Metrika članka

  • citati u SCindeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[=>]
  • posete u poslednjih 30 dana:21
  • preuzimanja u poslednjih 30 dana:12
članak: 6 od 10  
Back povratak na rezultate
Acta agriculturae Serbica
2019, vol. 24, br. 48, str. 143-155
jezik rada: engleski
vrsta rada: originalan članak
objavljeno: 29/01/2020
doi: 10.5937/AASer1948143G
Creative Commons License 4.0
Osetljivost na niske temperature Plodia interpunctella, Sitophilus oryzae i Sitophilus zeamais - dominantnih štetočina uskladištenog kukuruza u Srbiji
aNaučni institut za ratarstvo i povrtarstvo, Novi Sad
bUniverzitet u Kragujevcu, Agronomski fakultet, Čačak
cUniverzitet u Kragujevcu, Prirodno-matematički fakultet
dUniverzitet u Novom Sadu, Poljoprivredni fakultet

e-adresa: sonja.gvozdenac@ifvcns.ns.ac.rs

Projekat

Unapređenje proizvodnje kukuruza i sirka u uslovima stresa (MPNTR - 31073)
Izučavanje genetičke osnove poboljšanja prinosa i kvaliteta strnih žita u različitim ekološkim uslovima (MPNTR - 31092)
Ontogenetska karakterizacija filogenije bioraznovrsnosti (MPNTR - 173038)

Sažetak

Razviće insekata je visoko uslovljeno temperaturom životne sredine. Vekovima je ova činjenica korišćena u kontroli brojnosti skladišnih štetočina. Međutim, temperaturni pragovi zavise od vrste, životnog stadijuma, aklimatizacije i trajanja ekspozicije. U ovom radu ispitivani su uticaji niskih temperatura (4, -4, -10, -15 i -18°C) i trajanja ekspozicionog perioda (10, 30, 60, 120 i 180 min) na nivo preživljavanja i razviće larvi Plodia interpunctella i imaga Sitophilus oryzae i S. zeamais, dominantnih štetočina uskladištenog kukuruza u Srbiji. Dobijeni podaci su analizirani korišćenjem one-way i two-way ANOVA. Dodatno, urađena je i Probyt analysis radi utvrđivanja LT50 i LT99. Prvi značajni efekti niskih temperature registrovani su na -4°C za imaga S. oryzae sa registrovanim uginućem od 41% posle 120 i 52% posle 180 min ekspozicije. Na -10°C uginuće imaga S. zeamais bilo je značajno posle ekpozicije od 180 min (52,5%) i raslo je sa trajanjem ekspozicionog perioda. Značajna smrtnost larvi P. interpunctella registrovana je na -15°C posle 10 min (55,5%). Na -18°C larve P. interpunctella bile su osetljivije i 98% smrtnost registrovana je posle 10 min, a u istim uslovima 77,5% kod imaga S. oryzae i 68% kod S. zeamais. Two-way ANOVA ukazuje da oba faktora (temperatura i ekspozicija) značajno utiču na smrtnost testiranih štetočina, ali je temperatura uticajniji faktor. Dobijeni rezultati pokazuju da temperatura i ekspozicija predstavljaju manipulativne faktore koje treba prilagoditi vrsti, dok u kombinovanim infestacijama treba ih prilagoditi najtolerantnijoj štetočini.

Ključne reči

skladišne štetočine; bakrenasti plamenac brašna; pirinčani žižak; kukuruzni žižak; tretman niskim temperaturama; osetljivost

Reference

*** (2011) African Post Harvest Losses Information System (APHLIS). http://www.aphlis.net
Abbot, W.S. (1925) A Method of Computing the Effectiveness of an Insecticide. Journal of Economic Entomology, 18(2): 265-267
Adler, C. (2010) Low temperature to control Plodia interpunctella and Stegobium paniceum. u: 10th International Working Conference on Stored Product Protection, Proceedings, Julius-Kühn-Archiv, 425: 608-613
Affognon, H.C., Mutungi, C., Sanginga, P., Borgemeister, C. (2015) Unpacking Postharvest Losses in Sub-Saharan Africa: A Meta-Analysis. World Development, 66: 49-68
Beckett, S.J., Fields, P.G., Subramanyam, B. (2007) Disinfestation of stored products and associated structures using heat. u: Tang J., Mitcham E., Wang S. and Lurie S. [ur.] Heat Treatments for Postharvest Pest Control, UK: CAB International
Beckett, S.J. (2011) Insect and mite control by manipulating temperature and moisture before and during chemical-free storage. Journal of Stored Products Research, 47: 284-292
Bh, S., Mahroof, R., Brijwani, M. (2011) Heat treatment of grain-processing facilities for insect management: A historical overview and recent advances. Stewart Postharvest Review, 3: 1-11
Boxall, R.A. (2002) Damage and loss caused by the larger grain borer Prostephanus truncatus. Integrated. Pest Managment Reviews, 7: 105-121
Brokerhof, A.W., Jonathan, B.H. (1993) Cold tolerance of Tineola bisselliella (Lepidoptera: Tineidae) eggs at slow cooling rate. Journal of Stored Products Research, 29(4): 305-310
Cao, D., Hart, K., Pimentel, D. (2002) Postharvest Crop Losses (Insects and Mites). u: Pimentel, D. [ur.] Encyclopedia of Pest Management, Boca Raton, FL, USA: CRC Press, (Print)
Cline, L.D. (1970) Indian-Meal Moth Egg Hatch and Subsequent Larval Survival After Short Exposures to Low Temperature. Journal of Economic Entomology, 63(4): 1081-1083
David, M.H., Mills, R.B., White, G.D. (1977) Effects of Low Temperature Acclimation on Developmental Stages of Stored-product Insects. Environmental Entomology, 6(1): 181-184
de Groote, H., Kimenju, S.C., Likhayo, P., Kanampiu, F., Tefera, T., Hellin, J. (2013) Effectiveness of hermetic systems in controlling maize storage pests in Kenya. Journal of Stored Products Research, 53: 27-36
Dohino, T., Masaki, S., Matsuoka, I., Tanno, M., Takano, T. (1999) Low temperature as an alternative to fumigation for disinfesting stored products. Research Bulletin of the Plant Protection Service Japan, 35: 5-14
Evans, D.E. (1987) The survival of immature grain beetles at low temperatures. Journal of Stored Products Research, 23(2): 79-83
Fields, P.G. (1992) The control of stored-product insects and mites with extreme temperatures. Journal of Stored Products Research, 28(2): 89-118
Fields, P.G. (2001) Physical Control Methods in Plant Protection. u: Vincent C., Panneton B., Fleurat-Lessard F. [ur.] Control of Insects in Post-Harvest: Low Temperature, Berlin, Heidelberg: Springer
Fields, P.G., Timlick, B. (2010) The effect of diapause, cold acclimation and ice-nucleating bacteria on the cold-hardiness of Plodia interpunctella. u: Carvalho O.M; Fields P.G.; Adler C.S.; Arthur F.H.; Athanassiou C.G.; Campbell, J.F.; Fleurat-Lessard F.; Flinn P.W.; Hodges R.J.; Isikber A.A.; Navarro S.; Noyes R.T.; Riudavets J.; Sinha K.K.; Thorp [ur.] Proceedings of the Tenth International Working Conference of Stored Product Protection, 27 June-2 July 2010, Estoril, Portugal, Berlin, Germany: Julius Kühn-Archiv, 425
Food and Agricultural Organization of the United Nations (2010) Reducing Post-harvest Losses in Grain Supply Chains in Africa: Lessons Learned and Practical Guidelines FAO/World Bank Work. Rome: FAO Headquarters, pp. 18-19
Gvozdenac, S., Mitrović, B., Tanasković, S., Ovuka, J., Vukajlović, F., Tatić, M., Bursić, V. (2018) Suitability of different maize hybrids for development of Plodia interpunctella (Hübner). Acta agriculturae Serbica, vol. 23, br. 45, str. 3-13
Hagstrum, D.W., Flinn, P.W. (1994) Survival of Rhyzopertha dominica (Coleoptera: Bostrichidae) in Stored Wheat Under Fall and Winter Temperature Conditions. Environmental Entomology, 23(2): 390-395
Honek, A., Kocourek, F. (1990) Temperature and development time in insects: A general relationship between thermal constants. Zoologische Jahrbücher. Abteilung für Systematik, Geographie und Biologie der Tiere, 117: 401-439
IBM Corp (2010) IBM SPSS Statistics for Windows, Version 19. Armonk, NY: IBM Corp
Jarosik, V., Honek, A., Magarey, R.D., Skuhrovec, J. (2011) Developmental database for phenology models: Related insect and mite species have similar thermal requirements. Journal of Economic Entomology, 104: 1870-1876
Johnson, J.A., Valero, K.A., Hannel, M.M. (1997) Effect of low temperature storage on survival and reproduction of Indianmeal moth (Lepidoptera: Pyralidae). Crop Protection, 16(6): 519-523
Kiritani, K. (1997) The low development threshold temperature and the thermal constant in insects, mites and nematodes in Japan. Miscellaneous publication of the National Institute of Agro-Environmental Sciences, 21: 1-72
Lewthwaite, S.E., Dentener, P.R., Alexander, S.M., Bennett, K.V., Rogers, D.J., Maindonald, J.H., Connolly, P.G. (1997) High Temperature and Cold Storage Treatments to Control Indian Meal Moth, Plodia interpunctella (Hübner). Journal of Stored Products Research, 34 (2-3): 141-150
Mullen, M.A., Arbogast, R.T. (1979) Time-temperature-mortality relationships for various stored-product insect eggs and chilling times for selected commodities. J Econ Entomol, 72(4): 476-8
Nagel, R.H. (1934) The Lethal Effect of Low Temperatures on The Various Stages of The Confused Flour Beetle. Journal of Agricultural Research, 48:11
Nakakita, H., Ikenaga, H. (1997) Action of low temperature on physiology of Sitophilus zeamais Motchulsky and Sitophilus oryzae (L) (Coleoptera: Cuculionidae). Journal of Stored Products Research, 33 31-38
Rees, D.P. (2004) Insects of Stored Products. UK: Manson Publishing, Ltd
Salha, H., Kalinović, I., Ivezić, M., Rozman, V., Liška, A. (2010) Application of low temperatures for pests control in stored maize. u: Ugarčić-Hardi, Žaneta [ur.] Proceedings of the 5th International Congress Flour - Bread '09 + 7th Croatian Congress of cereal technologists Flour - Bread '09, Osijek: University of Osijek - Faculty of food technology, 608-616
Silhacek, D.L., Miller, G.L. (1972) Growth and development of the Indian meal moth, Plodia interpunctella (Lepidoptera: Phycitidae) under laboratory mass-rearing conditions. Annals of the Entomological Society of America, (65): 1084-1087
Statistical Office of the Republic of Serbia (2019) https://data.stat.gov.rs/Home/Result/130102?languageCode=sr-Cyrl
Stejskal, V., Vendl, T., Li, Z., Aulicky, R. (2019) Minimal Thermal Requirements for Development and Activity of Stored Product and Food Industry Pests (Acari, Coleoptera, Lepidoptera, Psocoptera, Diptera and Blattodea): A Review. Insects, 10: 149
Tefera, T., Kanampiu, F., de Groote, H., Hellin, J., Mugo, S., Kimenju, S., Beyene, Y., Boddupualli, P.M., Shiferaw, B., Banziger, M. (2011) The metal silo: An effective grain storage technology for reducing post-harvest insect and pathogen losses in maize while improving smallholder farmers' food security in developing countries. Crop Protection, 30: 240-245
Vukajlović, F.N., Predojević, D.Z., Milošević, S.D., Radulović, D.R., Pešić, S.B. (2017) Survival rate of Plodia interpunctella (Lepidoptera: Pyralidae): On different states of wheat and rye kernels previously infested by beetle pests. Kragujevac Journal of Science, br. 39, str. 201-208
WMO (1994) Scientific assessment of ozone depletion. u: World Meteorological Organisation global ozone research and monitoring project: Report N.37, Geneva: WMO