ABSTRACT
To study the “Fruit Characteristics and Yield of Mango cv. Amrapali as Influenced by Bio-enhancers and Bio-fertilizers” a field experiment was conducted in the Garden, Department of Horticulture, Chandra Shekhar Azad University of Agriculture and Technology, Kanpur (U.P.) during 2020-2021. The experiment consists of seven treatments i.e., FYM (25 kg/tree/year) + Organic mulch (Paddy straw) i.e., Control, FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Amritpani (20%) + Azotobacter (100 g/tree), FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Panchagavya (3%) + Azotobacter (100 g/tree), FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Jivamrit (20%) + Azotobacter (100 g/tree), FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Amritpani (20%) + PSB culture (100 g/tree), FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Panchagavya (3%) + PSB culture (100 g/tree), FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Jivamrit (20%) + PSB culture (100 g/tree) which were replicated thrice in randomized block design by using one plant as a unit per treatment. The application of different bio-enhancers and bio-fertilizers to mango plant was made as per the requirement of the treatment.The experimental results clearly revealed that the plants treated with the application of FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Panchagavya (3%) + Azotobacter (100g/tree) produced fruits with significantly higher length, width, weight, volume, pulp weight, pulp:peel ratio with more yield. However, the fruit with minimum fruit length, width, weight, volume, pulp weight, pulp:peel ratio, and yield were recorded from the plants treated with the application of FYM (25 kg/tree/year) + Organic mulch (Paddy straw) i.e., Control. Thus, on the basis of the above observations, this can be suggested that the application of FYM (25 kg/tree/year) + Organic mulch (Paddy straw) + Panchagavya (3%) + Azotobacter (100 g/tree) were effective for substantially higher physical fruit characteristics and yield under the sub-tropical plains of Central Uttar Pradesh, India.
ABSTRACT
The present investigation was carried out to find influences of different sowing dates with application of GA3 on germination and seedling growth of Cape gooseberry (Physalis peruviana L.) in subtropical condition Prayagraj. The experiment was conducted in a Complete Randomized Design with three replications during August-March (2022-23) at Horticultural Research Farm, Department of Horticulture, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences Prayagraj Uttar Pradesh India. The 10 treatments comprised of five dates of sowing i.e., T1: 20 August 2022 with seed treatment from GA3 @100ppm, T2: 20 August without seed treatment from GA3, T3: 5 September 2022 with seed treatment from GA3 @ 100 ppm, T₄: 5 September without seed treatment from GA3, T5: 20 September 2022 with seed treatment from GA3 @100ppm, T6: 20 September 2022 without seed treatment from GA3. T7: 5 October 2022 with seed treatment from GA3 @100ppm, T8: 5 October 2022 without seed treatment from GA3, T9: 20 October 2022 with seed treatment from GA3 @100ppm, T10: 20 October 2022 without seed treatment from GA3. From all the above treatments the highest percentage of germination was recorded from T7: 93.33% followed by T8: 90% and T10: 91.66% and vegetative growth of seedling was higher in T7 followed by T8 and T9. All the treatments are sown in nursery through seed propagation after that transplanted in main field level for observe germination parameters and vegetative growth of Cape gooseberry seedling influenced by different sowing dates.