Improving soil health and water productivity of lentil (Lens esculentum) sown after lowland rice (Oryza sativa) through appropriate variety and rice residue management

EMDOR SHYLLA; ANUP DAS; RAMKRUSHNA G.I; JAYANTA LAYEK; P.K. GHOSH

doi:10.59797/ija.v61i3.4379

Authors

EMDOR SHYLLA
ANUP DAS
RAMKRUSHNA G.I
JAYANTA LAYEK
P.K. GHOSH

DOI:

https://doi.org/10.59797/ija.v61i3.4379

Keywords:

Pulses, Rainfed agriculture, Rice paddies, Rice fallow, Rice-lentil cropping system, Water productivity

Abstract

A field experiment was conducted during rainy and winter seasons of 201213 in lowland at ICAR Research Complex for NEH Region, Umiam, Meghalaya to identify suitable rice (Oryza sativa L.) and lentil (Lens esculentum Medik.) cultivars and appropriate rice residue-management practices (RRMPs) for enhancing produc- tivity of ricelentil system and improving soil health. The results revealed that there was no significant effect of rice cultivars on productivity of lentil. However, the yield of lentil was significantly influenced by lentil cultivars and RRMP. Lentil variety IPL 406 recorded significantly higher yield (1.82 t/ha), water-use efficiency (9.46 kg/ha-mm) and water productivity (3.30 kg/m3) compared to that of DPL 81. Amongst RRMPs, mulching recorded signifi- cantly higher lentil yield (1.87 t/ha), water-use efficiency (9.75 kg/ha/mm) and water productivity (3.40 kg/m3) com- pared to 20 cm standing stubble and residue removal. Irrespective of rice and lentil cultivars, mulching recorded about 26.7% and 18.7% higher lentil yield than residue removal and 20 cm standing stubble respectively. Avail- able N and K were higher when DPL 81 grown after rice cultivar Shahsarang 1 as compared to that under Mendri. Significantly higher available N, K and soil organic carbon were recorded under mulching than 20 cm standing stubble and straw removal. The dehydrogenase activity and soil microbial biomass carbon were signifi- cantly higher under mulching than removal and 20 cm standing stubble. Thus, growing of lentil IPL 406 under mulching @ 5 t/ha after high-yielding varieties of rice Shahsarang 1 is a viable option for enhancing productivity and WUE under rainfed lowland conditions.

References

Alvarez, R., Daz, R., Barbero, N., Santanatoglia, O.J. and Blotta, L. 1995. Soil organic carbon, microbial biomass and CO2C production from three tillage system. Soil and Tillage Research 33:1728.

Das, A., Ramkrushna, G.I., Choudhury, B.U., Ngachan, S.V., Tripathi, A.K., Singh, R.K., Patel, D.P., Tomar, J.M.S., Mohapatra, K.P., Layek, J. and Munda, G.C. 2014. Conservation agriculture in rice and maize based cropping systems for enhancing crop and water productivity-participatory technology demonstration in north east India. Indian Journal of Soil Conservation 42(1): 196203.

Garci, C., Hernandez, T. and Costa, F. 1997. Potential use of dehydrogenase activity as an index of microbial activity in degraded soils. Communication in Soil Science and Plant Nutrition 28: 123113.

Ghosh, P.K., Das, A., Ngachan, S.V.,Saha, R., Munda, G.C., Patel, D.P., Lama, D. and Singh, R.K. 2009. In-situ soil moisture and nutrient conservation in north-eastern hill agriculture.

Technical bulletin 68, ICAR Research Complex for NEH Region, Umiam, Meghalaya.

Kumar, J., Rahman, M., Musa, A.M. and Islam, S. 1994. Potential for expansion of chickpea in the Barind region of Bangladesh. International Chickpea and Pigeonpea Newsletter 1: 1113.

Liu, J., Xu, S.A., Zhou G.Y. and Lu, H.H. 2002. Effects of transplanting multi-cropping spring maize with plastic film mulching on the ecological effect, plant growth and grain yield. Journal of the Henan Agricultural College 2: 100

Mohammad, W., Shah, S.M., Shehzadi1, S. and Shah, S. A. 2012. Effect of tillage, rotation and crop residues on wheat crop productivity, fertilizer nitrogen and water-use efficiency and soil organic carbon status in dry area (rainfed) of north-west Pakistan. Journal of Soil Science and Plant Nutrition 12(4): 715727.

Prasad, R.K., Kumar, V., Prasad, B. and Singh, A.P. 2010. Long term effect of crop residue and Zn fertilizer on crop yield uptake and fertility build up under ricewheat in Calciorthents. Journal of Indian Society of Soil Science 58(2): 205211.

Saha, R., Ghosh, P.K. and Das, A. 2009. Soil water dynamics and yield as influenced by residue and tillage management in maize (Zea mays)mustard (Brassica campestris) cropping system. Indian Journal of Agricultural Sciences 79(5): 340

Sharma, A.R., Singh, R., Dhayani, S.K. and Dube, R.K. 2010. Moisture conservation and nitrogen recycling through legume mulching in rainfed maize (Zea mays)wheat (Triticum aestivum) cropping system. Nutrient Cycling in Agroecosystems 87(2): 187197.

Sonsteby, A., Nes, A. and Mge, F. 2004. Effects of bark mulch and NPK fertilizer on yield, leaf nutrients status and soil mineral nitrogen during three years of strawberry production. Acta Agriculturae Scandinavica, Section B Soil and Plant Science

: 128134.

Wang, X. 2006. Conservation tillage and nutrient management in dryland farming in China. Ph.D. Thesis, Wageningen University, The Netherlands, English and Dutch summaries pp.187.