Effect of Different Levels of Nitrogen and Phosphorus on Yield and Nutrient Uptake of Low Glycemic Index Rice Variety RNR 15048 during Summer Season

A low glycemic index fine rice variety RNR 15048 (Telangana Sona) suitable for both kharif and summer seasons was introduced in southern Odisha in 2019 kharif season. Its nitrogen and Phosphorus requirement was not worked out for kharif / rabi / summer seasons. An experiment was conducted during summer season of 2022 at M.S. Swaminathan School of agriculture (MSSSoA), Parlakhemundi, Odisha to study the effect of nitrogen and phosphorus levels on yield attributes and yield of low glycemic rice variety RNR 15048 in split plot design with four levels of nitrogen (0, 50, 100 and 150 kg/ha) in main plots and three levels of phosphorus (0, 30 and 60 kg/ha) in subplots replicated three times. The panicle number, number of spike lets per panicle, number of filled spike lets and 1000 grain weight, grain, straw and biological yield and NPK uptake in grain and straw increased significantly with increase in nitrogen levels from 0 to 50, 100 and 150 kg ha -1 and phosphorus level from 0 to 30 and 60 kg ha -1 . For low glycemic index rice variety RNR 15048 during summer, application of 150 kg N and 60 kg P 2 O 5 along with 50 kg K 2 O ha -1 found to give higher yield in southern Odisha.

production of 122.27 million tons and productivity of 2713 Kg/ha (Anonymous, 2021).In Odisha, rice is cultivated in 4.03 million ha during kharif and rabi / summer seasons with a production of 8.73 million tons and productivity of 2173 kg ha -1 .Generally, coarse varieties are cultivated in Odisha.Recently fine variety RNR 15048 having low glycemic index (Padhi et al., 2020) was introduced in Gajapathi district during kharif and rabi / summer seasons.
The RNR 15048 (Telangana Sona) rice variety developed by PJTSAU, Hyderabad is a fine variety with 120-125 days duration suitable for both kharif and rabi / summer seasons.The RNR 15048 is cultivated in Gajapati district because of its advantage of low glycemic Index and high yields.During kharif, the RNR 15048 (Telangana Sona) variety gave higher yield at 160 kg N ha -1 (Nikitha et al., 2018) to 180 kg N ha -1 (Lavanya et al., 2018).In on farm trials conducted in Gajapati district, the RNR 15048 variety gave more yield at higher levels of N application (Padhi et al., 2020).
The productivity of rice is influenced by different management factors such as variety, cultural, nutrient and water management.Among these, the nutrient management, especially nitrogen and phosphorus are the most important.The Indian soils are low in nitrogen and low to medium in soil phosphorus.Hence, it becomes essential to apply proper level of nutrients for getting higher yields.
Nitrogen is one of the essential macro nutrient required for plant growth and development.The rice crop requires large quantity of fertilizer especially nitrogen, as this nutrient is deficient in majority of the soils (Dey andShekon, 2016 andMotsara, 2002).The application of N fertilizer has become an important and cost effective strategy to increase the crop yields.
Reports indicate that there was an increase in shoot and root dry mass with the increase in phosphorus concentration.Reduction in photosynthetic rate, stomatal conductance, transpiration rate and internal CO 2 concentration at low phosphorus concentrations were observed at both tillering and reproductive stages (Veronica et al., 2017).Sharma et al. (2010) reported with an increase in N P levels, there was significant increase in growth parameters, yield contributing characters (panicles/m 2 , grains/panicle), yield (grain and straw) and nitrogen and phosphorous uptake.
The performance of RNR 15048 at different nitrogen and phosphorus levels was not worked out and tested during Effect of Different Levels of Nitrogen and Phosphorus on Yield and Nutrient Uptake of Low Glycemic Index Rice Variety RNR... summer season in Southern Odisha.There is need to find out the right level of nitrogen and phosphorus for RNR 15048 variety during summer in South Odisha, hence, this experiment was conducted.
The field experiment was carried out during summer season of 2022 at PG Research farm, M. S. Swaminathan School of Agriculture, Gajapati district situated at south-east part of Odisha at 184816N latitude and 841045E longitude with an altitude of 64 m above the mean sea level.The weather during crop growing period was normal.The soil of the experimental site is sandy clay loam, acidic in nature having low in nitrogen, medium in phosphorus and high in potassium.
The experiment was conducted with low glycemic index rice variety RNR 15048 in split plot design with four levels of nitrogen (0, 50, 100 and 150 kg ha -1 ) in main plots and three levels of phosphorus (0, 30, 60 kg ha -1 ) in subplots replicated three times.The crop was transplanted with 30 day old seedlings on 7 February at a spacing of 15 cm  15 cm.The nitrogen, phosphorus and potassium were supplied to the crop through urea, single super phosphate and muriate of potash.The fertilizers were applied as per treatments (Table 1).Fifty percent N and the entire level of phosphorus and potassium were applied at transplanting.Potassium at @ 50 Kg K 2 O/ha was applied.The remaining 50% N was top dressed in two equal splits at 20 and 40 DAT.The observations on yield attributes ; panicle number per m 2 , filled spike lets per panicle, panicle length and grain and straw yield were recorded as per standard procedure.At harvest the grain and straw samples were analyzed for N content by following the alkaline permanganate method and P and K by tri-acid digestion method.Data recorded were analyzed statistically by using analysis of variance (ANOVA) and the treatment means were compared using the critical difference (CD) at 5% level of probability (Gomez and Gomez, 1984).

Effect of nitrogen levels
Grain, straw and biological yield increased significantly with increase in nitrogen levels from 0 to 50,100 and 150 kg ha -1 (Table 2).The increase in grain yield was 14%, 59%, 77% respectively at 50, 100 and 150 kg ha -1 over 0 kg N ha -1 .The response to applied nitrogen was greater at 100 kg N ha -1 as compared to 150 kg N ha -1 such that with each kilogram of nitrogen added, grain yield was increased by 6.72 kg, 14.41 kg and 12.69 kg over 0 kg N/ha at 50, 100 and 150 kg/ ha, respectively.The increase in straw yield also showed a similar trend as that of grain yield.
The plant height, number of tillers, leaf area index and dry matter production were significantly higher with an increase in nitrogen levels from 0 to 50,100 and 150 kg N ha -1 .The increased growth at higher levels of N was due to greater availability of N to crop at vegetative stage this might have resulted in better root development and the greater N availability might have played a vital role in cell division, greater production of photosynthates and higher drymatter production.
The increased dry matter production helped in an increase in yield attributing characters; number of panicle per m 2 , panicle length, filled spikelets per panicle, 100 grain weight with increased application of nitrogen (Table 1).
The nitrogen uptake at harvest by grain, straw and total dry matter was significantly increased with increase in nitrogen application from 0,50,100 and 150 kg N ha -1 (Table 2).Application of additional doses of fertilizers enriched the available nutrient status of plants consequently resulted in higher nutrient uptake (Rayan, 1990).The nitrogen contributes to sink size by decreasing the unfilled spikelets and increased the grain filling period (Table 2), a large amount of nitrogen is required (Mac,1997).
The effect of N on yield attributes is primarily a function of assimilate accumulation and in turn facilitating higher N assimilation with adequate supply of photosynthates to grain  (Kumar, 1986).The increase in grain yield at higher nitrogen rates might be primarily due to increase in chlorophyll concentration in leaves leading to higher photosynthetic rate (Mohinder Singh et al., 2017) and might be due to the cumulative effect of increased translocation of photosynthates to sink resulting in the increase in yield compared to lower levels (Rao et al., 2004).It has been observed that the dry matter production, panicle number, filled spikelets have positive and significant correlation with grain yield indicating any improvement in these yield attributing characters will improve the grain yield of rice (Table 3).
The grain yield resulted with application of 100 kg N ha -1 was significantly higher over 50 and 0 kg N ha -1 nitrogen.It has been observed that increase in N application resulted in higher N, P, K uptake as compared to lower levels of N (Table 3).The greater uptake of NPK at N 100 and 50 kg N ha -1 helped in improved growth, yield attributes and thereby grain yield over 0 N ha -1 (Table 3).The results are in conformity with those reported by Padmavathi (1997) and Dwivedi et al. (2000).

Effect of phosphorus levels
The grain yield increased significantly with application of Phosphorus from 0 to 30 and 60 kg ha -1 (Table 2).The increase was 5.3% and 10.6% at 30 and 60 kg ha -1 over 0 kg P 2 O 5 ha -1 .The plant height, dry matter, leaf area index and tiller number increased with application of phosphorus.The yield attributes like number of panicles per m 2 , panicle length, filled spikelets per panicle and grain and straw and biological yield were increased with addition of phosphorus (Table 2).There was significant increase in phosphorus uptake with application from 0 to 30 and 60 kg P 2 O 5 ha -1 .(Table 2).The increased growth and yield attributes at higher levels of 60 kg P 2 O 5 ha -1 over 30 kg P 2 O 5 ha -1 might be due to timely availability of phosphorus.
The phosphorus fertilization improves various metabolic and physiological process and adequate supply of phosphates early in life cycle of plant.There are reports that P uptake increased with progressive increase in supply of N and P 2 O 5 to crops because of more availability of these nutrients and thereby higher biomass production and yield attributes.The grain yield had positive correlation between yield attributes which indicates that increase in fertilizer level, there was increase in yield attributes with application of 30 and 60 kg P 2 O 5 ha -1 and hence improvement in grain yield.Sharma et al. (2009) reported that application of phosphorus fertilizers at 35.2 to 52.5 kg ha -1 significantly increased grain and straw yield of rice over control.
The higher yields associated at increased levels of phosphorus are due to better root growth and increased uptake of nutrients favoring better crop growth (Archana et al., 2017).Further P is more absorbed in first 20 days after Effect of Different Levels of Nitrogen and Phosphorus on Yield and Nutrient Uptake of Low Glycemic Index Rice Variety RNR... transplanting for better root growth and penetration.The partial productive efficiency of phosphorus for grain is higher at early growth stages than at later stages because phosphorus is needed for tillering and the total phosphorus requirement is small relative to nitrogen.Furthermore, if sufficient phosphorus is absorbed at early growth stages, it can be easily redistributed to growing organs.The need for phosphorus at early growth stages of rice advocates for basal application (Yoshida, 1981).The higher levels of phosphorus at basal has resulted in greater availability of Phosphorus at initial stages of crop growth which might have helped in better tillering which is evident from more number of panicles at higher level of phosphorus and finally grain yield.

Table 1 :
Effect of different levels of nitrogen and phosphorus on yield attributes of RNR15048 rice variety during summer season 2022.

Table 2 :
Effect of different levels of nitrogen and phosphorus on grain, straw and biological yield and harvest index of RNR15048 rice variety during summer season 2022.

Table 3 :
Correlation between grain yield vs yield attributes of RNR