RU184233U1 - A spoiler for collecting the infectious onset of phytopathogenic fungi from the surface of plants - Google Patents

Abstract

The utility model relates to the field of agriculture, in particular to technical means for collecting the infectious onset of phytopathogenic fungi from the surface of plants and can be used in phytosanitary monitoring of crops of crops for early detection of foci of infection with fungal diseases. A spoiler for collecting the infectious onset of phytopathogenic fungi from the surface of plants contains an upper and lower rectangular plate with a size of 0.01 × 0.03 m, made of flexible transparent material. The plates are superimposed on each other and motionlessly glued together. They have at least three round holes located in the same line at the same distance from each other, with the diameter of the holes on the top plate being 0.002 m and the diameter of the holes on the bottom plate being 0.004 m. The holes on the top and bottom plates are made on one axis. The lower side of the lower plate is equipped along the perimeter with an edge strip with an adhesive to fix it on the surface of the plant. Such a design of a spoiler provides an increase in the degree of immobilization of the infectious onset of phytopathogenic fungi on the surface of plant leaves, increases the accuracy of early diagnosis of foci of infection with fungal diseases and the effectiveness of phytosanitary monitoring of crops.

The utility model was created with the financial support of the Russian Ministry of Education and Science in the framework of the Federal Target Program "Research and Development in Priority Directions for the Development of the Russian Science and Technology Complex for 2014-2020" under agreement No. 14.610.21.0017 of October 3, 2017, a unique project identifier RFMEFI61017X0017.

Description

The utility model relates to agriculture, in particular to technical means for collecting the infectious onset of phytopathogenic fungi from the surface of plants, and can be used in phytosanitary monitoring of crops of crops for early detection of foci of infection with fungal diseases.

Many phytopathogenic fungi (rust, powdery mildew, etc.) use wind transfer - anemochoria as the main mechanism for the transfer of an infectious beginning (spore, modification of mycelium or its parts) [1]. In this process, the infectious beginning is transferred to a different distance, then settles on the surface of the aboveground organs of plants and subsequently infects their tissues. Assessing the nature of the transfer and deposition of spores on plants is actively used in predicting the dynamics of the development of diseases of agricultural plants [2]. In this regard, the development of methods and devices for assessing the contamination or amount of an infectious onset per unit surface area of plant organs above ground, especially leaves, is important. To solve this problem, traps of various designs are most often used [3].

To detect spores in the air, vane-type traps, aspiration actions based on the active absorption of spores, and passive traps based on the deposition of spores from the air on a fixed surface are used.

The famous Hurst suction trap [4], consisting of three moving parts: an electric motor, an air intake and a clockwork. Traps of the PLS-71 and PLS-71M type work on a similar principle. [5], traps proposed by Yu.G. Sokolov et al. [6], traps V.T. Sadkovsky et al. [7], as well as a 24-hour SES daily ejector spoil trap and a 24-hour SDV catcher of the design of the All-Russian Institute for Plant Biological Protection (VNIIBZR) [8]. However, their design does not allow to assess the infectious load on the surface of plants.

Passive traps [8], made in the form of glass slides with transparent adhesive (petroleum jelly, castor oil) on the surface and installed in holders at different heights from the soil surface in crops, are also known. The disadvantage of this method is that the traps are stationary, therefore, they cannot fully reflect the nature of the deposition of spores on plant leaves in constant motion.

There is a method of directly determining the contamination of leaf spores [9] in which the sheet was fixed inside the Petri dish above the surface of the nutrient medium. The disadvantage of this method is also that the spoil trap is stationary.

Also known is a trap [9], made in the form of a transparent plastic with a size of 0.01 × 0.01 m with double-sided adhesive. On one side, it adheres to the surface of plants, and the other side serves as the main one for collecting spores. However, at the same time, part of the spores may not be fixed on the surface, and their further use for molecular genetic diagnostics will be difficult due to difficulties in separating spores from glue. In addition, this method is difficult to use on the stems of plants.

The essence of the proposed utility model is as follows.

The technical result is an increase in the degree of immobilization of the infectious onset of phytopathogenic fungi on the surface of plant leaves for their further calculation and diagnosis.

This is achieved by the fact that the proposed spoiler for collecting the infectious onset of phytopathogenic fungi from the surface of plants contains upper and lower rectangular plates measuring 0.01 × 0.03 m in size, made of flexible transparent material. The plates are superimposed on each other and motionlessly glued together. They have at least three round holes located in the same line at the same distance from each other, with the diameter of the holes on the top plate being 0.002 m and the diameter of the holes on the bottom plate being 0.004 m. The holes on the top and bottom plates are made on one axis. The lower side of the lower plate is equipped along the perimeter with an edge strip with an adhesive that secures it to the surface of the plant.

The spoiler is illustrated by the schemes:

FIG. 1 - spoiler (side view);

FIG. 2 - spoiler (bottom view).

A spoiler for collecting the infectious onset of phytopathogenic fungi from the plant surface consists of an upper plate 1 and a lower plate 2, which have a rectangular shape and the same dimensions equal to 0.01 × 0.03 m. The plates are made of a flexible transparent material. On the top plate 1 there are holes 3 with a diameter of 0.002 m, and on the bottom plate 2 there are holes 4 with a diameter of 0.004 m. Each plate has at least three holes that are located on the same line and at the same distance from each other . The upper plate 1 is superimposed on the lower plate 2 and motionless glued together. The axis of the holes 3 and 4 on the upper and lower plates coincide. The lower side of the lower plate 2 is equipped around the perimeter with an edge strip 5 with an adhesive, with which it is attached to the surface of the plant 6.

The spoiler works as follows.

Using the adhesive strip 5, the spoiler is fixed on the surface of plants 6 (leaves, stems or fruits of plants). Disputes settling out of the air fall into holes 3 on the upper plate 1, and then settle into holes 4 on the lower plate 2. Since the diameter of the hole 3 on the upper plate 1 is two times smaller than the diameter of the hole 4 on the lower plate 2, then the hole 4 forms a capture chamber on the surface of plant 6, which does not allow the infectious onset of phytopathogenic fungi to be blown out by the air flow and ensures the maximum degree of their immobilization on the surface of the plant. After the expiration of the exposure time, which, depending on the purpose of accounting, can be from 1 to 7 days, the catcher along with the area of plant tissue under it is removed and used for further calculations. The amount of infectious onset of phytopathogenic fungi located in the zone of hole 4 on the plant surface is determined by microscopic, molecular genetic, or other available methods. Further, with the known area of one hole and the number of infectious onset of phytopathogens in it, one can determine the infectious load or the amount of infectious onset of phytopathogenic fungi per unit surface of plants.

The results of the analysis are used to make a forecast of the development of diseases and the need to use biological and chemical plant protection products.

Thus, such a design of a spoiler for collecting the infectious onset of phytopathogenic fungi from the plant surface provides an increase in the degree of immobilization of the infectious onset of phytopathogenic fungi on the surface of plant leaves, increases the accuracy of early diagnosis of foci of infection with fungal diseases and the effectiveness of phytosanitary monitoring of crops.

The utility model was created with the financial support of the Russian Ministry of Education and Science in the framework of the Federal Target Program "Research and Development in Priority Directions for the Development of the Russian Science and Technology Complex for 2014-2020" under agreement No. 14.610.21.0017 of October 3, 2017, a unique project identifier RFMEFI61017X0017.

List of references

1. Popkova, K.V. General phytopathology / K.V. Popkova, V.A. Shkalikov, Yu.M. Stroykov et al. - M: Drofa, 2005 .-- 445 p.

2. Mundt, S.S. Long Distance Dispersal and Accelerating Waves of Disease: Empirical Relationships / C.C. Mundt, K.E. Sackett, L.D. Wallace, C. Cowger, J.P. Dudley // American Naturalist. - 2009. - Vol. 173. - P. 456-466.

3. Skarpaas, O. Optimizing dispersal study design by Monte Carlo simulation / O. Skarpaas, K. Shea, J.M. Bullock // Journal of Applied Ecology. - 2005. Vol. 42. - P. 731-739.

4. Hirst J.M. An automatic volumetric spore trap // Annals of Applied Biology. - 1952. - Vol. 39. - P. 259-265.

5. Sokolov, Yu.G. Recommendations on the use of infection control and environmental parameters in protecting plants from diseases / Yu.G. Sokolov, N.A. Evsyukov, V.T. Sadkovsky. - M., 1994 .-- 33 p.

6. RF patent No. 100621, IPC G01N 1/22. The determinant of contamination of plants / Yu.G. Sokolov, V.T. Sadkovsky, F.F. Thin, S.A. Ermolenko; Publ. 12/20/2010, Bull. Number 35.

7. RF patent 171 238, IPC G01N 1/22. Air sampler / V.T. Sadkovsky, Yu.G. Sokolov, F.F. Thin, Yu.V. Shumilov, S.A. Ermolenko, V.Ya. Ismailov, K.V. Semochkin; Publ. 05/25/2017, Bull. No. 15.

8. Evsyukov, N.A. Technical equipment for phytosanitary monitoring technologies / Evsyukov N.A., Sadkovsky V.T., Sokolov Yu.G. // Protection and quarantine of plants. - 2013. - No. 2. - S. 43-45.

9. Dickinson, S. N. Effects of ethirimol and zineb on phylloplane microflora of barley // Trans. Br. Mycol. Soc. - 1973. - Vol. 60. - P. 423-431.

Claims (1)

A spoiler for collecting the infectious onset of phytopathogenic fungi from the plant surface, containing the upper and lower rectangular plates of 0.01 × 0.03 m in size, made of a flexible transparent material, characterized in that the plates are superimposed on each other and fixedly glued together, and have at least three circular holes located in one line at the same distance from each other, and the diameter of the holes on the top plate is 0.002 m, and the diameter of the holes on the bottom plate is 0.004 m, while the holes on the upper and lower plates are made on the same axis, and the lower side of the lower plate is equipped with a perimeter edge strip with an adhesive that secures it to the surface of the plant.

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