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Anil, A.S., Sharma, V.K., Jimenez-Ballesta, R., Parihar, C.M., Datta, S.P., Barman, M., Chobhe, K.A., Kumawat, C., Patra, A. & Jatav, S.S. 2022. Land. 11 (9). Article number 1488 https://doi.org/10.3390/land11091488
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Dey, A., Patel, S. & Singh, H.P. 2022. Pages 204-218. In. Kumar, P., Pandey, S.K., Singh, S.K., Singh, S.S. & Singh, V.K. (Eds.) Sustainable Agriculture Systems and Technologies. John Wiley & Sons. Chichester, UK. 376 pages. https://doi.org/10.1002/9781119808565.ch9
Kaduwal, S., Karki, T.B., Neupane, R., Bhattarai, R.K., Chaulagain, B., Ghimire, P., Gyawaly, P. & Das, S.K. 2022. Agronomy Journal of Nepal. 6 (1) 119-131. https://doi.org/10.3126/ajn.v6i1.47953
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This meta-analysis reviewed experimental results (32 field studies) obtained throughout the Pampas Region in Argentina focused on the immediate effects and duration of soil mechanical alleviation measured by relevant soil physical properties and by the impact on maize and soybean yield. Treatments were a) Control (no tilled soils), and b) Subsoiled (no tilled soil subjected to mechanical compaction alleviation by deep non-inversion tillage). Soil compaction alleviation works had a durability of not more than 17 months (±2.8 months) after being performed. They conclude that deep non-inversion tillage could be a promising practice to close rainfed crop yield gaps in the region. But due to its low durability in time, further compaction prevention and structural regeneration practices such as cover crops, diversified crop rotations and controlled traffic will be needed