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Article | IMSEAR | ID: sea-230138

RÉSUMÉ

Aims/ Objectives: Effect of soil propagation media and bio-fertilizers on seedling germination and seedling vigour in Aonla.Study Design: Completely Randomized Block Design.Place and Duration of Study: Research Field, Department of Fruit Science, College of Horticulture, Mandsaur, Madhya Pradesh during 20th February 2021 to 05th April 2021.Methodology: The experiment was laid out using Completely Randomized Block Design with 18 different combinations of growing media. In the preparation of media and filling of polybags the soil was sieved and mixed FYM, Vermicompost and Neemcake in the ratio of 1:1:1:1 then added the bio-fertilizers.Results: In this study we found that treatment GM18- Soil + Neemcake + Vermicompost + FYM + Rhizobium + Trichoderma spp. @ 2.5 g found minimum days taken to seed germination (10.00 days), maximum number of seedlings sprouted (13.32), maximum survival percent (81.03%), maximum germination percentage (94.54%), maximum seedling height (8.94 cm), maximum number of leaves per plant (7.27), maximum leaf area (17.80 cm2),maximum fresh weight of shoot (4.34 g), maximum dry weight of shoot (2.21 g), maximum length of roots (7.21 cm), maximum diameter of roots (1.05 mm), maximum fresh weight of roots (1.04 g), maximum dry weight of root (0.44 g), maximum speed of germination (7.56), maximum mean daily germination (3.53), maximum peak value (1.33), maximum germination value (4.68).Conclusion: On the basis of results obtained in present investigation it is concluded that treatment GM18 (Soil + Neemcake + Vermicompost + FYM + Rhizobium + Trichoderma spp. @ 2.5 g) was found to be the best for seed germination characters and seedling vigour characters.Directions of Further Use: The experiment should be done with different concentrations of growth regulator to find the best combination.

2.
Article | IMSEAR | ID: sea-230088

RÉSUMÉ

The issue of post-harvest deterioration in fruits and vegetables constitutes a critical concern, especially given the rising global food security challenges. The aim of this review article is to present a comprehensive examination of the diverse facets contributing to the deterioration of these valuable food resources, ranging from biological and environmental factors to economic implications and current preservation methods. One area of focus involves scrutinizing the gaps in the current body of knowledge, particularly the intricate molecular mechanisms governing enzymatic activity and microbial spoilage. Recent developments in technology also present intriguing possibilities for future research. Artificial Intelligence (AI) offers transformative potential in monitoring the quality of stored produce by predicting the onset of spoilage using complex algorithms. This work also delves into the prospects of employing the Internet of Things (IoT) for real-time assessment and control of storage conditions, which could revolutionize supply chain management and significantly minimize deterioration during transport. Another exciting avenue lies in the utilization of novel packaging materials especially those which are biodegradable and may be imbued with natural preservatives, a move that aligns well with global sustainability goals. Any such technological advancements must be scrutinized in the context of existing food safety standards and regulations, both at the national and international levels. These standards govern everything from permissible microbial activity levels to waste management, and are dictated by organizations such as the FDA and EFSA, as well as international frameworks like the Codex Alimentarius.

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