, loam soils cabbage lettuce, carrot, beet, spinach, tomatoes and bulb onion; -less sensitive: bean, pea, radish. cabbage, cucumbers, pumpkin, rheum, celery and carrot

podzolic soils

potato, cabbage, cucumbers, pumpkin, celery, rheum, carrot and tomatoes

sandy and sandy loam soils

Fruit trees, cereals, beet, sunflower

sandy and sandy loam soils with increased acidity

pea, potato, cereals, sunflower

acidic sandy and sandy loam soils

cruciferous family (cabbage, mustard, various salads), legumes and potato

soddy-podzolic, light-textured, low-humic soils, particularly in areas remote from industrial centers

Iron Fe

- grapevines, berries, hop, rose, fruit trees; - tomatoes, cabbage, potato, corn, medic, soybean, wheat, oat, tobacco and cucumbers

meadow boggy, carbonate, podzolic, grey forest, alluvial meadow soils, particularly with high content of phosphates

Manganese Mn

Beat and other root crops, potato, cereals, corn and apple tree, sweet cherry, pear, cherry and raspberry

grey forest, alkali, chestnut soils, over sweetened and slightly leached black soils with Ń&#x20AC;Đ? range of 6 - 8

Phosphorus P Potassium K Magnesium Mg Calcium Ca Sulfur S

Zink Zn

- buckwheat, corn, flax, hop, grapevines, fruit trees; acidic modal podzolic, chestnut, and brown - soybean, pea, beet, sunflower, clover, onion, soils, gray soils, black soils after significant potato, cabbage, cucumbers, berries; doses of phosphate fertilizers - oat, wheat, barley, carrot, rice, medic, citrus plants, cotton plant

Copper Cu

- oat, barley, wheat, beet, onion and legumes; - rye, buckwheat, clover; - citrus plants, apple trees, pears, plums and olives

sandy, carbonate, soddy-podzolic, over sweetened soils, peat soils, particularly acidic peat soils

Boron B

- beet, root crops, sunflower, legumes, flax, potato and vegetable crops, grapevines - less sensitive: rye, wheat, barley, oat

soddy-podzolic, limy, soddy-gley, grey forest soils, black soil enriched with phosphorus and calcium, particularly in drought periods

Molybdenum legumes, vegetable crops (cabbage, radish, leaf vegetables, tomatos) Mo

Cobalt Co

legumes, brier, garlic

acidic soddy-podzolic, grey forest, sandy and sandy loam soils, peat soils and even black soil limy, sandy or ferruginous soils

External symptoms of plant microelement deficiency Element

Symptoms of deficiency

Nitrogen N

Nitrogen deficiency causes deceleration of lateral shoot growth, size reduction of leaves, shoots and fruits. Leaves are pale-green or even yellowish. During longterm deficiency leaves gain yellow, orange or red color, become dry and fall prematurely. Harvest level goes down, its quality becomes worse: crops maturate worse and do not gain natural color. In the first instance, deficiency can be seen on bottom leaves: leaf veins become yellow and yellowness covers leaf margins. Old leaves gain brown-yellow color and die slowly.

Phosphorus Phosphorus deficiency causes growth retardation, short and thin shoots, small, deciduous leaves. They gain dove green (grey green), dim blue, purple and redP violet colors on their edges and veins and then on entire surface. Dying leaves have dark, almost black color. Shoots of fruit plants become purple, thin, leaves gain bronze color and fall prematurely. Potassium Potassium deficiency causes general growth retardation, suppression of fruit, bud and germinative inflorescense development. Edges of old leaves become brown K (“edge scorch”), take burned appearance. Small rusty spots are appeared on leaf blades. Deficiency of this microelement causes spreading of leaf mould, especially near edges. Leaf becomes “corrugated” or involute in the shape of dome. Leaves color is bluish-green, dim, frequently with bronze shade. Veins look as if they deeped inside leaf tissue. Shoot is thin, crumbly, lodged. New leaves have small size. Potato leaves have bronze film. Magnesium Magnesium deficiency causes development of fish-bone chlorosis on leaves between veins: green color changes to yellow, red, violet color near leaf edges and Mg between veins. Spots of various colors can appear later between veins due to tissue dying off (“marbling”). In such cases big veins and neighboring areas of leaf stay green. Leaf apices and edges become curled resulting in curling of leaves in the shape of dome, leaf edges become crumpled and die gradually. Application of nitrogen, phosphate and potassium fertilizers decreases magnesium deficiency. Calcium Ca

Juvenile leaves are small and deformed with chlorotic spots. Leaf edges are white with irregular shape, later they become curled with brown scorch. It is possible to observe damage and dying of tip buds and roots. Calcium deficiency decelerates growth of roots, they become slimy and rotten.

Sulfur S

Sulfur deficiency causes generation of small, light-yellow leaves on elongated stems. Growth and development of plants become worse. Leaves and petioles of horticultural crops become lignified. Plant leaves do not fall though they have pale color. Stem growth in width is decelerated. Yellowed evergreen upper leaves of cabbage is an unmistakable sign of sulfur deficiency.

Iron Fe

Iron deficiency causes disorder of chlorophyll generation, development of leaf chlorosis, leaves become pale, yellow and fall prematurely. Synthesis of growth substances (auxins) conducts slower. Growth and maturing are decelerated.

Manganese Manganese deficiency causes chlorosis of leaves, their necrosis and death. Between leaf veins appear small yellow and grey spots merging in long strips Mn along the leaf. Later leaf color becomes darker, gains brown shade, affected areas start to die. Chlorosis develops from leaf edge to its center in the form of V-letter. Cereals gain “grey mottling”, leaves are curled along the cross line of wilting and

start to overhang. On the corn leaves it is possible to see separate chlorosis spots with further generation of holes on leaves. Beet gets “mottled yellows”, edges of its leaves are curled upwards. Pea gains “swamp mottling” (brown and black spots on its seeds). Horticultural crops acquire chlorosis of old leaves, which is particularly severe for pear and cherry. Fructification of pea, tomatoes, radish and cabbage are completely absent. “Suppressed” forms of deficiency can be seen as retardation of general and root growth, increased morbidity, yield decrease. Zinc Zn

Zinc deficiency causes deformation and decrease of leaf blade, retardation of internode growth, deceleration of plant growth. Leaves gain yellow dots or spots of grey-brown and bronze color. Tissue of these areas starts to die. Fruit trees have short shoots with small rosellate leaves (rosette disease) at the ends of branches and dieback in case of substantial deficiency. Corn acquires whitening or chlorosis of upper leaves, its new leaves gain pale yellow color. Tomatoes get rosette disease, curling of leaf blades and stems.

Copper Cu

Copper deficiency causes retardation of growth and flowering, leaf chlorosis, loss of cell elasticity (turgor) and plant wilting. In case of severe deficiency cereals have whitening of leaf apices, empty ears (“cultivation disease” or “white plaque”), excessive bushiness (especially for oat, barley, beet, onion and legumes), horticultural crops gain dieback (exanthem) and growth of weakened lateral shoots that is uncharacteristic in this period of time.

Boron B

From boron deficiency suffers young raising organs: apex growing points start to die. Beet has internal black spots and “root hollow heart”, potato – severe damage by scab, cauliflower – “brown rot”. Sunflower has brown top and growth cessation of young leaves. Upper leaves of fruit trees become little, they start to curl and fall. In case of sharp deficiency, besides dieback, fruits gain watery ulcers, which become brown and changed by cork. Fruits get specific bitterish taste. Young small leaves start to die. Then the same become with roots and “buds” on stem. Plant forms a shrub, generates shoots, which immediately start to be sick.

Molybdenum Molybdenum deficiency causes deceleration of plant growth, leaf paleness, their deformation and preliminary death. Young green leaves become mottled. Areas of Mo chlorotic tissue swell up afterwards. Edges of leaves curl inside. Along edges and on leaf top it is possible to see development of necrosis. Spindling of cauliflower and spackled yellows of citrus are characteristic indicators of this deficiency. Cobalt Со

External symptoms of deficiency similar to symptoms of nitrogen starvation. Usually these symptoms have legumes.

External symptoms of plant microelement excess Element

Symptoms of excess

Nitrogen N

Excessive and unilateral nitrogen nutrition decelerates harvest ripening. Plants generate too many verdure at the expense of flowering. Root and tuber crops turn into tops. Cereals have development of lodging. Root crops get decrease of sugar content, potato – decrease of starch. Vegetable crops, melons and gourds accumulate nitrates. Young fruit trees grow heavily but beginning of fructification becomes later, shoots grow slowly and trees meet winter with immature wood and bark.

Phosphorus P

Phosphorus excess impedes nutrition of iron and zinc – leaves get interveinal chlorosis.

Potassium K

Leaves gain darker color, new leaves become smaller. Potassium excess causes deceleration of calcium, magnesium, zinc and boron nutrition.

Magnesium Mg

Magnesium excess is an uncommon excess. In case of its chronic surplus roots start to die, plants stop to absorb calcium that causes its deficiency.

Calcium Ca

Calcium excess breaks nitrogen, potassium, boron and iron nutrition that causes interveinal chlorosis of leaves and appearance of light shapeless spots of leaf necrotic tissue.

Sulfur S

Leaves gradually gain yellow color from their edges and become curled inwards. Then they go brown and die. Sometimes leaves get lilac brown tone instead of yellow color.

Iron Fe

Manganese Mn

Iron excess appears very seldom and stops growth of root system and all plant. Leaves gain dark tone or start to die and fall. Its excess impedes phosphorus and manganese nutrition that can cause their deficiency. On strongly acid waterlogged soils and during application of excessive number of manure it can cause “wilting of crops”. It decreases chlorophyll content in plant cells. Its symptoms are similar to magnesium deficiency: interveinal chlorosis of old leaves, appearance of brown necrosis spots. Leaves become shriveled and fall.

Copper Cu

In case of improper treatment by Bordeaux mixture it causes growth cessation, leaves get brown spots and die. Process starts from bottom, older leaves.

Boron B

Boron excess is an uncommon excess that causes general toxicosis. Boron is accumulated in leaves causing specific burn of bottom leaves: appearance of edge necrosis, their yellowing, dying and falling.

Molybdenum Molybdenum excess is possibly only in case of multiple microelement overdosing. In excessive doses it is toxic for plants and animals. Mo Cobalt Co

Cobalt excess changes visual appearance of indicator plants: alyssum obovatum and cotoneaster grow in 3-5 times higher than usual and larch cones are generated 2-3 times per season: in April – white cones, then – pinky, yellow, in June – green and later – brown.

Description of ADAPTAMIN® products

Adaptamin-cereals-super elite (seed treatment) Chelated microfertilizer with complex of bio-stimulators

It is recommended for seed treatment of all cereals         

Guaranteed better sprouting (results of research, reports of scientific institutions, application experience in farms) 20 % decrease of seed protectant rate from selected rate (for instance, Gaucho Bayer from 0.5 kg/t till 0.4 kg/t of seeds) Decrease of macrofertilizer rate (experience was gained in “UkrAgroCom”, Ltd, Kirovograd region) Saving of approved seeding budget Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Increase of cereals yield Price for wheat treatment is from 9.47 UAH/ha (1 l/t) till 28.40 UAH/ha (3 l/t) at rate of 220 kg/ha Application for winter wheat causes increase till 360 kg/ha

Composition No. 1 2 3 4 5 6 7

Compound Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate* Co chelate* B compl

Content, g/l 9,6±0,06 4,6±0,02 5,6±0,02 2,0±0,03 0,6±0,01 0,2±0,005 6,6±0,05

No. 9 10 11 12 13 14 15

Compound N amide K2O SO4 Succinates Malates Tartrates Citrates

Mo chelate*

0,2±0,005

Oxalates

Density is 1,25 – 1,26 at + 20 С, g/ml

Content, g/l 39,6±0,1 12,0±0,06 24,5±0,3 2,4±0,08 2,4±0,08 0,25±0,01 6,0±0,06

No. 17 18 19 20 21 22 23

Compound Asparaginates Transfoliovektor «TFV» Growth factor «HV» Indoleacetic acid Indolebutyric acid Oxaloacetates Oxalosuccinates Adjuvant (surface-active 0,25±0,01 24 agent) Hydrogen index рН is 5,9±1,1

Content, g/l 0,15±0,01 0,18±0,01 0,3±0,015 0,06±0,001 0,06±0,001 0,12±0,01 0,12±0,009 0,18±0,005

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/t per 10 l of spray solution

Crop

Phase of fertilizing

Winter wheat

Seeds

0,1-3

Barley

Seeds

1-3

Malting barley

Seeds

Rye

Seeds

1-3

Triticale

Seeds

1-3

Method of application Pre-seeding treatment of seeds shall be done (with possible use of protectants) by agricultural units of Mobitox, PSSh-5, KPS-10 or PS-10 types at the rate of 1-3 l. of ADAPTAMIN microfertilizer per 10 l of spray solution per ton of seeds. Compatibility test shall be done before application of protectant. Mixture of solutions shall not leave sediment, turbidity is possible.

Adaptamin-cereals-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing of all cereals    

Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Acceleration of photosynthesis, elimination of plant chlorosis Acceleration of nitrate intercellular transformation into digestible amine components and amino acids Accumulation of protein and gluten in cereal crops Increase of seeds in ear Increase of cereal crops yield and quality Result of application is increase from 360 till 580 kg/ha

   

Composition No

Compound

Content, g/l

No. Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 12,4±0,03 12,0±0,02

8 9 10

Mo chelate* N amide K2O

0,2±0,005 48,0±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

5,2±0,03

SO4

28,8±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index рН is 5,9±1,1

5 Cu chelate* 12,5±0,01 6 Co chelate* 0,1±0,005 7 B compl 2,4±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/ha per 100300 l of spray solution

Crop

Phase of fertilizing

Winter wheat

Tillering Start of booting 2d – 3d internode Appearance of flag leaf

0,25-1

Barley

Start of tillering End of tillering – end of booting Flag leaf

0,5-1

Malting barley

Start of tillering

Rye

Tillering

0,5-1

Triticale

Tillering

0,5-1

Oat

Tillering

0,5-1

1-2

Method of application Foliar dressing (spraying) is made on vegetative plant together with protectants after compatibility test. ADAPTAMIN removes stress caused by application of agricultural chemicals, it is well-combined with urea solution and majority of herbicides, insecticides and fungicides. Any standard equipment can be used for spraying. Spray solution shall be prepared before its application by pouring 20 l of ADAPTAMIN to 2000 l of water for 20 ha of crops (1 l/ha), i.e. microfertilizer shall be diluted 1:100 till 1% concentration. Optimum temperature of spray solution is +15-20°С at air temperature of +10-25°С and average daily temperature of min. +5°С. Dressing shall be made according to development phases early in the morning or in the evening avoiding bright sunlight, rain and strong wind. During 1:100 dilution pH shall be 5,5 – 6,0.

Adaptamin-sunflower-super elite (seed treatment) Chelated microfertilizer with complex of bio-stimulators

It is recommended for seed treatment         

Guaranteed better sprouting (results of research, reports of scientific institutions, application experience in farms) 20 % decrease of seed protectant rate from selected rate Decrease of macrofertilizer rate (experience was gained in “UkrAgroCom”, Ltd, Kirovograd region) Saving of approved seeding budget Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Increase of yield Price for treatment is from 0.22 UAH/ha (1 l/t) till 0.65 UAH/ha (3 l/t) at rate of 5 kg/ha Application result is an increase till 200 kg/ha

Composition No. 1 2 3 4 5

Compound Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate*

Content, g/l 9,6±0,06 4,4±0,02 4,0±0,02 6,0±0,03 1,0±0,01

No. Compound 9 N amide 10 K2O 11 SO4 12 Succinates 13 Malates

Content, g/l 44,0±0,3 12,0±0,06 26,9±0,3 2,4±0,08 2,4±0,08

No. 17 18 19 20 21

Compound Asparaginates Transfoliovektor «TFV» Growth factor «HV» Indoleacetic acid Indolebutyric acid

Content, g/l 0,15±0,01 0,18±0,01 0,3±0,015 0,06±0,001 0,06±0,001

Co chelate*

0,1±0,005

Tartrates

0,25±0,01

Oxaloacetates

0,12±0,01

B compl

8,0±0,05

Citrates

6,0±0,06

Oxalosuccinates

0,11±0,009

Adjuvant (surface-active agent)

Mo chelate*

0,2±0,005

Oxalates

Density is 1,25 – 1,26 at + 20 С, г/мл

0,25±0,01

0,18±0,005

Hydrogen index рН is 5,9 ± 1,1

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Sunflower

Seeds

Rate of fertilizing, l/ha per 10 l of spray solution

1-3

Adaptamin-sunflower-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing       

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Acceleration of photosynthesis, elimination of plant chlorosis Acceleration of nitrate intercellular transformation into digestible amine components and amino acids Increase of oil content in oil-bearing crops Increase of sunflower yield and quality Result of application is increase from 100 till 400 kg/ha

Composition No

Compound

Content, g/l

No. Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 12,5±0,03 12,5±0,02

8 9 10

Mo chelate* N amide K2O

0,15±0,005 48,0±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

5,0±0,03

SO4

27,6±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 2,5±0,01 6 Co chelate* 0,1±0,005 7 B compl 7,5±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «HV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Sunflower

5 -7 leaves

Rate of fertilizing, l/ha per 100-300 l of spray solution 1

Adaptamin-legumes-super elite (seed treatment) Chelated microfertilizer with complex of bio-stimulators

It is recommended for seed treatment of all legumes         

Guaranteed better sprouting (results of research, reports of scientific institutions, application experience in farms) 20 % decrease of seed protectant rate from selected rate (for instance, Fever Bayer from 0.4 l/t till 0.32 l/t) 30% decrease of macrofertilizer rate Saving of approved seeding budget Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Increase of legumes yield Price for treatment is from 3.87 UAH/ha (1 l/t) till 11.60 UAH/ha (3 l/t) at rate of 100 kg/ha Application result for soybean is increase till 90 kg/ha

Composition No. 1 2 3 4 5 6 7

Compound Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate* Co chelate* B compl

Content, g/l 9,6±0,06 4,0±0,02 4,0±0,02 6,6±0,03 2,4±0,01 0,3±0,005 4,8±0,05

No. Compound 9 N amide 10 K2O 11 SO4 12 Succinates 13 Malates 14 Tartrates 15 Citrates

Mo chelate*

0,5±0,005

Oxalates

Density is 1,25 – 1,26 at + 20 С, g/ml

Content, g/l 42,4±0,1 12,0±0,06 26,6±0,3 2,4±0,08 2,4±0,08 0,25±0,01 6,0±0,06

No. 17 18 19 20 21 22 23

Content, g/l 0,15±0,01 0,18±0,01 0,3±0,015 0,06±0,001 0,06±0,001 0,12±0,01 0,11±0,009 0,18±0,005

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/t per 10 l of spray solution

Crop

Phase of fertilizing

Soybean, bean

Seeds

1-3

Pea, haricot, medic

Seeds

1-3

Adaptamin-legumes-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing     

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of immunity and resistance to diseases Increase of legumes yield Result of application for soybean is increase till 190 kg/ha

Composition No

Compound

Content, g/l

No. Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 14,4±0,03 9,6±0,02

8 9 10

Mo chelate* N amide K2O

0,8±0,005 42,4±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

4,8±0,03

SO4

27,6±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 2,4±0,01 6 Co chelate* 0,6±0,005 7 B compl 4,8±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/ha per 100-300 l of spray solution

Crop

Phase of fertilizing

Soybean

2 - 3 ternate leaf

Pea

flower-bud formation

Bean

flower-bud formation

Haricot

flower-bud formation

Medic

flower-bud formation

Adaptamin-corn-super elite (seed treatment) Chelated microfertilizer with complex of bio-stimulants

It is recommended for seed treatment        

Guaranteed better sprouting (results of research, reports of scientific institutions, application experience in farms) 20 % decrease of seed protectant rate from selected rate Decrease of macrofertilizer rate (experience was gained in “UkrAgroCom”, Ltd, Kirovograd region) Saving of approved seeding budget Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Increase of yield Price for treatment is from 0.86 UAH/ha (1 l/t) till 2.58 UAH/ha (3 l/t) at rate of 20 kg/ha

Composition No. 1 2 3 4 5

Compound Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate*

Content, g/l 9,6±0,06 3,2±0,02 3,6±0,02 4,4±0,03 0,9±0,01

No. Compound 9 N amide 10 K2O 11 SO4 12 Succinates 13 Malates

Content, g/l 41,6±0,1 12,0±0,06 26,4±0,3 2,4±0,08 2,4±0,08

No. 17 18 19 20 21

Compound Asparaginates Transfoliovektor «TFV» Growth factor «HV» Indoleacetic acid Indolebutyric acid

Content, g/l 0,15±0,01 0,18±0,01 0,3±0,015 0,06±0,001 0,06±0,001

Co chelate*

0,06±0,005

Tartrates

0,25±0,01

Oxaloacetates

0,12±0,01

B compl

2,2±0,05

Citrates

6,0±0,06

Mo chelate*

0,2±0,005

Oxalates

Density is 1,25 – 1,26 at + 20 С, g/ml

Oxalosuccinates Adjuvant (surface-active 0,25±0,01 24 agent) Hydrogen index of рН is 5,9 ± 1,1

0,11±0,009 0,18±0,005

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendation for application Crop

Phase of fertilizing

Corn

Seeds

Rate of fertilizing, l/t per 10 l of spray solution 1-3

Adaptamin-corn-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing     

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of seeds in cobs Increase of corn yield Result of application is increase till 398 kg/ha

Composition No

Compound

Content, g/l

No.

Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 16,8±0,03 5,4±0,02

8 9 10

Mo chelate* N amide K2O

0,15±0,005 48,0±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

7,8±0,03

SO4

28,4±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 4,8±0,01 6 Co chelate* 0,1±0,005 7 B compl 4,8±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendation for application Crop

Phase of fertilizing

Corn

5 -7 leaves

Rate of fertilizing, l/ha per 100-300 l of spray solution 1

Adaptamin-rapeseed-super elite (Foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing     

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of oil content in oil-bearing crops Increase of rapeseed yield Result of application is increase till 326 kg/ha

Composition No. 1 2 3

Compound Mg chelate* Fe chelate* Mn chelate*

Content, g/l 9,6±0,06 7,2±0,03 3,1±0,02

No. 8 9 10

Compound Mo chelate* N amide K2O

Content, g/l 0,15±0,005 44,0±0,09 12,0±0,06

Zn chelate*

3,1±0,03

SO4

26,8±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 4,2±0,01 6 Co chelate* 0,1±0,005 7 B compl 4,2±0,05 Density is 1,25 - 1,26 at + 20 С, g/ml

No. 15 16 17

Compound Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

Content, g/l 11,8±0,06 0,6±0,01 0,5±0,02 0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/ha per 100-300 l of spray solution

Crop

Phase of fertilizing

Rapeseed

4-6 leaves

Mustard

Flower-bud formation

Adaptamin-beet-super elite (seed treatment) Chelated microfertilizer with complex of bio-stimulants

It is recommended for seed treatment        

Guaranteed better sprouting (results of research, reports of scientific institutions, application experience in farms) 20 % decrease of seed protectant rate from selected rate Decrease of macrofertilizer rate (experience was gained in “UkrAgroCom”, Ltd, Kirovograd region) Saving of approved seeding budget Stimulation of plant growth and development Increase of plant resistance to drought, diseases and physiological stresses Increase of yield Price for treatment is from 0.10 UAH/ha (1 l/t) till 0.30 UAH/ha (3 l/t) at rate of 2 kg/ha

Composition No. 1 2 3 4 5 6

Compound Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate* Co chelate*

Content, g/l 9,6±0,06 4,0±0,02 4,0±0,02 6,6±0,03 3,4±0,01 0,3±0,005

No. 9 10 11 12 13 14

Compound N amide K2O SO4 Succinates Malates Tartrates

Content, g/l 44,0±0,1 12,0±0,06 26,6±0,3 2,4±0,08 2,4±0,08 0,25±0,01

No. 17 18 19 20 21 22

B compl

Mo chelate* 0,5±0,005

8,0±0,05

Citrates

6,0±0,06

Oxalates

0,25±0,01

Density is 1,25 – 1,26 at + 20 С, g/ml

Compound Asparaginates Transfoliovektor «TFV» Growth factor «HV» Indoleacetic acid Indolebutyric acid Oxaloacetates

Content, g/l 0,15±0,01 0,18±0,01 0,3±0,015 0,06±0,001 0,06±0,001 0,12±0,01

Oxalosuccinates Adjuvant (surface-active 24 agent) Hydrogen index of рН is 5,9 ± 1,1

0,12±0,009 0,18±0,005

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Sugar beet, red beet, fodder beet

Seeds

Rate of fertilizing, l/t per 10 l of spray solution

1-3

Adaptamin-beet-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing    

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of sugar beet yield Result of application is increase of beet sugar content from 0.5 % till 1 %

Composition No

Compound

Content, g/l

No. Compound

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 12,0±0,03 9,6±0,02

8 9 10

Mo chelate* 0,6±0,01 N amide 46,2±0,15 K2O 12,0±0,06

Zn chelate*

6,0±0,03

SO4

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 8,4±0,01 6 Co chelate* 0,6±0,009 7 B compl 9,0±0,11 Density is 1,25 – 1,26 at + 20 С, g/ml

Content, g/l

28,8±0,18

No. Compound

Content, g/l

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Citrates Oxalates Asparaginates Adjuvant (surface-active 18 agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Rate of fertilizing, l/ha per 100-300 l of spray solution

Sugar beet, red beet, fodder beet

6 - 8 pairs of leaves

1-2

Adaptamin-potato-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing    

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of immunity and resistance to diseases Increase of potato yield

Composition No

Compound

Content, g/l

No.

Compound

Content, g/l

No.

1 2 3 4 5

Mg chelate* Fe chelate* Mn chelate* Zn chelate* Cu chelate*

9,6±0,06 12,0±0,03 7,2±0,02 5,5±0,03

7 8 9 10 11

B compl* Mo chelate* N amide K2O SO4

7,2±0,05 0,1±0,005 44,0±0,09 12,0±0,06

13 14 15 16 17

Co chelate*

0,05±0,005

Succinates

4,8±0,02

4,2±0,01

Density is 1,26-1,3 at + 20 С, g/ml Hydrogen index of рН is 5,9±1,1

27,5±0,08

Compound

Content, g/l

Malates Tartrates Citrates Oxalates Adjuvant (surface-active agent) 18 Asparaginates 19 Transfactor «TFV» 20 21 22

4,8±0,02 0,6±0,01 11,8±0,06 0,6±0,01 0,16±0,005 0,5±0,02 0,18±0,04

Growth rate «НV» Oxaloacetates

0,6±0,08 0,12±0,01

Oxalosuccinates

0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Potato

Increase of stems

Rate of fertilizing, l/ha per 100-300 l of spray solution 1

Adaptamin-orchard-garden-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing    

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of immunity and resistance to diseases Increase of crop yield

Composition No. Compound

Content, g/l

No. Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 14,4±0,03 4,8±0,02

8 9 10

Mo chelate* N amide K2O

0,15±0,005 67,2±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

8,4±0,03

SO4

26,4±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 4,8±0,01 6 Co chelate* 0,05±0,005 7 B compl 6,0±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/ha per 100-300 l of spray solution

Crop

Phase of fertilizing

Orchard

Budding

Appearance of flower-bearing stem

Strawberry Differentiation of buds (first decade of August)

0,5

Adaptamin-boron-active 31% (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing - vitamin “Mi” or “factor of membrane integrity” - belongs to phosphatides (kephalines and lecitin), which form cell membranes - is one of key antioxidant of organism together with tocopherols and ascorbic acid - impedes lipid pereoxidation and free radical breakdown - acts as predecessor in biosynthesis of key biologically active substances: choline, methionine, glutamine, serine, acetylcholine - increases strength of many enzymes (amylaze, phosphatase, etc.) - starts protein and phosphoric metabolism - participates in transformation of fats, biosynthesis of vitamins A and C, inhibits their oxidation - optimizes carbohydrate metabolism, regulates glucose homeostasis - stimulates generation of chlorophyll and accelerates photosynthesis - suppresses autoimmune destruction (self-destruction) - contains amine nitrogen, which accelerates root formation - prevents lodging - activates moisture absorption from soil - increases plant resistance to drought - regulates transpiration (water evaporation by plants) and intensity of mineral nutrition, increases efficiency of macrofertilizers - increases organism resistance to diseases - strengthens natural resistibility (resistance) and adaptive properties of plants to negative factors of stress impacts - accelerates plant growth and development, increases their yield - raises sugar content in root crops, oil in oil crops, provides generation of protein in cereals and legumes, increases ascorbic acid content in fruits - result of application is increase of beet sugar content from 0.5 % till 1 %

Composition Total content of bioactive boron chelates is 31% - 39% Boron in biologically active form of accelerated nutrition: four-coordinate intracomplex compounds monoethanolamine(N→B)trihydroxyborate and diethanolamine(N→B)trihydroxyborate Component

В39%

В31%

Mass content of Boron compl, %

Mass content of Boron compl, g/l Mass content of Colamine, % Mass content of Colamine, g/l Mass content of Namine % Maas content of Namine g/l Rate per one fertilizing, l per 1 ha To dilute in 100-300 l of water

182 26 364 6 84

139 21 290 5 69

0,5 - 1

1-2

Recommendations for application Crop

Phase of fertilizing

Rate of fertilizing, l/ha per 100-300 l of spray solution

Sunflower

5 – 7 leaves or 8 – 10 leaves

1-2

Soybean

Start of flower-bud formation

4 – 6 leaves

Flower-bud formation

6 – 8 pairs of leaves– closing in row

Leaves/root ratio = 1 and less

Potato

Start of flowering

Tomatoes

Start of flowering

Cucumber

Start of flowering

Orchard

Start of flowering

Grapevines

Start of flowering

Strawberry

Full appearance of flower-bearing stem - flowering

Cabbage

Start of head formation

Carrot

Development of plant vegetative parts

Cotton

Flower-bud formation

Rapeseed

Sugar beet

Adaptamin-zinc-active 30 % (foliar dressing) Chelated microferttilizer with complex of bio-stimulators

It is recommended for foliar dressing   

200 g/ha of Zinc Zn (NU-Agrar GmbH 02/12/2011 80) is required for 8 t/ha of cereals yield Provides quick absorption and eliminates zinc deficiency Does not clog nozzles of sprayer

Composition Total content of bioactive zinc chelates is 30% (atomic zinc - 84 g/l) No

Compound

Content, g/l

No.

Compound

Content, g/l

No.

Compound

Content, g/l

84,0±0,4 4 SO4 123,0±0,7 7 Tartrates 0,6±0,01 Zn chelate* Fe chelate* 7,2±0,03 5 Succinates 4,8±0,02 8 Citrates 11,8±0,06 N amide 22,0±0,09 6 Malates 4,8±0,02 9 Oxalates 0,6±0,01 Density is 1,25 – 1,26 at + 20 С, g/ml Hydrogen index of рН is 5,9 ± 1,1 *- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids 1 2 3

Recommendations for application Rate of fertilizing, l/ha per 100-300 l of spray solution

Crop

Phase of fertilizing

Winter wheat

Tillering

Corn

3 – 5 leaves or 8 – 10 leaves

Barley

End of tillering – end of booting

Potato

Increase of stems

Orchard

Ovary till 1,5 сm

Grapevines

5 – 7 leaves

Onion

Leaves formation and growth

0,5 - 1

Adaptamin-molybdenum-active 18% (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing  

  

Provides quick absorption and eliminates molybdenum deficiency Does not clog nozzles of sprayer Better plant tolerance to herbicides Bigger initiation of siliques Prevention of diseases of soils with high рН

Composition Total content of bioactive molybdenum chelates is 18% (atomic molybdenum - 50 g/l) No.

Compound

Content, g/l

No. Compound

Content, g/l

No. Compound

Content, g/l

1 Mo chelate* 50,0±0,06 5 Malates 4,8±0,02 9 Asparaginates 0,5±0,02 2 N 67,0±0,09 6 Tartrates 0,6±0,01 10 Oxaloacetates 0,12±0,01 3 K2O 12,0±0,06 7 Citrates 11,8±0,06 11 Oxalosuccinates 0,11±0,01 4 Succinates 4,8±0,02 8 Oxalates 0,6±0,01 12 Density, g/ml 1,25-1,26 at + 20 Hydrogen index of рН is 5,9 ± 1,1 *- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Rate of fertilizing, l/ha per 100-300 l of spray solution

Crop

Phase of fertilizing

Rapeseed

4 – 6 leaves

0,15

Soybean

2 – 3 ternate leaves

0,15

Adaptamin-iron-active 15% (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing     

  

Provides quick absorption and eliminates iron deficiency Does not clog nozzles of sprayer Increases chlorophyll content in leaves Eliminates chlorosis of plants, accelerates photosynthesis Activates cell respiration, normalizes general metabolism Increases plant resistance to cold, shade, heat and drought Strengthens immunity and resistance to diseases Increases yield, improves its quality (was statistically verified)

Composition Total content of bioactive iron chelates is 15% (atomic iron - 40 g/l) No Compound Compound Content, g/l Content, g/l No. Compound Content, g/l . 4 Asparaginates 0,5±0,04 Fe chelate* 40,0±0,95 7 Tartrates 0,6±0,01 N amide 22,0±0,09 5 Succinates 4,8±0,02 8 Citrates 11,8±0,06 SO4 69±0,8 6 Malates 4,8±0,02 9 Oxalates 0,6±0,01 Density is 1,25 – 1,26 at + 20 С, g/ml Hydrogen index of рН is 5,9 ± 1,1 *- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids No. 1 2 3

Recommendations for application Crop

Treatment

Prophylaxis

Fruit trees Berry crops, grapevines Vegetables, decorative and field crops

Phase of fertilizing

Dilution

2 times per season: leaves unfolding; after 14-20 days

1:100

Rate of fertilizing for spray solution 10-20 l per tree

1:150

1-2 l per bush

1:200

400 l/ha

2 times per season: in phase of 3-4 leaves; before flowering

4 times per season: after appearance of first leaves and later with intervals of 2Plants with iron3 weeks deficient chlorosis

10-20 l per tree 1:100

1-2 l per bush 400 l/ha

Method of application Foliar dressing (spraying) is made on vegetative plant together with nitrogen-potash fertilizers and protectants after compatibility test. Any standard equipment can be used for spraying. Spray solution shall be prepared before its application and diluted 1:100 – 1:200 till 0.5-1% concentration. Optimum temperature of spray solution is +15-20°С at air temperature of +10-25°С and average daily temperature of min. +5°С. Dressing shall be made 2-4 times with interval of 2-4 weeks early in the morning or in the evening avoiding bright sunlight, rain and strong wind. During 1:100 dilution pH shall be 5,5 – 6,0. In case of severe chlorosis to pour under the root or in holes with depth of 20-25 cm near the plants.

Adaptamin-grapevines-super elite (foliar dressing) Chelated microfertilizer with complex of bio-stimulators

It is recommended for foliar dressing    

Stimulation of plant growth and development Increase of plant resistance to cold, shade, heat and drought Increase of sugar content till 1.5 % Increase of grapevines yield

Composition No.

Compound

Content, g/l

No Compound

Content, g/l

No. Compound

Content, g/l

1 2 3

Mg chelate* Fe chelate* Mn chelate*

9,6±0,06 14,4±0,03 4,8±0,02

8 9 10

Mo chelate* N amide K2O

0,15±0,005 67,2±0,09 12,0±0,06

15 16 17

11,8±0,06 0,6±0,01 0,5±0,02

Zn chelate*

8,4±0,03

SO4

26,4±0,08

12 13 14

Succinates 4,8±0,02 Malates 4,8±0,02 Tartrates 0,6±0,01 Hydrogen index of рН is 5,9±1,1

5 Cu chelate* 4,8±0,01 6 Co chelate* 0,05±0,005 7 B compl 6,0±0,05 Density is 1,25 – 1,26 at + 20 С, g/ml

Citrates Oxalates Asparaginates Adjuvant (surface18 active agent) 19 Transfactor «TFV» 20 Growth factor «НV» 21 Oxaloacetates 22 Oxalosuccinates

0,16±0,005 0,18±0,04 0,6±0,08 0,12±0,01 0,11±0,01

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

Recommendations for application Crop

Phase of fertilizing

Grapevines

5 -7 leaves

Rate of fertilizing, l/ha per 100-300 l of spray solution 1

APPLICATION DATA SHEET FOR CONCENTRATED CHELATED MICROFERTILIZER WITH COMPLEX OF BIO-STIMULATORS

ADAPTAMIN ТU U 20.1-37999502-001:2012 State Registration No. А04243 DESCRIPTION Product is a high-efficiency growth regulator of plant on the basis of water-soluble complex of chelated microelements - Fe, Mn, Zn, Cu, Co, В, Мо, (Mg, Са, S) with addition of organic energy acids (succinic, malic, tartaric, oxalic and citric acids) and their biologically active derivatives (succinates, malates, tartrates, oxalates and citrates). Microfertilizer contains surface-active adjuvant, which increases in 10-15 times penetration of nutrient chemicals through epidermis and cuticular layer of plants. Composition for pre-seeding treatment of seeds is strengthened by heteroauxin (potassium salt of β-indoleacetric and βindolebutyric acids). BIOLOGICAL EFFECT Derivatives of natural polycarboxylic acids (which belong to product composition) participate in crucial oxidation and energy cycles of substance transformation in organism (Krebs, Roberts, Barro and gluconeogenesis), act as tissue antihypoxants and activators of energy processes, ensure accumulation of ATP (adenosine triphosphate) in cells, in many times increase plant vitality and resistance to unfavorable environmental factors. Microelements participate in construction of various enzymes, proteins, nucleic and fatty acids, vitamins, chlorophyll, chloroplast, chromoplast and anthocyans. They regulate inspiration, photosynthesis, carbohydrate, phosphoric and salt-water metabolism, concentration of growth substances (auxins), stimulate pollination and fertilization, control cell division, general linear growth and development of tissues, participate in energy transfer, strengthen cell walls, increase turgor and density of protoplasm. EFFECT ADAPTAMIN has a complex combined effect on plants: - Increases germinating ability and sprouting energy of seeds - Strengthens root formation - Increases content of chlorophyll, accelerates photosynthesis, eliminates plant chlorosis - Increases resistance to cold, heat and drought - Strengthens immunity and resistance to diseases - Has fungicidal, antibacterial and antiviral action - Increases content of vitamins and sugars in fruits - Accelerates intracellular transformation of nitrates into digestible amine components and amino acids - Improves qualitative characteristics of cereals, their class, promotes generation of protein and gluten - Increases content of oils in oil crops - Increases productivity of soil nitrobacteria and fixation of atmospheric nitrogen - Increases digestion of macrofertilizers by plants - Increases number of fertile tillers from bush - Promotes strengthening of flowering and acceleration of plant maturing

- Increases resistance to lodging - Increases number of seeds in ears, cobs and pods - Increases crop yield (was statistically verified) COMPOSITION ADAPTAMIN is adopted to main agricultural crops and produced in the form of specific water-soluble concentrates.

Compound*

Content

Compound*

Content

Mass content of Fe chelate %

0,27-1,52

Mass content of К2О, %

0,5-3,5

Mass content of Fe chelate, g/l

3,2-18,2

Mass content of К2О, g/l

6,5-28,9

Mass content of Mn chelate, % Mass content of Mn chelate, g/l Mass content of Zn chelate, % Mass content of Zn chelate, g/l Mass content of Cu chelate, % Mass content of Cu chelate, g/l Mass content of Co chelate, % Mass content of Co, chelate g/l Mass content of B compl, % Mass content of B compl, g/l Mass content of Mo chelate, % Mass content of Mo chelate, g/l Mass content of Mg chelate, % Mass content of Mg chelate, g/l Mass content of Са chelate, % Mass content of Са chelate, g/l Mass content of S, % Mass content of S, g/l Density at 200С, g/ml

0,25-1,35 3,1-15,8 0,17-0,73 2,0-8,45 0,05-1,2 0,6-12,6 0,004-0,05 0,05-0,65 0,2-0,9 2,2-1,0 0,01-0,07 0,1-0,8 0,8-0,9 9,6-10,2 0-1,1 0-13 2,3-3,7 25,3-48,0 1,1-1,3

Mass content of N (amide), % Mass content of N (amide), g/l Succinates, % Succinates, g/l Malates, % Malates, g/l Citrates, % Citrates, g/l Tartrates, % Tartrates, g/l Asparaginates, % Asparaginates, g/l

1,2-6,0 13,2-67,5 0,05-0,50 0,55-5,85 0,05-0,50 0,55-5,85 1,1-1,4 12,1-15,6 0,02 0,25 0,02 0,25

Oxalates, % Oxalates, g/l β-indoleacetric acid, % β-indoleacetric acid, g/l β-indolebutyric acid, % indolebutyric acid, g/l Hydrogen index рН

0,02 0,25 0-0,005 0-0,06 0-0,002 0-0,03 5,9±1,1

*- succinic, malic, asparlic, citric, oxalic, tartaric, racemic, oxalosuccinic, oxaloacetic, ethylene diamine disuccinic, ethylene diamine tetraacetic and hydroxyethylidenediphosphoric acids

METHODS OF APPLICATION The most efficient potential of ADAPTAMIN can be shown during preseeding treatment of seeds with further foliar dressing. Pre-seeding treatment of seeds shall be done (with possible use of protectants) by agricultural units of Mobitox, PSSh-5, KPS-10 or PS-10 types at the rate of 1-3 l. of ADAPTAMIN microfertilizer per 10 l of spray solution per ton of seeds. Compatibility test shall be done before application of protectant. Mixture of solutions shall not leave sediment, turbidity is possible. Protectant consumption shall be decreased on 1020% from its rate due to fungicidal activity of ADAPTAMIN. Consumption rate: 1 – 3 l per 1 ton of seeds Foliar dressing (spraying) is made on vegetative plant together with protectants after compatibility test. ADAPTAMIN removes stress caused by application of agricultural chemicals, it is well-combined with urea solution and majority of herbicides, insecticides and fungicides. Any standard equipment can be used for spraying. Spray solution shall be prepared before its application by pouring 20 l of ADAPTAMIN to 2000 l of water for 20 ha of crops (1 l/ha), i.e. microfertilizer shall be diluted 1:100 till 1% concentration. Optimum temperature of spray solution is +1520°С at air temperature of +10-25°С and average daily temperature of min. +5°С. Dressing shall be made according to development phases early in the morning or in the evening avoiding bright sunlight, rain and strong wind. During 1:100 dilution pH shall be 5,5 – 6,0

Consumption rate: 20 l of product per 20 ha WARNING! ADAPTAMIN with soluble salts of orthophosphoric acid causes generation of sediment. ADAPTAMIN is a highly efficient product. Overdose is not accepted. SAFETY PRECAUTIONS In accordance with conclusions of Health Inspection Services of Ministry of Health of Ukraine No.05.03.02-07/65514, No.05.03.02-07/124002, No.05.03.02-05/129463 this product is non-toxic, environmentally friendly, odourless, allergen-free, belongs to IV class of low-hazardous substances. To adhere to normal safety precautions. In case of contact with skin or with eyes to rinse with water. STORAGE. To store in closed containers at 0°С +30°С, to avoid from direct sunlight. Shelf life is 2 years. MANUFACTURER “Interregional Research and Production Agricultural Union “NANOMIX”, Ltd military town No. 122 and No.123, Nebozhenko village, Kharkov district, Kharkov region, Ukraine. Telephones: +38 057 727 38 46, +38 067 579 40 17 e-mail: a@adaptamin.com, web: www.adaptamin.com