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Legume-based crop rotation sustain the soil biodiversity, fertility levels, productivity, and profitability: evidence from a long-term study under Indian subtropical conditions

Sohan Singh Walia, Neeraj Rani, N. Ravisankar, R. K. Bhagat, Tamanpreet Kaur, Karmjeet Kaur

2025Frontiers in Agronomy7 citationsDOIOpen Access PDF

Abstract

Prolonged cultivation of the rice–wheat system in the Indo-Gangetic Plain (IGP) has led to soil degradation, groundwater depletion, and reduced input use efficiency, necessitating resilient and diversified cropping systems. Therefore, a 6-year field experiment (from 2017–2018 to 2022–2023) was conducted at Punjab Agricultural University (PAU), Ludhiana, Punjab, India, using a randomized complete block design with four replications to evaluate 10 cropping systems (CS). The results revealed that the legume-integrated cropping system of maize–peas–spring groundnut (CS6), being statistically at par with other legume-based systems (i.e., CS3, CS4, CS5, and CS8), showed a significantly lower bulk density (1.32 g/cm 3 ) and higher availability of macronutrients [nitrogen (250.88 kg/ha), phosphorus (27.87 kg/ha), and potassium (194.12 kg/ha)] and micronutrients [zinc (2.85 mg/kg), iron (25.02 mg/kg), copper (2.67 mg/kg), and manganese (12.35 mg/kg)], as well as a substantially improved soil biological health, as indicated by the increased microbial populations [bacteria (132.56 × 10 6 CFU/g), fungi (25.34 × 10 3 CFU/g), actinomycetes (35.01 × 10 4 CFU/g), and diazotrophs (97.32 × 10 4 CFU/g)], enzymatic activity [dehydrogenase (62.22 µg TPF/g soil/h), alkaline phosphatase (10.78 µg PNP/g soil/h), and urease (16.96 µ/g soil/h)], and microbial biomass carbon (255.21 mg/kg) and nitrogen (20.01 mg/kg). The correlation analysis showed significant interrelationships ( p ≤ 0.01 and 0.05), while the principal component analysis (PCA) identified the legume-based systems as key contributors to improved soil health. The cropping system CS6 produced 68.97% higher rice equivalent yield (199.88 q/ha) than the rice–wheat system (118.29 q/ha), consequently resulting in higher gross returns (₹391,770/ha), net returns (₹233,193/ha), benefit/cost (BC) ratio (1.47), and economic efficiency (₹639/ha/day), making it the most economically and ecologically sustainable system recommended for adoption.

Topics & Concepts

AgronomySoil fertilityCropping systemEnvironmental scienceRandomized block designPhosphorusCrop yieldCrop rotationCroppingSoil qualityCropSubtropicsBiomass (ecology)Soil carbonNutrientAgricultureBiologySoil waterField experimentUreaseSoil testMicronutrientIrrigationSoil organic matterSoil classificationRotation systemMineralization (soil science)SowingAgroforestrySoil biodiversityMulchBiofertilizerNitrogen fixationTotal organic carbonStrawGreen manureAgronomic Practices and Intercropping SystemsLegume Nitrogen Fixing SymbiosisAgricultural Science and Fertilization