Litcius/Paper detail

Conservation tillage and nutrient management practices in summer rice (Oryza sativa L.) favoured root growth and phenotypic plasticity of succeeding winter pea (Pisum sativumL.) under eastern Himalayas, India

Anup Das, Krishnappa Rangappa, S. Basavaraj, Utpal Dey, Meghna Haloi, Jayanta Layek, Ramkrushna Gandhiji Idapuganti, Rattan Lal, N. A. Deshmukh, Gulab Singh Yadav, Subhash Babu, S. V. Ngachan

2021Heliyon16 citationsDOIOpen Access PDF

Abstract

L.) grown uniformly under NT. Higher root surface area, total root length, root volume, root length ratio (RLR) and root tissue densityin pea crop were observed under residual effect of conventional tillage (CT) relative to NT and MT. In addition, significantly higher values of functional root traits viz., root length ratio (RLR), root mass ratio and root finenessin pea were observed under CT and application of 50% NPK and 100% NPK relative to other tillage and NM practices. However, increased root exudation was observed under NT and MTalong with organic residue addition. Noticeable changes in stress responsive morpho-physiological traits like enhanced chlorophyll pigmentation and favourable leaf characteristics were observed in pea crop grown under NT with 50% NPK+weed biomass (WB)/green leaf manure (GLM) applications. Higher leaf area expansion and thickness were recorded with optimum turgidity under NT and MT than that under CT. Comparative increase in green pod and stover yield of pea with enhanced partition efficiency and harvest index were recorded under MT/NT along with 50% NPK+WB/GLM application than that under CT and other NM practices. Thus, adoption of MT/NT along with 50% NPK+WB/GLM in summer rice is recommended for inducing favourable root environment and optimised pea production in succeeding winter season in study region of the Eastern Himalayas, India and other similar agro-ecosystems.

Topics & Concepts

AgronomyTillageBiologyNutrientOryza sativaNutrient managementConventional tillageCropGeneBiochemistryEcologyAgronomic Practices and Intercropping SystemsPlant nutrient uptake and metabolismRice Cultivation and Yield Improvement