Browsing by Author "Sritharan, N."
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Item Effect of Enriched TSP Polymer Seed Coating on Germination Physiology of Greengram Var. CO8(Ms. M. B. Mondal, 2023-10) K., Pravina; Renganayaki, P. R.; Sritharan, N.During 2023, the research was carried out under laboratory condition at the Department of Seed Science and Technology, Tamil Nadu Agricultural University, Coimbatore, to find out the effect of TSP polymer seed coating on germination physiology of green gram. The seeds were coated with TSP polymer, TSP polymer with preservatives, TSP polymer with PGRs and TSP polymer with preservatives and PGRs @ 6 g/ kg of seeds. Among the various constituents of polymer, TSP polymer with preservative (0.1% Sodium sorbate) and PGR (1.5 ppm BRs) performed better with good speed of germination and seedling vigour.Item Studies on the Effect of Nano-Urea on Growth, Yield and Nutrient Use Efficiency in Transplanted Rice(Ms. M. B. Mondal, 2023-10) A. S., Anushka; Kumar, G. Senthil; Sritharan, N.; Radhamani, S.; Maragatham, S.Rice is a staple crop that feeds a large section of the world's population, and conventional urea fertilisers have played an important role in increasing rice yields. However, nano urea, a game-changing invention in modern agriculture, represents a big step forward in terms of sustainable and efficient crop production. The experiment was carried out at wetlands farm of Tamil Nadu Agricultural University, Coimbatore, during Navarai season, 2022 in a Randomized block design with eight treatments and three replications. The main objective is to enhancing the growth and yield of rice through foliar application of nano urea. The rice variety CO 55 was taken up for the study with the RDF of 150:50:50 NPK kg ha-1. The experimental details viz; T1 -100% recommended dose of nitrogen (RDN) (150 kg N) through urea (25% each at basal, AT, PI and heading stage), T2 - 100% RDN (150 kg N) through urea (50% as basal+ two top dressing 25% each at AT & PI), T3 - 50% RDN (75 kg N) through urea (basal only) , T4 - 50% RDN (75 kg N) through urea (basal only) + two foliar sprays of nano urea at 20th and 40th DAT, T5 -50% RDN (75 kg N) through urea (basal only) + three foliar sprays of nano urea at 20th, 40th and 60th DAT, T6 -25% RDN (37.5 kg N) through urea (basal only) + three foliar sprays of nano urea at 20th, 40th and 60th DAT, T7 -Foliar sprays of nano urea at 20th 40th and 60th DAT (no basal application), T8 -Control (0% N). Based on the experimental results show that, among the treatments the higher plant height, leaf area index and yield should be obtained in the T5 treatment ie; reduced basal nitrogen application as 50%, with nano urea foliar spray.Item Variation in the Ability of Various Tree Species to Capture Particulate Matter in Industrial and Urban Areas(Ms. M. B. Mondal, 2023-10) Devi, Maisnam Sushima; Prasanthrajan, M.; Bharani, A.; Sritharan, N.; Sharmila, D. Jeya Sundara; Maheswari, M.There are several short- and long-term negative effects on human health caused by the well-known pollutant known as particulate matter (PM), which also significantly contributes to urban air pollution. Trees can act as a sustainable air purifying filter by adsorbing and absorbing tiny airborne dust. Their effectiveness is influenced by a number of variables, including particulate matter concentration and leaf features of tree species. In this study, the particulate matter capturing capacity of commonly grown 20 tree species were compared and the best tree species were chosen for the urban plantation to reduce particulate matter pollution. In this study, Ficus bengalensis (0.67 mg/cm2), Mangifera indica (0.61 mg/cm2), Polyalthia longifolia (0.57 mg/cm2), Tectona grandis (0.66 mg/cm2) and Terminalia catappa (0.63 mg/cm2) were found to be the best tree species among the 20 tree species and also it was confirmed that morphological characteristics of tree leaves plays an important role in capturing the particulate matter from the atmosphere. In conclusion, our findings may help in the selection of greening tree species with strong particulate matter purifying capacities for both industrial and urban areas.