A Decade of Climate-Smart Agriculture in Major Agri-Food Systems: Earthworm Abundance and Soil Physico-Biochemical Properties
Hanuman S. Jat; Madhu Choudhary; Suresh K. Kakraliya; Manoj K. Gora; Manish Kakraliya; Vikas Kumar; Priyanka; Tanuja Poonia; Andrew J. Mcdonald; Mangi L. Jat; Parbodh C. Sharma; Ahmed M. Abdallah
Earthworms (EWs) could be a viable indicator of soil biology and agri-food system management. The influence of climate-smart agriculture (CSA)-based sustainable intensification practices (zero tillage, crop rotations, crop residue retention, and precision water and nutrients application) on earthworms&rsquo: (EWs) populations and soil physico-biochemical properties of rice-wheat cropping system in the Indo-Gangetic plains of South Asia was investigated. This study investigates the effect of 10-years adoption of various CSA practices on the abundance of earthworms and physical and biochemical properties of the soil and EWs&rsquo: casts (EWC). Five scenarios (Sc) were included: conventionally managed rice-wheat system (farmers&rsquo: practices, Sc1), CSA-based rice-wheat-mungbean system with flood irrigation (FI) (Sc2) and subsurface drip irrigation (SDI) (Sc3), CSA-based maize-wheat-mungbean system with FI (Sc4), and SDI (Sc5). Results revealed that EWs were absent under Sc1, while the 10-year adoption of CSA-based scenarios (mean of Sc2&ndash:5) increased EWs&rsquo: density and biomass to be 257.7 no. m&minus:2 and 36.05 g m&minus:2, respectively. CSA-based maize scenarios (Sc4 and Sc5) attained higher EWs&rsquo: density and biomass over rice-based CSA scenarios (Sc2 and Sc4). Also, SDI-based scenarios (Sc3 and Sc5) recorded higher EWs&rsquo: density and biomass over FI (Sc2 and Sc4). Maize-based CSA with SDI recorded the highest EWs&rsquo: density and EWs&rsquo: biomass. The higher total organic carbon in EWC (1.91%) than in the bulk soil of CSA-based scenarios (0.98%) and farmers&rsquo: practices (0.65%) suggests the shift of crop residue to a stable SOC (in EWC). EWC contained significant amounts of C and available NPK under CSA practices, which were nil under Sc1. All CSA-based scenarios attained higher enzymes activities over Sc1. CSA-based scenarios, in particular, maize-based scenarios using SDI, improved EWs&rsquo: proliferation, SOC, and nutrients storage (in soil and EWC) and showed a better choice for the IGP farmers with respect to C sequestration, soil quality, and nutrient availability.
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