Vol. 32, issue 10, article # 12

Golovko V.V., Hlebus K.A., Belanova A.P. Study of sedimentation of pollen particle (individual grains and their clusters) of anemophilous plants growing in Western Siberia. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 870–873 [in Russian].
Copy the reference to clipboard
Abstract:

The sedimentation of pollen particles of the weeds of several species growing in Western Siberia is studied. The percentage of individual grains and their clusters resulting from spraying is calculated. The sedimentation rate of clusters, consisting of one to six pollen grains, is determined. The sedimentation rate of clusters is found to depend on the number of pollen grains involved.

Keywords:

sedimentation rate, pollen grains, clusters, anemophilic plants, air impact

References:

  1. Rogers C.A., Levetin E. Evidence of long-distance transport of mountain cedar pollen into Tulsa, Oklahoma // Int. J. Biometeorol. 1998. V. 42, N 2. P. 65–72.
  2. Sladkov A.N. Vvedenie v sporovo-pyl'tsevoi analiz. M.: Nauka, 1967. 268 p.
  3. Doskey P.V., Ugoagwu B.J. Atmospheric deposition of macronutrients by pollen at a semi-remote site in northern Wisconsin // Atmos. Environ. 1989. V. 23, N 12. P. 2761–2766.
  4. Rantio-Lehtimaki A. Aerobiology of Pollen and Pollen Antigens // Bioaerosols Handbook / C.S. Cox, C.M. Wathes eds. Boca Raton, Florida: Lewis Publishers Inc, 1995. P. 387–406.
  5. Fedorova R.V. Kolichestvennye zakonomernosti rasprostraneniya pyl'tsy drevesnykh porod vozdushnym putem // Tr. AN SSSR (Tr. in-ta geografii). 1952. Issue 52. P. 91–103.
  6. Di-Giovanni F., Keyan P.G., Nasr M.E. The variability in settling velocities of same pollen and spores // Grana. 1995. V. 34, N 1. P. 39–44.
  7. Jackson S.T., Lypord M.E. Pollen Dispersal Models in Quaternary Plant Ecology: Assumptions, Parameters, and Prescriptions // Bot. Rev. 1999. V. 65, N 1. P. 39–74.
  8. Burrows F.M. Calculation of the primary trajectories of dust seeds, spores and pollen in unsteady winds // New Phytol. 1975. V. 75, N 2. P. 389–403.
  9. Owens J.N., Takaso T., Runions C.J. Pollination in conifers // Trends Plant Sci. 1998. V. 3, N 12. P. 1360–1385.
  10. Erdtman G. Handbook of palynology. Munksgaard, Copenhagen, Denmark. 1969. 486 p.
  11. Sosnoskie L.M., Webster T.M., Dales D., Rains G.C., Grey T.L., Culpepper A.S. Pollen Grain size, density, and settling velocity for Palmer Amaranth (Amaranthus palmeri) // Weed Sci. 2009. V. 57, N 4. P. 404–409.
  12. Harrington J.B., Metzer K. Ragweed pollen density // Am. J. Bot. 1963. V. 50, N 6. P. 532–539.
  13. Dunskii V.F. Aeromikrobiologiya i prognozirovanie boleznei rastenii. Aerozoli v zashchite rastenii // Nauch. tr. 1982. P. 166–191.
  14. Istomin V.L., Kutsenogii K.P. Opredelenie skorosti sedimentatsii spor plauna klasterov // Teplofizika i aeromekhanika. 2001. V. 8, N 2. P. 295–300.
  15. Gregori F. Mikrobiologiya atmosfery. M.: Mir, 1964. 372 p.
  16. Fedorova R.V., Vronskii V.A. O zakonomernostyakh ras¬seivaniya pyl'tsy i spor v vozdukhe // Byul. komissii po izucheniyu chetvertichnogo perioda. 1980. N 50. P. 153–165.
  17. Istomin V.L., Kutsenogii K.P. Poluchenie aerozolei iz poroshkoobraznykh materialov metodom impul'snogo vozdeistviya gazom // Teplofizika i aeromekhanika. 1998. V. 5, N 1. P. 75–79.
  18. Golovko V.V., Istomin V.L., Kutsenogii K.P. Opredelenie skorosti sedimentatsii pyl'tsy sornykh trav, kak individual'nykh zeren, tak i ikh aglomeratov // Optika atmosf. i okeana. 2015. V. 28, N 7. P. 655–660.
  19. Golovko V.V., Istomin V.L. Opredelenie skorosti sedimentatsii pyl'tsevykh chastits anemofil'nykh rastenii, proizrastayushchikh v Zapadnoi Sibiri // Optika atmosf. i okeana. 2017. V. 30, N 9. P. 806–810.

Back