TY - JOUR
T1 - Influence of Sesbania Brown Manuring and Rice Residue Mulch on Soil Health, Weeds and System Productivity of Conservation Rice–Wheat Systems
AU - Nawaz, Ahmad
AU - Farooq, Muhammad
AU - Lal, Rattan
AU - Rehman, Abdul
AU - Hussain, Tasawar
AU - Nadeem, Asif
N1 - Publisher Copyright:
Copyright © 2016 John Wiley & Sons, Ltd.
PY - 2017/4
Y1 - 2017/4
N2 - The sustainability of rice–wheat cropping system (RWCS) is threatened by increasing labor, water, and energy crises in the region. Conservation RWCSs offers an ecofriendly alternate option. This study was aimed to evaluate the impact of sesbania brown manuring in direct-seeded aerobic rice (DSAR) and of rice residue mulch in no-tilled wheat (NTW) on soil health, weed dynamics and system productivity. The experiment was composed of five RWCS systems: (i) DSAR-NTW; (ii) DSAR + sesbania brown manuring-NTW; (iii) DSAR-NTW + rice residue mulch; (iv) puddled transplanted flooded rice (PudTR)-NTW; and (v) PudTR-plow-tilled wheat. Sesbania brown manuring in direct-seeded rice decreased the weed density and dry biomass 41–56% and 62–75%, respectively, than the sole direct-seeded rice crop. At rice harvest, better soil health, in terms of total nitrogen (N), soil organic carbon, soil microbial biomass carbon, and soil microbial biomass nitrogen, was noted with DSAR + sesbania brown manuring-NTW. Rice residue mulch retention in NTW decreased weed density and dry weight by 60 and 69%, respectively, than those under NTW with no mulch. At wheat harvest, highest total N, soil organic carbon, and soil microbial biomass carbon were recorded with DSAR-NTW + rice residue mulch, followed by DSAR + sesbania brown manuring-NTW. Overall, NTW grown after DSAR + sesbania brown manuring produced more grain yield than PudTR-NTW and PudTR-plow-tilled wheat systems. In conclusion, sesbania brown manuring in DSAR and residue mulch retention in NTW may be opted to improve soil properties, suppress weeds, and to harvest better grain yield and achieve higher system productivity in conservation RWCSs.
AB - The sustainability of rice–wheat cropping system (RWCS) is threatened by increasing labor, water, and energy crises in the region. Conservation RWCSs offers an ecofriendly alternate option. This study was aimed to evaluate the impact of sesbania brown manuring in direct-seeded aerobic rice (DSAR) and of rice residue mulch in no-tilled wheat (NTW) on soil health, weed dynamics and system productivity. The experiment was composed of five RWCS systems: (i) DSAR-NTW; (ii) DSAR + sesbania brown manuring-NTW; (iii) DSAR-NTW + rice residue mulch; (iv) puddled transplanted flooded rice (PudTR)-NTW; and (v) PudTR-plow-tilled wheat. Sesbania brown manuring in direct-seeded rice decreased the weed density and dry biomass 41–56% and 62–75%, respectively, than the sole direct-seeded rice crop. At rice harvest, better soil health, in terms of total nitrogen (N), soil organic carbon, soil microbial biomass carbon, and soil microbial biomass nitrogen, was noted with DSAR + sesbania brown manuring-NTW. Rice residue mulch retention in NTW decreased weed density and dry weight by 60 and 69%, respectively, than those under NTW with no mulch. At wheat harvest, highest total N, soil organic carbon, and soil microbial biomass carbon were recorded with DSAR-NTW + rice residue mulch, followed by DSAR + sesbania brown manuring-NTW. Overall, NTW grown after DSAR + sesbania brown manuring produced more grain yield than PudTR-NTW and PudTR-plow-tilled wheat systems. In conclusion, sesbania brown manuring in DSAR and residue mulch retention in NTW may be opted to improve soil properties, suppress weeds, and to harvest better grain yield and achieve higher system productivity in conservation RWCSs.
KW - cropping system, resource conservation technologies
KW - Indo-Gangetic plains
KW - profitability
KW - soil biology, crop residues
KW - soil fertility
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U2 - 10.1002/ldr.2578
DO - 10.1002/ldr.2578
M3 - Article
AN - SCOPUS:84994234232
SN - 1085-3278
VL - 28
SP - 1078
EP - 1090
JO - Land Degradation and Development
JF - Land Degradation and Development
IS - 3
ER -