Evolution and spread of herbicide resistant barley grass (Hordeum glaucum Steud. And H. leporinum Link.) in South Australia
Date
2004
Authors
Hidayat, I.
Baker, J.
Preston, C.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Conference paper
Citation
Weed management : balancing people, planet, profit : 14th Australian Weeds Conference : papers & proceedings / B.M. Sindel and S.B. Johnson (eds.): pp.425-427
Statement of Responsibility
Conference Name
Australian Weeds Conference (14th : 2004 : Wagga Wagga, N.S.W.)
Abstract
The barley grasses (H. glaucum and H. leporinum (H. murinum subsp. leporinum)) are important weeds of crops and pastures in South Australia. Populations of both species have evolved resistance to paraquat, primarily following intensive use of paraquat for winter weed control in lucerne (Medicago sativa) crops. In the past few years, agricultural consultants have been reporting an increase in problems with controlling Hordeum spp. populations in lucerne crops in South Australia. This research was conducted to determine the relative importance of seed movement compared with independent evolution for paraquat resistance in Hordeum spp. H. glaucum and H. leporinum seeds were collected from lucerne fields and fields immediately adjacent to the lucerne fields at several sites in South Australia. The seed was tested to determine which fields contained resistant populations. As H. glaucum and H. leporinum are self pollinated, RAPD technology was used to examine diversity within and between populations. Individual resistant populations contained less genetic diversity than adjacent susceptible populations, indicating the existence of a selection bottleneck caused by herbicide use. Most resistant populations were different genotypes; however, two resistant populations separated by 7 km appeared to be the same genotype. These results suggest that both independent evolution and seed movement are important in the distribution of paraquat-resistant Hordeum spp. in South Australia.