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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 paper evaluated the chemical and physical processes in two different agricultural soils under no-tillage and conventional management practices to determine their impact on water related soil functions at field scale in the United Kingdom.Two farms were monitored; one had used NT in 2013 and the other conventional tillage with MB plow. Two soils were evaluated under each farming practice over two years. The conversion to no-tillage changed the soil structure, leading to a higher bulk density and soil organic matter content and thereby increasing the soil moisture levels. These changes impacted the denitrification rates, reducing the soil nitrate (NO3) levels. The increased plant material cover under no-tillage increased the levels of soil phosphate (PO43-) and PO43- leaching.