Browsing by Author "Garlick, K"
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Item Field evaluation of selected introgression clones for their resistance to root-knot nematodes : ASSCT peer-reviewed paper(ASSCT, 2019) Bhuiyan, SA; Piperidis, G; Hu, F; Parfitt, R; Garlick, K; Quinn, B; Jakins, ASugarcane nematodes, root-knot (RKN) and root-lesion (RLN), cause an estimated loss of over $80 million per year to the Australian sugar industry. In particular, RKN is a major problem if sugarcane is planted in sandy soil. No effective control method is available for sugarcane nematodes in Australia. Crop rotation and fallowing provide only short-term control and nematode populations usually bounce back within 12 months after these control methods. The use of nematicides is restricted due to inconsistent results, difficulty in application and the highly toxic nature of the chemicals to humans and the environment. No commercial cultivars are resistant to sugarcane nematodes. Recent glasshouse trials in Australia suggested that clones from introgression populations, originating from crossing between commercial canes and Saccharum spontaneum or Erianthus arundinaceus, possessed good resistance to root knot nematodes. Field trials were established to determine the reliability of glasshouse resistance-screening results. Eight introgression clones that showed resistance to RKN in glasshouse trials were evaluated in a field in Wallaville, north of Childers. Test clones were planted in plots with high and low nematode populations and maintained up to the second ratoon crop. Trial plots were assessed for nematodes each year 6 weeks after planting and ratooning. Three years of results showed that 7 of 8 introgression clones consistently maintained low numbers of RKN until the end of the trial period, and significantly (PItem The bacterial biocontrol agent pasteuria penetrans can help control root-knot nematode on sugarcane(ASSCT, 2018) Bhuiyan, SA; Stirling, GR; Garlick, K; Anderson, J; Wickramasinghe, P; Wong, EROOT-KNOT NEMATODE (Meloidogyne javanica) is one of the most damaging pests of sugarcane, often causing heavy losses in coarse-textured sandy soils. The bacterial parasite Pasteuria penetrans is a potentially useful biocontrol agent and in a 2015–16 survey it was found at relatively high levels in three of the 126 sugarcane fields surveyed. Soil was collected from one of the heavily-infested fields and a pot experiment established to compare root-knot nematode multiplication in naturally infested soil and in soil where the endospores of P. penetrans had been killed by autoclaving. After 37 weeks, the root-knot nematode population was very high in the autoclaved soil but numbers of root-knot nematode eggs and second-stage juveniles were 99% lower in the soil that was naturally-infested with P. penetrans. A subsequent pot experiment with mass-produced endospores showed that when soil contained more than 6 000 endospores/g soil, root galling was not as severe as in non-infested soil and the number of root-knot nematode eggs was reduced by 71–82%. These results indicate that when high endospore concentrations are continually maintained in the root zone, P. penetrans will markedly reduce populations of one of the most important nematode pests of sugarcane.Item Unknown to known - Sclerotium rolfsii can cause severe germination failure and seedling death in sugarcane : ASSCT poster paper(ASSCT, 2019) Bhuiyan, SA; Wickramasinghe, P; Mudge, SR; Adhikari, P; Garlick, K