TitleImproving biological control of stalk borers in sugarcane by applying silicon as a soil amendment
Journal titleJournal of Plant Protection Research
Divisions of PASNauki Biologiczne i Rolnicze
PublisherInstitute of Plant Protection – National Research Institute ; Committee of Plant Protection PAS
IdentifiereISSN 1899–007X ; ISSN 1427–4345
ReferencesPolaszek (1993), Taxonomy of the Telenomus busseolae species - complex egg parasitoids of cereal stem borers ) of, Bulletin Entomological Research, 83, 221. ; Ullah (2012), Efficacy of Trichogramma chilonis Ishii in comparison with two commonly used insecticides against sugarcane stem borer Chilo infuscatellus snellen of and, Journal Animal Plant Sciences, 22, 463. ; White (2013), Sugarcane borer resistance in sugarcane as affected by silicon applications in potting medium of the American Society of Sugar Cane Technologists, Journal, 33, 38. ; Nikpay (2015), Response of sugarcane and sugarcane stalk borers Sesamia spp to calcium silicate fertilization, Neotropical Entomology, 44, 498. ; Zhen (1988), Study of toxigenic fungi and their mycotoxins in mildewed sugar - cane Japanese Society of, Mycotoxicology, 1, 37. ; Legaspi (1999), Laboratory and field evaluations of biorational insecticides against the Mexican rice borer and a parasitoid of, Journal Economic Entomology, 92, 804. ; White (2008), Re - evaluation of sugarcane borer bioeconomics in Louisiana, Crop Protection, 27, 1256. ; Nikpay (null), In press Efficacy of silicon formulations on sugarcane stalk borers , quality characteristics and parasitism rate on five commercial varieties Proceedings of the National of , Section :, Academy Sciences India B Biological Sciences, doi.org/10.1007/s40011-015-0596-8 ; Reynolds (2016), Silicon : potential to promote direct and indirect effects on plant defense against arthropod pests in agriculture in, Frontiers Plant Science, 7, 744. ; Anderson (2001), Effect of silicon on expression of resistance to sugarcane borer ( Diatraea saccharalis ) American of Sugarcane Technologists, Journal Society, 21, 43. ; Long (1972), Insect pests of sugar cane of, Annual Review Entomology, 17, 149. ; Keeping (2014), Silicon reduces impact of plant nitrogen in promoting stalk borer ( Eldana saccharina ) but not sugarcane thrips ( Fulmekiola serrata ) infestations in sugarcane in, Frontiers Plant Science, 5, 289. ; Askarianzadeh (2008), Evaluation of damage caused by stalk borers Sesamia spp , on sugarcane quality in Iran, Entomological Research, 38, 263. ; Ma (2004), Role of silicon in enhancing the resistance of plants to biotic and abiotic stresses and, Soil Science Plant Nutrition, 50, 11. ; Korndörfer (2011), Induction of insect plant resistance to the spittlebug Mahanarva fimbriolata Stål in sugarcane by silicon application, Neotropical Entomology, 40, 387. ; Showler (2012), Ecology and tactics of control for three sugarcane stalkboring species in the Western Hemisphere and Africa In : Sugarcane Production Cultivation and Uses ed New York USA, Nova Science, 1. ; Juma (2015), Influence of plant silicon in Busseola fusca larvae - Poaceae interactions of, Bulletin Entomological Research, 105, 253. ; Sidhu (2013), Effect of silicon soil amendment on performance of sugarcane borer , Diatraea saccharalis on rice of, Bulletin Entomological Research, 103, 656. ; Kvedaras (2010), Silicon enhances natural enemy attraction and biological control through induced plant defences of, Bulletin Entomological Research, 100, 367. ; Jones (1967), Silica in soils , plants and animals in, Advances Agronomy, 19, 107. ; Goebel (2014), The economic impact of sugarcane moth borers in Indonesia, Sugar Tech, 16, 405. ; Nikpay (2014), Field applications of silicon - based fertilizers against sugarcane yellow mite Oligonychus sacchari, Sugar Tech, 16, 319. ; Reynolds (2009), Silicon - augmented resistance of plants to herbivorous insects : a review of, Annals Applied Biology, 155, 171. ; Ma (2006), Silicon uptake and accumulation in higher plants in, Trends Plant Science, 11, 392. ; Veiga (2013), Quality control of Cotesia flavipes from different Brazilian bio - factories and, Biocontrol Science Technology, 23, 665. ; Nikpay (2014), Assessment of natural parasitism of sugarcane moth borers Sesamia spp by Telenomus busseolae, Sugar Tech, 16, 325. ; Savant (1999), Silicon nutrition and sugarcane production : a review of, Journal Plant Nutrition, 22, 1853. ; Sallam (2006), A review of sugarcane stem borers and their natural enemies in Asia and Indian Ocean Islands : an Australian perspective de la entomologique, Annales Societe de France, 42, 263. ; Kvedaras (2007), Silicon impedes stalk penetration by the borer Eldana saccharina in sugarcane, Entomologia Experimentalis et Applicata, 125, 103. ; Goebel (2010), Do Thi Biocontrol of Chilo sacchariphagus a key pest of sugarcane : lessons from the past and future prospects Sugar Cane, International, 28, 128. ; Khan (2014), Biological control of sugarcane top - borer Scirpophaga excerptalis through different release levels of Telenomus beneficiens of and, Journal Agricultural Science Technology, 16, 497. ; Keeping (2013), Soil silicon amendments increase resistance of sugarcane to stalk borer Eldana saccharina Walker under field conditions and, Plant Soil, 363, 297.