SU1103815A1 - Method of determining seed germinating force - Google Patents

Abstract

1. METHOD FOR IDENTIFYING FORCE, SEEDS, including their germination c. optimal for growth conditions, about tl, and, because of increasing the accuracy of determination, reducing the time for determining and maintaining the intactness of the test sample, germination is carried out in the dark on the nutrient substrate simultaneously of the tested seeds and seeds of n-standard, germinated sprouts are placed in an atmosphere saturated with water vapor, and maintained until guttation is established, then the separated guttat is collected, and the force of the seeds is determined by the ratio of the quantities B1 of the divided guttat of the test seeds and the seed of the n-standard. 2. The method according to claim 1, wherein the seeds for germination are placed in a nutrient substrate in a vertical position with the apical end flush with the surface of the substrate and the germination is carried out at 20-21 sec.

Description

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00 The invention relates to agriculture, in particular to crop production, and can be used in assessing the sowing quality of seeds, for example cereals. A known method for determining the force of seeds, which consists in germinating seed under a layer of ceska and judging by the ability of sprouts to pass through this layer, the strength of seeds 1. The disadvantages of this method are the low accuracy and duration of determination. There is a known method for determining the power of seeds by the thickness of the roots of seedlings 2. However, with this method, the intactness of the plants is disturbed, the analysis of the roots is laborious, which limits the scope of the method. The purpose of the invention is to improve the accuracy of the determination, reduce the time of determination and speed the intactness of the sample used. The goal is achieved in that the germination is carried out in the dark on the nutrient substrate at the same time of the tested seeds and the seed of the standard, the germinated sprouts place an atmosphere saturated with water vapor, stand up to the formation of guttation and then the released guttat is harvested, and the force of the seeds is determined by the ratio of the amounts vs. the amount guttata of the tested seeds and the seed of n-standard. At the same time, seeds for germination are placed in a nutrient substrate in a vertical position with the apical end flush with the surface of the substrate and germination is carried out at 20-21 ° C. 1 Example 1. Samples of the tested seeds of the variety Otra, germinating in germination, each 50 times in duplicate and seed, with a known growth force. Pour them into glasses with water and mix to remove air film from the seeds. Then the seeds are kept in a plant bed (with water between the moistened sheets of filter paper, placed at 21 ° C in the soil substrate in a vertical position with the apical end flush with the soil surface. As the substrate, use natural soil from the humus horizon or artificial nutrient medium, moistened to the optimum conditions. The vessels with seeds are placed in a dark thermostat saturated with water vapor (tps-3 with additional evaporators, and germinated at 2 s. After the intended period of time, the vessels are replaced In the chamber with humidified air, the guttering sprouts are counted, and the guttat is collected on jsccKH air-dry filter paper, stained with a 10% solution of copper sulfate or other coloration.The amount of guttat is determined by the weight gain of the sorbent or by the spot size of the coloration. Seed strength is defined as the ratio of the amount of released guttat of test seeds to the amount of guttat collected from the seed-sample. Guttat can be collected again, for which the vessels are again returned to the thermostat and the definition is repeated a certain period of time (2-6 hours). In tab. 1 presents the results of determining the strength of seeds by the proposed and known methods. From the obtained results it follows that the location of the samples according to their strength is the same in both ways. Seeds of sample 149 have the highest strength, and sample 182 has the lowest, which does not contradict the germination data. The time spent on the implementation of the proposed method is 20-30 minutes, not counting the time of germination, and the known time is 2-3 hours. EXAMPLE 2. Seeds are 4 pieces each in triplicate, the same in size and biological qualities, they are saturated in overmoistened soil for 1-5 days. After that, the seeds are planted in an optimally moist soil (20 MP of water per 100 g of loamy soil). At the same time, seeds are sown that are not subjected to a stressful state — waterlogging / having the same qualities as the test seeds before stress. They germinate for 2 days, measure the amount of guttation, and determine the force of seeds by it, as in example 1. In tab. Figure 2 presents data on the effect of excessive moisture on the force of seeds. Note. All correlation coefficients are reliable, at a probability level of 99%. Experiments show that under the influence of stress - excessive moisture, the naklyuvshiesya seeds in the soil turned into a state of forced rest, during which their forces rapidly decreased (accelerated aging). The residual strength of the secondarily growing seeds depended on the duration of exposure and was negative. the negative factor. The four- and five-day exposure periods turned out to be of the test variety of seeds in the lethal conditions of experience. The assessment of the residual force of germinating seeds can be used when the varieties are equal in terms of their stability to the adverse conditions of the growing environment. The intactness of the comparison robe allows the selection

instances of this trait for growing plants for breeding purposes.

PRI me R 3. Samples of seeds

Nutans-125 pro-portals Above

Guttat seeds are harvested and harvested, as in Example 1. Nad seeds have more power (92.6 mg guttat), and Nutans-125 seeds have less power (37.8 mg guttat). Determined by the proposed Yu method, the force of seeds corresponds to nor. yields of tested varieties, "

Indicators

Germination

Intensity of guttation in translation

per 100 viable seeds, mg paper,

that guttat

-.

The total length of the roots in the sample in terms of 100 viable seeds, mm

The ratio of the power of the roots to the intensity of guttation

The relative strength of seeds,%

Thus, the proposed method can be carried out without disturbing the intactness of the comparison sample, while reducing the time for performing the determination and expanding the scope of application of the method, for example, for assessing the residual force of the seeds germinating in adverse environmental conditions and for predicting the productivity of different varieties of one cultures having the same initial development rate.

..A

Sample Number 1

T 3364 T 182

149 T 3364

64

89

96,669

10213

6503

9.4

10.6

Table 2

Claims (2)

1. METHOD FOR DETERMINING FORCE, SEEDS, including their germination c. optimal conditions for growth, including the fact that, in order to increase the accuracy of determination, reduce the time of determination and maintain the intactness of the test sample, germination is carried out in the dark on a nutrient substrate of simultaneously tested seeds and the reference seed, germinated sprouts are placed in the atmosphere is saturated with water vapor and is pulled out until the formation of guttation, then the released guttate is collected, and the seed strength is determined by the ratio of the amount of released guttate of the test seeds and the reference seed. 2. The method according to π. 1, distinguishing with the fact that the seeds for germination are placed in a nutrient substrate in a vertical position with an apical end flush with the surface of the substrate and germination is carried out at 20-21 ° C. U ,, „1103815