DOI - Mendel University Press

DOI identifiers

ISBN online: 978-80-7509-892-4 | DOI: 10.11118/978-80-7509-892-4

Metoda prognózy padlí révy ve vinicích prostřednictvím teplotního monitoringu bezpilotními prostředky

certifikovaná metodika

Pavel Pavloušek, František Muška, Simon Matěj, Jiří Kubík

Prognostické modely mohou být použitelné pro předpověď rozvoje a proměnlivosti houbové choroby. Révový keř je však charakteristický vysokým stupněm prostorové struktury na úrovni révového keře a také celé vinice. Časově-prostorové přístupy se zdají být využitelné pro výzkumy chorob iniciovaných v jednotlivých částech vinice a šířících se na rostliny pěstované v řadách, v rámci omezené prostorové struktury. Metody precizního vinohradnictví jsou proto velmi vhodné pro hodnocení prostorové a časové proměnlivosti klimatických podmínek ve vinici a podrobnou růstovou a vývojovou charakteristiku vinice. Prostorová proměnlivost podnebí na místní úrovni může být velmi důležitá a v některých případech i významnější než proměnlivost z pohledu makroklimatického. Proměnlivost lokálního podnebí je ovlivněná reliéfem, infrastrukturou, okolní vegetací nebo vodními plochami.

Keywords: padlí révy, vinice, teplotní monitoring, bezpilotní prostředky

1. edition, online: 2022, publisher: Mendelova univerzita v Brně



References

  1. ANTIVILO, F. G., PAZ, R. C., KELLER, M., BORGO, R., TOGNETTI, J., JUNENT, F. R., 2017: Macro-and microclimate conditions may alter grapevine deacclimation: variation in thermal amplitude in two contrasting wine regions from North and South America. International journal of biometeorology, 61(12), 2033-2045. Go to original source...
  2. AUSTIN, C.N., WILCOX, W.F., 2010: Heat and UV Radiation from Sunlight Exposure Inhibit Powdery Mildew. Research Focus 2010-2, Appellation Cornell. 6 pp. Cornell University.
  3. BULIT, J., LAFON, R., 1978: Powdery mildew of the vine. Pages 525-548 in: The Powdery Mildews. D. M. Spencer, ed. Academic Press, New York.
  4. CALONNEC, A., CARTOLARO, P. DELIERE, L., CHADOEUF, J., 2006: Powdery mildew on grapevine: The date of primary contamination affects disease development on leaves and damage on grape. IOBC/WPRS Bull. 29:67-73.
  5. CALONNEC, A., CARTOLARO, P., CHADOEUF, J., 2009: Highlighting features of spatiotemporal spread of powdery mildew epidemics in the vineyard using statistical modeling on field experimental data. Phytopathology, 99(4), 411-422. Go to original source...
  6. CARROLL, J.E., WILCOX, W.F., 2003: Effects of humidity on the development of grapevine powdery mildew. Phytopathology 93:1137-1144. CHAERLE, L., VAN DER STRAETEN, D., 2000: Imaging techniques and the early detection of plant stress. Trends in Plant Science, 5, 495-501. Go to original source...
  7. CHAERLE L, VAN DER STRAETEN, D., 2001: Seeing is believing: imaging techniques to monitor plant health. Biochimica et Biophysica Acta 1519:153-166. Go to original source...
  8. COSTA, J. M., GRANT, O. M., CHAVES, M. M., 2010: Use of thermal imaging in viticulture: current application and future prospects. In Methodologies and results in grapevine research (pp. 135-150). Springer, Dordrecht. Go to original source...
  9. DE RESSÉGUIER, L., MARY, S., LE ROUX, R., PETITJEAN, T., QUÉNOL, H., VAN LEEUWEN, C., 2020: Temperature variability at local scale in the Bordeaux area. Relations with environmental factors and impact on vine phenology. Frontiers in Plant Science, 11. Go to original source...
  10. EHLERINGER, J.R., 1989: Temperature and energy budgets. In: Pearcy RW, Ehleringer J, Mooney HA, Rundel PW (eds) Plant physiological ecology: field methods and instrumentation. Chapman and Hall, New York. Go to original source...
  11. GADOURY, D. M., SEEM, R. C., FICKE, A., WILCOX, W. F., 2003: Ontogenic resistance to powdery mildew in grape berries. Phytopathol. 93:547-55. Go to original source...
  12. GUYOT, G., 1997: Climatologie de L'environnement: De la Plante aux Écosystèmes. Paris: Masson.
  13. JONES, H.G., STOLL, M., SANTOS, T., DE SOUSA, C., CHAVES, M.GRANT, O.M., 2002: , Use of infrared thermography for monitoring stomatal closure in the field: application to grapevine, Journal of Experimental Botany, Volume 53, Issue 378, 2249-2260. Go to original source...
  14. JONES, H.G., GRANT, O.M., 2015: Remote sensing and other imaging technologies to monitor grapevine performance, grapevine in a changing environment. In: Gerós H, Chaves MM, Gil HM, Delrot S (eds) Grapevines in a Changing Environment: A Molecular and Ecophysical Perspective. John Wiley & Sons, pp 179-201. Go to original source...
  15. KAST, W. K., 1997: A step by step risk analysis (SRA) used for planning sprays against powdery mildew (OiDiag-System). Vitic. Enol. Sci. 52:230-231.
  16. KAST, W. K., BLEYER, K., 2011: Efficacy of sprays applied against powdery mildew (Erysiphe necator) during a critical period for infections of clusters of grapevines (Vitis vinifera). Journal of Plant Pathology, S29-S32.
  17. MANE, B.S., KHANDGE, S.V., VARSHNEYA, M.C., NAIDU, T.R., 1996: Role of micro-meteorological parameters on incidence and development of powdery mildew of grapes. J. Maharashtra Agric. Univ. 21:445-449.
  18. MATESE, A., CRISCI, A., DI GENNARO, S. F., PRIMICERIO, J., TOMASI, D., MARCUZZO, P., GUIDONI, S., 2014: Spatial variability of meteorological conditions at different scales in viticulture. Agricultural and Forest Meteorology, 189, 159-167. Go to original source...
  19. MATESE, A., DI GENNARO, S. F., 2018: Practical applications of a multisensor uav platform based on multispectral, thermal and rgb high resolution images in precision viticulture. Agriculture, 8(7), 116. Go to original source...
  20. MOYER, M., GADOURY, D., SEEM, R., 2011: Variable Eastern Weather Influences. Research News from Cornell's Viticulture and Enology Program Research Focus 2011-2, 6 str.
  21. NICHOLAS, K.A., MATTHEWS, M.A., FIELD, C.B., LOBELL, D.B., WILLITS, N.H., 2011: Effect of vineyard-scale climate variability on Pinot noir phenolic composition. Agric. For. Meteorol. 151, 1556-1567 Go to original source...
  22. PARK, A. W., GUBBINS, S., GILLIGAN, C., 2001: Invasion and persistence of plant parasites in a spatially structured host population. Oikos 94:162-174. Go to original source...
  23. PEYRARD, N., CALONNEC, A., BONNOT, F., CHADOEUF, J. 2005: Explorer un jeu de données sur grille par tests de permutation. Rev. Stat. Appl. LIII:59-78.
  24. QUÉNOL, H., BONNARDOT, V., 2014: A multi-scale climatic analysis of viticultural terroirs in the context of climate change: the "teradclim" project. J. Int. Sci. Vigne Vin 47, 23-32.
  25. SANTESTEBAN, L.G., DI GENNARO, S.F., HERRETP-LANGREO, A., MIRANDA, C., ROYO, J.B., MATESE, A., 2017: High-resolution UAV-based thermal imaging to estimate the instantaneous and seasonal variability of plant water status within a vineyard. Agric. Water Manag. 7, 183, 49-59. Go to original source...
  26. SAWINSKI, K., MERSMANN, S., ROBATZEK, S., BOHMER, M., 2013: Guarding the green: Pathways to stomatal immunity. Mol. Plant Microbe Ineract., 26, 626-632. Go to original source...
  27. SHEKHAWAT, R.S., 2016: Infrared thermography: a review. International Journal of Engineering Trends and Technology 35: 287-290. Go to original source...
  28. SMART, R., ROBINSON, M., 1991: Sunlight into wine: a handbook for winegrape canopy management. Winetitles.
  29. STARK-URNAU M., KAST W.K., 1999: Development of ontogenetic resistance of powdery mildew in fruit of differently susceptible grapevines (cvs. Trollinger and Lemberger). Mitteilungen Klosterneuburg 49: 186-189.
  30. STOLL, M. JONES, H.G., 2007: Thermal imaging as a viable tool for monitoring plant stress. OENO One, 41(2), 77-84. Go to original source...
  31. VALDES, H. 2007: Relations entre états de croissance de la vigne et maladies cryptogamiques sous différentes modalités d'entretien du sol en région méditérranéenne. Thesis, Agronomie, Science du sol, Univ. Ecole de Montpellier supAgro, Montpellier, France.
  32. VALDES, H., CELETTE, F., FERMAUD, M., CARTOLARO, P., CLERJEAU, M., GARY, C., 2005: How to evaluate the influence of vegetative vigour in grape vine susceptibility to cryptogamic diseases. Proc. XIV Int. GESCO Viticult. Congr. H. R. Schultz ed. Geisenheim.
  33. WILCOX, W., 2017: Grape disease control: Taking stock and looking forward. Cornell Viticulture and Enology program.
  34. WILCOX, W. F., GUBLER, W. D., UYEMOTO, J. K. (Eds.)., 2015: Compendium of grape diseases, disorders, and pests (pp. 39-45). St. Paul, MN, USA: APS Press, The American Phytopathological Society. Go to original source...