Response of Some Sugar beets cultivars to Organic fertilizers under South Sinai Conditions.

Abstract

Abstract Background: Sugar beets-winter is the primary sugar planting technique in arid Egypt, This study's major goal was to increase the growth of sugar beetroot cultivars in an arid region by applying organic fertilizers. It will be easier to increase crop performance under salinity if we have a superior grasp in terms of the molecular and physiological mechanisms driving salt acceptance. Results: The sustainability of sugar beets, a novel crop in this region, is still unknown. Consequently, a field experiment four sugar beets cultivars (Casupia-Salama-Sahar and Faten) under three organic fertilization (0, 11.905, and 23.810 ton/ha). Field data were used to incorporate the capacity of 17 morphological, yield-related, and physiological features as indicators for detecting salt tolerant, net ecosystem economic advantages, and economic benefits. Conclusions: Salama cultivar significantly surpassed other studied cultivars by 8.5%. The organic fertilization considerable impact on application rate, facilitate the elements and reduce the damage of the salts. Taking into account modifications to the organic fertilization traces, the Salama cultivar with (23.810 ton/ha), which produced the greatest net benefits to the ecosystem in terms of both economic and ecological advantages, and a 167 % Salama greater net economic benefits to the ecosystem than with the status quo Casupia cultivar and Organic Fertilization application rate (0 ton/ha), employing a comprehensive approach that combines Salama cultivar and Organic Fertilization application contributes to improvements sustainable sugar beets production systems in the El-Tur area, South Sinai, Egypt and places with comparable ecological characteristics.