02. Physiological role of epicuticular waxes for plants and their practical significance

https://doi.org/10.31073/agrovisnyk201901-02
Ivaschenko O. O., Ivaschenko O. O.
Pages: 12-20.

Full article: 
Abstract
The purpose. To specify the features of dynamics of formation of a layer of epicuticular waxes on leaves of weeds of different sorts during their organogenesis under different conditions of vegetation of plants and determination of role of such layer in use of herbicides. Methods. Probes were carried out in laboratories of herbology of IBCSB and IPP of NAAS in 2014–2018. The cultivated area of microplot — 1 m2, registration plot — 0,5 m2. Frequency of experiments — 7-fold. On plots they kept 50 plants of one sort of weeds for 1 m2. All alternatives of experiments were realized both in conditions of open ground and under the polymerous transparent film (sheltered ground) where conditions of vegetation were more stable. The square of leaves for analysis was determined by method of “notchings” (A.A. Nichiporovich). For determination of amount of epicuticular waxes on leaves they used “washing off” method. After sampling leaves of plants for analysis the plot were sprayed with herbicide Betanal expert k.e. (phenmedipham — 91 g/l + desmedipham — 71 + ethofumezat 110 g/l) in rate of application of 1,0 l/hectare and dose of importation of working fluid of 210 l/hectare. Results. Analysis proved that on the surface of green seed-lobe of different sorts of weeds used in experiments, epicuticular waxes were almost absent. To the time of formation of 4 leaves at juvenile plants intensity of formation of layer epicuticular waxes increased. Their average amount at plants of white goosefoot was 0,24 g/m2, or on 50% more than in the previous records, at plants of asperous jointweed — 0,26 g / m2, or on 24% more in comparison to previous indexes, at sprouts of amaranth — 0,31 g/m2, or on 35% more than in the phase of 2 leaves. In phases of formation of leaves and accumulation of more powerful layer of epicuticular waxes sprouts of weeds manifested phase resistance to action of herbicide. Conclusions. Epicuticular waxes are essential obstruction in diffusion of acting matters of herbicides in tissue of mesophyll of leaves. The augmentation in 5,6 times of amount of waxes on leaves of plants of asperous jointweed during their development coincided with the level of recession of efficiency of herbicide on 62%, r=0,723. At plants of amaranth at augmentation of accumulation of epicuticular waxes from 0,09 up to 0,72 g/m2 the level of efficiency of herbicide decreased from 100 to 35%, r=0,886.

Key words: weeds, epicuticular waxes, herbicides, efficiency of action.

References
  1. Vasilevich VI Types of plant strategies and photoconotypes. Journal of General Biology. — 1987. – t. XLVIII. No. 3 — s. 368-374.
  2. Ezau K. Anatomy of Seed Plants — Moscow: "The World" 1980. — Kn. 1. 2.
  3. Clarkson D. Transport of ions and structure of the plant cell. — M .: "World" — 1978. — 351s.
  4. Shvartau V.V., Trach V.V. Physiological features of synergistic enhancement of the activity of derivatives of aryloxyphenoxypropionic acid with the help of inhibitors of lipid synthesis. .. Physiology and Biochemistry of Crop Plants. — 2000-32. №4. — with. 329-333.
  5. Sokolov MS penetration into herbs of herbicides and some other exogenous substances. .. Agrochemicals. — 1970. — №4. — p.135-138.
  6. Leninger A. Fundamentals of Biochemistry — M .: "World" 1985 — 1056s. 7. Shulgin A.M. Agrometeorology and agro-climatology. — L .: Meteoizdat 1978. — 196s.
  7. Botvinovsky VV About Wetting the Epidermis of Leaves .. Reports of the ANSSR. — 1948. — Tom. XII-№3. — with. 581-584.
  8. Protasov N.I. Some biological features of weed plants. .. Rational methods of plant protection against pests, diseases and weeds: Sat. scientific tr TSHF. Gorki, 1979: W.P. 59
  9. Bnay W.G. Weed control programs: running and future trends. Aspects of applied biligy. 1993.- 2: p.177-181.
  10. Daly G.T. Leaf — surface wax in Poacolensor. Journal Exper. Bot. 1964. — 15 43.- p. 160-165.
  11. Juniper B.E. Growth development and the effect of the environment on the plant surfaces. Journal Linn. Soc. (London), 1960. — 56. 367p 413-420. 13.Claerchout S., Recheul D. & De CB (2015) Sensitivity of Echinochloa crus-galli populations to bread herbicides: a comparison of betveen cropping systems. Weed Research 55, 470-481.
  12. Kentschler J. Die Wasser bendenetzbarkait von Blatt ober flachen ihre submikroskopische Wachs struktur. Planta — 1971. 96. 2. — S.119-135.
  13. Maartin E.T., Juniper B.E. The cuticulles of plants (Edward Arnild) (Publishers) IRB. — London, 1970 — 122p.
  14. Mc Horter C. G., Paul R.N., Barrentine B.E., Morphology, Development and Recrystallization of Epicuticular Waxes of Sorghum halepense L., Weed Science. — 1999. — 38.1. — p. 23-33
  15. Norris R.F., Buccovac N.J. Structure of the pear leaf cuticule with special reference to cuticular penetration. Amer Journal Bot. 1968.-55. 8. P. 975-983.
  16. Nussbaum E.G., Wiese A.F., Crutchield D.E. The effects of temperature and rainfall on the emergence and growth of eight weeds. Weed Science, 1995. — 33. 2: — P. 165-170.
  17. Radler F. B. The surface of the waxes of the sultana wine. Austr Journal Biol. — Science, 1965.-18. 5. — 1045-1056.
  18. Morderer E.Yu. Herbicides, mechanisms of action and application practice . E.Yu. Morderer, Yu.G. Merezhinsky, volume 1. — K .: Logos, 2009.-372p. 21. Rielofsen R.A. On the submicroscopic structure of the cuticular cell wax Acta bot. Necrl — 1952. — 1.1 — p. 90-114.
  19. Sargent J.A. The penetrion of growth regulatirs into leaves Meded. Land biwhogeschool. V. 29. No. 3. 1994
  20. Schaufele W.R. Einflusshoch wachsenden Unckautes (Chenopodium album L.) auf Entwiklung and Ertag der Zuckerrube. Zeitschrift fur Pflanzen krankheiten and Pflancenschitz. Journal of Plant Diseases and Protection Heft 93 (2). April 1996. Band 93. — S. 125-135.
  21. Skid J.D. Structure and Composition of plant cuticle in relation to environmental factors and permibility. Bot Gaz — 1999.177.1. — 55-72
  22. Ozerova L.V., Shvartau V.V. Mechanisms of action of modern herbicides. .. Physiology and Biochemistry of Crop Plants. — 2005. — 37, №6. 468-494.
  23. Shvartau V.V., Mikhals'kaya L. M. Herbicides Physico — chemical and biological properties. Kyiv: Logos. 2013. 906s.
  24. Heap I.M. (2017) International survey of herbicide resistant weeds. Online Internet, December 30. Available at www. weeds science. com. Communication Open Access.
  25. Trybel S.O. Method of testing and application of pesticides. Ed. prof. S.O. Tribel — K: World, — 2001, — 447s.