Arabidopsis thaliana was used as a

Arabidopsis thaliana was used as a model plant, and experiments were carried out in KUREHA culture soil (surface soil of a depth of 5 cm) as a nutrient soil. In brief, after vernalization treatment was applied overnight at 4°C, cultivation was carried out for
21 days in a temperature-controlled room (at 23°C) under 24-hour light conditions at an illuminance of 10,000 lux, with 100 ml of water being added every other day.
[0048]
A graph showing the effect of decreasing nitrate in the plant is given in รูป 3. A graph showing the effect of decreasing nitrate in the soil is given in รูป 4. As shown in Figs. 3 and 4, it was ascertained that the concentration of nitrate within the plant body and in the soil was reduced in a manner dependent on the concentration of the added material according to the การประดิษฐ์นี้. It can be said that as shown in Figs. 5 and 6, the nitrate in these cases does not penetrate into the ground, but is denitrified, and thus causes no pollution. This tendency was also observed for the hydrosphere; there was found the effect of reducing the concentrations of ไอออนไนเตรต, ammonium ions, and total nitrogen in water during wastewater treatment.
[0049]

6. Induction of lateral roots and expression of nitrate transporters

For Brassica rapa var. perviridis, which is referred to in Japan as komatsuna,
black earth and red soil were mixed at a ratio of 8 : 2 to prepare 300 g of an experimental soil. To this soil, 200 ml of water was add, and then the soil was covered with aluminum foil and left to stand at a cold dark place for 1 week. The soil was then transferred into a room into which natural light came and sown with seeds, and after that 100 ml of water

was added. Since then, water was added every two days. For Arabidopsis thaliana,
which was used as a model plant, experiments were carried out in KUREHA culture soil as a nutrient soil. As mentioned above, after vernalization treatment was applied
overnight at 4°C, cultivation was carried out for 21 days in a temperature-controlled room (at 23°C) under 24-hour light conditions at an illuminance of 10,000 lux, with a certain amount of water being added so that the soil did not become dry.
[0050]
As shown in รูป 5, the experiments using Brassica rapa var. perviridis resulted in a 20% or more increase in generated roots. This tendency was also observed in any of leaf vegetables, root crops, fruit vegetables, and fruit trees.
[0051]
Next, Arabidopsis thaliana was used as a model plant, and experiments were carried out in KUREHA culture soil (surface soil of a depth of less than 3 cm) as a
nutrient soil. In brief, after vernalization treatment was applied for 48 hours at 4°C, cultivation was carried out for 21 days in a temperature-controlled room (at 23°C) under 24-hour light conditions at an illuminance of 10,000 lux, with retaining a certain amount of water.

Table 3 Genes highly expressed in Arabidopsis thaliana - part 1: claim 6

Genbank Common Description Regulation
Table 4 Genes highly expressed in Arabidopsis thaliana - part 2: claim 6

Genbank Common Description Regulation
Table 3 indicates a group of genes that are highly expressed by means of the วัสดุเฉพาะทาง according to the การประดิษฐ์นี้ when Arabidopsis thaliana is
cultivated using the soil of a depth of 5 cm. Table 4 indicates a group of genes that are highly expressed by means of the วัสดุเฉพาะทาง according to the การประดิษฐ์นี้ when Arabidopsis thaliana is cultivated using the soil of a depth of less than 3 cm.
[0055]
mRNAs in root and stem parts were extracted and analyzed by RT-PCR. From the results, it was found that the amount of expression of NRT2.1, a nitrate transporter, tended to be increased 2 times or more (รูป 6). It was also found that the expression of NRT2.6 tended to be increased. Further, as shown in Table 3, it can be said that the amount of expression of genes related to auxin is significantly increased. Further, as shown in Table 4, it would also be important that a nodulin like protein is expressed. Recently, it has been suggested that nodulin contributes to the formation of roots by
flagellin, which is an extracellular component (Planta 234: 459-476, 2011).
[0056]
As described above, the วัสดุเฉพาะทาง according to the การประดิษฐ์นี้ brings about promotion and induction of rooting, as well as has an effect of enhancing the expression of nitrate transporter and auxin-related genes in root hairs. In addition, it is supposed that the วัสดุเฉพาะทาง according to the การประดิษฐ์นี้ gives rise to an increase in photoresponsiveness, because as shown in Table 3, a phototropism regulating gene, which encodes a phototropic-responsive NPH3 family protein, is also strongly
expressed. These combined factors would allow plants to efficiently absorb nutrients in the soil even when the soil contains small amounts of fertilizer components and make it possible to promote the growth of plants.