Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Herbicide efficacy for control of annual ryegrass (Lolium rigidum Gaud.) is influenced more by wheat seeding rate than row spacing

Deirdre Lemerle A C , Peter Lockley A , Eric Koetz A and Simon Diffey B
+ Author Affiliations
- Author Affiliations

A Graham Centre for Agricultural Innovation (Charles Sturt University & NSW Department of Primary Industries), Locked Bag 588, Wagga Wagga, NSW 2678, Australia.

B National Institute for Applied Statistics Research Australia, School of Mathematics and Applied Statistics, University of Wollongong, Wollongong, NSW 2522, Australia.

C Corresponding author. Email: dlemerle@csu.edu.au

Crop and Pasture Science 64(7) 708-715 https://doi.org/10.1071/CP13211
Submitted: 14 June 2013  Accepted: 13 August 2013   Published: 4 October 2013

Abstract

Conservation cropping systems with no-till and stubble retention improve soil condition and water conservation. However, tillage is replaced by herbicides for weed control in these systems, increasing the threat of herbicide resistance. In the medium to high rainfall zones of the southern wheatbelt of Australia and under irrigation, wider row spacing is used to enable seeding into heavy stubble loads and to avoid stubble burning. Some evidence suggests that wider rows lead to reduced crop competitive ability and crop yields, greater herbicide dependence, and increased spread of resistance. Our aim was to test the hypothesis that increasing seeding rate compensated for reduced competitive ability at wider row spacings, especially when herbicide performance was suboptimal. We examined the impact of two wheat row spacings (18 and 36 cm) and five seeding rates (resulting in a range of densities of ~80–700 plants/m2) on control of Lolium rigidum with five rates of post-emergence application of diclofop-methyl (Hoegrass®), ranging from label rate to lower rates, over two growing seasons. In the presence of L. rigidum, wheat grain yield was unaffected by row spacing but was significantly reduced at low seeding rates, especially at lower herbicide rates. Lolium rigidum was suppressed at higher crop densities but was also unaffected by row spacing. Grain yield was maximised when post-emergence herbicide was applied at 60–100% of the recommended dose at wheat densities >~300 plants/m2. Significant levels of the weed remained in the crop at anthesis in all treatments. Weed dry matter ranged from 525 g/m2 at low crop densities and with no herbicide to 150 g/m2 with the recommended rate of herbicide and high wheat densities. The implications of manipulating crop competitive ability to improve weed control are discussed, especially in conditions where herbicide performance is unreliable due to weeds developing herbicide resistance or adverse environmental conditions.

Additional keywords: competition, herbicides, ryegrass, weed ecology, weeds in grain, wheat.


References

Borger CPD, Hashem A, Pathan S (2010) Manipulating crop row orientation to suppress weeds and increase crop yield. Weed Science 58, 174–178.
Manipulating crop row orientation to suppress weeds and increase crop yield.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXlsVait7w%3D&md5=4b13feeabd61d6d96160bc570eec6084CAS |

Brain P, Wilson BJ, Wright KJ, Seavers GP, Caseley JC (1999) Modelling the effect of crop and weed on herbicide efficacy in wheat. Weed Research 39, 21–35.
Modelling the effect of crop and weed on herbicide efficacy in wheat.Crossref | GoogleScholarGoogle Scholar |

Christensen S (1994) Crop weed competition and herbicide performance. Weed Research 34, 29–36.
Crop weed competition and herbicide performance.Crossref | GoogleScholarGoogle Scholar |

Downing RG (1921) Thick or thin seeding for wheat? Agricultural Gazette of N.S.W., p. 205.

Fischer RA, Miles RE (1973) The role of spatial pattern in competition between crop plants and weeds: a theoretical analysis. Mathematical Biosciences 18, 335–350.

Gilmour AR, Cullis BR, Welham SJ, Thompson R (2002) ‘ASReml reference manual.’ (NSW Agriculture: Orange, NSW)

Harper JL (1977) ‘Population biology of plants.’ (Academic Press: London)

Heap IM (2013) The international survey of herbicide resistant weeds. Available at: www.weedscience.com.

Howden SM, Gifford RG, Meinke H (2010) Grains. In ‘Adapting agriculture to climate change: preparing Australian agriculture, forestry and fisheries for the future’. (Eds C Stokes, M Howden) (CSIRO Publishing: Melbourne)

Jones R, Alemseged Y, Medd R, Vere D (2000) The distribution, density and economic impact of weeds in the Australian annual winter cropping system. CRC for Weed Management Systems, Technical Series No. 4. pp. 1–125.

Lemerle D, Verbeek B, Coombes N (1996) Interaction between wheat (Triticum aestivum) and diclofop to reduce the cost of annual ryegrass (Lolium rigidum) control. Weed Science 44, 634–639.

Lemerle D, Gill GS, Murphy CE, Walker SR, Cousens RD, Mokhtari S, Peltzer S, Coleman R, Luckett DJ (2001) Genetic improvement and agronomy for enhanced wheat competitiveness and weed management. Australian Journal of Agricultural Research 52, 527–548.
Genetic improvement and agronomy for enhanced wheat competitiveness and weed management.Crossref | GoogleScholarGoogle Scholar |

Lemerle D, Cousens RD, Gill GS, Peltzer SJ, Moerkerk M, Murphy CE, Collins D, Cullis BR (2004) Reliability of higher seeding rates of wheat for increased competitiveness with weeds. The Journal of Agricultural Science 142, 395–409.
Reliability of higher seeding rates of wheat for increased competitiveness with weeds.Crossref | GoogleScholarGoogle Scholar |

Medd RW, Auld BA, Kemp DR, Murison RD (1985) Competitive interactions for cultural control of Lolium rigidum Gaud in wheat. Australian Journal of Agricultural Research 36, 361–371.
Competitive interactions for cultural control of Lolium rigidum Gaud in wheat.Crossref | GoogleScholarGoogle Scholar |

Mohler CL (2001) Enhancing the competitive ability of crops. In ‘Ecological management of agricultural weeds’. (Eds M Liebman, CL Mohler, CP Staver) (Cambridge University Press: Cambridge, UK)

Olsen J, Kristensen L, Weiner J, Griepentrog HW (2005) Increasing density and spatial uniformity increase weed suppression by spring wheat. Weed Research 45, 316–321.
Increasing density and spatial uniformity increase weed suppression by spring wheat.Crossref | GoogleScholarGoogle Scholar |

Peltzer SC, Hashem A, Osten VA, Gupta ML, Diggle AJ, Riethmuller GP, Douglas A, Moore JA, Koetz EA (2009) Weed management in wide-row cropping systems: a review of current practices and risk for Australian farming systems. Crop & Pasture Science 60, 395–406.
Weed management in wide-row cropping systems: a review of current practices and risk for Australian farming systems.Crossref | GoogleScholarGoogle Scholar |

Salonen J (1992) Efficacy of reduced herbicide doses in spring cereals of different competitive ability. Weed Research 32, 483–491.
Efficacy of reduced herbicide doses in spring cereals of different competitive ability.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3sXhsVWktrY%3D&md5=ae835ef3e483d3401547578548284818CAS |

Scott BJ, Eberbach PL, Evans J, Wade LJ (2010) ‘EH Graham Centre Monograph No. 1. Stubble retention in cropping systems in Southern Australia: benefits and challenges.’ (Eds EH Clayton, HM Burns) (Industry & Investment NSW: Orange, NSW) Available at: www.csu.edu.au/research/grahamcentre/research/Pub_downloads/Monograph-1-Stubble-Retention-Online-version-12-08-10.pdf

Scott BJ, Martin P, Riethmuller GP (2013) ‘Graham Centre Monograph No. 3. Row spacing of winter crops in broad scale agriculture in southern Australia.’ (Eds T Nugent, C Nicholls) (NSW Department of Primary Industries: Orange, NSW) Available at: www.csu.edu.au/research/grahamcentre/research/publications/row-spacing-monograph.htm

Verbyla AP, Cullis BR, Kenward MG, Welham SJ (1999) The analysis of designed experiments and longitudinal data using smoothing splines (with discussion). Applied Statistics 48, 269–311.
The analysis of designed experiments and longitudinal data using smoothing splines (with discussion).Crossref | GoogleScholarGoogle Scholar |

Walker SR, Medd RW, Robinson GR, Cullis BR (2002) Improved management of Avena ludoviciana and Phalaris paradoxa with more densely sown wheat and less herbicide. Weed Research 42, 257–270.
Improved management of Avena ludoviciana and Phalaris paradoxa with more densely sown wheat and less herbicide.Crossref | GoogleScholarGoogle Scholar |