Dryland mulching and farming techniques
Technical Features: This system enhances the efficiency of rainwater use, reduces soil and water erosion, accelerates the decomposition of crop residues on dry slopes, and improves soil fertility. By integrating multiple crops in a single growing season, it promotes sustainable land use and better resource management. Technical Highlights: The core planting model is a multi-crop rotation system, typically involving wheat, maize, and sweet potatoes, with optional inclusion of legumes. This approach maximizes land utilization while maintaining ecological balance. Strip Configuration: The layout follows a conventional pattern but allows for flexible strip widths. Depending on local conditions, farmers can use a 6-foot open-carriage "double-triple-zero" method for half-belt planting or a 5-foot "double-five" system for half-belt spacing, ensuring optimal growth conditions for each crop. Wheat Ridge Cultivation: Instead of traditional flat planting, wheat is grown on ridges that are 20 cm high, either across the slope or on a slight slope. After harvesting, the straw is laid at the base of the furrows where corn will be planted, helping to retain moisture and enrich the soil. Reserve an Empty Strip for Fertilization: During winter, a space is left for future maize planting. This area is deeply tilled to break up the compacted soil layer, encouraging natural weathering and soil improvement. Additionally, leguminous green manure is introduced to further enhance soil fertility, which is then incorporated into the field before planting corn. Corn Ditch Planting: Corn is cultivated in ditches rather than on flat ground, allowing for better water retention and root development. After harvest, the stalks are left in place, contributing organic matter back to the soil. Sweet Potato No-Till Ridge Planting: Sweet potatoes are sown without tilling, utilizing the existing wheat ridges for efficient space use. After harvest, the ridges are reoriented, and the planting location shifts to the original corn belt, promoting continuous crop rotation. The remaining straw is incorporated into the soil, further improving its structure and nutrient content. Veterinary APIs (active pharmaceutical ingredients) refer to the raw materials or substances used in the production of veterinary drugs. These APIs are the key components that provide the therapeutic effect in veterinary medications. They are typically sourced from various suppliers and undergo strict quality control measures to ensure their safety and efficacy for use in animals.
It is important for veterinary pharmaceutical companies to carefully select and source high-quality APIs for their products to ensure the safety and effectiveness of the medications. Regulatory authorities also closely monitor the production and use of veterinary APIs to ensure compliance with safety and quality standards.
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Some common examples of veterinary APIs include antibiotics, antiparasitics, hormones, vaccines, and anti-inflammatory agents. These APIs are used to treat a wide range of conditions in animals, including infections, parasites, hormonal imbalances, and inflammatory diseases.
TOLTRAZURIL/Closantel Sodium/Doxycycline HCL/IVERMECTIN/TILMICOSIN PHOSPHATE/CARBASALATE CALCIUM/Erythromycin Thiocyanate/Oxytetracycline HCl/Tylosin tartrate/FLORFENICOL/Sulfadiazine/Sulfadimidine/Sulfadimidine Sodium/Cefotaxime sodium/Ceftriaxone sodium/Aspirin/Milbemycin Oxime/ Cefotaxime sodium/Colistin sulfate/Ceftiofur hydrochloride/Bromhexine Hcl/ Colistin Sulphate/etc