JP5988931B2 - Golf course green turf fertilizer - Google Patents

Description

    The present invention relates to a golf course green turf fertilizer, and more particularly, to a golf course green turf fertilizer that promotes the division of turf grass and increases the upright stem ratio.

In order for golf course green to provide high-quality putting quality, a fine leaf texture (fine), a high upright stem ratio, and a high turf density capable of low cutting are important.
Due to the established management method, the most popular bentgrass in Japan is the pen cloth, but the pen cloth has a rough leaf texture and a low lawn density. The development of new bentgrass has been attempted to address this issue, but its diffusion and establishment has not progressed.
On the other hand, growth promoters and divide promoters are also being developed, but considering the impact on the surrounding environment of golf courses, it is not a chemical fertilizer and it is not a chemical fertilizer, but a turf grass growth promoter that does not affect the environment or livestock. There is a need for a splitting accelerator.

    Pencross is a creeping bent glass that was released in the 1950s and has been used in golf course greens in Japan for the past 50 years, and its management method has been established. Therefore, it is now the most popular creeping bent glass for golf course green in Japan.

However, the pen cloth sowed on the green grows like a leaf (fertility: creeping), and frequent brushing and birch cutting is necessary to reduce the turf. Has a disadvantage that it cannot resist the invasion of sparrows (Poaceae) due to the low turf density.
In addition, the pen cloth leaves have a rough texture and have a disadvantage that they cannot provide a sufficient putting quality (Non-patent Document 1).

    In order to solve the above problems, it is required to increase the number of turf shoots and increase the ratio of upright stems, but so far, mainly in the United States, we will develop new bentgrass with a high turf density and high upright stem ratio. However, due to the difference in climate and the difficulty of management, it has not spread and established in Japan.

    There is an example (Patent Document 1) which tried to improve the quality of turfgrass from the aspect of promoting hatching, enriching the stem, increasing the number of leaves, and improving the greenness, but together with 5-aminolevulinic acid, its derivatives or salts thereof, plant hormones Gibberellin biosynthesis inhibitor is used, which may adversely affect the natural environment.

    Several examples are known in which inosine is used to promote plant growth and turf grass division.

    For example, there is an example in which inosine is used as a plant root growth promoter (Patent Document 2), but the target plants are limited to leafy vegetables, fruit vegetables, root vegetables, flowers and fruits, and the effect thereof is to promote plant root growth. However, it does not provide an effect of promoting the division of turfgrass and gramineous plants and an improvement in the ratio of upright stems of turfgrass.

    In addition, there is an example (Patent Document 3) that promotes the division of turfgrass by using proline and inosine together, but it is a condition that proline with a purity of 90% or more is used, and proline is an amino acid that is effective for division However, inosine is supposed to assist the division effect of amino acids by promoting root growth, and does not provide the division promotion effect of inosine itself or the division promotion effect of upright stems of inosine.

    In addition, methods using chemical fertilizers and plant hormones, and methods for promoting the division and germination of turfgrass and gramineous plants using the hatching effect of plant hormone inhibitors have been attempted.

    For example, an example using a parting accelerator containing a fluorinated indolebutyric acid derivative such as 4,4,4-trifluoro-3- (indole-3-) butyric acid alkyl ester for promoting the parting of gramineous plants (Patent Document 4) However, this promoter is a chemical fertilizer and has a problem of environmental impact.

    In addition, there is an example of the effect of promoting the growth of turfgrass and the increase in the number of shoots by gibberellin or cytokinin (Patent Document 5), but gibberellin and cytokinin are plant growth hormones and may adversely affect the surrounding environment. .

    Furthermore, there is an example (Patent Document 6) in which bacterial diseases are suppressed by using a plant activator and a plant growth regulator, and the germination and growth of the plant are manipulated. Similarly, an inhibitor of plant growth hormone is used, May adversely affect the surrounding environment.

International Publication Number WO2009 / 139106 Patent No. 2927269 Patent No. 4502098 JP-A-7-267803 JP-A-7-82113 Special table 2009-524593 Published in 2002 Publisher name Soft Science company Edited by Yanagihisa "New Bent Glass", pages 9-13

    The present invention can provide a high turf density and a high upright stem ratio that can improve the leaf texture, which is necessary for the golf course green to have a high quality putting quality, and can improve the leaf texture. Considering the impact on the surrounding environment, it is an object to provide a fertilizer for improving the quality of turf grass that is not a chemical fertilizer and does not affect the environment or livestock.

    As a result of earnest research to solve the above-mentioned problems, the present inventor has not touched the above-mentioned patent documents and non-patent literatures, and differs from these literatures with inosinic acid or inosine together with nitrogen fertilizer. The present inventors completed the present invention by finding that fertilization with an acid salt promotes the division of upright stems of turfgrass and increases the ratio of upright stems and improves the turf density and leaf texture of turfgrass.

    The golf course green turf fertilizer according to claim 1 includes inosinic acid or inosinate in a nitrogen fertilizer.

    Further, the golf course green turf fertilizer according to claim 2 is the golf course green turf fertilizer according to claim 1, wherein the content of inosinic acid or inosinate is a nitrogen ratio (inosinic acid or inosinate). Derived nitrogen / total nitrogen), from 6% to 67% by weight.

    Further, the golf course green turf fertilizer according to claim 3 is the golf course green turf fertilizer according to claim 1 or 2, wherein the nitrogen fertilizer together with inosinic acid or inosinate has nitrogen derived from seafood. Contains. Further, the golf course green turf fertilizer according to claim 4 is the golf course green turf fertilizer according to claim 3, wherein the seafood is bonito.

ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to promote the division of turf grass of golf course green, and to increase an upright stem ratio.
As a result, low trimming is possible and high putting quality can be provided.
The fertilization method is, for example, spray fertilization using a sprayer, and no complicated operation is required.

In Example 1, it is the photograph after a harvest and washing | cleaning of each fertilizer application test area | region which substituted only the urea, only the self-digestion liquid, and a part of self-digestion liquid with inosinate (IMP). In Example 1, it is the photograph before a harvest of each fertilization test section of the fertilizer which replaced only urea, only the self-digestion liquid, and a part of self-digestion liquid with inosinate (IMP). In Example 1, it is the graph which compared the dry foliage weight of each fertilization test division of the fertilizer which replaced only urea, only the self-digestion liquid, and a part of self-digestion liquid with inosinate (IMP). In Example 1, it is the graph which compared the dry root weight of each fertilization test section of the fertilizer which replaced only the urea, only the self-digestion liquid, and a part of self-digestion liquid with inosinate (IMP). In Example 1, it is the graph which compared the number of stems of each fertilization test division of the fertilizer which substituted only the urea, only the self-digestion liquid, and a part of self-digestion liquid with inosinate (IMP). In Example 1, it is the graph which compared the average temperature (within a 100-leaf box), the average greenhouse temperature, and the average ground temperature during a pot test. It is the photograph in the pot cultivation 34th day of the lawn which fertilized only the autolysis liquid in Example 2, only inosinate (IMP), and the fertilizer which substituted a part of autolysis liquid with inosinate (IMP). After harvesting and washing turf on the 34th day in pot cultivation fertilized with fertilizer in which only autolysis fluid, only inosinate (IMP) and a part of autolysis fluid was replaced with inosinate (IMP) in Example 2 It is a photograph of. In Example 2, it is the graph which showed the relationship of the nitrogen composition ratio derived from inosinate (IMP) which occupies for all the nitrogen of liquid manure, dry root weight, dry foliage weight, and the number of stems in the 34th day of pot cultivation. It is the graph in which the average greenhouse temperature in a pot test in Example 2 and the average ground temperature were compared.

    The target plant of the golf course green turfgrass (quality improvement) fertilizer of the present invention is the green lawn of the golf course, and has a high effect on bent grass having a fertility, particularly a pen cloth.

The concentration of inosinic acid or inosinate is 6% to 67% by weight, preferably 20% to 52% by weight, in terms of nitrogen ratio (nitrogen derived from inosinic acid or inosinate / total nitrogen).
In the turf fertilizer of the present invention, the nitrogen source other than inosinic acid or inosinate is preferably derived from bonito.

The fertilizer is diluted with water to a concentration suitable for spraying with a sprayer, and the amount of nitrogen applied is 0.05 g-nitrogen / m ^{2 to} 2.0 g-nitrogen / m ² , preferably 0.1 g-nitrogen / m ^2. applied in ~1.0g- nitrogen / m ^2.

For the application, for example, a sprayer is used and sprayed on both the leaf surface and the soil surface, and no complicated operation is required.
Hereinafter, the present invention will be described more specifically with reference to examples.

[Example 1] Application to pen cloth in early growing season (1)

[Seeding]
Sowing date: June 1, 2012 Use species: Creeping bentgrass (Pencross: Sakata Seed)
Use soil: Metromix 350
(Culture soil: Sun Gro Hoorticulture Distribution Inc) and sand in a 1: 1 mixing pot: No. 6 pot sowing amount: 0.5 g / pot growing place: Greenhouse (no temperature control)

[Planting]
Planting date: July 20, 2012 Use soil: Sand pot: No. 4.5 pot Planting: 6 plants x 4 or predetermined planting place: 1 greenhouse (no temperature control)

[Starter fertilization]
Fertilizer application date: July 27, 2012 Fertilizer: Isotechno 987 (Shinozaki Shoten Co., Ltd.)
Fertilizer application amount: 0.5g-nitrogen / m ²

[Fertilization conditions]
Fertilizer application: 0.40 g-nitrogen / m ²
Fertilization area: 0.25m ² (0.5m × 0.5m)
Sprayed water volume: 250ml / 0.25m ²
Spraying method: Spraying fertilization frequency with electric spray (Panasonic BH593P): Once / week cultivation period: August 2, 2012 to August 29, 2012 Test zone: In Table 1, urea (made by Mitsui Chemicals, Inc.) Test group 1, 2, 3 in which product name “urea”) is the only control 1 and only the autolysate is control 2, and a portion of this autolysate is replaced with sodium inosinate (IMP) as shown in Table 1. 4 was set. The amount of fertilization of TN, phosphorus, and potassium was adjusted to be substantially the same.
The “self-digestion liquid” is, for example, “bonito self-digestion liquid”, and “bonito self-digestion liquid” is obtained by the following production method.
Freshly cut bonito viscera, haramo, and tail were used as raw materials, and after adding them to a kneader (kneader), the pH was adjusted to 7.0 to 8.0, and 4 to 55-60 ° C. Self-digest time.
The liquefied self-digested product removes residues such as bones with a vibration sieving machine, makes the pH acidic (pH 4.1 ± 0.1), and performs filtration with a filter press using diatomaceous earth. And
In addition, 100% bonito in FIG. 7 means that the contained nitrogen is 100% derived from bonito auto-digested fluid.

[harvest]
Harvest date: August 29, 2012 Treatment: Wash the roots thoroughly with water, separate the roots and leaves (stems), and dry by ventilation.
Evaluation item: 1 Dry root weight 2 Dry leaf (stem) weight 3 Number of stems (number of stems and upright stems divided) 4 Leaf leaf observation by visual observation

Urea only (control 1), autodigestion solution only (control 2), and a part of nitrogen derived from autolysis solution was replaced with IMP (IMP-derived nitrogen ratio 6.0 wt%, 11.3 wt%, 20.8 (% By weight, 35.8% by weight) Liquid fertilizer was fertilized on a pen cloth planted in a pot, and the growth of its foliage and roots was evaluated, and the number of stems was measured and compared for each stem and upright stem.
Despite the same amount of nitrogen, phosphorus, and potassium fertilization, replacing part of the autolysis fluid with sodium inosinate (IMP) promotes leaf growth compared to autolysis fluid alone. (FIG. 1). This proves that sodium inosinate (IMP) promotes the growth of foliage even when the addition amount is small.

    In the test plot where the IMP-derived nitrogen ratio was 35.8 wt%, leaf length was suppressed and the number of stems tended to increase (FIG. 1). This suggested that the effect of IMP on the growth of turfgrass could change depending on the amount of addition or fertilization.

Further, the test group with an IMP-derived nitrogen ratio of up to 20.8% by weight, although the stems and leaves are growing, the leaves are slightly wide and the stem tends to sleep, but the test group with the IMP-derived nitrogen ratio of 35.8% by weight The turf was standing with thin leaves (Fig. 2).
It has also been clarified that increasing the amount of IMP added can suppress stem and leaf elongation, narrow the leaf stem, and improve the leaf texture.

    The foliage and roots of each test section were dried and the dry weight was measured. The test group to which IMP was added had a tendency to increase the dry foliage weight compared to the test group having only the autolysis solution (FIG. 3). This is considered that IMP promotes the growth of foliage.

    Regarding the dry weight of the roots, there was no significant difference although there was a tendency to increase slightly compared with the test group with only the autolysis solution (FIG. 4).

Regarding the number of stems in each test group, despite the increase in dry foliage weight due to the addition of IMP, the number of stems in the addition group up to 20.8% by weight of IMP-derived nitrogen tends to be flat or slightly decreased. (FIG. 5).
This suggests that the addition of a small amount of IMP may cause the foliage to grow. On the other hand, the number of stems in the test group having an IMP-derived nitrogen ratio of 35.8% by weight was significantly increased as compared with the test group having only the autolysis solution, and the number of upright stems was particularly increased (FIG. 5). ).

Temperature data from the start of fertilizer application to harvest (temperature in the 100-leaf box, temperature in the greenhouse, ground temperature in the pot) is shown (FIG. 6). In the latter half of the cultivation, the number of buds increased despite the fact that the soil temperature exceeded 28 ° C. Therefore, the test plot with an IMP-derived nitrogen ratio of 35.8% by weight increased the respiration rate of the turf (average soil temperature above 28 ° C). It was estimated that there was a fertilization effect that could counter the summer stress associated with
[Example 2] Application to pen cloth in early growing season (2)

[Seeding]
Sowing date: March 29, 2013 Use species: Creeping bentgrass (Pencross: Sakata Seed)
Use soil: Metromix 350
(Culture soil: Sun Gro Hoorticulture Distribution Inc) and sand in a 1: 1 mixing pot: No. 6 pot sowing amount: 0.5 g / pot growing place: Greenhouse (no temperature control)

[Planting]
Planting date: April 26, 2013 Soil: Sand pot: No. 4.5 pot Planting: 6 plants x 4 or predetermined planting place: 1 greenhouse (no temperature control)

[Starter fertilization]
Fertilizer application date: May 2, 2013 Fertilizer: 19-26-5 Starter Fertilizer (Hyponex Japan)
0.5g-Nitrogen / m ²
Pesticides: (1) Bashipatch wettable powder (Insecticide: Riken Green Co., Ltd.):
1 g of 2 g / L, sprayed over the whole (2) Orcon granule 5 (sterilization: Otsuka Chemical Co., Ltd.): 1 g / pot fertilizer application amount: 0.5 g-nitrogen / m ²

[Fertilization conditions]
Fertilizer application: 0.40 g-nitrogen / m ²
Fertilization area: 0.25m ² (0.5m × 0.5m)
Sprayed water volume: 250ml / 0.25m ²
Spraying method: Spraying fertilization frequency by electric spray (Panasonic BH593P): 2 times / week cultivation period: May 7, 2013-June 7, 2013 Test zone: In Table 2, only the self-digestion liquid is controlled ( No. 1), only sodium inosinate (IMP) was used as a control (No. 2), and a mixture of bonito autolysate and sodium inosinate (IMP) was prepared as shown in Table 2. It was set to 3-10. The amount of fertilization of TN, phosphorus, and potassium was adjusted to be substantially the same.
In addition, the IMP-only control (No. 2) and the autolysate + IMP (No. 3) increased the amount of nitrogen derived from IMP, thereby increasing the phosphorus derived from the phosphate group of IMP. As a result, the phosphorus content was high.

[harvest]
Harvest date: June 6, 2013 Treatment: Thoroughly wash the roots, separate the roots and leaves (stems), and dry by ventilation.
Evaluation item: 1 Dry root weight 2 Dry leaf (stem) weight 3 Number of stems (counted separately from stems and upright stems) 4 Leaf texture observation by visual observation of leaf stems

Nitrogen source was autodigestion liquid only and IMP only as control, autodigestion liquid + IMP (IMP-derived nitrogen ratio 6.0 wt%, 20.8 wt%, 35.5 wt%, 41.5 wt%, 51.5 (% By weight, 66.8% by weight) A liquid fertilizer was applied to a pen cloth planted in a pot, and the growth of its foliage and roots was evaluated, and the number of stems was measured and compared for each stem and upright stem.
No. 1 and no. 4-No. As can be seen from Fig. 8, the growth of the penfoli leaves and leaves showed a different reaction by replacing part of the autolysate with IMP even though the amounts of fertilization of nitrogen, phosphorus and potassium were the same ( FIG. 8).

    As the IMP-derived nitrogen composition increases, the growth of foliage is promoted. However, when the nitrogen composition ratio derived from IMP exceeds 66.8% by weight, the growth of the foliage tends to decrease, that is, the growth peak. Was found to be in the IMP-derived nitrogen composition ratio of 35.5 wt% to 51.5 wt% (FIG. 7).

    Even when comparing the photos of the foliage after harvesting, it can be confirmed that the growth peak is in the IMP-derived nitrogen composition ratio of 35.5 wt% to 51.5 wt%, and the turf length of the turf is growing. However, since the turf stock has grown, it can be seen that the number of turf stems has increased (FIG. 8). This indicates that the addition of IMP promotes turf division.

The roots and foliage were dried and weighed, and the number of stems of the dried foliage was divided into upright stems (stems with 1 or less nodes) and buds (stems with 2 or more nodes), and the number of stems was counted. . As a result, it became clear that the root growth, the growth of the foliage, and the increase in the number of stems all had an IMP-derived nitrogen composition ratio of 35.5% by weight in the total nitrogen of the liquid manure.
It has been clarified that the addition of IMP grows roots and foliage and promotes the division of turf, and that the composition ratio of IMP-derived nitrogen in the total nitrogen has optimum conditions (FIG. 9). .

    The temperature data from the start of fertilization to harvesting (greenhouse temperature, pot temperature) is shown (FIG. 10). In this pot test, the average ground temperature was below 28 ° C., and in this example, it was not possible to confirm the function of improving the summer stress resistance to the turf of the present invention.

    As known knowledge, it is known that cytokinin and adenine act as growth hormones. When examining the effect of nucleic acid fertilization on plant growth promotion, it may be possible as a precursor of cytokinin or adenine, but if it acts as a growth hormone precursor, it will show a growth promotion effect in a trace amount It is estimated to be.

    In the present invention, the peak of the IMP fertilization effect is in the composition ratio of 35.5 wt% to 51.5 wt% of the IMP-derived nitrogen in the total nitrogen of the fertilizer. Therefore, in the plant body, not as a growth hormone precursor It can be estimated that it is used as a raw material for nucleic acid synthesis.

    This shows that there is little influence on the environment around the golf course and it can be used as a safe fertilizer.

    According to the golf course green turfgrass fertilizer described above, the golf course green leaf texture is improved, the ratio of upright stems (stems with no more than one node in the stem and no dredging) is increased, and the division is promoted. As a result, turfgrass with increased turf density was obtained.

Claims (4)

    A golf course green turf fertilizer comprising inosinic acid or inosinate in a nitrogen fertilizer. The golf course green according to claim 1, wherein the content of inosinic acid or inosinate is 6 to 67% by weight in terms of nitrogen ratio (nitrogen derived from inosinic acid or inosinate / total nitrogen). Turf grass fertilizer.     The fertilizer for turf grass of golf course green according to claim 1 or 2, wherein the nitrogen fertilizer contains fish-derived nitrogen.     4. The golf course green turf fertilizer according to claim 3, wherein the seafood is bonito.