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Subject: Soil Science and Agriculture Chemistry ×

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    ThesisItemOpen Access
    EFFICACY OF ZINC (Zn) AND SULPHUR (S) CONTAINING FERTILIZER ON PRODUCTIVITY AND PROFITABILITY OF WHEAT GROWN UNDER ACID SOIL OF JHARKHAND
    (Birsa Agricultural University, Ranchi, 2023) Pooja Bharti; B. K. Agarwal
    A field experiment entitled “Efficacy of Zinc (Zn) and Sulphur (S) containing fertilizer on productivity and profitability of wheat grown under acid soil of Jharkhand” was conducted during Rabi 2021-22 at the experimental farm of Department of Soil Science and Agricultural Chemistry, Birsa Agricultural University, Ranchi, Jharkhand with an objective to compare the performance of different sources of zinc and sulphur containing fertilizer on yield attributes, yield, economics of the wheat crop along with the translocation study of zinc and sulphur in different plant parts and their nutrient uptake. In addition, soil samples were analysed for changes in chemical properties of soil viz. soil reaction (pH), electrical conductivity (EC), organic carbon (OC), available N, available P, available K, available Zn and available S content. The experiment was laid out in Randomised Block Design (RBD) replicated thrice with seven treatments. The treatments were T1- 100% NPK (120: 60: 40), T2- 100% NPK + 1.5 kg Zn through Zinc Sulphate, T3- 100% NPK + 2.5 kg Zn through Zinc Sulphate, T4- 100% NPK + 5.0 kg Zn through Zinc Sulphate, T5- 100% NPK + 1.5 kg Zn through Techno-Z, T6- 100% NPK + 2.5 kg Zn through Techno-Z and T7- 100% NPK + 5.0 kg Zn through Techno-Z. The results revealed that maximum growth and yield attributes viz. no. of spikes/m2 (358.86), no. of grains/spike (48.39), 1000 grain weight (41.93 g), ear head length (11.55 cm) and ear head weight (4.53 g) were recorded at peak with treatment T7. Whereas, the treatment T3, T4 and T6 showed statistically at par results with T7 in case of all yield attributing characters. It was also observed that the highest grain yield (48.20 q ha-1 ), straw yield (73.42 q ha-1 ) and harvest index (39.64 %) was achieved with the treatment T7 and the treatment T3, T4 and T6 showed statistically at par results. However, the highest B:C ratio i.e., 2.32 was found with the treatment T4 whereas in case of T7 it was only 2.04. This was only because of the higher cost of Techno-Z in comparison to that of Zinc Sulphate. As far the study of Zn translocation was concerned, the data disclosed that the highest Zn content was in lower leaf as compared to that of middle leaf and upper leaf respectively. Whereas, among all the treatments, the highest Zn content was reported in treatment T7 in case of lower leaf. It had 48.38% and 55.90% higher Zn content as compared to middle leaf and lower leaf respectively. This implied the moderately immobile nature of Zn in plant system. In case of lower leaf and middle leaf the maximum Zn concentration was reported with the treatment T7 and in case of upper leaf the peak was found with the treatment T4. However, the highest Zn concentration in grains (46.5 mg kg-1 ), straw (62.9 mg kg-1 ) and husk (20.00 mg kg-1 ) was reported with the treatment T4. In case of sulphur, results showed that maximum S content was found in the lower leaf in comparison to middle leaf and upper leaf respectively. It was due to the immobile nature of S in plant parts. Whereas, among all the treatments, the highest S concentration was reported in treatment T7 in all plant parts. When compared to that of lower leaf the percentage decrease in sulphur content in case of middle leaf and upper leaf was 48.06% and 55.81% respectively for treatment T7. The highest concentration of sulphur in grain (0.193%), straw (0.114%), husk (0.061%) was recorded with the treatment T7. For grains, T7 showed 16.64% higher values than that of treatment T4. In case of soil, maximum reduction in pH in post- harvest soil was 0.09 and it was common for 5 treatments (T1, T3, T4, T6 and T7) and least reduction in pH was 0.02 for T5 treatment. There was hardly any change in the EC values in case of post-harvest soil due to application of different sources of Zn and S containing fertilizers. Whereas, organic carbon content decreased in the post- harvest soil and maximum reduction was 0.25 for treatment T4 and least reduction was 0.08 which was common for 3 treatments (T1, T3 and T7). The Nitrogen (N) content varied from 242.00 to 267.70 kg ha-1 and 231.50 to 263.50 kg ha-1 for pre-sowing and post- harvest soil respectively. Highest Available N (267.70 kg ha-1 ) was found with the treatment T4 at both the stages. The peak of phosphorus (P) content (32.72 kg ha-1 ) in soil at pre- sowing stage was noted down with treatment T6 and at post- harvest stage with the treatment T3 (31.88 kg ha-1 ). In case of potassium (K), the maximum concentration at both the stages was found with treatment T4. For, zinc the highest content at pre-sowing stage (0.72 mg kg-1 ) and post-harvest stage (1.04 mg kg-1 ) in soil was observed with treatment T4. Similar trend was reported in case of sulphur, the maximum concentration at both pre- sowing (9.72 mg kg-1 ) and post harvest soil (9.57 mg kg-1 ) was found with that of treatment T4.
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    ThesisItemOpen Access
    IMPACT OF CROP RESIDUE INCORPORATION IN COMBINATION WITH INORGANIC FERTILIZER ON SOIL PRODUCTIVITY AND PROFITABILITY OF LINSEED
    (Birsa Agricultural University, Ranchi, 2023) KHUSHBOO JYOTSNA BAXLA; Sasihi Bhusan Kumar
    A field experiment entitled ‘Impact of crop residue incorporation in combination with inorganic fertilizer on soil productivity and profitability of linseed’ was conducted during Rabi 2021-22, at Research Farm of Department of Soil Science and Agricultural Chemistry, Ranchi, Jharkhand from the project ‘Recycling of crop waste’ which was conducted since 2016-17 at present location. The experiment consists of 8 treatments and 3 replications in a Randomized Block Design (RBD). Plot size was 18 m2 with 30 cm row spacing. The selected treatments were T1- Control, T2- Crop residue, T3- 50% NPK + Crop residue, T4- 75% NPK + Crop residue, T5- 100% NPK + Crop residue, T6- 50% NPK, T7- 75% NPK, T8- 100% NPK. 50%, 75% and 100% NPK was met by application of Urea, SSP & MOP. The crop grown was linseed (Divya variety), Seed rate was 25 kg ha-1, maturity of crop is 128-130 days. Its average yield is 15 q ha-1. Surface soil (0-15 cm) samples were collected at 30 DAS, 60 DAS, 90 DAS, 120 DAS and at harvest. Soil sample were air dried under aerated shade condition and analyzed for soil reaction (pH), electrical conductivity (EC), organic carbon (OC), available N, available P and available K. The influence of crop residue on crop yield and yield attributing characters was recorded at harvest and economics of linseed was calculated. The results revealed that different treatments of NPK with crop residue incorporation and only NPK application (50%, 75% & 100%) did not show any significant effect on soil reaction and electrical conductivity. Organic carbon (4.56 g kg-1), available nitrogen (225.21 kg ha-1), available phosphorus (42.92 kg ha-1) and available potassium (198.81 kg ha-1) content of soil after harvest of linseed crop recorded significantly higher in the treatment (T5) where 100 per cent NPK along with crop residue was applied. It might be due to incorporation of crop residue in the plots. Those treatments (mainly T2, T3, T4 and T5) where crop residue was applied, soil nutrient status increased throughout from 30 DAS up to harvest stage whereas trend was found reverse, means decreasing trend in case of RDF treated plots. The texture of soil was calculated and falls in sandy clay loam texture while matched from soil textural triangle diagram. The bulk density of soil was significant in T2, T3, T4. This might be due to returning the crop residue in soil. The effect of crop residue incorporation direct or in the combination with RDF in soil was found non-significant in particle density, porosity and water holding capacity. The Highest productivity was recorded in the treatment T5- 100% NPK + Crop residue. Grain Yield of linseed was recorded maximum 17.78 q ha-1 in the treatment T5 and least 6.21 q ha-1 in the control treatment (T1). The effect of crop residue incorporation on grain and straw yield and other yield attributes were also observed and found that plant population was higher in treatment T5 with 100% NPK + CR. Similarly, the number of primary branches (5.34), secondary branches (19.72), capsule/plant (27.54), seed/capsule (6.85) and 1000 grain weight (7.18 g) were observed significantly higher in the treatment T5 having 100% NPK + CR. The harvest index of crop residue incorporated treatment T5 was 33.32% with grain yield (17.78 q ha-1), straw yield was (35.57 q ha-1), and 32.25% harvest index was recorded with grain yield (16.07 q ha-1) and straw yield (35.48 q ha-1) was recorded in treatment T3 where only 50% RDF was provided along with crop residue. Net return and B:C ratio of T5 and T3 was (80697 ₹ ha-1, 56432 ₹ ha-1) and (2.3, 2.2) respectively. On the basis of one year of experimentation, it may be concluded that application of 50% NPK with crop residue produce higher grain yield, net return and B:C ratio which was at par with 100% NPK with crop residue incorporation. Thus, it was found most suitable combination for obtaining higher net return and benefit cost ratio making it economically feasible for farmers of Jharkhand. It reduces 50 % of the RDF of fertilizer cost with better outcome of yield.
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    ThesisItemOpen Access
    EFFECT OF ZINC APPLICATION ON RICE IN RED AND LATERITIC SOIL
    (Birsa Agricultural University, Ranchi, 2023) Juhi Tiwari; Arvind Kumar
    The present investigation “Effect of Zinc application on Rice in red and lateritic soil” was carried out on the ongoing Experiment which started in 2018 at Research Farm (Sub zone IVth of ACZ VIIth, Hill and plateau region) of Soil Science department with collaboration of AICRP-MSPE and State plan BAU, Ranchi, Jharkhand. Experiment was designed in Factorial RBD with three phasing of Zn application (P1: only 1st Year, P2: After one year gap, P3: In each year) and four Zn application levels with one absolute control. Zinc was applied in Rice crop and wheat was grown on residual soil level of Zn. Rice crop variety IR 64 drt 1(DRR Dhan 42) was taken as test crop in year 2021-22 curricular research programme. Grain yield of rice significantly increased due to Zn application levels and also due to the phasing impact of Zn. Percent increased in rice grain yield was observed lowered 7.19% only at P1 (where Zn was applied once three year back) followed by P2 and P3 phasing of Zn application. Rice grain yield was observed 29.28 q/ha at 2.5 kg/ha Zn application. Yield of rice increased with increasing levels of Zn application and found 18.04% higher to control at 10.0 kg/ha Zn application level. Straw yield also followed similar trend of rice grain yield and found maximum 76.71 q/ha at 10.0 kg/ha Zn application level (21.91% higher to control yield 62.89 q/ha). Zinc content of rice grain was significantly affected due to Zn levels, Phasing, Interaction between Zn X P and also with control VS others. Lower Zn content 23.65 mg/kg was observed in rice grain at Zn application level 2.5 kg/ha and higher 26.25 mg/kg ha, which was 16.09% higher to the control (22.65 mg/kg). Zinc content in straw yield was observed at 5.0, 7.5 and 10.0 kg/ha Zn application and was found statistically at par, while higher Zn content 83.33 mg/kg was found at Zn application done in each year. DTPA extractable Zn was found about more than 40% higher to control (1.46 mg/kg) treatment. Similar trend of Zn content in phasing also was observed and percent increase to control followed trend as (P1 < P2 < P3). Zinc content was observed in upper leaf (23.90 - 27.91 mg/kg), Middle leaf (25.86 - 28.12 mg/ha), lower leaf (26.38-29.76 mg/kg), stem (73.83-80.55 mg/kg) and in rice root 90.5 - 94.73 mg/ha respectively at 2.5 and 10.0 kg/ha Zn application. Total Zn uptake (Yield + Straw) was found higher 404.66 and 442.28 g/ha respectively at 10.0 kg/ha Zn application level and at Zn application in each year. DTPA extractable Cu, Fe, Mn, Pb, Ni, and Cd was found non statistically non-significant due to application of Zn in soil and also phasing impact, While DTPA extractable Zn was significantly affected and found lower 1.35 mg kg-1 at Zn1xP1 treatment and maximum 2.51 mg kg-1 at Zn4xP3 treatment. Soil properties like pH and OC (g/kg) was statistically found none significant and similarly available N, K and P did not affected due to Zn application and Phasing impact in soil.
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    ThesisItemOpen Access
    IMPACT OF LONG TERM FERTILIZER APPLICATION ON DIFFERENT FORMS OF SULPHUR IN AN ALFISOL
    (Birsa Agricultural University, Ranchi, 2023) PRIYA NIVA KUJUR; P. Mahapatra
    The present investigation entitled “Impact of long term fertilizer application on different forms of sulphur in an Alfisol” was undertaken during 2021-22 under the ongoing AICRP on LTFE since 1972 at the experimental farm of Department of Soil Science and Agricultural Chemistry, Birsa Agricultural University, Ranchi. The experiment consisted of ten treatments replicated thrice in a randomized block design i.e. T1:50% NPK, T2:100% NPK, T3: 150% NPK, T4: 100% NPK+ Hand weeding, T5: 100% NPK + Lime, T6: 100% NP, T7: 100% N, T8: 100% NPK + FYM, T9: 100% NPKS and T10: Control. Soybean-wheat is being followed since the year 1986. Soybean is grown as rainfed crop in kharif and wheat in rabi under irrigated conditions. Soil samples were collected from 0-15 cm and 15-30 cm depth after harvest of wheat (2022). Plant samples were collected for both the crops during 2021-22. The processed soil samples were analyzed for pH, EC, organic carbon, available N, P and K, exchangeable Ca and Mg and different forms of sulphur viz., total, CaCl2, KH2PO4, Ca(H2PO4)2, water soluble and heat soluble sulphur in both surface and sub-surface soil. Both grain and straw samples for soybean and wheat were analyzed for sulphur content by following standard methods. The data pertaining to soil and plant was statistically analyzed to make out the least significant difference among the treatments. The variation for different forms of sulphur in soil showed following decreasing order of abundance in mg kg-1: Total S (200-345)>organic S (179-316)>Ca(H2PO4)2 S (20-43)>KH2PO4 S (17-25)>CaCl2 S (11-23)>adsorbed S (7-20)>heat soluble S (5-10)>water soluble S (3-8) for surface soil. While, Total S (243-507)>organic S (220-470)>Ca(H2PO4)2 S (14-94)>KH2PO4 S(24-58)>CaCl2 S (11-23)>adsorbed S (2-59)>heat soluble S (5-9)>water soluble S (2-5) for sub-surface soil. System productivity was expressed in terms of mean wheat equivalent yield (WEY in kg ha-1) which followed the following order: 100% NPK + FYM (8804)>150% NPK(8185)>100% NPK + lime (8136)>100% NPKS (8084)>100% NPK + HW (7402)>100% NPK(7314)>100% NP (5042)>50% NPK (4532)>100% N (1966)>control (1565). Analysis of soil for pH, EC, organic carbon, available N, P & K; Exchangeable Ca & Mg after harvest of wheat at the end of 50th cropping cycle, the range for pH was 4.2 to 6.1 and 4.8 to 6.2 in surface and sub-surface soil, respectively. Similarly, significant variations for other chemical parameters were observed. Correlation coefficient study between soil properties and sulphur pools reflected a strong significant relationship of pH and organic carbon with total S content of soil. There was strong relationship among different forms of sulphur in soil. Among sulphur pools, organic S, adsorbed S, CaCl2 and Ca(H2PO4)2 extractable S had significant correlation with total S in soil. Among the three extractants for S estimation, Ca(H2PO4)2 S extractable sulphur had maximum contribution to total sulphur. Total sulphur removal under soybean-wheat cropping system for production 2.0 tonnes of soybean and 4.7 tonnes of wheat grains in a year was 17.2 kg S ha-1. Apparent S recovery was around 11 per cent and the increase in grain yield due to application of sulphate source of phosphatic fertilizer i.e., SSP was around 17 kg per kg of S applied as compared to balanced application of NPK. Integrated use of balanced dose of NPK fertilizer along with FYM or lime resulted in 11 to 20 per cent increase in grain yield as compared to balanced dose while, use of balanced dose of NPK at super optimal level was in between. Significant relationship among the different forms of S in soil indicated the existence of equilibrium among themselves. Based on the results of present study, it may be advocated for use of SSP instead of DAP as it increases grain yield of crops by 10 per cent as well as maintains available S status of soil.
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    ThesisItemOpen Access
    Characterization, Release Pattern And Effeciency of Udaipur Rock Phosphate in Acid Soils Of Bihar
    (Birsa Agricultural University, Ranchi, 1990) Singh, Rajkumar Kumarjit; N. C. Srivastava
    Utility of low grade Udaipur rock phosphate (URP) as a source of P in acid soils of Bihar was investigated crystal chemical studies showed the apatite in URP as a fluorapatite with very little substitution of CO for FO. The 'a' axla was found to be 9.37232, while the mole ratio of 003 : PO, and absolute citrate solubility index were 0.006 and 1.262, respectively. A high neutralizing value was observed with URP due to the presence of dolomite. maximum conversion of insoluble phosphate into soluble form due to acidulation with ₂50 was obtained over a period of three hours. In pot culture studies, it was found that as a source of P, SSP was significantly superior to URP in terms of dry matter production and P uptake by wheat and soybean crops. Among three land situations (lowland, medium land and upland), a wide difference in response to applied P was observed. Even liberal application of P could not bring about a buildup in available P in uplands as compared to medium and lowland situations. Field study revealed that URP and HAP alone at 60 kg P₂0/ha level became effective during the third crop. Blending of URP or NRP with FIH or P30 produced similar yield as its mixture with SSP. Residual effect of URP on grain yield increased with increasing level of application from 60 to 300 kg P20/ha, while that of SSP decreased. During the third residual crop 120 kg P₂0/ha as URP vas at par with SSP at 60 kg P20/ha applied to every crop. The relative agronomic effectiveness of RP was noticed to increase with increasing level of application, but the most economic level of URP for wheat and maize crops was found to be 177 ks P₂0/ha
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    ThesisItemOpen Access
    Long Term - Effect Of Fertilizers AndAmendments On Nutrient Status Of Acid Soil
    (Birsa Agricultural University, Ranchi, 1990) Kumar Rakesh; K.P. Singh
    Changes in physico-chemical properties of soils due to continuous use of manures and fertilizers have been reported by various workers. Keeping in view the above facts, a field experiment on effect of long term use of fertilizers, FYM and lime is being conducted at the research farm of Birsa Agricul tural University, Kanke, Ranchi since 1972-73. The present study was conducted in the year 1988, Kharif to study the effect of continuous use of ertilizers singly or in combina tion with FYM or lime on physico-chemical properties and nut rient status of soils (after 45 crops) and yield of Soybean сгор. The observation suggested variation in pH, C.E.C., ex changeable Ca and Mg, available N, P, K, S, Fe, Mn, Zn and Cu status of soils due to long term use of inorganic fertili zers, FYM and lime in red loam acidic upland soil of Ranchi. pH of soil decreased with addition of inorganic fertilizers and increased with addition of FYM or lime. Available NPK con tents increased with increasing dose of fertilizers. C.E.C. and exchangeable Mg increased with addition of FYM. Available S increased where ammonium sulphate was applied as N fertilizer in place of urea. Available Fe, Mn, Zn and Cu contents of soilalso increased with addition of FYM and with increasing dose of fertilizers. The yield of Soybean was the highest where FYM was applied in combination with inorganic fertilizers which was followed by where it was applied in combination with lime. The lowest yield was recorded where only N fertilizer was applied and was lower than even control. The highest uptake of N, P, K, Ca, and Mg was recorded where inorganic fertilizer was applied with FYM which was followed by inorganic fertilizers applied with lime. The highest uptake of Fe, Mn, Zn and Cu was observed where FYM was applied with inorganic fertilizers. Their uptake also increased with the increasing dose of fertilizers. It may be concluded that the long term use of inorganic fertilizers in combination with lime or organic matter, in general, influenced the fertility status of soils.
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    ThesisItemOpen Access
    Studies On The Indiges Of P Availability , Its Fixation And Release Pattern In Soils Of Jumar River Subcatchment Area
    (Birsa Agricultural University, Ranchi, 1989) Kumar, Arvind; K.P.Singh
    A bench mark study with respect to P status, relationship between different indices of P and soil properties, P-fixation and release pattern was carried out in soils of Umendanda series under Jumar river sub catchment area of Ranchi. The results indicated that a major proportion of these soils fall under medium and high P status soils. The different forms of P viz., Bray P₁. Olsen P and Morgan P varied widely and their mean values obtained were 55.91, 50.21 and 11.21 kg P₂05 hal respectively. The total P content also showed wide variation ranging from 1284.96 to 3952.35 kg P2°5 ha-1 with a mean value of 2241.78 kg P₂0 ha-1. The soils of this series were poor in organic carbon but rich in sesquioxide. The pH of these soil ranged from 5.0 to 6.0 with the dominance of sandy loam texture. Correlation studies between different indices of phosphorus and soil properties showed that sand fraction correlated negatively and significantly with available P but did not show any correlation with total P and sesquioxide. Kinetics of P desorption indicated that application of high amount of P in high P status soil desorbed more P in comparison to low P status soil, where lower dose of P was applied. However, desorption in initial extraction showed same value under both conditions. Incubation studies in low,medium and high P status soil indicated direct and interaction effect of period of incubation, level of P and time of shaking in desorbing phosphorus from soil,
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    ThesisItemOpen Access
    Cumulative Effect Of Long- Term Manuring And Fertilisation On Yield And Some Of The Properties Of An Acid Paleustale Soil Under Irrigated Condition In Multiple Cropping System
    (Birsa Agricultural University, Ranchi, 1989) Singh Kumar Shailendra; B. S. Mathur
    The present project was undertaken to assess the changes brought out by the cumulative effect of manure. lime, sulphur and fertilizers, after 15 years of continuous application, on status of major nutrients, different forms of aluminium, phosphate fixing capacity etc. in surface and surface layers. The important findings are summarized below s
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    ThesisItemOpen Access
    STATUS, AVAILABILITY AND Q/I RELATIONSHIP OF POTASSIUM IN SOILS OF PUTO SERIES OF RANCHI
    (Birsa Agricultural University, 1986) CHAUSHARY, SHANKAR KUMAR; ROY, H. K.
    A bench mark studies with respect to k status quantity/ intensity relationship, response of crop to potassium etc. were carried out in soils of puto series under jumar river subcatchment area of Ranchi. The results indicated that a major proportion of these soild comr under medium K. status (47.3%) followed by low (28%) and high K Status (24.7%) soils.