Energy requirements for alleviation of subsoil compaction and the effect of deep tillage on sunflower (Helianthus annus L.) yield in the western region of Argentina’s Rolling Pampa
2019
Botta, G.F., Universidad de Buenos Aires (Argentina);Universidad Nacional de Lujan, Lujan, Buenos Aires Province (Argentina);Universidad Nacional de La Pampa, Santa Rosa, La Pampa Province (Argentina) | Antille, D.L., CSIRO Agriculture and Food, Canberra (Australia) | Bienvenido, F., Universidad de Almeria (Spain) | Rivero, D., Universidad Nacional de La Pampa, Santa Rosa, La Pampa Province (Argentina) | Contessotto, E.E., Universidad Nacional de Lujan, Lujan, Buenos Aires Province (Argentina)
The objectives of this work were to: (a) quantify changes in the physical properties of a medium-textured soil as a result of tillage operations (subsoiling, chiselling) conducted over two consecutive crop seasons, (b) determine the effect of deep tillage on sunflower yield, and (c) quantify fuel consumption and draft requirements of deep tillage on soil affected by compaction. The experiment was conducted at a site located in the western region of the Argentinean Rolling Pampas, which has a loamy Entic haplustoll soil. Experimental treatments consisted of two tillage operations and a control plot, which had been under zero-tillage for more than 8 years. Deep soil loosening was conducted with a 117 kW, FWA tractor as follows: (1) a V-frame 7-shank subsoiler with 35-mm wide and 550-mm long tines. Shanks were spaced at 500 mm apart, and operated at 450 mm deep at 5.20 km•hE−1 (2) a chisel plow with 11 rigidly-mounted, curved shanks, spaced at 285-mm apart, and operated at 280-mm deep and 6.12 km hE−1. The tillage treatments were applied to plots, which were laid-out in a completely randomized block design. This work showed that: (a) the beneficial effects of subsoiling and chiselling on removing soil/subsoil compaction lasted for 2 years, (b) these effects became negligible after that time when traffic intensity was greater than about 95 Mg•km E−1•ha E−1 due to re-compaction/re-consolidation of the soil profile, particularly in the 300-600 mm depth interval, and (c) the frequency of subsoiling should be therefore every two years if CTF was not practiced. From agronomic and economic perspectives, the results showed that: (a) sunflower yields were sufficiently high to recover the cost of subsoiling, which cost between 18 and 52 USD•ha E−1, (b) in the second year, the yields increases represented a net profit of 12 USD•haE−1, (c) the chisel plow had lower fuel consumption and draft per shank than the subsoiler because of the relative depths at which tines were operated in both units, and (d) the total cross-sectional area loosened by the chisel plow was 14 % higher than that of the subsoiler, but its overall efficiency was about 85 % less compared with the subsoiler.
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