Irrigation and cooling at the right time can significantly improve the microclimate in the field, helping to lower inter-plant temperatures by 1 to 2 degrees Celsius. For dry crops, water can be directly sprayed onto the stems and leaves using sprinklers or sprayers, which helps maintain a balance of moisture within the plants through cooling and humidification. During hot periods, some regions have successfully adopted methods such as watering with cool water in the early morning, deep irrigation during midday, and "horse watering" in the evening to manage heat stress effectively.
For cross-pollinated crops like corn and sorghum, artificial pollination using powdered materials or bamboo shoots can enhance the amount of pollen that reaches the stigma. This increases the chances of successful pollination and fertilization, thereby reducing the negative impact of high temperatures on seed set rates. According to experimental results, artificially assisted pollination has been shown to increase fertility by 5% to 8% compared to natural pollination.
Foliar fertilization using solutions such as urea, human urine, pig urine, potassium dihydrogen phosphate, and ash leachate can be applied multiple times during critical growth stages like tasseling, heading, and grain filling. Increasing the water volume during these periods helps raise the moisture content in the ear parts of the plant, aiding in cooling and humidity regulation. It also ensures that the leaves receive essential nutrients and water in a timely manner, promoting better grain development and improved kernel fullness.
Effective field management, including proper adjustment of water and fertilizer application, plays a crucial role in enhancing crop nutrition and improving their resilience to high temperature stress. By maintaining optimal growing conditions, farmers can reduce the risk of heat damage and ensure healthier, more productive crops.
Amino Series
Amino acid plays an important role in human and animal nutrition and health. It has wide use and prospect market. we are decided to develop an amino acid derivative compounds according to the company 's own personnel expertise . Currently we focus on the development of amino acid derivatives. Amino acid derivative is a compound derived from sequence of reactions by amino acid, the predecessor of the amino acid derivative is an amino acid. Under leading by Massachusetts Institute of Technology Dr. Wanghong Yao , synthesis tenology has continuous improvement, production process has continuous innovation. Our original synthesis method is on the transferring to the fermentation method , enzymatic method. Under strictly environmental pressure background, the method not only greatly reduce the pressure but also improve economic efficiency. Some of our products can reach production capacity in tons, we will take reasonable measures to try to meet the market demand , and strive to achieve on time delivery , delivery asap in timely period .
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Amino Series, Humic Amino Acid Granule,Humic Amino Granule
Taizhou Volsen Chemical Co., Ltd. , https://www.volsenchem.com