Article Title | Field evaluation of controlled traffic farming in central Europe using commercially available machinery |
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ERA Journal ID | 3442 |
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Article Category | Article |
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Authors | Galambosova, J. (Author), Macak, M. (Author), Rataj, V. (Author), Antille, D. L. (Author), Godwin, R. J. (Author), Chamen, W. C. T. (Author), Zitnak, M. (Author), Vitazkova, B. (Author), Dudak, J. (Author) and Chlpik, J. (Author) |
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Journal Title | Transactions of the ASABE |
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Journal Citation | 60 (3), pp. 657-669 |
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Number of Pages | 13 |
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Year | 2017 |
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Place of Publication | United States |
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ISSN | 2151-0032 |
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| 2151-0040 |
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Digital Object Identifier (DOI) | https://doi.org/10.13031/trans.11833 |
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Web Address (URL) | http://elibrary.asabe.org/ |
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Abstract | The progressive increase in the size and weight of farm machinery causes concerns due to the increased risk of soil compaction that arises from non-organized vehicle traffic. Controlled traffic farming (CTF) offers an effective means to manage compaction by confining all load-bearing wheels to the least possible area of permanent traffic lanes. Although CTF is relatively well-established in Australia and in some countries in Northern Europe, its benefits and suitability for Central European conditions have not been demonstrated. A long-term experimental site was established in 2010 in Nitra, Slovakia, using a 6 m 'OutTrac-CTF' system with shallow non-inversion tillage practices. The 16 ha experimental field of loam soil is representative of land used for arable cropping in Central Europe. Four traffic intensities (non-trafficked, one traffic event per year with a single pass, multiple passes with permanent traffic lanes, and random traffic) were evaluated using two traffic systems: controlled (CTF) and non-controlled traffic farming (referred to as random traffic farming or RTF). This article reports the findings derived from the first four years of the project and focuses on the effects of traffic systems on yields observed in cereal crops (winter wheat, spring barley, and maize) grown at the site in a rotation cycle. Significant differences (p < 0.1) in yield are reported due to the heterogeneity of the field and the seasonal effect of weather. The results of this investigation suggest that CTF systems have potential to increase production sustainably in arable farming systems in Central Europe. Well-designed CTF systems using commercially available machinery allow for reductions in the area affected by traffic of up to 50% compared with random, non-organized traffic systems. Results also show that in years when soil moisture was not limiting, the yield penalty from a single (annual) machine pass was relatively small (~5%). However, in dry years, compaction caused by multiple machinery passes may lead to yield losses of up to 33%. When considering the ratio of non-trafficked to trafficked area within the different CTF systems evaluated in this study, yield improvements of up to 0.5 t ha-1 for cereals are possible when converting from RTF to CTF. Given the assumptions made in the analyses, such yield increases translate into increased revenues of up to 117 USD ha-1 (1 Euro= 1.1 USD). For Central European farming systems, the main benefit of CTF appears to be improved efficiency and enhanced agronomic stability, especially in dry seasons, where the significant yield penalty from machinery passes is likely. |
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Keywords | crop performance, economic return, field efficiency, soil compaction, traffic systems, yield penalty |
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ANZSRC Field of Research 2020 | 300207. Agricultural systems analysis and modelling |
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| 300403. Agronomy |
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| 409901. Agricultural engineering |
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Public Notes | File reproduced in accordance with the copyright policy of the publisher/author. |
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Byline Affiliations | Slovak University of Agriculture |
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| National Centre for Engineering in Agriculture |
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| Harper Adams University, United Kingdom |
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| Controlled Traffic Farming Network, United Kingdom |
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Institution of Origin | University of Southern Queensland |
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