Vol. 4 No. 04 (2024): Volume 04 Issue 04

In this article, a deep scientific analysis of the unique properties of the medicinal plant Glycyrrhiza glabra L., its importance and necessity in agriculture is given, based on which the relevance of this topic is scientifically explained in a wide way.

The article proposes a cluster scheme for the production of dried grapes in the regions of the Republic of Uzbekistan and describes the features of cleaning dried grapes in farms specializing in the cultivation and processing of commercial grapes.

This article describes soil salinity, salinity and the factors that cause their appearance, and the effects of toxic salts on crops.

In our republic, special attention is being paid to the introduction of modern resource-saving techniques and technologies for high-quality production of fiber and cotton products. This article talks about science-based modern techniques and technologies that improve the quality of seed and fluff.

This study introduces a novel approach for the real-time monitoring of plant photosynthetic pigments to enable dynamic assessment of plant health and physiological responses. By employing cutting-edge sensing technologies and data analysis techniques, our method offers continuous and non-invasive measurement of chlorophyll, carotenoids, and other key pigments crucial for photosynthesis. We demonstrate the applicability of our approach across various plant species and environmental conditions, highlighting its potential for enhancing our understanding of plant physiology, optimizing agricultural practices, and assessing ecosystem health.

This study presents the design and implementation of a novel depth-control planting unit equipped with a single-side gauge wheel for enhancing precision in no-till maize planting. The innovative system addresses the challenges associated with traditional planting methods by providing improved depth control while minimizing soil disturbance. By integrating advanced engineering principles with agricultural practices, the single-side gauge wheel depth-control system offers a sustainable solution for optimizing maize production efficiency in no-till farming environments.