Core Ideas
Drip irrigation improved the aerobic rice yield and water savings by 29 and 50%, respectively.
The subsurface drip laid out at 0.8 m lateral distance with 1.0 L per hour dripper discharge irrigation system performed better in rice growth, physiology, and yield.
Drip irrigation favored the root oxidizing power, canopy photosynthesis, and dry matter partitioning.
There is a twofold increase in water productivity of aerobic rice under drip irrigation system.
The use of drip irrigation in upland rice (Oryza sativa L.) cultivation is a contemporary water‐saving strategy. However, inadequate evidence is available related to consequential changes in water productivity on rice yield. The effects of distinctive drip irrigation treatments, namely differences in lateral distances (0.6, 0.8, and 1.0 m), dripper discharge rates (0.6 and 1.0 L per hour, Lph), irrigation methods (surface and subsurface), and the conventional aerobic rice production system (control) on, physiology and water productivity of rice were studied during the summer of 2012 and 2013. Grain yield significantly increased in the subsurface drip irrigation method laid out at 0.8 m lateral distance and in 1.0 Lph discharge rate (5389 kg ha−1) compared with control irrigation method (4181 kg ha−1). This treatment mounts up dry matter partitioning, leaf photosynthesis as well as root oxidizing power. In addition, drip irrigation in aerobic rice production system had twice the water productivity and stimulates longer roots with higher density compared with control irrigation method. The subsurface drip irrigation system with drippers/laterals of 0.8‐m distance with flow rate 1.0 Lph, in aerobic rice production system is a cost‐effective method and had the potential to save water (27.0%) without compromising grain yield in comparison to control irrigation method. This could be the promising technology to be recommended for aerobic rice production system.
A highly antagonistic Pseudomonas fluorescens strain was isolated from tomato rhizosphere and characterized for its in vitro and in vivo biocontrol potential against Pythium aphanidermatum. The identified Pseudomonas fluorescens strain (PfT-8) was capable of producing high levels of chitinase, b-1,3-glucanase, cellulase, fungitoxic metabolites and siderophores. Seven different carrier formulations including a talcbased powder, lignite-based powder, peat-based powder, lignite + fly ash-based powder, wettable powder, bentonite-paste and polyethylene glycol (PEG) paste were prepared utilizing PfT-8. Shelf life was evaluated for up to 6 months of storage at ambient room temperature (28°C). Biocontrol efficacy of formulations was studied under greenhouse and field conditions. The formulations were stable up to at least 2 months of storage at ambient room temperature. Among the formulations, peat, lignite, lignite+fly-ash and bentonite paste based formulations maintained higher propagule number than others and also showed greater biocontrol potential. However, propagule number gradually decreased with time. Several organic amendments including farm yard manure (FYM), leaf-compost, poultry manure, press mud, vermi-compost and neem cake were incorporated into soil to study their influence on P. fluorescens colonization in the rhizosphere and on potential disease control. Soil incorporation of organic amendments and specifically poultry manure and FYM, significantly reduced damping-off incidence and also augmented the rhizosphere population of the marked P. fluorescens strain that was resistant to streptomycin and rifampicin. An integrated approach of damping-off management employing dual inoculation of PfT-8 in seed and soil coupled with soil application of organic amendments including poultry manure or FYM was evaluated under field conditions. Under these conditions, damping-off incidence substantially reduced by up to 90% and further the healthy plant BioControl (2007) 52:683-702 Ó IOBC 2007 stand, plant biomass and plant rhizosphere population of P. fluorescens increased significantly.
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