Kidney bean fertilization is a good "three levels"
Kidney beans are fat but not fat, water and fertilizer management mainly includes grasping three aspects: full base fertilizer, timely top dressing; increased application of phosphorus and potassium fertilizer, appropriate amount of nitrogen fertilizer; first controlled and promoted to prevent leggy and premature aging. Plant nutrition is the key to increasing inflorescence and pod formation. Sufficient basal fertilizer can promote the growth of roots and the activity of rhizobial bacteria, form more nodules, make the early stem vines grow robustly, differentiate more flower buds, and lay a foundation for high yield. Basal fertilizer generally applies 2000-3000 kilograms of organic manure per acre, 25-30 kilograms of superphosphate, and 50 kilograms of plant ash. Before the flowering and sprouting of cowpea, the requirement of water and fertilizer is not high, and the management is mainly controlled. The basal fertilizer is adequate, and it is generally no longer top-dressing. When the weather is dry, it can be properly watered. If there is too much water and fertilizer, the stems and leaves will grow in length, causing the inflorescence to rise and the number to decrease, forming a vacancy in the middle and lower parts. When the plant's first inflorescence pods were sitting, the following inflorescences appeared in combination with topdressing and watered once, with 10-15 kg of nitrogen, phosphorus, and potassium fertilizer per acre and irrigation of 20-30 cubic meters. After scabs, the soil is often kept moist and fertilizer is applied once every 1-2 weeks to maintain robust growth and flowering. Into the pod harvesting period, the need for more water and fertilizer, can be followed by 1 irrigation fertilizer, 10 kg of urea per mu, 20-25 kg of superphosphate, 5 kg of potassium sulfate or 40 kg of plant ash, 20-30 cubic meters of irrigation water Meter. If the supply of water and fertilizers is insufficient, the plants are prone to growth and decline, resulting in the phenomenon of falling flowers. Hearing aid manufacturers strive to optimize their wireless hearing aid offerings both in terms of connection reliability as well as power efficiency. Variance across patients and listening conditions can make optimizing wireless hearing aid systems a complex process.
Factors such as connection distance, proximity of reflective surfaces, interference from other wireless devices, and energy loss through body absorption must all be factored into the hearing aid design. For example, indoor wireless performance may be very different from wireless performance experienced outdoors, where the only reflective surface may be the ground on which the hearing aid user is standing. Furthermore, individual differences in body geometry increase the variability that wireless engineers must account for when designing a system that provides each user with a consistent and reliable experience.
As awareness of wireless hearing technology grows, hearing healthcare professionals may notice an uptick in long-term safety concerns. Consumers should be confident knowing that wireless hearing aids are safe and strictly regulated medical devices that meet governmental wireless communication standards in addition to those set forth for medical devices.
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