ABSTRACT
An experimental trial carried out on topic for the two repeated year 2021-22, start from rabi seasons at research farm of soil science and agricultural chemistry prayagraj. The geographical co-ordinates of the university campus are approximately 25.47690 N latitude and 81.85740 E longitude and 98 meters (322 feet) the area of prayagraj district comes under subtropical belt in the south east of uttar pradesh, which experience extremely hot summer and fairly cold winter. The maximum temperature of the location reaches up to 460C - 480C and minimum temperature is 40C - 50C. The relative humidity ranged between 20 to 94 percent. The average rainfall in this area is around 1100 mm annually. the designed lay out 48 total soil was sandy loam and samples were taken from different depths 0-15 cm and 15-30 cm the conjunctive use of N, P, & K and different vermicompost and rhizobium the treatment T16 [RDF @ 100 % + VC @ 100 % + Rhizobium @ 100 %] plant height (cm), number of branches, number of pods plant-1, number of seeds pod plant-1, grain yield, seed weight, gave best results. The maximum B:C ratio was achieved in treatment T16 [RDF @ 100 % + VC @ 100 % + Rhizobium @ 100 %], i. e. 1.95 and 2.18, for chick pea cv. aruna during respectively years and was found at par than any other treatment.
ABSTRACT
We aimed to study nutrient status in Phulpur block of Prayagraj District of Uttar Pradesh, India. We collected representative soil samples covering nine villages of Phulpur division at depths like 0-15cm, 15-30cm and 30-45cm before sowing of crops. The soil samples were analyzed for their physico-chemical properties. Results show that the soil samples of the areas of the Phulpur division were found to be mildly alkaline and non-saline. There are many reasons leading to soil quality deterioration, including changes in land use types of forest to arable land and the consequences of intensive land use. The colour of soil changes between the three depths at all locations. There were differences in the colour of dry and wet soils was dark brown to dark yellowish brown. The soil bulk density varied from 1.22 to 1.41 Mg m-3, soil particle density varied from 2.291 to 2.452 Mg m-3, pore space from 41.6 to 48.2 %, water holding capacity from 36.60 to 43.30 % respectively. Soil pH varied from 7.26 to 7.84 and EC is 0.24 to 0.38 dS m-1. while soil organic carbon varied from 0.29 to 0.45 % and available nitrogen from low to medium (180 to 275 kg ha-1), available phosphorous from medium to high (10.80 to 22.5 kg ha-1), potassium was found to be medium range (132.00 to 231.00 kg ha?1), exchangeable calcium and magnesium low from (3.48 to 5.50 Meq 100g-1) and (1.66 to 2.72 Meq 100g-1) respectively. The water pH of varied from 6.24 to 7.50, the electrical conductivity of water ranged from 0.31 to 0.90 dS m-1, the bicarbonate of water varied from 7 to 18 Meq L-1, the chloride of water varied from 4.5 to 10.4 Meq L-1, the available calcium of water varied from 4.2 to 8 Meq L-1, the available magnesium of water varied from 2.5 to 3.6 Meq L-1, the potassium of water varied from 0.05 to 0.17 Meq L-1 and the sodium of water varied from 0.08 to 0.21 Meq L-1. The sodium absorption ratio (SAR) ranged from 0.03 to 0.1 Meq L-1, indicating low to moderate levels of sodium content in the water samples. The soluble sodium percent (SSP) ranged from 1.47 to 3.93 Meq L-1, providing further insight into the sodium content in the water. The residual sodium carbonate (RSC) varied from -2.4 to 7.4 Meq L-1. The permeability Index (PI) ranged from 28 to 56 Meq L-1, serving as an indicator of the potential impact of water on soil permeability, the Kelley's ratio (KR) ranged from 0.08 to 0.024 Meq L-1. The KR is a measure of the sodium hazard in irrigation water, with lower values indicating a lower risk of sodium-related issues in soil and crops. The range of the irrigation water quality index value ranged from 44 to 157 Meq L-1 it was determined that 100% of the samples are in suitable range for irrigation.
ABSTRACT
Thirty patients undergoing closed mitral valvotomy were prospectively randomised to receive either thoracic or lumbar epidural catheter. General anaesthesia consisted of morphine sulphate 0.15 mg/kg (single dose given before skin incision), thiopentone sodium 4-6 mg/kg, vecuronium and halothane titrated to stable haemodynamics. In the immediate postoperative period, pain was assessed by VAS (visual analogue scale) and VRS (verbal ranking score) and an epidural fentanyl bolus of 1.5 microg/kg was given followed by an infusion of 0.4 microg/kg/hr. Pain was assessed after 30 min and if pain relief was still inadequate, another fentanyl bolus of 1 microg/kg was administered, followed by an increase in infusion rate to 0.6 microg/kg/hr. If two consecutive pain scores were satisfactory (VAS <4, VRS <1) maintenance dose of fentanyl was decreased by 0.2 microg/kg/hr. Thoracic group received significantly less total dose of fentanyl in 24 hrs period (446.7 +/- 101.70microg) compared with the lumbar group (705.33 +/- 181.03microg) (p<0.01). The mean infusion rate was also significantly less in the thoracic group as compared with the lumbar group (0.44 +/- 0.08microg/kg/hr vs 0.61 +/- 11microg/kg/hr, p<0.001). The side effects were comparable between both the groups and none of the patients had significant respiratory depression. The data suggest that thoracic epidural fentanyl infusion is superior to lumbar infusion for post thoracotomy pain relief because of smaller dose requirement.