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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 study evaluated eight integrated crop management (ICM) systems in the rice-wheat systems of NW India where direct seeded rice followed by NT wheat are seen. The various ICM's evaluated were ICM1&2- conventional transplanted rice fb flatbed wheat (check), ICM3&4- conventional direct seeded rice (DSR) fb furrow irrigated raised bed wheat without residues, ICM5&6- conservation agriculture (CA)-based modules [zero tilled (ZT) DSR and ZT wheat] with the wheat and rice residues, and ICM7&8- CA-based modules (ZTDSR and ZT wheat) with wheat, mungbean and rice residues. They conclude that it is important to to have adequate input integration and adoption of CA based ICM's, especially ICM 7&8, improved the soil carbon dynamics, crop yields, farm profits, and provided water savings