DE2051935A1 - New fertilizer pulp - Google Patents

Description

FATSJiTANWXlT!

DR. E. WIEGAND DIPL-ING. W. NIEMANN DR. M. KÖHLER DIPL-ING. C. GERNHARDT

MÖNCHEN HAMBURG TELEPHONE: 55 54 7 «8000 MÖNCHEN 15, TELEGRAMS, KARPATENT NUSSBAUMSTRASSE 10

October 22, 1970 W, 40 153/70 - Ko / S

Sumitomo Chemical Go ·, Ltd, Osaka, Japan

New fertilizer mass

Subject invention is a new fertilizer composition which or for application to the floor, "is for agriculture or taking place on the land agriculture (upland forming or _e upland farming) value, which consists of a nitrophosphate fertilizer which Mtratstickstoff in an amount of 20 to 80 percent "- $, based on the total nitrogen content, and a Mtrifikationshemmstoff includes" When such Mtrifikationshemmstoff can all Mtrifikationshemmstoffe be used "the Mtrifikationshemmstoff becomes the Mtrophosphatdünge- * medium in an amount of 1 to 20 wt _e ~ $, based on the Total nitrogen content in fertilizer, added,

The invention is concerned with increasing the fertilizing effect of a nitrophosphate fertilizer, in particular with an effective fertilizer mass that is valuable for application on the land or for agriculture in the countryside is derived from a mtrophosphate fertilizer with a Nitrate nitrogen content of 20 to 30% by weight, based on insists on total nitrogen, and a mtrification inhibitor.

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ORIGINAL INSPECTED

Nitrification inhibitors have been used to prevent denitrification and to increase the effectiveness of a fertilizer Developed for rice field crops. Nitrate nitrogen is not very effective under hydroponic conditions, so that it is hardly used for rice field crops. For the above reasons, there is no need for a nitrification inhibitor is added to a nitrophosphate fertilizer which has nitrate nitrogen. It exists also no reason to add a nitrification inhibitor to a nitrophosphate fertilizer, which itself contains nitrate nitrogen. For example, in References (Journal of the Science of Soil and Manure, Japan, Vol. 34, p. 313 (1963) describe that nitrate nitrogen is more effective than ammoniacal nitrogen for crops growing in the countryside, and that an optimal pH range of nitrate nitrogen uptake by the plants continues under acidic soil conditions is wider than that of ammoniacal nitrogen uptake. The aquatic cultures of some green crops have been shown to be more ammoniacal Nitrogen is always necessary in addition to nitrate nitrogen for maximum crop growth.

For this reason, nitrophosphate fertilizers, which are both nitrate nitrogen and ammoniacal, were used Contain nitrogen, preferably used in agriculture or in land farming and the consumption of this type of fertilizer has increased rapidly every year. However, they show some drawbacks.

If a nitrophosphate fertilizer is applied to the soil on the land, the ammoniacal one becomes

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Nitrogen is oxidized to nitrate nitrogen by the action of soil bacteria, i.e. it is nitrified instead of. The nitrate nitrogen is not absorbed by the soil colloid and is easily removed from the rhizosphere leached by rain or movement with water, so that there is a decrease in the effect of the nitrogen fertilizer adjusts. Simultaneously with the nitrate leaching become cations that have been absorbed by the soil colloid, such as calcium ions, potassium ions or magnesium ions, discharged from the rhizosphere. This converts the Ca colloid, K colloid or Mg colloid into a Η colloid, so that there is a decrease in the pH of the soil. In general, a decrease in Soil pH unfavorable for crops and vegetables growing on the land. In the case of vegetable crops, the application is of the fertilizer is usually strong, but heavy fertilizer applications sometimes cause salt damage and in some cases result in a wilting of the entire life of the green plants. For these reasons it is the suppression of nitrification of a nitrophosphate fertilizer is the cheapest method of increasing the Effect and to minimize the disadvantages of a nitrophosphate fertilizer. A large number of studies have found that due to the intermingling of a Nitrification inhibitor with a nitrophosphate fertilizer, containing both ammoniacal and nitrate nitrogen achieves the above objects can be.

An object of the invention is to provide an effective fertilizer that is suitable for those farmed on the ground Agriculture is valuable.

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Another object of the invention is to provide an effective mass of fertilizer containing both kitrate nitrogen as well as ammoniacal nitrogen and a nitrification inhibitor.

Another object of the invention is a mass of fertilizer that can be used during the plant growth period of crops grown on the ground is effective. Another object of the invention is an effective one Fertilizer mass used to supply nitrate ticket material for crops or crops growing on the ground is suitable during the entire period of plant growth.

The. Invention is concerned with improving a nitrophosphate fertilizer, particularly an effective one Fertilizer mass that is to be applied to the soil or agriculture is valuable on the land, which uses a nitrophosphate as fertilizer, the nitrate nitrogen in an amount of from 20 to 80% by weight on total nitrogen, and contains a nitrification inhibitor. When a mass of fertilizer passing through Mixing a nitrification inhibitor with a nitrophosphate fertilizer, which contains both nitrate nitrogen and ammoniacal nitrogen was applied to the soil, the transfer of the ammoniacal nitrogen is suppressed in nitrate nitrogen in the soil, so that the nitrate nitrogen together with ammoniacal nitrogen in the soil during a a long period of time. Due to this fact, the supply of nitrate nitrogen is essential for the initial Plant growth is required from the nitrate nitrogen contained in the fertilizer and possible

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then it becomes the useful plant due to the conversion of part of the ammoniacal nitrogen into Nitrate nitrogen possible to absorb nitrate nitrogen to the extent that the crop requires. Farther it becomes possible that, if ammoniacal nitrogen is required by the useful plant, the remaining nitrogen ammoniacal nitrogen is absorbed by the crop or crop. As nitrogenous fertilizers, compounds containing nitrate nitrogen, such as potassium nitrate and calcium nitrate, and reduced nitrogen compounds such as ammonium sulfate, ammonium phosphate, Containing ammonium chloride, urea, and forms of urea Connections are used. In the context of the invention, a nitrophosphate fertilizer, the nitrate nitrogen in an amount of 20 to 80 wt .- ^, based on total nitrogen, contains, used. Thus, if an amount of nitrate nitrogen that is less than 20 wt .- #, based on Total nitrogen, matter, in which nitrophosphate fertilizer is contained, is the obtained fertilizer for growth of the plants growing in the country unfavorable, there if the nitrification of ammoniacal nitrogen in the fertilizer is sufficiently inhibited, the content of nitrate nitrogen is too low for absorption by the crops in the form of nitrate nitrogen. If contain an amount of nitrate nitrogen greater than 80 wt .- ^ there is no effect of adding the nitrification inhibitor expect and the addition of the nitrification inhibitor becomes irrelevant.

As nitrification inhibitors in the context of the invention the usual nitrification inhibitors are used. For example, heterocyclic compounds, such as 2-chloro-6-trichloromethylpyridine or pyridine compounds

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genes, sulfur compounds such as thiourea or dimethyldithiocarbamate compounds, aniline derivatives such as N- (2,5-dichlorophenyl) -suecinamic acid or 2,4,6-trichloroaniline, nitrogen compounds such as dicyandiamide and chlorine compounds such as pentachlorophenol can be used under these circumstances. Furthermore, 2-amino-4-chloromethylpyridine, 2-mercaptobenzothiazole, sulfathiazole, guanylthiourea, the hydrochloric acid salt of 4-amino-1,2,4-triazole and other similar compounds can also be used as customary nitrification inhibitors. The effective amount of Nitrifikationshemmstoffes is 1.0 $> to 20 wt .-%, based on the total nitrogen content in the fertilizer composition. If the amount of the nitrification inhibitor is less than 1% by weight, the effect of the nitrification inhibitor is insufficient to suppress the conversion of ammoniacal nitrogen to nitrate nitrogen and is unsuitable for practical use. If the amount of nitrification inhibitor is more than 20% by weight, the additional amount will be ineffective and damage to plant growth will occur under certain circumstances. As a result, these amounts are unfavorable.

The following examples serve to further illustrate the invention without limiting it.

example 1

An Erlenmeyer flask was charged with 50 g of Yodogawa Alluiral soil (based on air-dried soil). The following fertilizer / medium mass (nitrophosphate with a content of nitrification inhibitors) was added in an amount corresponding to 10 mg of ammoniacal nitrogen and then water in an amount equal to 60% by weight of the maximum water capacity added in order to reduce the amount of moisture

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according to the land conditions.

The soil obtained was incubated in a thermostat chamber “at 20 ^° C. for 2” to 6 weeks, and the pH, ammoniacal nitrogen content and nitrate nitrogen content of the soil were examined. The results are given in Table I.

Composition of the fertilizer mass

No. Fertilizer quality (G AT. N.N. S.P. ■ ew.-Ji) Nitrification inhibitor T.N. 10 8th 8th W.K. Compound added amount,
based on Ge
velvet nitrogen 1 18th 10 8th 8th 16 N-Serve 2.8 2
■ ζ 18th 10 8th 8th 16 Dicyandiamide 2.8 J
4th 18th 10 8th 8th 16 Zineb 2.8 5 18th 10 8th 8th 16 Thiourea 2.8 6th 18th 10 8th 8th 16 N-2,5-dichloro-2.8
phenyl succin
amic acid 7th 18th 10 8th 8th 16 also 11.1 8th 18th _ _ _ 16 0 9 _ 0

Herein means

T.N. Total nitrogen

AT. ammoniacal nitrogen

N.N. nitrate nitrogen

S.P. available phosphate

W.K. water soluble potassium

N-Serve is the technical name of 2-chloro-6-trichlor methylpyridine and

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Zineb is the technical name for zinc ethylene bisdithiocarbamate. Furthermore, Nos. 8 and 9 denote the nitro-phosphate fertilizer or no nitrogen for comparison.

after 2 weeks N.N. Tabel I. N.N. after 6 weeks N.N. Fr. PH AT. 9.90 after 4 weeks 10.07 PH AT. 10.14 5.75 9.18 9.95 PH AT. 10.53 5.85 9.06 11.46 1. 5.70 9.20 9.93 5.80 9.00 9.98 5.70 8.52 10.07 2. 5.75 9.22 10.01 5.72 8.80 11.22 5.80 9.08 12.60 3. 5.67 9.05 10.09 5.78 9.10 11.38 5.20 7.39 14.16 4th 5.67 9.12 9.90 5.55 8.21 10.31 5.05 6.28 10.50 5. 5.70 9.18 9.90 5.50 8.15 9.90 5.78 8.94 10.03 6th 5.80 9.20 10.59 5.78 9.12 14.46 5.80 9.15 17.02 7th 5.52 8.58 2.07 5.80 9.20 2.92 4.70 4.23 3.12 8th. 5.85 0.30 5.05 7.80 5.65 0 9. 5.68 0

The determination of the pH was carried out by adding 25 ml of water to 10 g of air-dried soil.

Example 2

Wagner stains with an area of 1/5000 ares were loaded with 3 kg of soil. The following fertilizer masses (nitrophosphate fertilizers with nitrification inhibitor were added in an amount corresponding to 0.5 g of nitrogen per pot. Oat seeds (E-hime barley No. 1) were then sown and then cultivated in a greenhouse. Growth rate and oat yield were determined and the values given in Table II were obtained.

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Composition of the fertilizer mass No. Fertilizer quality (wt .- ^) nitrification substance

T.N. AT. N, .N. ε WK compound added
Amount, be
pulled up
Total stick
substance (wt .- * Length of number of
Stengel's saplings 3m - May 6 9 Length of
• stem , 0 March 13 April 3 20.0 g 29.9 g 635 mg 1. 16 9 7th 14 N-Serve 3.1 23.3 ( 9, 67.7 cm , 3 Length of number of length of
Stengels saplings Stengels 20.4 29.0 615 2. 16 9 7th 14 dicyandiamide 0.5 3.1 24.0 9 _; 68.0 , 0 35.7 cm 28.0 44.0 cm 19.9 28.4 x 586 3. 16 9 7th 14 pentachlorophenol 0.5 3.1 23.3 9, 67.3 , 3 35.3 28.7 44.3 22.5 30.4 679 4th 16 9 7th 14 N-2,5-dichloro-0.5 3.1
phenylsuccin- -
amic acid 24.7 9, 67.7 , 3 35.0 22.7 43.0 19.4 27.6 542 .5. 16 9 7th 14 0 23.3 67.7 35.7 26.7 44.0 Table II April 3 34.7 22.7 44.3 No February 7th number
the lap
ling Harvest time 5.P. 30, Number of wt. Of wt. Of N uptake
Shoots of straw's ear of corn # memenge 1. 10 28, 18 2. 10 27 17, 3. 10 30, 15, 4th 10 24, 19 5. 10 , 0 15, , 0 , 0 rO , 3 , 7 , 3 , 0 , 3 , 7

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In Table II, the amount of N absorbed (mg) gives the
absorbed amount of nitrogen uptake per! pot.

Example 3

Fertilizer response trials were replicated in three

Tests carried out in which 'every surface of the test

2
field had 4 m. In these experiments the following fertilizer masses (nitrogen phosphate fertilizers with nitrification inhibitor) were used and the fertilizer effect by the yield and the amount of nitrogen uptake in the
Intended for cultivation of spinach.

The basic application was 15 kg, calculated as nitrogen, on 10 ares of the fertilizer mass and for the top application 5 kg, calculated as nitrogen, was used Fertilizer mass used. The results are given in Table III.

Composition of the fertilizer mass
No. Fertilizer grade nitrification inhibitor

T.N. AT. N.H. S.P. W.K. link admitted
Amount, related
on total stick
fabric (weight-Ji) 1. 16 9 7th 10 14th N-Serve 3.1 2. 16 9 7th 10 14th 2,4,6-trichloro
aniline 3.1 3. 16 9 7th 10 14th N-2,5-dichlorophe-
nylsuccinamide
acid 3.1 4th 16 9 7th 10 14th as well 12.5 5. 16 9 7th 10 14th - 0 6th 18th 18th 18th 0

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Nos. 5 and 6 are the search for and match No. 5 is a nitrophosphate fertilizer with no nitrification inhibitor and No. 6, a urea-containing ammonium sulfate fertilizer without nitrification inhibitor.

• Index number Table III No. yield N-intake amount (mg / 100 g kg (Ar) 138 dried product) 1. 262.5 124 46.3 2. 235.9 134 44.0 3. 254.4 137 45.8 4th 260.7 100 46.0 5. 190.0 39.0

6. 204.0 107 41.1

Example 4

Medium response tests were carried out in three replicated tests, with the area;} every test

field was 8 m. In these experiments the following masses of fertilizer were used and the fertilizer effect was determined by determining the yield of cabbage. The results are given in Table IV. In these attempts were used for the basic application 15 kg, calculated as Nitrogen, used per 100 ares of the fertilizer mass and for the top application (twice), 5 kg each was calculated used as nitrogen, on 100 ares on these fertilizer masses.

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Composition of fertilizer masses

Fertilizer grade nitrification inhibitor

TNANNNSFVK compound amount added, based on total nitrogen (wt .- ^)

1. 18 10 8th 8th 16 dicyandiamide 2 368.7 117 ,8th 2. 18 10 8th 8th 16 Zineb 2 331.9 105 ,8th 3. 18 10 8th 8th 16 N-2,5-dichloro
phenylsuccin
amic acid 2 405.5 129 ,8th 4th 18 10 8th 8th 16 N-Serve 2 378.7 120 ,8th 5. 18 10 8th 8th 16 0 315.2 100 Table IV Example 5 yield No. total weight
(kgZAr) Index number Weight of the index number
Cabbage vegetables
(kg / Ar) 1. 840.8 119 2. 762.3 108 3. 866.1 123 4th 850.0 121 5. 703.8 100

Fertilizer responses were replicated in three Tests carried out, the area of each test field being 8 m. The following fertilizers were used at spring trial (Nitrophosphate diing agent with nitrogen inhibitor) used and the fertilizer effect by the yield determined on lettuce. The results are in Table V.

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contain. These Tried were 15 leg "calculated" la nitrogen per 10 ares mn dta Düngeaitt elates s used to Griindauftragung and for Spitztntuftragung (streifach) were each 4 leg, calculated al · nitrogen per 10 ares of de "fertilizer used.

Furthermore, the Tmfloniakalische became at the same time Nitrogen content and the literate nitrogen goes into the soil and the effect of inhibiting nitrification also determined. The results of the provisions are included in Table V.

Approach of the Fertilizer Guide No. Fertilizer Ingredients

T.N. AT. H.H. S.P. w.s. link admitted
Amount, be
pulled up
Overall tick
st off (Gtw ^) 1, 16 9 7th 10 14th Dicyandiamide 0.5 3.1 2. 16 9 7th 10 14th H ^ Strve 0.5 3.1 3. 16 11 5 10 14th as well 3.1 4th 16 9 7th 10 14th H-2.5 ~ Diöhlor-
phenylsuccin 3.1 5. 16 5 11 10 14th as well 3.1 6th 16 9 7th 10 14th O 7th 18th - 18th 18th • 5 » O

In these experiments are Nos. 5 and 6 Ytrgleicheversuche and no. 5 is a Hitropfeoapbatdüngemittel without nitrification inhibitor and no. 6 X $ \ a hamstoffhaltiges Ammoniumsulfatdtingemittel without Jitriiikatlonshemmstoff.

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Table V

Total weight
(Hg / 10 Ar) Index number Weight of
received
Vegetables a
Ücä / 10 Ar) Index number 1t 651.0 110 318.3 * 116 2 » 715.5 121 339.6 123 3 * 711.1 120 335.5 122 4th 710.8 120 330.0 120 5. 700.1 118 316.3 115 6th 593.3 100 275.0 100 7 · 586.7 99 269.1 98

Results of chemical analysis of the soil after harvest

Iff · pH (H ₂ O) A.4N. (mg / 100 g soil) N.3N. (mg / 100 g soil)

1. 5.77 1.67 2.55 $ ♦ 5.85 2.38 3.31 5.95 2.60 3.03 4 · 5.93 2.52 3.23 5. 5.82 1.89 3.95 6, 5.40 0.34 1.12 5.13 0.34 1.32 Example 6

Medium response tests were carried out in three replicated tests, whereby the area of the test

field was 8.6 m. In these experiments the following fertilizers (nitrophosphate fertilizers containing IT-2,5- * dichlorophenylsuccinamic acid) were used and the fertilizer effect was determined with Chinese cabbage. The fertilizer

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■■■ ^: 'vev-

Medium response tests were carried out in the fields of the Kagawa experimental field station carried out .. For the basic application 10 kg, "calculated as nitrogen, were added to 10 ares Fertilizers were used and for the top application · (triplicate) were each 5 kg, calculated as nitrogen 10 ares used on the fertilizer. The results are shown in Table VI.

Composition of the fertilizer mass No. Fertilizer quality Nitrification inhibitor

T.N. AT. N.N. S.P. W.K. link

1. 18 10 8 8 16 N-2,5-dichlorophe-

nyisuccinamic acid

2. 18 10 8 8 16

3. 18 18 18

added amount, based on total nitrogen (wt.

1.7

0 0

In these tests No. 2 and 3 are comparative tests, where No. 2 is a nitrophosphate fertilizer without nitrification. inhibitor and No. 3 an ammonium sulfate containing urea without nitrification inhibitor.

Table VI

No. of harvested

Green plants
(Number / ar)

Total weight Ikg / Ar)

Index number

Weight of index number of vegetables harvested

283
279
283

535 512 502

359
320
312

115 103 100

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ORIGINAL INSPECTED

Example 7

Fertilizer emits elans preche try using Spinach were on the agricultural arerauobatation of the Tokushima prefecture carried out. With these attempts was a nitrophosphate fertilizer, the 0.3 wt N-2,5-dichlorophenyl succinic acid contained (1) and a Standard fertilizer (2) used. The composition of the fertilizer (1) was T.N. 15, A.N. 10, H.H. 5, S.P. 20 and W.K. 15 and that of fertilizer (2) was T.N. 15t S.P. 15 and W.K. 15th

For the basic application 15 kg, calculated as nitrogen, were used per 100 ares of the fertilizer and eur Peak application, 20 kg of urea per 10 ares were used. The results are given in Table YII.

Table VII Mr. Yield (kg / 10 ares) index number

1. 3 173 156

2. 2 031 100

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Claims (1)

Claims 1. fertilizer mass for plants growing on the ground or for agriculture taking place on the ground, "Consists of a nitrophosphate fertilizer, which contains both nitrate nitrogen and one of the ammoniacal Nitrogen sources of ammonia nitrogen, urea nitrogen, or mixtures thereof and one for suppressing the Hltrification of the ammoniacal nitrogen contains a sufficient amount of a nitrification inhibitor, with in the fertilizer contain nitrate nitrogen in an amount of 20 to 80 wt .- £, based on the total nitrogen content is. 2. Fertilizer composition according to claim 1, characterized in that the Nitrlflkationshemmstoff consists of N-2,5-dichlorophenylsuccinamic acid. 3. fertilizer composition according to claim 1, characterized in that the nitrification inhibitor consists of 2-chloro-6-trichloromethylpyridine. 4 «Fertilizer composition according to claim 1, characterized in that the filtration inhibitor consists of dicyandiamide consists. 5 «fertilizer mass according to claim 1, characterized in that the nitrification inhibitor consists of zinc-ethylene bis-dlthiocarbamate * 6. Fertilizer maeae according to claim 1, characterized in that the nitrification inhibitor consists of 2,4-, 6-trichloroaniline. 7. Fertilizer composition according to claim 1, characterized in that the nitrification inhibitor consists of pentachlorophenol. 109820/1848 θ. Fertilizer composition according to Claim 1, characterized in that the nitrification inhibitor is made from thiourea consists. 9. Dttngemittelmasse according to claims 1 to 8, characterized in that the amount of nitrification inhibitors 1.0 to 20 parts by weight, absorbed to the total nitrogen content, in the fertilizer maase is. 10.Fertilizer mass for plants growing in the countryside or for agriculture on (far-off land, consisting of a complex fertilizer »containing both nitrate and ammoniacal nitrogen and contains a nitrification inhibitor, the nitrate nitrogen in the fertilizer in an amount of from 20 to 80 wt based on total nitrogen content. 11. Fertilizer for plants growing in the country or for agriculture taking place in the country, consisting of a nitrophosphate fertilizer that contains both nitrate nitrogen and urea nitrogen and a nitrification inhibitor, with the fertilizer containing the Vitratstiokstoff in an amount of 20 to 80 Gew.-jC, based on the total ticketoff content, is included. 10982Q / 1848