Enhancement of Soil Fertility Using Natural Fiber-Based Engineering Composite Materials for Higher Crop Production: A Review Paper

Enhancement of Soil fertility using engineering composite materials via efficient nutrient management strategies is essential as is rising natural fiber based composite material crop production every land area unit to satisfy next diets and fiber consumption. Major developments have improved the production's nutrient-use economy Improved crop flexibility to applied nutrients, decreased offshore nutrient move, and greater predictions of the nutrients available to plants in the root zone have all been required for agriculture. Thirty articles that improve the Understanding of interconnected Soil, crops, and management components essential to improving crop regrowth and nutrient availability of used fertilizers are featured in the current issue of Monitoring. Adequate Soil material Fertility for Improved Crop Production. Improved nutrition management demands an understanding about the complex interactions special for the particular site such as nutrient rate, source, timing, and position. The ability to estimate soil material nutrient reserves is now greater as an outcome of recent scientific findings on soil material and nutrient management that were discussed in this articles. Various composite materials have been produced using natural fibers through adapted synthetic techniques, broadening their potential applications from automotive to biomedical sectors. Sisal, coconut, eucalyptus pulp, jute, bamboo, malva, hemp, banana, pineapple leaf, ramie bast, kenaf bast, flax, sugarcane fiber, date palm, and cotton are commonly utilized as natural reinforcements in polymer composites to enhance desired properties.