Evaluating the Effects of Fertilizer Deep Placement on Greenhouse Gas Emissions and Nutrient Use Efficiency in Wet Direct-Seeded Rice During the Wet Season in Assam, India
Jami Naveen,
Khagen Kurmi,
Mrinal Saikia,
Kalyan Pathak,
Virendar Kumar,
Rupam Borgohain,
Ashish K. Srivastava,
Suryakanta Khandai,
Panneerselvam Peramaiyan,
Vivek Kumar,
Mintu Sarmah,
Bhabesh Gogoi,
Kanwar Singh,
Sudhanshu Singh,
Sumanta Kundu,
Kandapu Sai Teja,
Guntamukkala Sekhar
Affiliations
Jami Naveen
International Rice Research Institute, Guwahati 781022, India
Khagen Kurmi
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Mrinal Saikia
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Kalyan Pathak
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Virendar Kumar
International Rice Research Institute, Guwahati 781022, India
Rupam Borgohain
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Ashish K. Srivastava
IRRI-South Asia Regional Centre, Varanasi 221006, India
Suryakanta Khandai
International Rice Research Institute, Guwahati 781022, India
Panneerselvam Peramaiyan
IRRI-South Asia Regional Centre, Varanasi 221006, India
Vivek Kumar
International Rice Research Institute, Guwahati 781022, India
Mintu Sarmah
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Bhabesh Gogoi
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Kanwar Singh
International Rice Research Institute, Guwahati 781022, India
Sudhanshu Singh
IRRI-South Asia Regional Centre, Varanasi 221006, India
Sumanta Kundu
ICAR-Central Research Institute for Dryland Agriculture, Hyderabad 500059, India
Kandapu Sai Teja
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Guntamukkala Sekhar
College of Agriculture, Assam Agricultural University, Jorhat 785013, India
Mitigation of greenhouse gases (GHGs), improving nutrient-use efficiency (NUE), and maximizing yield in rainfed lowland rice cultivation poses significant challenges. To address this, a two-year field experiment (2020 and 2021) was conducted in Assam, India, to examine the impact of different fertilizer-management practices on grain yield, NUE, and GHGs in wet direct-seeded rice (Wet-DSR) during the kharif season. The experiment included eight treatments: control; farmer’s practice (30-18.4-36 kg N-P2O5-K2O ha−1); state recommended dose of fertilizer (RDF) @ 60-20-40 kg N-P2O5-K2O ha−1 with N applied in three splits @ 30-15-15 kg ha−1 as basal, at active tillering (AT), and panicle initiation (PI); best fertilizer management practices (BMPs): 60-20-40 kg N-P2O5-K2O ha−1 with N applied in three equal splits as basal, at AT, and PI; and fertilizer deep placement (FDP) of 120%, 100%, 80%, and 60% N combined with 100% PK of RDF. The experiment was arranged out in a randomized complete block design with three replications for each treatment. The highest grain yield (4933 kg ha−1) and straw yield (6520 kg ha−1) were achieved with the deep placement of 120% N + 100% PK of RDF. FDP with 80% N + 100% PK reduced 38% N2O emissions compared to AAU’s RDF and BMPs, where fertilizer was broadcasted. This is mainly due to the lower dose of nitrogen fertilizer and the application of fertilizer in a reduced zone of soil. When considering both productivity and environmental impact, applying 80% N with 100% PK through FDP was identified as the most effective practice.
