The aim of the eclectic as well as narrowly focused Agrotechnology magazine is to publish high calibre publications from basic, fundamental, and applied Agrotechnology research advancements. Recently, agriculture, which includes multiple ecosystems, has experienced considerable uncertainty because of the changing weather. In order to establish the needed resilience in crop producing and maintain the unbroken voyage of agricultural advancement that must feed teeming billions, this has surfaced as a significant issue and requires stronger scientific interventions than ever before. The journal requests articles in the following categories, among others: Agriculture, Seasonality, Farm Equipment, Agricultural Practices, Genetic Engineering, Bt Crops, Tissue Culture, Advanced Agriculture Technology, Advanced Agriculture Machinery, Agrotechnology, Modern Farming Technology, Advanced Methods in Agriculture.

In certain cases, mean climatic shifts away from present conditions might cause the optimal agricultural practises to change, forcing changes to the way things are done now in order to maintain productivity. Throughout the growing season, rising temperatures have a significant impact on farm income, food security, and agricultural productivity. In mid- and high-latitude regions, crop adaptability and production are anticipated to increase and extend northward, especially for cereals and cool-season seed crops. Since water is necessary for plant growth, variations in precipitation patterns have a significant impact on agriculture. Because over 80% of all agriculture is rain-fed, projections of future precipitation change commonly alter the extent and direction of climatic impacts on crop yield. In regions with irregular precipitation limited to a single season, irrigation farming is widespread. There is a protracted dry season in every region of the earth during which the water system is polished. However, it is the most important in rainy and subtropical areas. The temperatures are suitable for constant crop development here, but the precipitation is difficult or only occurs during one season. There are also sizable populations here whose only source of income is typically horticulture, which can provide nothing during drought years.

One of the main attractions of farming with a water system is that the rancher has a significant effect over how much water is needed for the growth of harvests, which is much more difficult with moist farming. In comparison to wet cultivating, growing a produce under a water system involves more effort and expense. Despite this, the increased crop returns pay for the extra labour and expenses. India is a large country with a population that is comparable to China's, thus water system offices are required to produce more food to support our growing population of millions. The distribution of precipitation is uneven and erratic, which either results in starvations or dry spells. We may examine both concerns using techniques for the water system. Water system offices are required to meet the diverse water needs of various crops. India is a tropical country, with high temperatures that dissipate quickly. As a result, a fake water system is essential for maintaining an adequate water supply and preventing water shortages throughout the long, dry winter.