Impact of inorganic fertilizers on soil physical and chemical properties at different depths of the soil?5 answersInorganic fertilizers have varying impacts on soil physical and chemical properties at different depths. Studies have shown that long-term application of inorganic fertilizers can significantly affect soil properties. For instance, research on Vertisols in central India revealed that differential nutrient management practices influenced bulk density, porosity, and water holding capacity up to 30 cm depth, with non-significant effects beyond that. Additionally, the application of inorganic fertilizers in sandy loam soils did not significantly alter bulk density, porosity, water holding capacity, organic carbon, or other soil properties. Furthermore, the interaction between labile carbon, phosphorus fractions, and soil organic carbon was influenced by inorganic fertilization practices, particularly at shallower soil depths, impacting soil acidity and carbon dynamics. These findings emphasize the importance of considering depth-specific effects when assessing the impact of inorganic fertilizers on soil properties.
What are the impacts of different inorganic fertilizer to pechay growth?5 answersDifferent inorganic fertilizers have varying impacts on pechay growth. Organic amendments like swine manure, chicken dung, mudpress, and vermicast significantly enhance soil properties, microbial decomposition, nitrogen mineralization, and overall growth and yield of pechay. In contrast, the study on bio-organic fertilizers found that fermented fruit juice (FFJ) outperformed fermented plant juice (FPJ) in promoting plant height, leaf number, and yield in pechay, especially at higher application levels. Additionally, a study on the effects of organic and inorganic fertilizers on Pseuderanthemum atropurpureum growth highlighted that organic Vitaboost treatments led to higher electrical conductivity and nitrate levels in growth media, impacting plant growth. Therefore, the choice of inorganic fertilizer can significantly influence the growth and yield of pechay plants.
What are the effects of inorganic fertilizers to eggplants?4 answersInorganic fertilizers have been found to have significant effects on the growth and yield of eggplants. Studies have shown that the application of mineral fertilizers, such as organo-mineral fertilizers and chemical fertilizers, can lead to increased plant height, collar diameter, and fruit yield. The use of mineral fertilizers has been found to produce the best effects, with higher fruit yields compared to organic fertilizers. However, organic fertilizers, such as developed organic fertilizer, organic fertilizer, and chicken dung, have also been shown to have positive effects on eggplant growth and yield, with increased plant height, number of leaves, leaf area, and plant fresh weight. Overall, the application of inorganic fertilizers, particularly mineral fertilizers, can significantly improve the growth and yield of eggplants.
What are the effects of inorganic fertilizer in cacao?4 answersInorganic fertilizer has various effects on cacao. It can lead to an increase in production and growth of cacao plants, but it may not be sustainable in the long term. Inorganic fertilizer can provide a quick and high upgrade in cocoa plant production, but it may not be sustainable. Integrated application of inorganic fertilizers with other organic materials, such as poultry manure and sulphate of ammonia, can improve survival, growth, and nutrient uptake by cacao seedlings. The application of inorganic fertilizer, specifically NPK 15:15:15, can significantly increase cowpea growth and yield components when combined with cocoa leaf litter. The integration of urea and vermicompost as inorganic fertilizers can enhance the growth and yield performance of cacao trees, resulting in increased weight of harvested pods and dry bean weight. The addition of inorganic fertilizer, such as urea, can also increase soil organic matter content and leaf nitrogen content.
What are the advantages and disadvantages of organic and inorganic fertilizers?1 answersOrganic fertilizers have several advantages over inorganic fertilizers. They have a high percentage of organic matter and rich nutrient components, which can improve the physical properties of the soil and enhance the structure of the soil microbial community. Organic fertilizers obtained from poultry farm waste can replace mineral fertilizers and significantly improve the environmental indicators of the region, soil composition, crop fertility, and the quality of agricultural products. The use of organic fertilizers improves the composition and properties of soils, increases crop yields, and ensures food security, while also improving people's health and increasing their life expectancy. In contrast, inorganic fertilizers provide immediate and fast access to necessary nutrients for plants, but their continuous use causes soil degradation, acidity, and environmental pollution. In summary, organic fertilizers have advantages in terms of soil improvement, crop yield, and environmental sustainability, while inorganic fertilizers provide immediate nutrient availability but have negative effects on soil and the environment.
What is inorganic fertilizer?5 answersInorganic fertilizer refers to fertilizers that are made from non-living materials and do not contain any organic matter. These fertilizers are typically composed of various minerals and chemical compounds that provide essential nutrients to plants. Inorganic fertilizers can contain a combination of nitrogen (N), phosphorus (P), and potassium (K), which are the primary nutrients needed for plant growth. They can also include other micronutrients and trace elements that are necessary for healthy plant development. Inorganic fertilizers can be formulated specifically for different types of plants, such as maize, or fig trees. They are often produced through processes such as granulation, where the primary nutrients are combined with other substances to form particles with improved properties. Inorganic fertilizers are known for their high nutrient content, efficiency, and convenience in storage and application. They play a crucial role in improving crop yield, reducing fertilization costs, and minimizing environmental pollution. Additionally, inorganic fertilizer production apparatuses have been developed to effectively process agricultural waste and produce high-quality ash fertilizers.