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ORIGINAL PAPER
Influence of the air stream produced by the drone on the sedimentation of the sprayed liquid that contains entomopathogenic nematodes
1
Politechnika Koszalińska, Katedra Automatyki, Mechaniki i Konstrukcji ul. Racławicka 15-17, 75-620 Koszalin, Poland
Journal of Research and Applications in Agricultural Engineering 2017;62(3):26-29
KEYWORDS
ABSTRACT
The results of research are related to the influence of the air stream produced by the drone on the distribution of the jet deposited under the drone that is sprayed with the aid of the XR 11002 slot sprayer, with water pressure of 0.4 MPa and Steinernema feltiae entomopathogenic nematodes contained in it. An influence was found of air on a change in distribution of the liquid that is deposited on the groove patternator and the concentration of the nematodes in the depositing liquid.
REFERENCES (19)
1.
Aasen, H., Burkart, A., Bolten, A., Bareth G.: Generating 3D hyperspectral information with lightweight UAV snapshot cameras for vegetation monitoring: From camera calibration to quality assurance. SPRS Journal of Photogrammetry and Remote Sensing, 2015, 108, 245-259.
2.
Berner B., Chojnacki J.: Wykorzystanie dronów w rolnictwie precyzyjnym, Technika Rolnicza Ogrodnicza Leśna, 2016, 6, 19-21.
3.
Berner B., Chojnacki J.: Zastosowanie bezzałogowych statków powietrznych do opryskiwania upraw rolniczych. Technika Rolnicza Ogrodnicza Leśna, 2017, 2, 23-25.
4.
Chapple A.C. Some considerations on the application of entomophatogenic nematodes into field crops. W COST 819 Entomophatogenic nematodes. Procedings of workshop held at Todi, Perugia, Italy, 16-20 May 1995. Publications of European Communites. Luxembourg 1999.
5.
Chapple A.C., Gwynn R.L.: Entomopathogenic application - practical demonstration. W COST 819 Entomopathogenic nematodes Application and persistence of entomopathogenic nematodes. Procedingsd of workshop held at Todi, Perugia, Italy, 16-20 May 1995. Publications of European Communites. Luxembourg 1999.
6.
Chojnacki J.: Równomierność osadzania owadobójczych nicieni pod rozpylaczem szczelinowym. Inżynieria Rolnicza, 2008, 10 (108), 25-30.
7.
Chojnacki J.: Równomierność mieszania biologicznych środków ochrony roślin w zbiorniku opryskiwacza. Inżynieria Rolnicza, 2008, 4 (102), 163-168.
8.
Chojnacki J.: Wpływ wysokości opryskiwania na równomierność osadzania biologicznych środków ochrony roślin - owadobójczych nicieni. Journal of Research and Applications in Agricultural Engineering, 2008, Vol. 53(3), 32-34.
9.
Chojnacki J., Jarmocik E.: Rozkład poprzeczny biologicznego środka ochrony roślin. Problemy Inżynierii Rolniczej, 2006, 4 (54), 13-20.
10.
Colomina I., Molina P.: Unmanned aerial systems for photogrammetry and remote sensing: A review. ISPRS Journal of Photogrammetry and Remote Sensing, 2014, 92, 79-97.
11.
Huang Y., HoffmannW.C., LanY., Wu W., Fritz B.K.: Development of a Spray System for an Unmanned Aerial Vehicle Platform. Applied Engineering in Agriculture, 2009, Vol. 25(6), 803-809.
12.
Mazur P., Chojnacki J.: Wykorzystanie dronów do teledetekcji multispektralnej w rolnictwie precyzyjnym. Technika Rolnicza Ogrodnicza Leśna, 2017, 1, 25-28.
13.
Pederi Y.A., Cheporniuk H.S.: Unmanned Aerial Vehicles and New Technological Methods of Monitoring and Crop Protection in Precision Agriculture: International Conference ActualProblems of Unmanned Aerial Vehicles Developments (APUAVD) Proceedings, 2015.
14.
Sawicki P.: Bezzałogowe aparaty latające UAV w fotogrametrii i teledetekcji - stan obecny i kierunki rozwoju. Archiwum Fotogrametrii, Kartografii i Teledetekcji, 2012, 23, 365-376.
15.
Szewczyk A., Łuczycka D.: Wpływ kierunku wiatru na opad rozpylonej strugi cieczy użytkowej podczas opryskiwania płaskich upraw polowych. Inżynieria Rolnicza, 2010, 2 (120), 209-215.
16.
Tomalak M.: Rynek biologicznych środków ochrony roślin i przepisy legislacyjne. Progress in Plant Protection/Postępy w Ochronie Roślin, 2010. 50 (3), 1053-1063.
17.
Wilson, M.J., Glen, D.M., Hamacher, G.M., Smith, J.U.: A model to optimise biological control of slugs using nematode parasites. Applied Soil Ecology, 2004. 26, 179-191.
18.
Vojinovic M.Z.: Biological control of oilseed rape pests with entomopathogenic nematodes. Praca doktorska. University of Helsinki Department of Agricultural Sciences /Agricultural Zoology, 2010.
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| eISSN: | 2719-423X |
| ISSN: | 1642-686X |
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