DE19940693A1 - Promoting plant growth by wetting agent treatment to stimulate soil microflora growth, including additional treatment with silicon compound to improve stress resistance of the plants - Google Patents

Abstract

A method for promoting plant growth, comprising increasing the primary growth of soil microflora around the plant roots by introducing oil-in-water type wetting agents (I) and at least partially water-soluble silicon compounds (II) which are utilizable by the plants are simultaneously or subsequently introduced, is new.

Description

The technical teaching described below relates to the area of funding healthy plant growth. The teaching of the invention wants to do so in particular the natural interaction of the two factors promoting the Plant growth on the one hand and strengthening plant defense against under various damage effects such as mechanical stress, e.g. B. Hail Stress, dry stress and / or pathogen attack on roots and / or above ground Support and promote plant parts. The invention continues from Task, as recyclables or mixtures of resources to solve them Task at least largely uses natural product-based components zen, which does not place an additional burden on the work involved here lead area. This applies to the areas of soil and plants as well for the areas of humans and animals in contact with them, as well as in the In connection with agricultural processes always to be considered Groundwater problem.

The technical teaching outlined below thus fulfills one important point today current requirements for the area of agro-biological and agro-chemical processes, on the one hand an optimization of the desired economically technical Er results is possible without neglecting the aspect of economy Have to be careful. Practically all components of the invention Multi-material systems that are used can be used as natural product-based chemi be designed. On the one hand, the source of these components is healthy Plant growth. In addition, in the sense of the invention Teaching mineral-based basic components as essential components of the The multi-component mixtures described below are used. The invent teaching according to the invention on the one hand closes natural cycles for ge  bound carbon together and uses the separated and ben Components adapted according to the invention for the plants building and maintaining healthy plant growth. On the other hand mineral-based auxiliary components of the plant or the plant root leads. It is immediately clear that this is not only additional for plant breeding ecological impacts are excluded but positive interventions are made possible light that can help to mitigate existing damage and dismantle.

The teaching of the invention builds on a number of technical developments in the An notifier who is partly the subject of corresponding publications and are partly the subject of older patent applications. The following will these basics will still be referred to in detail. But first applies to the teaching of the invention.

Subject of the invention

The invention relates to a method for increasing plant wax through primary growth promotion of the soil microorganism flora at least in the area of the plant root. This is achieved by watery entry Preparations containing (a) ecologically compatible wetting agents of the O / W type. The The method according to the invention is characterized in that for verbs improvement of plant strengthening against damage such as mechanical bean stress, dry stress and / or pathogen infestation at the same time and / or delayed water-soluble and / or largely water-insoluble, but plant ver available compounds of silicon in the ground - in the following also as Substrate designated - be entered.

These measures are preferably associated with simultaneous and / or time delay set entry of (b) lipophilic saturated and / or olefinically unsaturated Koh Hydrogen residuals with fat structure and both aerobic and ana erobable organic compounds as additional carbon suppliers for the growth of the microorganism flora and / or (c) at least partially lipo compounds of P and / or N and, if desired, phile residues additional macro and / or micronutrients for healthy plant growth.  

Details of the teaching according to the invention

For a better understanding of the teaching according to the invention is described below first a brief summary of essential elements of the relevant Printed state of the art as well as on the subject of previously mentioned earlier registrations of the applicant on the work concerned here area received.

DE 44 37 313 describes the use of selected phosphorus and stick Components containing substances from the class of phospholipids for improvement growth of plants. By adding these phospholipids to the substrate, on which the plants grow or are supposed to grow, the growth can improve these plants. It is assumed that this growth increase with stimulation of the microorganisms living in the substrate. The main phospholipids are lecithin, lecithin hydrolyzates and che mixed modified lecithins.

The subject of German patent application DE 191 01 127 is a low-foam Grid help in the form of a highly concentrated, yet flow and pourable aqueous concentrate based on surfactants to intensify penetration gens and spreading of water in the area of plant roots in their Irrigation containing Al as an ecologically compatible surfactant component kyl (poly) glycoside compounds of the O / W type - hereinafter also called "APG- Compounds "denotes -, olefinically unsaturated alcohols as foam inhibitors se / defoamers and lower water-soluble alcohols as viscosity regulators.

The technical teaching of the earlier application DE 197 48 884 for promoting and maintaining plant growth by controlling the natural growth processes in the substrate is based on the concept of primarily promoting, controlling and ensuring the growth of microorganisms in the soil by introducing a multicomponent mixture described below. The disclosure of this earlier application is hereby also made the subject of the disclosure of the present invention. The primary promotion of microorganism growth is to be ensured in particular in the rhizosphere area and thus in the area of the substrate permeated by the plants, which is crucial for plant growth. The teaching of this earlier application is guided by two overarching concepts: Together with carriers containing phosphorus (P) and nitrogen (N) and, if desired, further plant macro- and / or micronutrients, selected compounds containing hydrocarbon residues are now to be used as additional C suppliers for the growth of the microorganism flora in the soil. At the same time, the preparation of these growth aids and their application form should enable their optimized spreading in the root area, including the entry into the rhizosphere area of the substrate. The teaching of this earlier application is characterized by the entry of aqueous preparations containing

• - ecologically compatible wetting agents of the O / W type together with
• - Lipophilic saturated and / or olefinically unsaturated hydrocarbon residues with fat structure and both aerobic and anaerobic degradation organic compounds as additional C suppliers for the Growth of microorganism flora,

combined with simultaneous and / or time-delayed entry of

• - At least partially lipophilic residues and preferably oil soluble compounds of P and / or N and, if desired, more Macro and / or micronutrients for plant growth containing Carriers.

Albeit through such a strengthening of the healthy natural microorganism menflora of the soil and, in particular, corresponding bacterial strains in towards the rhizosphere area of the growing plant on healthy plant growth can be achieved, so the teaching of present invention just here again a substantial Er extension of the technical possibilities: The stimulated microor The plant prefers ganisms to increased nutrient supply in the soil uses. However, this can lead to an unequal - similar to an N-emphasized fertilization weight in the plant intake of additional micro and trace elements. The enormous vigor of the plant to be observed can therefore result  have that the plant tissue is nutrient-rich but poor in structural elements which the plant usually develops. This makes the plant vulnerable against mechanical stress, for example hail, against dry stress and / or pathogen infestation, e.g. B. Infestation by pathogenic fungi.

The aim of the teaching according to the invention is, in addition to the previously described, the Measures promoting plant growth, active substances / components or formu in the soil, which will substantially strengthen the soil Plant.

The teaching according to the invention is based on the knowledge that this goal is by selecting and offering a certain additional nutritional element can be solved for plant growth. This the Leh invention The determining additional nutrient element for plant growth is that Silicon. The teaching according to the invention accordingly provides at the same time and / or with a time delay for the entry of the previously defined auxiliary substances for promotion of plant growth water-soluble and / or largely water-insoluble, however, plant-available silicon compounds in the soil to wear. By taking up such a silicon offer on the plants zel will significantly improve the plant's resistance to Damage effects such as mechanical stress, dry stress and / or Pathogen infestation reached.

As is well known, silicates generally make up the majority of inorganic Soil constituents. Nevertheless, in an extensive literature on a growth and profit-promoting effects of silicon components on farmers societal cultures reported. In this context, reference is made, for example refer to the publication K. Schaller et. al. "Enrichment of silicon in the Leaves from Müller-Thurgau and Silvaner in the course of two growing seasons and depending on silicate fertilization "in Vitic. Enol. Sci. 45 (1990), pages 128 to 134 and in particular the extensive cited in this context Relevant literature, loc. cit., chapter 6, page 134. Further information from the specialist lite rature can be found, for example, in the publication Heyland et al., Farmer scientific textbook "General Crop Production", publisher E. Ulmer, Stuttgart, 7.  Edition, pages 31 to 33 and 380/384. From the extensive patent literature s named as examples DE-OS 15 42 907 and DD-PS 142 802.

The teaching according to the invention combines this general knowledge with the measures described above to promote the growth of the soil Microorganism flora, especially in the area of the plant roots and thus to se promotion of plant growth and plant health. Especially The importance of combining measures according to the teaching of DE 197 48 884 with the simultaneous and / or now provided according to the invention time-delayed addition of water-soluble and / or largely water-insoluble Chen, however plant-available compounds of silicon in the Erdbo the or in the substrate.

Regarding the nature of suitable water-soluble silicon compounds as well as least largely largely water-insoluble silicon compounds, which, however, offer the plant-available silicon to the growing plant, reference can be made to the general specialist knowledge. Here is only a rough summary:
Suitable water-soluble silicon compounds are, in particular, the alkali silicates and here in turn preferably the sodium and / or potassium silicates, which are also referred to as water glasses. Also suitable are alkali metal silicates, but also silica sols and the resulting silica gels, as are known from the relevant prior art of soil preparation for promoting plant growth. The chemical identification of water-soluble silicate compounds and in particular sodium and / or potassium water glasses can be found, for example, in the publication H. Weldes "Properties of Soluble Silicates" in INDUSTRIAL AND ENGINEERING CHEMISTRY, VOL. 61 NO. 4 April 1969, pages 29 ff, in particular Table III and IV, loc. Cit., Page 31. Detailed information on the water solubility of such sodium and / or potassium water glasses can be found in this publication in particular in the subchapter "Sodium and Potassium Silicate Solutions" loc. Cit. 35 to 38. To complete the disclosure of the invention, the factual statements in this literature are hereby expressly made the subject of the invention.

While the alkali metal silicate compounds as so-called water glasses one show high water solubility, are the silicates with polyvalent cations, esp especially alkaline earth metals such as calcium and / or magnesium, but also iron, largely insoluble in water. The specialist knowledge distinguishes between pfan zen-available and little or hardly plant-available silicates. Plants available components are, for example, alkaline earth metal compounds from Kie silica such as cottage lime but also rock flour such as alumina and potash-containing sili cat stone flours (feldspar, mica), s. for example Heyland, general Crop production, loc. Cit., Page 380.

The additional offer of silicon according to the invention for stabilization and Promotion of plant growth in the sense of the teaching of DE 197 48 884 be however, it is not limited to the silicon components mentioned above ganish origin. It is known that selected plants for enrichment of the silicon content in the aerial plant body. Examples for this are nettles and / or horsetail. The teaching according to the invention accordingly provides for, in addition to or instead of the inorganic silicon sources also corresponding plant-available silicon sources of plant origin use, in particular residues and / or extracts of the addressed NEN plant groups come into consideration and within the scope of the invention Teaching can be entered in the ground.

In a preferred embodiment of the teaching according to the invention, what Seriously soluble silicon compounds as an aqueous solution and preferably little at least partly in the ground together with the wetting agents of the O / W type registered. It is in for the entry of water-insoluble silicon compounds usually prefers to add this in very fine form to the ground. there it may further be preferred to at least partially before the Entry of the previously named components for (a) and optionally (b) and / or (c) in the ground.

In one embodiment of the teaching according to the invention, the amounts of silicon components to the substrate which are preferably to be used are essentially determined by the water solubility of the silicon component (s) present under the conditions of use. Basically, the rule applies here that water-soluble components can be used in substantially smaller amounts than the serum-insoluble silicon-based components to be applied or entered in the soil in the form of finely divided solids. The amounts to be used in each case can differ, for example, by at least 1 to 2 powers of ten. For example, the following applies:
Potassium water glass with a content of 10% by weight of silicon as an example of water-soluble silicates can be used in preferred embodiments of the soil application in amounts of about 0.1 to 5 g / m ² - or 1 to 50 kg / ha . If, on the other hand, cottage lime is added to the soil - calcium silicate with a content of approx. 44% by weight CaO - application amounts (per year) of at least 2 to 2.5 t / ha can be suitable.

To define and specify the reason to be used according to the invention Components for (a) or the optional components (b) and / or (c) apply basically the information from the older DE 197 48 884, which has already been named several times. The disclosure of this earlier patent application is hereby expressly made Subject of the disclosure of the invention made. For Completion of the factual information about those now to be used according to the invention Multi-component mixtures are summarized:

Re (a) "ecologically compatible wetting agents of the O / W type"

The wetting agents or surfactants mentioned here are classified in particular Classes of anionic surfactants and / or nonionic surfactants. An important A prerequisite is their ecological compatibility and thus in particular one sufficient biodegradability in the substrate. Biologically fast and full are continuously degradable surfactant compounds from the class of nonionic surfactants a preferred class of the auxiliary materials mentioned here.

Suitable anionic surfactants are, for example, soaps, but also biological ones degradable alkyl sulfates, especially fatty alcohol sulfates. Difficult or only incomplete continually degradable surfactants on a petrochemical basis, for example alkylbenes benzenesulfonate or alkyl ether sulfates are less suitable. Suitable representatives can NEN are the partial esters of phosphoric acid with fatty alcohols and in particular  their corresponding partial esters with straight-chain fatty alcohols, preferably naturally Chen origin and thus even carbon number. Examples are suitable here corresponding esters of short-chain fatty alcohols, such as those with 6 to 10 C atoms in the fatty alcohol molecule. But also alkyl phosphates with longer fatty alcohols Holes with, for example, 12 to 24 carbon atoms are generally suitable. Ent The same is true - albeit less preferred - for the comparable fatty alcohols holether phosphates.

According to the invention, particularly preferred biodegradable surfactants for the substance Class (a), at least for the most part, are not such connections ionic character, which continues to be preferred at least predominantly Proportion of natural substance-based origin and preferred HLB values in the loading range from 10 to 18.

According to the invention, it is particularly preferred to use as component (a) at least in part and in particular at least predominantly alkyl (oligo) glucoside compounds whose alkyl radical is derived at least predominantly from ge-chain fatty alcohols. Compounds of this type - also called APG components or compounds according to current usage - are surfactant auxiliaries for a wide range of uses. A number of factors are important for their practical use on a large industrial scale today: APG-based wetting agents can be known to be based entirely on natural substances. They are obtained as reaction products by reacting fatty alcohols with glucose, oligoglucose or - with simultaneous degradation of the chain length - with polyglycosides such as starch as reaction products of the general formula RO- (G) _x , in which R is a primary, preferably straight-chain and aliphatic hydrocarbon residue with at least 6 carbon atoms, preferably with 8 to 24 carbon atoms and in particular 8 to 18 carbon atoms, and G stands for a glycose unit with 5 or 6 carbon atoms, preferably for glucose. The degree of oligomerization x - and thus the DP value - which indicates the distribution of monoglycosides and oligoglycosides, is usually a value in the surfactant class concerned here between 1 and 10 and is, for example, in the range from about 1.2 to 5, preferably in the range from about 1, 2 to 4 and in particular in the range from 1, 2 to 2. The extensive specialist knowledge and literature for the production and creation of APG connections of the type concerned here can be referred to, see for example the publication published in book form by Hill et. al. "Alkyl Polyglycosides", VCH-Verlagsgesellschaft mbH, Weinheim, 1997.

In the preferred embodiment according to the invention, the entry is the compo elements to (a) associated with the simultaneous and / or time-shifted entry of the components for (b) and / or (c) specified below in detail.

For (b) "lipophilic hydrocarbon residues with fat structure organic Links"

An important characteristic for these additional components to (b) is the Be mood parameters that they are both aerobic as a result of natural degradation processes are also anaerobically degradable. The fiction, for organotrophic growth The essential C source are the lipophilic compounds present in this component Hydrocarbon residues with fat structure and thus the comparatively increased Concentration of the energy-supplying C-H groupings. As before out, these hydrocarbon residues can be saturated and / or saturated with fat structure also be at least partially olefinically unsaturated. Further overview the physico-chemical nature of this component, to which will be discussed in the following, can be decisive here.

Preferred components for (b) are oil-soluble, but are biologically compatible che organic compounds with fat residues of the type specified, the least Have 6 carbon atoms and in particular at least 8 carbon atoms. Here is the one set of corresponding components based on straight-chain hydrocarbon residues or KW connections preferred. Corresponding ones have particular importance Components that are at least predominantly based on natural substances.

Particularly important representatives of the class of substances to (b) mentioned here are corresponding hydrocarbon compounds which are at least partially functionalized with oxygen as a hetero atom. Typical examples of components of this type are fatty alcohols and / or fatty acids or their derivatives and / or salts. Suitable fatty alcohol or fatty acid derivatives are their esters, ethers and / or amides. Of particular importance in the context of the invention are the fatty alcohols and the esters of fatty acids with monofunctional and / or polyfunctional alcohols. The term “fatty acid esters” includes both the full esters and the partial esters when using multifunctional alcohols. Which special components are the preferred representatives in each specific individual case is determined by secondary effects and thus by the presence of any desired synergisms within the overall system. As an example, corresponding statements of DE 197 01 127 are dealt with here:
Surfactant-based aqueous preparations and in particular corresponding aqueous APG-based wetting aids are generally distinguished by the high foaming power of these non-surfactant APG-based auxiliaries. For the work area affected according to the invention, this can represent a pronounced burden. Here the additional task arises to remedy the problem by using so-called foam brakes or defoamers. Fatty alcohols, partial esters of in particular lower polyfunctional alcohols - e.g. B. glycerin and fatty acids and in particular their mixtures fulfill this task. At the same time, however, they are the C suppliers desired according to the invention for stimulating and increasing the growth of microorganisms in the soil and are therefore optimal representatives for the components of (b) in the sense of the definition according to the invention.

Mixing of aqueous APG concentrates with defoamers / foam brakes based on alcohol and / or based on partial esters of fatty acids and more Valuable alcohols, especially glycerin, cannot be used for training lead more flowable thickened gels. By adding limited amounts rer mono- and / or polyfunctional alcohols, e.g. B. by adding limited menus of ethanol to the gel-like thickened concentrate of valuable substances, then it becomes all However, fluidity and pourability are also possible in the area of room temperature ensure again.

The value to be used as a mixing component (b) in a specific individual case Substances or mixtures of materials are thus in preferred embodiments not just by considering how to optimize this component as coal fabric supplier intended for microorganism growth. Can make a difference Secondary effects such as low foam of the aqueous multi-component mixture, Homogenization of the lipophilic components together with wetting agents from  O / W type in the aqueous phase containing multicomponent mixture and appli decorability in the sense of dilution with further water and subsequent Apply by pouring and / or spraying. The previously named DE 197 01 127 deals in particular with these aspects. For the purpose of Completion of the disclosure of the invention becomes the subject of these publications Publication hereby expressly also on the subject matter of the present invention disclosure disclosure made.

In particular for the trouble-free entry of the water-based substance mixtures into the soil substrate and the transport of the carbon suppliers to the mixture component (b) in the sense of the definition according to the invention, it can be important to select such components to (b) which have at least partially pour points less than or equal to 25 to 30 ° C and in particular equal to / less than 10 to 15 ° C. Suitable components here are, for example, olefinically unsaturated C _12-24 fatty alcohols of natural origin, in particular at least predominantly C _16/18 fatty alcohols with a high degree of olefinic double bonds and solidification areas which are less than or equal to 20 ° C., preferably less than 10 to 15 ° C. Preferred multi-component mixtures for this component (b) in the sense of the definition according to the invention are mixtures of fatty alcohols with partial esters of saturated and in particular at least partially olefinically unsaturated fatty acids with polyfunctional alcohols with 2 to 6 carbon atoms and in particular 3 to 5 carbon atoms. For example, glycerol partial esters of fatty acids of natural origin can be important mixture components for blending with corresponding fatty alcohols, whereby in one embodiment, approximately equal amounts of fatty alcohol and fatty acid partial esters, or corresponding mixtures with a multiple of the partial ester, based on the fatty alcohol, are preferred substance mixtures . Suitable mixtures of fatty alcohol to fatty acid partial glyceride are, for example, in the range from about 1: 1 to 1:10, preferably 1: 1 to 1: 5 and in particular about 1: 1 to 1: 3 parts by weight. As previously indicated, such fatty acid partial esters can also be used alone as component (s) of (b). Corresponding representatives with pour points in the aforementioned areas are preferred.

Regarding (c) "Compounds of the P and / or N and, if desired, further macro- and / or micronutrients for the Carriers containing plant growth "

In a preferred embodiment, the teaching of the invention provides for selected valuable substances or mixtures of valuable substances from the range of fertilizers which contain phosphorus and / or nitrogen to be introduced into the substrate to be treated. Components that are carriers of these two elements can be preferred representatives of this class of substances. If desired, additional macro- and / or micronutrients for plant growth-containing carriers can be used in this context - ie as a proportion of components of component (c). First of all, however, the following applies:
The entry of this valuable component (s) to (c) can take place simultaneously and in connection with the entry of the valuable materials to (b) and the ecologically compatible wetting agents used to (a). However, it is also possible to enter these valuable components into (c) with a time offset, or else a combination of such a temporally offset entry with the simultaneous input of the components with (a), (b), and (c).

In a particularly important embodiment of the invention it is provided as component (c) oil-soluble ver to use bonds of the P and / or N. Particularly preferred representatives of these Auxiliaries are therefore the printed publications cited at the beginning chung DE 44 37 313 described phospholipids and / or their derivatives as essential representatives of these components to (c). The subject of the open This DE 44 37 313 is hereby also expressly the subject made the disclosure in the context of the teaching of the invention, so that In the following, only essential aspects are particularly important to be issued. Already in this document it is pointed out that the Effect of the added phospholipids on the microbial soil flora among others rem expresses that organic compounds and plants present in the soil Zen residues are broken down more quickly, causing an increase in soil bacteria rien is coming. In the sense of the teaching according to the invention are now carbon depth For microorganism growth, lipophilic and flowable components to (c) provided. Lipophilic moieties  of the components acc. (c) associate with the lipophilic residues from Koh Hydrogen type from the C suppliers to (c) in the sense of the invention Teaching. Mobilization and strengthening take place in an unpredictable way precisely the microorganism strains of the multifaceted Po living in the soil populations instead, which - in exchange with the plant root - for sustainable strength kung and increase plant growth. It makes sense that here due to the acceleration of growth at least in its initial phases depending on the organic compounds present in the soil, such as plant or root remnants and the like acts. Nevertheless, in the further course also here the composting process (mineralization) taking place in the soil accelerates and dead plant material faster the biological cycle reintroduced. Plant nutrients laid down in the substrate are planted again available. The ventilation of the floor or the substrate on which the Plant growth is improved, the water balance is more even shapes.

Preferred components for class of valuable substance (c) are esters of phosphoric acid 1- and / or polyhydric alcohols, the lipophilic residues in their molecular structure exhibit. Corresponding branches are particularly considered ester of phosphoric acid, which is then usually in the form of its (partial) salts Come into play.

Suitable phosphoric acid esters in this sense are accordingly partial esters of fatty alcohols, which enter the required lipophilic fraction into the phosphoric acid ester molecule via the hydrocarbon residue of the fatty alcohol. Partial esters of phosphoric acid with ge-chain fatty alcohols, which have preferably been prepared at least to a substantial extent using C _6-10 fatty alcohols and / or their lower ethoxyates, can be particularly suitable here. In principle, however, the phosphoric acid esters of higher fatty alcohols with, for example, 12 to 24 carbon atoms are also suitable, with particular importance being attached to olefinically unsaturated fatty alcohol residues.

Particularly preferred phosphoric acid esters for subclass of value (c) are all However, phospholipids and phospholipid derivatives. As is well known, this is the case  to amphiphilic substances derived from plant or animal cells become. Preferred phospholipids in the sense of the teaching according to the invention are corresponding compounds of plant origin or derived therefrom Phospholipid derivatives. A particularly preferred representative of this class of substances for (c) are the glycerophospholipids, which are commonly referred to as lecithin the. The sphingophospholipids are less preferred. Known and applicable Substances here are the diacylphospholipids, phosphatidylcholines, phosphatidy ethanolamines, phosphatidylinositols, phosphatidylserines, phosphatidylglycerols, Phosphatidylglycerol phosphates, diphosphatidylglycerol, N-acyl phosphate idylethanolamine and phosphatidic acid. The monoacylphospholipi are preferred de, lysophosphatidylcholines, lysophosphatidylethanolamines, lysophosphatidyl inositols, lysophosphatidylserines, lysophosphatidylglycerols, lysophosphatidyl glycerophosphate, lysodiphosphatidylglyerine, lyso-n-acylphosphatidyl ethanolamine and lysophosphatidic acid. Technically accessible and in large Amounts available are the Phosphatidylglyceride, which are available as plant or animal Lecithins and Zephalins are commercially available. These preparations are for example Wisely obtained from oils such as corn oil or cottonseed oil or soybean oil. Erfin Components according to the invention for subclass (c) can be enzymatic hydrolyzed glycerophospholipids (enzymatically hydrolyzed lecithin) that due to the elimination of a fatty acid ester a more hydrophilic character exhibit. The only exceptions are products that are zymatic hydrolysis have lost their phosphoric acid residue.

Preferred components for (c) are lecithin, lecithin hydrolyzates and / or che mixed modified lecithins. These compounds can also be mixed with other N-containing components are used, in particular here Urea and / or urea derivatives can be preferred. More examples of such additional components are amino alcohols such as ethanolamine and related Links.

In a preferred embodiment, the teaching of the invention provides one Quantity adjustment of the component (s) to (b) to that by the mixture com component for (c) entered amounts of P and possibly further macro and / or micronutrients. The carbon for microorganism growth supplying source to (b) is used in such minimum quantities that - related  on the phosphorus P entered via the mixture component (c) - the Ge weight ratio of C: P at least in the range of about 5 to 10: 1 and preferred example is at least about 20 to 25: 1. Depending on the nature of the floor and there in particular depending on the type and amount of the orga present in the floor area However, nichally bound carbon can be preferred be in which much higher C: P ratios are ensured. So lie important lower limit values here at 40: 1 and preferably in the range of a little at least 50: 1. A much larger surplus from the C supplier is in the Usually still possible, so that here C: P weight ratios of about 100: 1 to to 500: 1 or even more in the context of the teaching according to the invention gen. By optimized spreading this to the microorganism growth well accessible C suppliers in the ground and through its transport to the Be The stimulus and support of the organotro becomes rich in the rhizosphere phen microorganism growth in the sense of the tasks according to the invention position realized.

In a preferred embodiment for the material mixtures from the compo nenten (a) and the preferred components used to (b) and / or (c) Quantity adjustments of the components entered in the substrate are made Mixtures adjusted so that weight ratios of P: N: C in the range of at least about 1:10:10 to 1:10:100 are set.

The materials of value (b) used according to the invention, with their lipophilic residues of fat character and aerobic as well as anaerobic degradability, are completely degradable to CO ₂ , H ₂ O and biomass. As a result, it is ensured that no inert or ecotoxicologically harmful degradation products accumulate in the soil when they are used. The components containing lipophilic residues to (b) migrate only slowly in the soil, they tend to accumulate on lipophilic or oleophilic surfaces and thus in particular on root surfaces. They are practically not washed out into the groundwater and are not toxic, so that their use is also safe for this reason.

The surfactants to be (a) from the class of APG compounds of the O / W type usually in amounts of about 5 to 45% by weight, preferably in the range of about 10 to 40 wt .-% - again based on the water-free mixture of resources  - used. With the preferred use of the hydrocarbon fabric residues with fat structure and both aerobic and anaerobic Buildable organic compounds to (b) usually apply to a range up to about 40% by weight, preferably the range in amounts of 1 to 30% by weight. Also the components used for (c) - d. H. the at least partially lipophilic residues containing compounds of P and / or N - can in the multi-substance mixture make up 40% by weight and preferably 3 to 30% by weight. All named here Numerical ranges refer to the mixing ratios in the anhydrous Recycle mixture.

In another embodiment, the teaching according to the invention provides that before defined multi-component mixtures according to the invention at the same time and / or time-shifted together with other, in particular synthetic plants to use protective agents. Consider here z. B. a station wagon nation with appropriate nematicides, herbicides, fungicides and the like. In this context, an essential element of the teaching according to the invention is but can be seen in the following preferred additional teaching: At the Mixing of the material mixtures according to the invention with conventional plants Protective agents can reduce these conventional components in reduced quantities be used. In practice, application amounts of syntheti pesticide components that can only be used Make up 50% to 75% of the usual amounts used.

On an interesting additional resource component, which in this context slope can also be used, be particularly mentioned here. This is about it is valuable components with chitin and / or chitosan structure, where here both compounds with a polymer structure, but in particular corresponding ver bonds with oligomer structure come into consideration.

The use of multi-component mixtures of valuable substances, at least of predominantly organic origin, for the cultivation and care of useful and ornamental plants, while at the same time promoting both plant growth and plant health, against pathogens, in particular from the fields of fungal diseases, bacteriosis and / or viroses, with the use of such Recyclable components with chitin and / or chitosan structure and at the same time with oligomer and / or polymer structure in combination with simultaneous and / or time-delayed application of surfactant components defined according to the invention to the previously described subclass (a) and lipophilic saturated and / or olefinically unsaturated hydrocarbon residues with a fat structure having and thereby aerobic as well as anaerobically degradable organic compounds within the meaning of the definition given above for components according to (b) is the subject of the earlier application according to DE 198 49 253 (H 3695) of the applicant. The disclosure of this older application is hereby expressly made the subject of the disclosure of the further embodiment of the technical teaching according to the invention discussed here. In particular, reference is made to the detailed information in this earlier application relating to the written prior art for the use of chitin / chitosan-based derivatives in the field of crop protection. Here is just a brief summary:
From the relevant state of the art in print it is known that the use of chitin and chitin-based derivatives - here in particular Chi tosanen - can achieve substantial improvements in the agricultural sector, which on the one hand are characterized by increased plant health, but in particular also by an increase in crop yield . From the extensive literature, reference is made, for example, to the publication Zbigniew S. Karnicki et al., "CHITIN WORLD", Wirtschaftsverlag NW, Verlag für neue Wissenschaft GmbH, D, Bremerhaven, 1994. Reference is made here, for example, to the publication Henryk Pospieszny et al . "NEW APPLICATIONS OF CHITOSAN IN AGRICULTU RE" loc. Cit., Pages 246 to 254 and the literature cited therein. Reference is also made to the publication "Applications of Chitin and Chitosan", MFA Goosen ed., Technomic Publishing Company Inc. Lancaster, USA, Chapter 8, Donald Freepon's "Enhancing Food Production with Chitosan Seed-Coating Technology" and the other publications the same reference, Chapter 1, Q. Li et al. "Applications and Properties of Chitosan"; Chapter 2, Shigehiro Hirano "Applications of Chitin and Chitosan in the Ecological and Environmental Fields" and Chapter 11, Henryk Struszczyk et al. "New Applications of Chitin and Its De rivatives in Plant Protection". Finally, please refer to the publication in Academic Press. Inc. 1984, pages 291 ff., Lee A. Hadwiger et al. "CHITOSAN, A NATURAL REGULATOR IN PLANT-FUNGAL PATHOGEN INTERACTIONS, IN CREASES CROP YIELDS", as well as on the printed publication in "Biotechnology Annual Review Volume 2", Elsevier Science BV 1996, "Chitin biotechnology applications", author SHIGEHIRO HIRANO aaO pages 237 to 258.

The literature cited here shows that the natural product-bound chitin or from it derived derivatives and in particular the won by deacetylation called chitosan, both in oligomer and polymer form activity in the process of growing plants in the sense of pronounced activity against Pathogens, especially from the areas of fungal diseases, the bacterio sen and / or viroses.

Are chitins and / or in particular chitosans in a mixture with and / or used in addition to the components defined according to the invention, then com Men here amounts of at least 0.05 wt .-% and in particular amounts of at least 0.1 to 1 wt .-% - each based on the anhydrous multi-compo mixture of elements - for use. It is crucial that such a small amount Amounts of the chitin or chitosan-based components the process of Can substantially influence life processes in the soil and in the plant, in particular the growth of healthy microorganism flora and thus promoted plant growth and suppressed pest growth becomes.

In a further embodiment of the teaching according to the invention, the previously described multi-component mixtures additional auxiliaries from the field be added to the plant strengthening. A characteristic example is here the use of environmentally friendly antioxidants, especially from the Areas of tocopherols and / or ascorbic acid or their derivatives sen. For example, from the relevant state of the art in print se referred to DE 44 37 945 A1, which contains plant strengthening agents Vitamin E, surface-active agents and possibly other formulation aids substances in a carrier suitable for application to plants based on an ins special aqueous solvent system are described. In addition, you can non-phytotoxic antioxidants are used, especially in this case special vitamin C and / or carotenoids are described. According to the invention formed aqueous-based emulsions of the main components described above  In the sense of the teaching of the invention, we can additionally also in this sense be designed reinforced.  

Examples Floor application potassium water glass

In plants, stress leads to the deflection of physiological processes. The reject Disorders of normal metabolic events occur even before they are affected fene plant shows obvious symptoms of damage (e.g. wilting, necrosis, Chloroses). Any stress that directly or indirectly affects Photosyn's processes intervenes, changes the chlorophyll fluorescence emission yourself. The effects of various stressors have been proven in numerous studies be documented on plants using fluorescence measurements. To factors such as cold, heat, ozone, lack of water, sulfur dioxide, Herbicides, surfactants (as examples of ablotic stress) or phytopathogenic fungi (as an example of biotic stress).

Measures that reduce stress or increase Wi the resistance of the plants to ablotic or biotic factors therefore comes in the applied and especially in the Ecologically oriented crop protection research is becoming increasingly important.

method

10-day-old bean seedlings (Phaseolus vulgaris) were also grown in cultivation pots Field earth-sand mixture isolated and with surfactant potassium water glass solution watered as a plant-strengthening component.

The following quantities of potassium water glass (in brackets: pure substance silicon) were used:

0.2 g / m ² (0.02 g Si / m ² ) = 2 kg / ha
1.0 g / m ² (0.1 g Si / m ² ) = 10 kg / ha
5.0 g / m ² (0.5 g Si / m ² ) = 50 kg / ha

After 7 days of exposure, a primary leaf of the plant was treated with 0.3 mmol / l Paquat as an abiotic stress (= test part A) or with Botrytis cinerea (10 ⁶ spores / leaf) as a biotic stress (= test part B).

In test part A, 4, 24, 48 and 96 hours after application of the stressor Paraquat measurement of chlorophyll fluorescence. Part B was carried out  24, 48, 72 and 120 hours after application of the botrytis stressor one measurement each solution of chlorophyll fluorescence.

All measurements were carried out with a fluorescence measuring device in the absence of light Room temperature instead. The chlorophyll fluorescence was determined as in of the specialist literature, on plants darkly adapted for 30 minutes (e.g .: (1) Koch, C., G. Noga, G. Strittmatter (1994): Photosynthetic electron transport is differentially affected during early stages of cultivar / Race spe cific interactions between potato and Phytophthora infestans. Planta 193: 551-557; (2). Schmitz, M., G. Noga (1998); a-tocopherol reduced environmental stress and improved fruit quality; Acta Hort. 466: 89-94, ISHS 1998).

Results Part A: Paraquat

The intensity of the fluorescence is regarded as a measure of the resistance of the plants, ie the higher the fluorescence, the stronger / healthier the plants. The plants treated with stressor paraquat fluorescence was expected to be weaker than the plants not exposed to the stressor. The plants treated with the test substance potassium water glass showed significantly higher fluorescence than the stressed plants. Low doses of potassium water glass (0.2 and 1.0 g / m ² ) led to similarly good fluorescence values as the undressed control.

Table 1

Influence of a soil treatment with selected plant strengthening agents on the relative chlorophyll fluorescence of Phaseolus vulgaris, 7 days after treatment with the plant strengthening agent; n = 8.

The plants treated with the test substance potassium water glass showed clearly better root growth than the untreated control plants and than with the herbicide paraquat stressed plants (see Tab. 2). With increasing amount of Si higher root weights were also found.

Table 2

Influence of a soil treatment with selected plant strengthening agents on the root weight of Phaseolus vulgaris, 20 days after treatment; n = 8.

Part B: Botrytis

The intensity of the fluorescence is used as a measure of the resistance of the plant ze viewed, d. H. the higher the fluorescence, the stronger / healthier the plants ze. Plants treated with the biotic stressor Boftytis cinerea fluores were, as expected, weaker than those not exposed to the stressor Plants. Show the plants treated with the test substance potassium water glass significantly higher fluorescence than the stressed plants (Tab. 3).

Table 3

Influence of a soil treatment with selected plant strengthening agents on the relative chlorophyll fluorescence of Phaseolus vulgaris, 7 days after treatment with the plant strengthening agent; n = 8

Claims (16)

1. A process for increasing plant growth by primary growth promotion of the soil microorganism flora at least in the area of the plant root by means of aqueous preparations containing

• a) ecologically compatible wetting agents of the O / W type

characterized in that to improve the plant strengthening ge gene damage effects such as mechanical stress, dry stress and / or pathogen infestation simultaneously and / or staggered water-soluble and / or largely water-insoluble, but plant-available compounds of silicon are introduced into the soil. 2. The method according to claim 1, characterized in that simultaneously and / or staggered

• a) lipophilic saturated and / or olefinically unsaturated carbons hydrogen residues with fat structure and both aerobic and anaerobically degradable organic compounds as additional carbon suppliers for the growth of the microorganism flora

and or

• a) at least partially lipophilic residues of compounds of P and / or N and, if desired, further macro- and / or micronutrients for healthy plant growth

be entered. 3. Process according to claims 1 and 2, characterized in that as what serially soluble silicon compounds alkali silicates, especially sodium and / or potassium water glasses, alkali metasilicates and / or silica so le / gels are introduced while as a water-insoluble silicon compound appropriate rock powder such as alumina, potash-containing silicate stone powder and / or alkaline earth metal compounds of silica such as Lime is used, but also residues and / or Ex occurs from plants with enriched silicon content - e.g. B. of nettles and / or horsetail - can be entered in the ground. 4. The method according to claims 1 to 3, characterized in that water soluble silicon compounds as an aqueous solution and preferably we at least partly together with the wetting agents of the O / W type in the Soil are entered while it is for the entry of water insoluble Chen silicon compounds may be preferred, these in finely divided form add to the soil before adding the components to (a), (b) and if necessary (c) are entered in the ground. 5. The method according to claims 1 to 4, characterized in that the Use of water-insoluble silicon components as a finely divided solid fabrics are incorporated into the upper layers of the soil. 6. The method according to claims 1 to 5, characterized in that the entry of water-soluble compounds of silicon, for. B. Wasserglä sern, as a silicon source this in amounts of 0.2 to 10 g / m ² , preferably in amounts of 1 to 5 g / m ² , based on water glass as a solid substance on or in the soil. 7. Process according to claims 1 to 6, that largely water-insoluble compounds of silicon such as cottage lime are applied in amounts of at least 200 to 250 g / m ² and year. 8. The method according to claims 1 to 7, characterized in that as a com component (a) biodegradable surfactants at least predominantly nonio African character are used, which continues to prefer little  The vast majority are of natural product origin and are included more preferred HLB values in the range from 10 to 18. 9. The method according to claims 1 to 8, characterized in that as a com component (a) at least partially, preferably at least predominantly Al kyl (oligo) glucoside compounds (APG compounds) are used, the alkyl radical of which is at least predominantly straight-chain fatty alcohol len derives. 10. The method according to claims 1 to 9, characterized in that APG- Compounds from glucose and especially natural product-based fatty alcohol fetch with at least 6 carbon atoms, preferably with 8 to 24 carbon atoms and DP values in the range from 1.2 to 5 can be used. 11. The method according to claims 1 to 10, characterized in that as we compounds of the compo having at least a proportion of lipophilic residues nente (c) Oil-soluble compounds of P and / or N are used. 12. The method according to claims 1 to 11, characterized in that as Component (c) lecithin, lecithin hydrolyzates and / or chemically modified graced lecithins - preferably mixed with other N-containing macros nutrients - are used, in particular urea and / or Urea derivatives can be used as further N-containing components can. 13. The method according to claims 1 to 12, characterized in that Kompo nenten to (b) are used, at least partially with oxygen are functionalized as a heteroatom, the use of fatty alcohols and / or fatty acids or their derivatives, such as corresponding esters or Partial esters, ethers and / or amides is preferred. 14. The method according to claims 1 to 13, characterized in that the Components of (b) are at least predominantly based on natural substances.   15. The method according to claims 1 to 14, characterized in that the Components of (b) at least partially pour points equal to / less than 25 up to 30 ° C and in particular equal to / less than 10 to 15 ° C. 16. The method according to claims 1 to 15, characterized in that as components to (b) olefinically unsaturated C _12-24 fatty alcohols of natural origin, in particular at least predominantly C _16/18 fatty alcohols with a high degree of olefinic double bonds and solidification ranges equal to / less than 20 ° C, preferably equal to / less than 10 to 15 ° C, and / or fatty acid partial esters such as glycerol monooleate can be used, mixtures of such components to (b) being preferred.