Performance of Zero-till Bio-mulching on Different Pulses under Maize-legume Sequence

Abstract

Background: After harvesting of kharif crops, lack of sufficient soil moisture availability limit the cultivation of rabi crops in the Birbhum district of West Bengal. So a huge area remains fallow during the rabi season mainly because of infrastructure to harvest and to utilize the bountiful rains of the monsoon. So, agronomic measures to conserve the soil moisture are very suitable for the region because of their low cost and capability to reduce soil erosion. In this region, maize stalk are not used as fodder for animals and are usually burnt or kept outside the field. Similarly, during rainy season, there is plenty of water hyacinth and paddy straw found around cultivated areas. Retention of crop residues and weed biomass on the soil surface in combination with zero tillage initiates process that lead to improve soil quality and overall enhancement of resource use efficiency. Methods: The trials were conducted for consecutive two years (2017-18 and 2018-19) in split plot design with three main plot treatments as cropping system after Maize, viz, i) Maize-chickpea (CS1) ii) Maize-lentil (CS2) iii) Maize-lathyrus (CS3); with five sub-plot treatments as mulching i) No-mulching (Residue Removal) (M0) ii) In-situ Maize stalk mulching (M1) iii) In-situ maize stalk mulch + Water hyacinth (5 t/ha) (M2) iv) In-situ maize stalk mulch + Paddy straw (5 t/ha) (M3) v) In-situ maize stalk mulch + Water hyacinth (2.5 t/ha) + Paddy straw (2.5 t/ha) (M4) but the individual rabi crop’s data were analyzed in Randomized Block Design (RBD) as the individual crops have different growth characteristics. Result: Experiments result revealed that mulching with M3- In-situ maize stalk mulch + Paddy straw (5 t/ha) is the best practice for growing pulses under zero-till condition after Maize in Maize-legume cropping system. Growing of pulses in different cropping system under zero-till condition not only will increase the cropping intensity and production of pulses in the country but also will increase the fertility of the soil.