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RESEARCH ARTICLE
Contents Vol 61(11)

Utilising dual-purpose crops in an Australian high-rainfall livestock production system to increase meat and wool production. 1. Forage production and crop yields

Shawn R. McGrath https://orcid.org/0000-0002-4737-4267 A D E , Cesar S. Pinares-Patiño B , Scott E. McDonald C , John A. Kirkegaard C , Richard J. Simpson C and Andrew D. Moore C
+ Author Affiliations
- Author Affiliations

A Fred Morley Centre, Charles Sturt University, 588 Boorooma Street, Wagga Wagga, NSW 2678, Australia.

B New Zealand Peru Dairy Project, PO Box 85016, Lincoln 7647, New Zealand.

C CSIRO Agriculture and Food, GPO Box 1700, Canberra, ACT 2601, Australia.

D Graham Centre for Agricultural Innovation, 588 Boorooma Street, Wagga Wagga, NSW 2678, Australia.

E Corresponding author. Email: shmcgrath@csu.edu.au

Animal Production Science 61(11) 1062-1073 https://doi.org/10.1071/AN20432
Submitted: 27 July 2020  Accepted: 22 October 2020   Published: 19 April 2021

Abstract

Context: Growing of dual-purpose crops for grazing by livestock has increased in popularity in the high-rainfall zone of southern Australia, a livestock production zone traditionally based on permanent perennial grass species.

Aims: A systems experiment examined the impact on pasture forage availability, sheep grazing days and crop yields when one-third of a farmlet was sown to dual-purpose wheat (Triticum aestivum L.) and canola (Brassica napus L.) crops.

Methods: The experiment comprised nine experimental units (farmlets) divided into three treatments with three replicate farmlets per treatment: control farmlets sown to phalaris (Phalaris aquatica L.)-based pastures; and two treatments with grazing of crops prioritised for either ewes or their progeny. Control farmlets comprised four sub-paddocks (0.231 ha each) in 2013 and six sub-paddocks in 2014–2016. Farmlets in treatments that included dual-purpose crops comprised six sub-paddocks (0.231 ha), with two sub-paddocks sown to permanent pasture and the other four sub-paddocks supporting a pasture–pasture–canola–wheat rotation.

Key results: Crops were sown in February or early March and grazing commenced by mid-May in all years. Canola was grazed first in the sequence in 3 of 4 years. Treatments had similar total sheep grazing days per year, except for the progeny-prioritised treatment in 2014 when agistment wethers were introduced to utilise excess crop forage. Grazing did not affect wheat yields (3.9 vs 3.7 t/ha, P > 0.05) but did reduce canola yields (3.6 vs 3.0 t/ha, P = 0.007). Pasture availability (dry matter per ha in the pasture paddock at entry by sheep) was higher in the control during late summer and autumn when the crops were being established; however, resting of pastures during late autumn and winter while crops were grazed resulted in no difference in pasture availability among treatments during spring.

Conclusion and implications: The key feed-gap is in late summer and autumn when dual-purpose crops are included in the system. Early and timely sowing of crops increases the grazing opportunity from dual-purpose crops before lock-up. Growing wheat plus canola provided some hedge against poor establishment and/or slow growth rates in one of the crops.

Keywords: canola, dual-purpose crops, feedbase, forage, grazing, sheep, weeds, wheat.


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