Study on Rice Residue Management Options on Growth Parameters and Growth Indices of Rice Crop

Vijayaprabhakar, A.; Durairaj, S.; Hemalatha, M.; Joseph, M.

doi:10.9734/jeai/2020/v42i130451

Cited by 3 publications

(3 citation statements)

References 7 publications

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“…This could be attributed to more number of taller plants, tillers and higher drymatter production per unit area and LAI. These findings are in accordance with Kumar et al (2016) and Vijayaprabhakar et al (2020).…”

Section: Resultssupporting

confidence: 93%

Growth, Productivity and Profitability of Direct Seeded Rice as Influenced by Maize Crop Residue Management Practices and Fertility Levels in Rice-Maize Sequence

2024

IJE

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The present investigation was carried out during seasons of 2020-21 and 2021-22 on a sandy clay loam soil at the Agricultural kharif College Farm, Bapatla to study the growth, productivity and economics of direct seeded rice as influenced by maize crop residue management practices and fertility levels in rice-maize sequence. The experiment was laid out in split-plot design with four maize residue management techniques (M : Exportation of maize stover, M : burning of maize stover (farmers practice), M : Mulching maize stover with rotary 1 2 3In-situ mulcher and M : Incorporation of maize stover with rotovator) as main plot treatments and three fertility levels (100% RDF, 75% RDF and 50% 4 RDF) as sub plot treatments. The incorporation of maize stover with rotovator indicated significant effect on growth, yield attributes and economics of rice compared to exportation of maize stover during both the years of experiment. Among the fertilizer levels, application of 100% RDF significantly improved the growth, yield attributes and economics of rice compared to 50% RDF treatment. Combined use of incorporation of maize stover with rotovator along with application of 100% RDF resulted significantly higher number of filled grains panicle (169.5), grain -1 yield (6195 kg ha ).

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Section: Resultssupporting

confidence: 93%

Growth, Productivity and Profitability of Direct Seeded Rice as Influenced by Maize Crop Residue Management Practices and Fertility Levels in Rice-Maize Sequence

2024

IJE

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“…The enhanced uptake of these nutrients might have resulted in increased vegetative growth of plant. In parallel, Vijayaprabhakar et al [10] reported that the incorporation of harvested rice residue with 25 kg additional N ha -1 as basal + bio-mineralizer (2 kg t -1 of rice residue) and cow dung slurry (5 %) recorded higher plant height and number of tillers hill -1 over incorporation of straw alone and removal of straw.…”

Section: Growth Attributes Of Paddymentioning

confidence: 99%

Effect of Paddy Residue and Nutrient Management Approaches on Growth, Yield and Nutrient Uptake by Paddy in Paddy-Paddy Cropping System

Shwethakumari

Ravi²,

Rao³

et al. 2022

IJPSS

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An investigation on the efficacy of paddy residue and nutrient management approaches on growth, yield and nutrient uptake by paddy was conducted during kharif and rabi-summer seasons of 2019-20 and 2020-21 at Gabbur village, Raichur, Karnataka, India. The experiment was laid out in split plot design with three replications, which consisted of four residue management in main plots and five nutrient management approaches in sub plots. The treatment with residue incorporation + compost culture gave significantly taller plants (84.40 and 84.53 cm), higher number of tillers hill-1 (20.06 and 20.09), grain yield (65.37 & 65.34 q ha-1), straw yield (80.01 & 80.04 q ha-1) and total N, P, K, S, Zn & Fe uptake over residue incorporation alone, residue burning and residue removal. Similarly, application of nutrients through SSNM targeted yield of 80 q ha-1 gave significantly higher plant height (90.51 and 90.50 cm), higher number of tillers hill-1 (23.02 and 22.95), grain yield (75.19 & 75.26q ha-1), straw yield (92.17 & 92.14 q ha-1) and total N, P, K, S, Zn & Fe uptake followed by STCR targeted yield of 80 q ha-1 > STL method > recommended NPK > absolute control. Interaction effect showed that, residue incorporation + compost culture with SSNM targeted yield of 80 q ha-1 recorded significantly higher plant height (95.95 and 96.13), number of tillers hill-1(25.50 and 25.56), grain yield (77.25 and 77.45 q ha-1), straw yield (94.83 and95.32 q ha-1) and nutrient uptake by paddy over other combinations.

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“…With the increase of nitrogen levels, grain and straw yield, plant height, productive tillers filled spikelet per panicles, SLA, CGR increase. In long term production practices, farmers have found that paddy straw incorporation can indeed improve rice yield and there are significant differences in the effect of rice straw incorporation on rice growth, yield and quality (Vijayaprabhakar et al 2020).With exploding population and rapid depletion and degradation of natural resources, it is necessary to save the natural resources, and to use them efficiently. Recycling of crop residues is an essential component in achieving sustainability.…”

Section: Introductionmentioning

confidence: 99%

Effects of Paddy Straw Incorporation on Growth and Yield Attributes of Low Land Rice

Swain

Paikaray

Nayak³

et al. 2022

Bangladesh J. Bot.

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A field experiment on effects of paddy straw incorporation on growth, physiology and yield attributes of low land rice was conducted at Agronomy experimental field of Central farm, College of Agriculture, Bhubaneswar during rabi-2020.The experiment was laid out in completely randomized block design with six treatments symbolyzed as T1 to T6 along with recommended dose of fertiliser (80:40:40::N: P2O5:K2O kg/ha). Results showed highest plant height, tiller number, leaf number, SPAD and LCC were in T5 followed by T4 and T6. These parameters were found to be highly correlated with grain yield. The growth analysis during different period of growth of the rice cultivar, Lalat, in respect to leaf area index(LAI), crop growth rate(CGR), specific leaf area(SLA), leaf area ratio(LAR), LAD(leaf area duration), total chlorophyll, total carbohydrate, amino acid and protein contents were found to be correlated with grain yield. Maximum values regarding these parameters were found to be highest in T5 followed by T4 and T6. The total biomass was found significant among the treatments and was highest in T5 followed by T4 and T6. Grain yield and straw yield were found to be highly correlated with total biomass (r2=0.70) and physiological growth traits (LAI, SLA, CGR) were prominently significant in T5 with a tune of 4.94t/ha and 5.21t/ha, respectively followed by T4 and T6. In T5 yield attributing parameters like number of panicles, panicle weight, filled grain per panicle, 1000-grain weight were highest. The high percentage of C, H, N, S concentration and high ratio of C:N, C:H implies good quality grain harvested in T5. The soil microbial population and status after harvest was also found to be high inT5. Thus, paddy straw incorporation coupled with chemical fertilizer had significant effect on rice growth and yield with proper maintenance of microbial population in soil when the crop is treated with T5 with booster application of 20 kg/ha of N and P in the form of urea and DAP, respectively. Bangladesh J. Bot. 51(4): 713-719, 2022 (December)

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Study on Rice Residue Management Options on Growth Parameters and Growth Indices of Rice Crop

Cited by 3 publications

References 7 publications

Growth, Productivity and Profitability of Direct Seeded Rice as Influenced by Maize Crop Residue Management Practices and Fertility Levels in Rice-Maize Sequence

Growth, Productivity and Profitability of Direct Seeded Rice as Influenced by Maize Crop Residue Management Practices and Fertility Levels in Rice-Maize Sequence

Effect of Paddy Residue and Nutrient Management Approaches on Growth, Yield and Nutrient Uptake by Paddy in Paddy-Paddy Cropping System

Effects of Paddy Straw Incorporation on Growth and Yield Attributes of Low Land Rice

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