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Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Effects of long-term rotation and tillage practice on grain yield and protein of wheat and soil fertility on a Vertosol in a medium-rainfall temperate environment

R. D. Armstrong A C D , R. Perris A , M. Munn A , K. Dunsford A , F. Robertson B , G. J. Hollaway A and G. J. O’Leary A
+ Author Affiliations
- Author Affiliations

A Agriculture Victoria Research, Grains Innovation Park, Private Bag 260, Horsham, Vic. 3400, Australia.

B Agriculture Victoria Research, Australia.

C Department of Animal, Plant and Soil Sciences, Centre for AgriBioscience, La Trobe University, Bundoora, Vic. 3086, Australia.

D Corresponding author. Email: Roger.Armstrong@ecodev.vic.gov.au

Crop and Pasture Science 70(1) 1-15 https://doi.org/10.1071/CP17437
Submitted: 28 November 2017  Accepted: 29 October 2018   Published: 17 December 2018

Abstract

Fundamental changes in farming systems occurred throughout the medium-rainfall zone of southern Australia during the late 1990s. Pulse and canola crops replaced pastures and long-fallowing, and minimal-tillage practices were increasingly adopted. An experiment was established in 1998 to examine long-term effects of these changes on crop productivity and soil fertility. Nine rotation–tillage treatments based on 3- and 6-year cycles were compared by using wheat (Triticum aestivum) as a bioassay crop over 2001–17. Seasonal conditions during the study ranged from the Millennium Drought to the top rainfall decile.

Averaged across the 17 seasons, wheat yields were significantly lower in rotations based on continuous wheat (1.73 t/ha) or 3 years of perennial lucerne (Medicago sativa) (1.93 t/ha) and highest after traditional long-fallow (2.92 t/ha) or vetch (Vicia sativa) green manure (2.57 t/ha). Wheat yields following a pulse (2.23 t/ha) or canola (Brassica napus) (2.21 t/ha) were intermediate. Whereas rotation effects varied with seasonal rainfall, there was a long-term trend for relative yields in continuous wheat rotations to decline and those following a green manure or fallow to differ increasingly from other treatments. Compared across the same rotation (canola–wheat–pulse), average wheat yields under no-tillage (2.09 t/ha) were significant lower (P < 0.05) than under reduced (2.22 t/ha) and conventional (2.29 t/ha) tillage. By contrast, grain protein concentration increased with increasing proportion and type of legumes (green manure and pasture > pulse) in the rotation via their effect on soil mineral nitrogen (N). Lowest protein was recorded in continuous wheat and highest where at least one-third of the rotation contained a non-pulse legume, i.e. vetch green manure, lucerne or annual medic (Medicago truncatula). Soil-borne cereal fungal pathogens and nematodes generally had little effect on grain yields. Soil organic carbon (SOC) and total N stocks declined in all treatments over time, except in the lucerne and green manure treatments, where total N was maintained. Greatest declines in SOC and total N occurred in the fallow treatment.

Results from the first 20 years of experimentation suggest that differences in grain yield (and protein) of wheat were most likely the result of treatment (rotation and tillage practice) effects on soil nitrate and water (growing-season rainfall and fallow storage) rather than disease. We found no evidence that current farming systems based on use of pulses, canola and reduced tillage are less able to maintain intervening cereal yields than traditional systems. On the contrary, practices such as long-fallowing are expected to have increasing negative influence on productivity in the longer term via decreased soil C and N fertility.

Additional keywords: continuous cropping, fallowing, pasture legumes, pulses, soil carbon.


References

ABS (2011) Agricultural Commodities, Australia 2009–10. Commonwealth of Australia. Australian Bureau of Statistics, Canberra, ACT.

Adcock D, McNeill AM, McDonald GK, Armstrong RD (2007) Subsoil constraints to crop production on neutral and alkaline soils in south-eastern Australia: A review of current knowledge and management strategies. Australian Journal of Experimental Agriculture 47, 1245–1261.
Subsoil constraints to crop production on neutral and alkaline soils in south-eastern Australia: A review of current knowledge and management strategies.Crossref | GoogleScholarGoogle Scholar |

Angus JF (2001) Nitrogen supply and demand in Australian agriculture. Australian Journal of Experimental Agriculture 41, 277–288.
Nitrogen supply and demand in Australian agriculture.Crossref | GoogleScholarGoogle Scholar |

Angus JF, Grace PR (2017) Nitrogen balance in Australia and nitrogen use efficiency on Australian farms. Soil Research 55, 435–450.
Nitrogen balance in Australia and nitrogen use efficiency on Australian farms.Crossref | GoogleScholarGoogle Scholar |

Angus JF, Gupta VVSR, Pitson GD, Good AJ (2014) Effects of banded ammonia and urea fertiliser on soil properties and the growth and yield of wheat. Crop & Pasture Science 65, 337–352.
Effects of banded ammonia and urea fertiliser on soil properties and the growth and yield of wheat.Crossref | GoogleScholarGoogle Scholar |

Angus JF, Kirkegaard JA, Hunt JR, Ryan MH, Ohlander L, Peoples MB (2015) Break crops and rotations for wheat. Crop & Pasture Science 66, 523–552.
Break crops and rotations for wheat.Crossref | GoogleScholarGoogle Scholar |

Armstrong RD, McCosker K, Millar G, Kuskopf B, Johnson S, Walsh K, Probert ME, Standley J (1999) Legume and opportunity cropping systems in Central Queensland. 2. Effect of legumes on following crops. Australian Journal of Agricultural Research 50, 925–936.
Legume and opportunity cropping systems in Central Queensland. 2. Effect of legumes on following crops.Crossref | GoogleScholarGoogle Scholar |

Baldock JA, Hawke B, Sanderman J, Macdonald LM (2013) Predicting contents of carbon and its component fractions in Australian soils from diffuse reflectance mid-infrared spectra. Soil Research 51, 577–595.

Bissett MJ, O’Leary GJ (1996) Effects of conservation tillage and rotation on water infiltration in two soils in south-eastern Australia. Australian Journal of Soil Research 34, 299–308.
Effects of conservation tillage and rotation on water infiltration in two soils in south-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Cantero-Martinez C, O’Leary GJ, Connor DJ (1995) Stubble retention and nitrogen fertilisation in a fallow-wheat rainfed cropping system. 1. Soil water and nitrogen conservation, crop growth and yield. Soil & Tillage Research 34, 79–94.
Stubble retention and nitrogen fertilisation in a fallow-wheat rainfed cropping system. 1. Soil water and nitrogen conservation, crop growth and yield.Crossref | GoogleScholarGoogle Scholar |

Cantero-Martinez C, O’Leary GJ, Connor DJ (1999) Soil water and nitrogen interaction in wheat in a dry season under a fallow-wheat cropping system. Australian Journal of Experimental Agriculture 39, 29–37.
Soil water and nitrogen interaction in wheat in a dry season under a fallow-wheat cropping system.Crossref | GoogleScholarGoogle Scholar |

Chan KY, Conyers MK, Li GD, Helyar KR, Poile G, Oates A, Barchia IM (2011) Soil carbon dynamics under different cropping and pasture management in temperate Australia: Results of three long-term experiments. Soil Research 49, 320–328.
Soil carbon dynamics under different cropping and pasture management in temperate Australia: Results of three long-term experiments.Crossref | GoogleScholarGoogle Scholar |

Connor DJ, Loomis RS, Cassman KG (2011) Crop ecology. In ‘Production and management in agricultural systems’. (Cambridge University Press: Cambridge, UK)

Conyers M, Liu DL, Kirkegaard J, Orgill S, Oates A, Li G, Poile G, Kirkby C (2015) A review of organic carbon accumulation in soils within the agricultural context of southern New South Wales, Australia. Field Crops Research 184, 177–182.
A review of organic carbon accumulation in soils within the agricultural context of southern New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Dang YP, Seymour NP, Walker SR, Bell MJ, Freebairn DM (2015) Strategic tillage in no-till farming systems in Australia’s northern grains-growing regions: I. Drivers and implementation. Soil & Tillage Research 152, 104–114.
Strategic tillage in no-till farming systems in Australia’s northern grains-growing regions: I. Drivers and implementation.Crossref | GoogleScholarGoogle Scholar |

Evans J, McNeill AM, Unkovich MJ, Fettell NA, Heenan DP (2001) Net nitrogen balances for cool-season grain legume crops and contributions to wheat nitrogen uptake: a review. Australian Journal of Experimental Agriculture 41, 347–359.
Net nitrogen balances for cool-season grain legume crops and contributions to wheat nitrogen uptake: a review.Crossref | GoogleScholarGoogle Scholar |

Flower KC, Ward PR, Cordingley N, Micin SF, Craig N (2017) Rainfall, rotations and residue level affect no-tillage wheat yield and gross margin in a Mediterranean-type environment. Field Crops Research 208, 1–10.
Rainfall, rotations and residue level affect no-tillage wheat yield and gross margin in a Mediterranean-type environment.Crossref | GoogleScholarGoogle Scholar |

Hannah MC, O’Leary GJ (1995) Wheat yield response to rainfall in a long-term multi-rotation experiment in the Victorian Wimmera. Australian Journal of Experimental Agriculture 35, 951–960.
Wheat yield response to rainfall in a long-term multi-rotation experiment in the Victorian Wimmera.Crossref | GoogleScholarGoogle Scholar |

Heenan DP, Chan KY (1992) The long-term effects of rotation, tillage and stubble management on soil mineral nitrogen supply to wheat. Australian Journal of Soil Research 30, 977–988.
The long-term effects of rotation, tillage and stubble management on soil mineral nitrogen supply to wheat.Crossref | GoogleScholarGoogle Scholar |

Heenan DP, Chan KY, Knight PG (2004) Long-term impact of rotation, tillage and stubble management on the loss of soil organic carbon and nitrogen from a Chromic Luvisol. Soil & Tillage Research 76, 59–68.
Long-term impact of rotation, tillage and stubble management on the loss of soil organic carbon and nitrogen from a Chromic Luvisol.Crossref | GoogleScholarGoogle Scholar |

Hollaway GJ, Taylor SP, Eastwood RF, Hunt CH (2000) Effect of field crops on density of Pratylenchus in southeastern Australia; Part 2: P. thornei. Journal of Nematology 32, 600–608.

Hoyle FC, Murphy DV (2011) Influence of organic residues and soil incorporation on temporal measures of microbial biomass and plant available nitrogen. Plant and Soil 347, 53–64.
Influence of organic residues and soil incorporation on temporal measures of microbial biomass and plant available nitrogen.Crossref | GoogleScholarGoogle Scholar |

Incerti M, O’Leary GJ (1990) Rooting depth of wheat in the Victorian Mallee. Australian Journal of Experimental Agriculture 30, 817–824.
Rooting depth of wheat in the Victorian Mallee.Crossref | GoogleScholarGoogle Scholar |

Isbell RF (2002) ‘The Australian Soil Classification.’ (CSIRO Publishing: Melbourne)

Kirkegaard JA (1995) A review of trends in wheat yield responses to conservation cropping in Australia. Australian Journal of Experimental Agriculture 35, 835–848.
A review of trends in wheat yield responses to conservation cropping in Australia.Crossref | GoogleScholarGoogle Scholar |

Kirkegaard J, Christen O, Krupinsky J, Layzell D (2008) Break crop benefits in temperate wheat production. Field Crops Research 107, 185–195.
Break crop benefits in temperate wheat production.Crossref | GoogleScholarGoogle Scholar |

Kirkegaard JA, Peoples MB, Angus JF, Unkovich MJ (2011) Diversity and evolution of rainfed farming systems in southern Australia. In ‘Rainfed farming systems’. (Eds P Tow, I Cooper, I Partridge, C Birch) pp. 715–754. (Springer: Dordrecht, The Netherlands)

Kirkegaard JA, Conyers MK, Hunt JR, Kirkby CA, Watt M, Rebetzke GJ (2014) Sense and nonsense in conservation agriculture: principles, pragmatism and productivity in Australian mixed farming systems. Agriculture, Ecosystems & Environment 187, 133–145.
Sense and nonsense in conservation agriculture: principles, pragmatism and productivity in Australian mixed farming systems.Crossref | GoogleScholarGoogle Scholar |

Latta J, O’Leary GJ (2003) Long-term comparison of rotation and fallow tillage systems of wheat in Australia. Field Crops Research 83, 173–190.
Long-term comparison of rotation and fallow tillage systems of wheat in Australia.Crossref | GoogleScholarGoogle Scholar |

Leeper GW (1964) ‘An introduction to soil science.’ 4th edn (Melbourne University Press: Melbourne)

Lilley JM, Kirkegaard JA (2007) Seasonal variation in the value of subsoil water to wheat: simulation studies in southern New South Wales. Australian Journal of Agricultural Research 58, 1115–1128.
Seasonal variation in the value of subsoil water to wheat: simulation studies in southern New South Wales.Crossref | GoogleScholarGoogle Scholar |

Liu DL, Anwar MR, O’Leary G, Conyers MK (2014) Managing wheat stubble as an effective approach to sequester soil carbon in a semi-arid environment: Spatial modelling. Geoderma 214–215, 50–61.
Managing wheat stubble as an effective approach to sequester soil carbon in a semi-arid environment: Spatial modelling.Crossref | GoogleScholarGoogle Scholar |

Llewellyn RS, D’Emden FH, Kuehne G (2012) Extensive use of no-tillage in grain growing regions of Australia. Field Crops Research 132, 204–212.
Extensive use of no-tillage in grain growing regions of Australia.Crossref | GoogleScholarGoogle Scholar |

McCallum MC, Peoples MB, Connor DJ (2000) Contributions of nitrogen by field pea (Pisum sativum L.) in a continuous cropping sequence compared with a lucerne (Medicago sativa L.)-based pasture ley in the Victorian Wimmera. Australian Journal of Agricultural Research 51, 13–22.
Contributions of nitrogen by field pea (Pisum sativum L.) in a continuous cropping sequence compared with a lucerne (Medicago sativa L.)-based pasture ley in the Victorian Wimmera.Crossref | GoogleScholarGoogle Scholar |

McCallum MH, Connor DJ, O’Leary GJ (2001) Water use by lucerne and effects on crops in the Victorian Wimmera. Australian Journal of Agricultural Research 52, 193–201.
Water use by lucerne and effects on crops in the Victorian Wimmera.Crossref | GoogleScholarGoogle Scholar |

O’Leary GJ, Connor DJ (1997a) Stubble retention and tillage in a semi-arid environment: 1. Soil water accumulation during fallow. Field Crops Research 52, 209–219.
Stubble retention and tillage in a semi-arid environment: 1. Soil water accumulation during fallow.Crossref | GoogleScholarGoogle Scholar |

O’Leary GJ, Connor DJ (1997b) Stubble retention and tillage in a semi-arid environment: 2. Soil mineral nitrogen accumulation during fallow. Field Crops Research 52, 221–229.
Stubble retention and tillage in a semi-arid environment: 2. Soil mineral nitrogen accumulation during fallow.Crossref | GoogleScholarGoogle Scholar |

O’Leary GJ, Connor DJ (1997c) Stubble retention and tillage in a semi-arid environment: 3. Response of wheat. Field Crops Research 54, 39–50.
Stubble retention and tillage in a semi-arid environment: 3. Response of wheat.Crossref | GoogleScholarGoogle Scholar |

O’Leary GJ, Walker S, Joshi NL, White J (2011) Water availability and use in rainfed farming systems: their relationship to system structure, operation and management. In ‘Rainfed farming systems. Part 1. Principles and their application’. Ch. 4. (Eds P Tow, I Cooper, I Partridge, C Birch) pp. 101–132. (Springer Science+Business Media B.V: London) 10.1007/978-1-4020-9132-2_4

Ophel-Keller K, McKay A, Hartley D, Herdina , Curran J (2008) Development of a routine DNA-based testing service for soilborne diseases in Australia. Australasian Plant Pathology 37, 243–253.
Development of a routine DNA-based testing service for soilborne diseases in Australia.Crossref | GoogleScholarGoogle Scholar |

Peoples MB, Swan AD, Goward L, Kirkegaard JA, Hunt JR, Li GD, Schwenke GD, Herridge DF, Moodie M, Wilhelm N, Potter T, Denton MDI, Browne C, Phillips LA, Khan DF (2017) Soil mineral nitrogen benefits derived from legumes and comparisons of the apparent recovery of legume or fertiliser nitrogen by wheat. Soil Research 55, 600–615.
Soil mineral nitrogen benefits derived from legumes and comparisons of the apparent recovery of legume or fertiliser nitrogen by wheat.Crossref | GoogleScholarGoogle Scholar |

Poulton PR (1995) The importance of long-term trials in understanding sustainable farming systems: the Rothamsted experience. Australian Journal of Experimental Agriculture 35, 825–834.
The importance of long-term trials in understanding sustainable farming systems: the Rothamsted experience.Crossref | GoogleScholarGoogle Scholar |

Powlson DS, Johnson AE (1994) Long-term field experiments: their importance in understanding sustainable land use. In ‘Soil resilience and sustainable land use’. (Eds DJ Greenland, I Szabolcs) pp. 367–394. (CAB International: Wallingford, UK)

Rayment GE, Lyons D (2011) ‘Soil chemical methods—Australasia.’ (CSIRO Publishing: Melbourne)

Robertson MJ, Lawes RA, Bathgate A, Byrne F, White P, Sands R (2010) Determinants of the proportion of break crops on Western Australian broadacre farms. Crop & Pasture Science 61, 203–213.
Determinants of the proportion of break crops on Western Australian broadacre farms.Crossref | GoogleScholarGoogle Scholar |

Robertson F, Armstrong R, Partington D, Perris R, Oliver I, Aumann C, Crawford D, Rees D (2015) Effect of cropping practices on soil organic carbon: evidence from long-term field experiments in Victoria, Australia. Soil Research 53, 636–646.
Effect of cropping practices on soil organic carbon: evidence from long-term field experiments in Victoria, Australia.Crossref | GoogleScholarGoogle Scholar |

Roper MM, Milroy SP, Poole ML (2012) Green and brown manures in dryland wheat production systems in Mediterranean-type environments. Advances in Agronomy 117, 275–313.

Searle PL (1984) The Bertholet or indophenol reaction and its use in the analytical chemistry of nitrogen. Analyst 109, 549–568.
The Bertholet or indophenol reaction and its use in the analytical chemistry of nitrogen.Crossref | GoogleScholarGoogle Scholar |

Taylor SP, Hollaway GJ, Hunt CH (2000) Effect of field crops on population densities of Pratylenchus neglectus and P. thornei in southeastern Australia; Part 1: P. neglectus. Journal of Nematology 32, 591–599.

Tuohey CL, Robson AD (1980) The effect of cropping after medic and non-medic pastures on soil total N, and on the grain yield and nitrogen content of wheat. Australian Journal of Experimental Agriculture and Animal Husbandry 20, 220–228.
The effect of cropping after medic and non-medic pastures on soil total N, and on the grain yield and nitrogen content of wheat.Crossref | GoogleScholarGoogle Scholar |

van Herwaarden AF, Farquhar GD, Angus JF, Richards RA, Howe JN (1998) ‘Haying-off’, the negative grain yield response of dryland wheat to nitrogen fertiliser. I. Biomass, grain yield, and water use. Australian Journal of Agricultural Research 49, 1067–1081.
‘Haying-off’, the negative grain yield response of dryland wheat to nitrogen fertiliser. I. Biomass, grain yield, and water use.Crossref | GoogleScholarGoogle Scholar |

Vanstone VA, Hollaway GJ, Stirling GR (2008) Managing nematode pests in the southern and western regions of the Australian cereal industry: continuing progress in a challenging environment. Australasian Plant Pathology 37, 220–234.
Managing nematode pests in the southern and western regions of the Australian cereal industry: continuing progress in a challenging environment.Crossref | GoogleScholarGoogle Scholar |