TY - BOOK AU - Geethika T V AU - Raji P (Guide) TI - Influence of new planting geometry-paired row planting on incidence of diseases in rice U1 - 632.3 PY - 2023/// CY - Vellanikkara PB - Department of PlantPathology, College of Agriculture KW - Plant pathology KW - Rice KW - Incidence of dsease KW - Influence of new planting geometry N1 - MSc N2 - Rice is the most important food crop in the world and the staple food of more than half of the world’s population including India. However, the productivity of rice in Kerala is comparatively lower than other states. There is a requirement to develop technologies that can increase the yield from the limited land resources. Paired row planting is a modified planting geometry developed at the Regional Agricultural Research Station, Pattambi which utilizes the border effect to enhance yield of rice and this method is getting wide acceptance among the farmers. The intensity and spread of diseases are greatly influenced by plant density, spacing and associated microclimatic conditions. In this context, the present study was undertaken to assess the incidence of diseases in new planting geometry, paired row planting. A field experiment was conducted at the Regional Agricultural Research Station, Pattambi over two seasons (rabi 2021 and kharif 2022). The experiment was laid out in randomized block design with three treatments and seven replications using the rice variety, Jyothi. The treatments were paired row planting (35-15 cm × 10 cm), normal transplanting (15 cm × 10 cm) and direct sowing. Disease incidence and severity were recorded at ten days interval from the first notice of the symptom in the field. During the rabi season, the diseases observed were bacterial blight, sheath blight, brown spot and false smut. In the kharif season, in addition to these diseases, sheath rot was also observed. The incidence and severity of diseases were significantly lower in paired row planting compared to normal transplanting and direct sowing. The highest disease incidence and severity were noticed in direct sowing. In addition to diseases, pest damage was also recorded at every ten days interval. Infestation of case worm, leaf folder, yellow stem borer and rice bug were noticed in the field. The damage due to the infestation of major pests, leaf folder, yellow stem borer and rice bug was significantly lower in paired row planting when compared to the other two systems. Like disease incidence, pest incidence was also significantly higher in direct sowing, followed by normal transplanting. The difference in planting geometry, plant population and associated microclimate can be considered as the contributing factors responsible for the difference in diseases and pests incidence. When the micrometeorological parameters viz., relative humidity and canopy temperature were considered, it became evident that relative humidity was significantly lower in paired row planting compared to normal transplanting and direct sowing. The canopy temperature recorded in paired row planting was higher than the other two systems. This might have added to its advantage in managing pest and disease incidence. On the other hand, the significantly higher relative humidity and lower canopy temperature observed in normal transplanting and direct sowing might have acted as the contributing factor for the higher pest and disease incidence. The influence of planting geometry on the rhizosphere microflora was analyzed using serial dilution and plating technique. However, a significant difference between the systems was not observed. The uniformity maintained with respect to soil properties, nutrient and water management and variety used might be the reason behind this observation. The biometric parameters viz. number of tillers, number of leaves, plant height and leaf area were recorded at every ten days interval. The results showed that the number of tillers in paired row planting was significantly higher followed by direct sowing and normal transplanting. Yield and yield attributes viz., number of hills per metre square, number of panicles per hill, number of grains per panicle and number of chaffy grains per panicle and thousand grain weight were also recorded. The number of panicles per hill and grain yield recorded in paired row planting was significantly higher than other two systems. The wider spacing in paired row planting might have reduced the plant competition for resources and resulted in better growth and development of plants that led to profused tillering and improved yield. The reduction in pest and disease incidence might have also contributed significantly to the yield advantage. The study also implies that the alterations in planting geometry can have a significant influence on pest and disease incidence. From the results, we could infer that in addition to the yield advantage, paired row planting also contributes significantly towards disease and pest management and therefore it can be considered as a promising planting geometry over the existing systems ER -