NO178176B - Method of combating harmful effects on green plants due to airborne pollutants and use of dolomitic or calcitic lime hydrate in carrying out the method - Google Patents

Abstract

Process for dealing with damage caused to green plants by airborne toxic substances, and preparation designed to effect this process, particularly to neutralize the effects of pollution in the treetop region, to prevent and impede further degeneration and reverse damage to forests caused by airborne pollution.

Description

The present invention relates to a preventive, spread-preventing and curative method for combating harmful effects due to airborne harmful substances on green plants.

In particular, the invention relates to a method for combating "new forest damage" due to immission and soil conditions, also called forest death.

The invention also relates to the use of a dolomitic lime hydrate or a lime hydrate obtained from a calcitic mineral.

The possibility of application is found where, due to the various airborne or acid-soil-caused damage effects, lead to disease and eventual death for conifers and deciduous trees individually, in groups or as closed forest areas.

The preparation, in particular a preparation that exhibits lime hydrate and another deoxidation or neutralizing agent applied in a finely divided state to the leaf or needle surface, thereby neutralizes the harmful substances and protects the plant with the help of this from the outside against the effects of immission-related damage or disease by buffering damage - substance the arrester.

Due to the applied lime hydrate, the physiological condition of the entire tree and specifically that of the needle or leaf covering is also positively affected, as the lack of calcium and, to a lesser extent, magnesium ions caused by the pest attack is fulfilled, whereby a certain translocation.

Due to its plant sap revitalized with the help of calcium and magnesium ions, the tree is also able from within, i.e. systemically, to hold its own against the immission-related and also the harmful attack caused by acidic soil. Due to the newly recovered resilience, the tree can now naturally resist the various threats from insects, fungi and unfavorable climate and so on in a natural way and with good results, likewise natural growth will also reappear.

Any excess lime hydrate will, due to the influence of humidity and the usual carbon dioxide content in the air, be returned to limestone, but in this form will be somewhat less effective and, in addition to this, makes a natural, biologically valuable contribution to the forest ecosystem.

This phenomenon is not only limited to deciduous or coniferous trees, but is in principle the case for all green plants. Because the lime hydrate is completely converted into the most frequent and abundant limestone in nature, there will be no harmful side effects on the environment and there is no need to fear addictions either.

Of the prior art, particular reference should be made to the following publications: EP-A-125,370 describes a technology where the material to be spread is fed out in the form of an aerosol, that is to say in a suspended state, at the plant's growth site.

Such a method has a very short duration as even the weakest respiratory movements take the exhausted aerosol with it, that is to say that this aerosol is moved from the intended selected place to a place not known in advance.

This means that only a very small proportion of the discharged aerosol is used to treat the damaged vegetation, and this too in a completely unknown amount, as it is of course always uncertain how quickly and in which direction the aerosol will be blown away immediately after discharge respectively will be completely removed from the intended damage area that you want to treat.

EP-A 0.169.663 describes a method for applying a protective membrane permeable in one direction only of a coating material not precisely described in the claims. However, according to claim 4 in the opposition, this coating material may additionally contain, for example, calcium carbonate or calcium hydroxide.

In the description, a large number of different types of materials are indicated which can allegedly be used as coating material, thus oils, resins, terpenes, cellulose esters, rubber-like materials such as natural rubber and synthetic rubber, vinyl polymers and copolymers are mentioned, and which must be suitable for forming the according to the resistance specified, one-sided permeable membranes.

According to the resistance, these membranes must prevent the plants from absorbing gaseous or water-dissolved harmful substances.

Through this, however, the thus coated plant is also prevented from absorbing gaseous and liquid substances from the surrounding atmosphere, which are absolutely necessary for its existence, which will inevitably lead to the death of plants that are coated in this way with a one-way permeable membrane.

The beneficial effect of the present invention consists in protecting the damaged or threatened trees and forests for as long as possible against harmful substances causing "new forest damage" and thereby keeping the plant alive, until the harmful substances have been reduced to a sufficient extent that further treatment is unnecessary. Today, this condition is unlikely to be achieved within any practical period to relieve the forests if the precautions indicated according to the present invention are carried out.

The present invention aims to improve the known technique and accordingly describes a method for combating or preventing the effects of harmful substances, caused by airborne harmful substances, on green plants, and this method is characterized by one or more applications per growth cycle of dolomitic calcium hydroxide or calcium hydroxide (Ca(0H)2) as derived from calcitic rock, as a finely dispersed powder with a particle size of less than 350 microns, either in the form of dust powder or suspended or dissolved in liquid, but not as an aerosol, applied directly on the surface of the leaves or needles of the green plants in question.

The invention also relates to the use of dolomitic calcium hydroxide or calcium hydroxide as derived from calcitic rock, as finely dispersed powder, with a particle size below 350 microns and preferably less than 90 microns, or dissolved or suspended in a liquid, in applicable preparations for carrying out the method according to claim 1 for combating or preventing harmful effects on green plants, caused by airborne harmful substances.

Today's known technique is, on the one hand, using a massive distribution, usually of limestone in different degrees of fineness and grain sizes, to raise the pH value in the soil when it is acidic. However, because limestone, CaC03, is only slightly soluble, huge quantities, namely 2-5 tonnes/hectare, are consumed to raise the pH value only to a small extent, for example approx. 0.4 units. Unfortunately, this pH regulation is also only the case in the soil surface, so that the effects in the important fine root area are vanishingly small, if there is any effect at all. One must put a question mark on the success as it is a large investment with only a small beneficial effect.

In the long term, such a method poses a risk as the initial amount of lime or dolomite, with or without additives, remains on the site for many years, before it can be degraded naturally. An excess of lime of this magnitude cannot be removed either. Furthermore, it is known that such a method leads to a splitting of the humus layer and, in general, to a depletion of the soil in terms of nutrients, which in turn can provide necessary, expensive and complicated subsequent fertilization tasks. The problem is exacerbated because the development of the degree of acidity in the soil cannot be predicted for any significant future. Furthermore, it has been established that forest death also occurs in limestone areas.

It has also been established that forest death also occurs in areas with soils that naturally contain lime.

On the other hand, soil and plant surfaces are fertilized, whereby the so-called foliar fertilization is in the first place. Although the most diverse substances can be used mixed or individually, success can only be achieved when forest death is due to a lack of precisely these nutrients. However, as there is often, so to speak, supersaturation of fertilisers, the results of this method, also in combination with the one mentioned above, often remain questionable and occasionally negative. Even with irrigation, a momentary improvement in the condition of the forest can be achieved if there was previously a certain stress due to drought, but this effect is not of long duration.

Furthermore, a method is known for reducing the atmospheric acid content in order to prevent the harmful influence caused by airborne harmful substances and this method is based on a variant of a method for flue gas cleaning.

Hereby, limestone, dolomite, carbonated or doubly carbonated potassium dust is to be blown into the atmosphere from fixed blast furnaces with the intention of reducing the acid content in the total air mass over an extensive geographical area. Such a procedure must be considered unrealistic and inappropriate. Even if the responsible authorities were to approve the implementation of a procedure despite environmental and health concerns, it would not be possible to deal with the problems that come with the technical implementation, such as setting up the necessary huge number of furnaces at the emission points and the large and necessary amount of material which must be supplied.

In addition, there is the physical dependence on the instantaneous momentary and local meteorological conditions whereby, under real conditions, it does not seem possible from certain fixed emission points to be able to cover a surface area in ecologically threatened areas such as protection forests in a targeted manner.

Thermal conditions and winds would carry the active particles to uncontrollable heights over unknown distances, while on the other hand precipitation would bring these emissions to immediate deposition near the point of emission.

Furthermore, one must fear a danger to air traffic at such a quantity because abrasive dolomite or carbonate lime dust causes an abnormally high drive mechanism wear.

In connection with the above-mentioned previously proposed method, pyrotechnically obtained aerosols can also, as already suggested, be released into the atmosphere at the same time and from a desired number of different positions. If these are achieved with the help of firework bodies, environmentally questionable smoke gases and aerosols, including chlorine compounds, will be released during the burning.

Furthermore, the useful substances from these earth-fixed pyrotechnic devices must be present in a particle size of 1 pm or less because they must be able to be distributed in an appropriate manner in the intended airspace, which in turn presents a practically insoluble problem.

Furthermore, it is known that particles with a size below 2 to 3 pm are harmful to humans and animals because they penetrate into the innermost finest parts of the respiratory organs.

From this point of view, a public permit seems to be out of the question and the procedure is questionable also due to environmental protection reasons.

The beneficial effect is said to occur due to the fineness of the particles via a direct, immediate absorption of the active substance via the needles or foliage of the plants and via the forest floor. This effect is doubtful, the effect seems to be due to a reaction with an aqueous solution if at all.

The particle size of these aerosol particles means that they can float in the atmosphere for an indefinite period of time, which is why a very large amount must be used to achieve the intended effect because the resulting aerosol will be able to fog undefined areas completely uncontrollably due to local winds and thermal conditions without settle in the measuring range in the intended concentration. A further problem with the proposed method lies in the low pH value of the resulting aerosol, which likewise requires a disproportionately high material consumption.

Thus, these previously known methods, the device for carrying them out and the preparation that is intended to be used are, in principle, different from the object according to the present application. The neutralizing properties of basic substances as such and the beneficial effect of carbonate-lime in the appropriate amount as a soil additive for improving plant growth have been known for a long time, but not in the context described here.

The novelty of the present invention lies in the fact that lime in hydrate form can be brought directly into contact with the surface of the leaves and needles of the plants in question and in this way it provides the described protection against the harmful effects of airborne pollutants without thereby itself causing any phytotoxic or other damage . Until now people have been afraid of such, which is why there has also been a warning against such a procedure and why similar attempts have not yet been carried out, that is to say that it has overcome a prejudice in the professional world. The present invention thus provides a new method in which the preparation is deposited in the desired target area in a controlled and effective manner and in precise fine distribution.

The practically successfully feasible distribution method according to the invention and the determined plant tolerability as well as the appropriate effect of a preparation of pure lime hydrate which is several times more active and potently neutralizing than the ground lime or dolomite material in carbonate form usually used for fertilization, gives the essential content of the invention.

The lack of this knowledge has until now been an obstacle to a large-area-oriented treatment of the above-mentioned so-called new forest damage.

It is only via the present invention's combination of method and preparation that it is possible to dose it for the neutralization of the harmful substances and for the regeneration of the already weakened trees or plants to the amounts that are aimed at according to the invention within permissible sizes, corresponding to approx. 0.5 to 5 kmol Oitø - per hectares, depending on the degree of the present attack. This significant advance allows an economic and adapted to the conditions, effective and feasible supply in nature, whereby the fine adjustment of the quantity of the preparations to the site requirements, which can be achieved according to the method, eliminates all harmful side effects.

When it comes to the cause of the problems with new forest damage, there are various hypotheses with a view to over-fertilisation, acid soil, acid rain, sulfur dioxide, ozone and exhaust. However, it is clear that these are environmentally polluting harmful substances whereby car exhaust and ozone are currently increasingly suspected as factors. However, the actual cause of forest death has not yet been determined and requires further studies for clarification.

The premise for the present invention was that it was determined how many plant protection agents were phytotoxic when applied in the form of finely divided droplets in aerosol form under certain conditions, while the same dosage under the same conditions, but with normal droplet size, produced a beneficial effect without the plants being damaged.

This experience shows that the effect of a harmful substance in finely divided form, as is the case with exhaust gases and dust, multiplies in relation to the usual damage potential. Furthermore, it is clear that airborne harmful substances are the main cause of forest death, uptake via soil cannot produce such a rapid and accentuated reaction. The acid rain also has a subordinate importance, this for the same reason, the rain, however, further washes the harmful substances out of the air, but in great dilution so that the damage potential caused by this rain is relatively insignificant.

The problem begins when the moisture mixes with aerosol pollutants during cloud and fog formation, especially during inversions. The pollutants now have the opportunity to, floating in

hours and days, to combine with water into acids. Under the influence of solar radiation, hydrocarbons, nitrogen oxide and ozone are formed. This in and of itself is already harmful to the plants, but acts as a strong oxidizing agent

acid forming on the aerosolized water pollutant droplets which, due to their small size, offer a large surface area for reaction. Thus, for example, gaseous sulfur dioxide is converted with water into sulfuric acid which, under the influence of ozone, is converted into sulfuric acid. The same is the case with other substances, nitric acid is formed from nitrogen oxides, for example. Because it is also present in metallic dust, cations can now be formed under the influence of the resulting acids, whereby toxic metal ions are set free which can then exert a toxic effect in the plant cells.

Based on this, it can now be concluded that the new forest damage at the fog height limits and higher areas with frequent cloud formation and intensive solar radiation, as well as in areas with a large proportion of hydrocarbons and nitrogen oxides in the air, will occur to a greater extent. This also explains why the effect of these airborne harmful substances is amplified under such circumstances and furthermore one must think about how large the total surface of the leaf covering of a tree is, as a large tree is actually exposed to a drop impact X-million times as large.

The impact of the acid drops damages the protective layer of the leaf surface, whereby the leaf becomes vulnerable to fungal attacks, among other things. The slit openings lose their ability to close and the leaf is defenseless against climatic influences and loses water due to evaporation. The acids together with the toxic metal ions penetrate into the plants' metabolism whereby the plant sap is acidified and poisoned and the necessary calcium and magnesium ions are eliminated. The tree is further weakened because it tries to resist the acid attack as the tree mobilizes sugar from the starch reserves to raise the pH value of the sap.

This phenomenon makes the tree more attractive for pest attack and, in addition to this, the tree can handle such an effort for an unlimited time.

Due to the translocation of the acid, the fine roots are now also damaged, as in most cases these are not located in sufficiently basic material in the contact area, while in the same place the forest surface may appear quite normal. the negative balance becomes noticeable in the root area.

The tree thus devours poison until the calcium reserves are depleted, this is the reason why nothing happens for a long time, while diseases spread very quickly after the first symptoms.

If you now, for example, apply lime hydrate in a fine distribution and a fine grain size of less than 350 and preferably less than 90 pm as a working cloud towards the tree crown or the forest surface, the leaf surfaces will be enveloped in the same way as is the case when it comes to clouds of harmful substances. The lime hydrate forms with moisture or water a strongly alkaline solution on the leaf, this solution with the property that it can debuff or neutralize the harmful substance attacks. A reaction takes place in the aqueous solution whereby the positive, acidic cations are exchanged for the negative hydroxyl ions of the lime hydrate. Thus, phosphoric acid is neutralized to harmless calcium phosphate and water due to the lime hydrate, the same happens with nitric, hydrochloric, flux, hyposulphuric, sulfuric and metallic cationic acids.

The harmful substances can then be removed at the point of attack, which protects the tree from the outside.

Calcium ions can then be taken up via the leaf cells and built into the cell walls, which makes them stronger, a certain translocation takes place, which regulates the pH value in the plant sap upwards. Incorporation of calcium ions into the cell walls takes place within a few days, the tree thereby regains its natural resistance to be able to withstand insects, fungi and climate effects.

Because calcium ions are translocated from the root area to the leaf organs in the spring and summer and back again in the autumn, the fine root area can also be normalized again.

The amount of lime hydrate that is added depends on the vegetation density and the seriousness of the attack and can vary between 10 and 200 kg/hectare, whereby usually 50 kg/hectare should be sufficient.

Excess lime hydrate is regenerated due to moisture and carbon from the air into limestone and eventually ends up in the soil where a composting of leaf fall is promoted and the living conditions for useful bacteria and peat soil are supported and where a useful biological effect is thus exerted. A possible disturbance of the eco-system is therefore completely excluded by this method, this already - because of the very low amount that is applied.

Tests on diseased deciduous and coniferous trees as well as other green plants of all kinds, for example tomatoes, show absolutely astonishingly positive results. Already yellowed chlorosis-affected leaves and needles were strengthened within a short time and appeared again with a healthy green colour.

Treated plants can be exposed to a significantly higher influence of harmful substances without suffering damage and they remain healthy where the control plants died. The effect of a single treatment was sufficient for a total vegetation period, during which normal growth occurred, while the control plants stagnated.

It was found that by the method according to the invention and the invention's use of the described preparation, the new forest damage can be successfully treated.

Due to neutralization occurring on the leaf surface, there is a direct effect on the main point of damage, whereby a rapid, effective and targeted correction is achieved and thereby a decisive improvement in condition. A significant advantage lies in the relatively modest investment and because the method is harmless to the surrounding environment.

The intervention for healing above ground needs a disproportionately larger bid with the shortcoming being limited effect because, due to the penetration depth of the tree roots in the soil and their filtering properties, it makes it more difficult for the plant to access. Furthermore, the total leaf surface of a plant is usually significantly larger than that of the roots, which gives a better degree of effectiveness for the treatment described here. A further favorable factor lies in the fact that the effective total surface of the fine preparation is very large, so that with ideal particle size a blank value of over 10,000 cm<2>/g can be achieved.

Claims (6)

1. Procedure for combating or preventing harmful effects, caused by airborne harmful substances, on green plants, characterized by one or more applications per growth cycle of dolomitic calcium hydroxide or calcium hydroxide (Ca(0H)2) as derived from calcitic rock, as a finely dispersed powder with a particle size of less than 350 microns, either in the form of dust powder or suspended or dissolved in liquid, but not as an aerosol , applied directly to the surface of leaves or needles of the green plants in question. 2. Method according to claim 1, characterized in that the preparation is spread using airworthy installations such as airplanes, helicopters or airships, using discharge devices such as nozzles, atomizers or sprinklers in powder or dust form or in water, on the leaf or needle surfaces. 3. Method according to claim 1, characterized in that the preparation is applied to the leaf or needle surfaces by means of earth-bound devices such as nebulizers, fans, pumps or nozzles, in dry form as dust or in the form of liquid. 4. Method according to one of claims 1 to 3, characterized in that the preparation to be applied additionally contains magnesium oxide components. 5 . Method according to one of claims 1 to 4, characterized in that the preparation to be applied additionally contains at least one pesticide and/or an enrichment of plant nutrients. 6. Use of dolomitic calcium hydroxide or calcium hydroxide as derived from calcitic rock, as finely dispersed powder, with a particle size of less than 350 microns and preferably less than 90 microns, or dissolved or suspended in a liquid, in applicable preparations for carrying out the method according to claim 1 for combating or prevention of harmful effects on green plants, caused by airborne harmful substances.