Australian Herbicide Resistance Initiative (AHRI)
2011 Articles
![]() |
The potential for pyroxasulfone to selectivity to control resistant and suceptible rigid rygrass (Lolium rigidum) biotypes in australian grain crop production systems M Walsh, T Fowler, B Crowe, T Ambe & S Powles, Weed Technology, 25:30–37 ![]() |
![]() |
Glyphosate resistance in perennial Sorghum halapense (Johnsongrass), endowed by reduced glyphosate translocation and leaf uptake M Vila-Aiub, M Balbi, A Distefano, L Fernandez, E Hopp, Q Yu & S Powles, Pest Management science, 68.3 430-436. ![]() |
![]() |
Does cutting herbicide rates threaten the sustainability of weed management in cropping systems M Renton, A Diggle, S Manalil & S Powles, Journal of Theoretical Biology, 283: 14–27 ![]() |
![]() |
Towards large-scale prediction of lolium rigidum I. Can climate be used to predict dormancy parameters? M Owen, P Michael, M Renton, K Steadman & S Powles, Weed Research, online ![]() |
![]() |
Towards large-scale prediction of Lolium rigidum emeregence II. correlation between dormancy and herbicide resistance levels suggest an impact of cropping systems M Owen, P Michael, M Renton, K Steadman & S Powles, Weed Research, online ![]() |
![]() |
Rapid Evolution of Herbicide Resistance by Low Herbicide Dosages S Manalil, R Busi, M Renton & S Powles, Weed Science, 59: 210-217 ![]() |
![]() |
Gene flow increases the initial frequency of herbicide resistance alleles in unselected Lolium rigidum populations. R Busi, S Michel, S Powles & C Delye, Agriculture, Ecosystems and Environment, 142: 403– 409 ![]() |
![]() |
Genetic control of a cytochrome P450 metabolismbased herbicide resistance mechanism in Lolium rigidum R Busi, M Vila-Aiub & S Powles, Heredity, 106: 817-824 ![]() |
![]() |
Reduced Sensitivity to paraquat evolves under selection with low glyphosate doses in lolium rigidum R Busi & S Powles, Agronomy for sustainable development, 31.3: 525-531. ![]() |