Abha Mishra scite author profile

A series of experiments was conducted on rice seedlings in a nursery seedbed and after transplanting in order to understand root and shoot characteristics, and their contribution to the production of tillers and dry matter. At the nursery stage, the seedlings' were studied at varying densities (high and low) and fertilizer treatments (with and without nitrogen) at 12 and 24 days after sowing (DAS) in wet or dry seedbeds. After transplanting, the effects of seedling age at the time of transplanting (12 and 30 days), method of raising seedlings (dry or wet seedbed) and water regimes (flooded or non-flooded) were studied. The overall aim was to understand the benefits, if any, of this system of rice intensification (SRI) management practices over conventional methods. The study revealed that in a nursery at 12 DAS, rice seedlings raised in a dry seedbed, irrespective of seeding density and fertilizer application, showed accelerated growth with better shoot and root characteristics in terms of greater leaf number, plant height, lateral root formation and elongation, and dry mass compared to seedlings grown in a wet seedbed. At 24 DAS, a significant interaction between seeding density and fertilizer application was found for dry-seedbed plants compared to those grown in a wet seedbed. Poor shoot and root growth was seen in older seedlings grown without fertilizer. Seedling age was found to be the most important factor affecting both shoot characteristics after transplanting (number of tillers, plant height, dry matter production) and root characteristics (root length density, root weight density). Younger seedlings performed better than older seedlings transplanted into either flooded or non-flooded soils with greater uptake of nitrogen and manganese than older seedlings. These results indicate that many of the constraints previously associated with non-flooded rice cultivation may be alleviated by transplanting younger seedlings that have been raised by SRI methods.

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FLOODING STRESS: The Effects of Planting Pattern and Water Regime on Root Morphology, Physiology and Grain Yield of Rice

Mishra

Salokhe

2010

J Agronomy Crop Science

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IntroductionRice production needs to be increased by 50 % or more above the current production level to meet the rising food demand. Much of the demand will be arising from Asia, which is the home of two-third of the world's population and where 90 % of total rice supply is grown in diverse environments (IRRI, 2008). Current challenges Keywords plant senescence; planting pattern; root oxidizing activity; single seedling; system of rice intensification; water regime Correspondence A. MishraAbstract Field experiments were conducted over two growing seasons to investigate the effects of variations in water regime and planting pattern on the growth of rice plant roots and shoots and on yield. Four water regimes were evaluated with split plot design: intermittent flooding during the vegetative stage only (IF-V); intermittent flooding extending into the reproductive stage (IF-R); not flooded (NF); and continuously flooded (CF), interacting with three different planting patterns: single seedling per hill with wider 30 · 30 cm spacing (P1); single seedling per hill with closer 20 · 20 cm spacing (P2); and three to four seedlings per hill with 20 · 20 cm spacing (P3). The treatment combination CF/P3 corresponds most closely with current conventional practice. The other combinations were evaluated to contribute to a better understanding of the effects of the two parameters studied, respectively and together. IF-V/P1 was considered as an approximation of System of Rice Intensification (SRI) practice. This study found that the combination of singly transplanted seedlings, both P1 and P2, with the IF-V water regime improved root length density, root physiological activity, and chlorophyll content of the upper and lower leaves, leading to higher grain yield compared with the other treatment combinations. With continuous flooding (CF), P2 gave 23 % more yield compared with the P3 planting pattern. Combining IF-V and P2 produced 32 % more grain yield compared with the CF/P3 treatment. These results showed a synergistic effect on grain yield from reduced intra-hill competition and IF-V water management. In these trials, there was no significant yield difference between the IF-V/ P1 and CF/P3 treatments. Wider spacing improved the performance of individual hills when grown under IF-V water regimes, but tiller number per unit area remained a dominant determinant of yield. The yield reduction observed for CF/P1 compared with CF/P3 indicated that in more hypoxic CF soils, denser plant populations can produce more than sparser ones, whereas the latter benefit from more aerobic soil conditions. Intermittent irrigation during the vegetative growth stage and transplanting single seedlings/hill are major elements of SRI methodology. These findings contribute to an understanding of why SRI methods can produce the higher yields reported. A consideration of the effects of interaction between planting pattern and water regime shows the need to establish empirically the optimum values for these treatments according to varietal, soil and climat...

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Learning from self-initiated community forest management in Orissa, India

Conroy

Mishra

Rai

2002

Forest Policy and Economics

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Rice root growth and physiological responses to SRI water management and implications for crop productivity

Mishra

Salokhe

2010

Paddy Water Environ

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This paper reports on several research findings on rice root responses, in terms of growth and physiology, manifested when applying System of Rice Intensification water management principles under semi-field and field conditions, in conjunction with variations in plant density and microbial density in the soil. The research aimed to learn about causal relationships, if any, between rice root and shoot growth at different growth stages of the rice plant's development and their cumulative effect on yield, which is affected by both biotic and abiotic influences. It was seen that greater root length density and a higher rate of root activity affected the yield-contributing parameters in all of the trials, whether conducted under semi-field or field conditions. At the same time, both root parameters were significantly affected by the water regime, soil microbial density, and planting pattern, the three main factors considered. The most important finding observed under semi-field conditions was that enhanced microbial density in the soil improved the sink capacity of the rice plants under all water regimes evaluated. Positive correlations were found between the chlorophyll content of the flag leaf and the duration of grain filling, between the chlorophyll content of plants' lower leaves and their roots' oxidizing activity rate, and the roots' oxidizing activity rate at later growth stage and the available soil nitrogen. These relationships can significantly improve rice plants' physiological efficiency and hence grain yield, provided that soil nutrients are not a limiting factor and when source-sink demand is maintained simultaneously. To realize the highest crop yield per hectare, both planting pattern and spacing are factors that need to be optimized. This paper in its conclusion considers the relevance of exploiting roots' potential for plasticity to enhance crop productivity in the context of impending water constraints and climate-change effects.

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Abha Mishra

Seedling Characteristics and the Early Growth of Transplanted Rice Under Different Water Regimes

FLOODING STRESS: The Effects of Planting Pattern and Water Regime on Root Morphology, Physiology and Grain Yield of Rice

Learning from self-initiated community forest management in Orissa, India

Rice root growth and physiological responses to SRI water management and implications for crop productivity

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