Agricultural synergists: the wonderful"amplifiers"of agricultural production
Agricultural synergists: the wonderful "amplifiers" of agricultural production
In modern agricultural production, agricultural synergists, as an important auxiliary material, are playing an increasingly important role. They are like "amplifiers" in agricultural production, which can significantly improve the efficiency of pesticides and fertilizers, helping farmers to obtain higher yields and better quality at lower costs. So, what are agricultural synergists?
How do they work?
1. Definition and classification of agricultural synergists
Agricultural synergists, as the name suggests, refer to chemical or biological agents that can enhance the effects of pesticides or fertilizers. According to different uses, agricultural synergists are mainly divided into two categories: pesticide synergists and fertilizer synergists.
Pesticide synergists: This type of synergist itself has no biological activity, but when mixed with pesticides, it can significantly increase the toxicity and efficacy of pesticides.
The emergence of pesticide synergists originated in the late 1930s, when people found that compounds with o-methylenedioxyphenyl groups (MDP compounds for short) had a
synergistic effect on pyrethroids and other insecticides. Since then, the development and research of pesticide synergists has gradually emerged. Common pesticide synergists include dipropyl ether, piperonyl ether, methyl synergist phosphate, etc.
Fertilizer synergists: Fertilizer synergists are mainly composed of trace elements necessary for crops, and are formulated with urease inhibitors, ammonia stabilizers and other ingredients. Their main function is to improve the utilization rate of fertilizers, prolong fertilizer effects, and at the same time improve soil structure, soil permeability and water retention capacity.
There are many types of fertilizer synergists, including nitrification inhibitors, urease inhibitors, plant growth regulators (such as sodium nitrophenolate, DA-6, etc., but it should be noted that these regulators have gradually withdrawn from the market due to national policy requirements), biostimulants (such as humic acid, alginic acid, amino acids, etc.), etc.
2. Mechanism of action of agricultural synergists
The reason why agricultural synergists can improve the efficiency of pesticides and fertilizers is mainly because they can act on the active ingredients of pesticides or fertilizers,
change their physical or chemical properties, and thus enhance their effects. Specifically, the mechanism of action of agricultural synergists includes the following aspects:
Improve utilization rate: By improving the dispersion, adhesion and permeability of pesticides or fertilizers, they are easier to be absorbed and utilized by crops.
Prolong fertilizer effect: By inhibiting the hydrolysis of urea and the nitrification of ammonium nitrogen, the release cycle of fertilizers is extended, so that crops can obtain a stable
nutrient supply for a longer period of time.
Improve soil structure: By increasing the organic matter content of the soil, improving the aggregate structure and pH of the soil, a good growth environment is provided for crops.
Enhance stress resistance: By improving the immunity of crops, enhancing their ability to resist pests and diseases and adversity, reducing the use of pesticides and reducing
environmental pollution.
3. Application examples and effects of agricultural synergists
Agricultural synergists have a wide range of applications in agricultural production, covering grain crops, cash crops, fruit trees, vegetables and other fields. The following are some
specific application examples and effects:
Application in grain crops: The use of fertilizer synergists can significantly increase yield and quality in grain crops such as rice and wheat. For example, the use of nitrification inhibitors
can reduce the loss of nitrogen fertilizer and improve the utilization rate of nitrogen fertilizer; the use of urease inhibitors can slow down the hydrolysis rate of urea and make the release
of nitrogen fertilizer more stable.
Application in cash crops: In cash crops such as cotton and rapeseed, the use of pesticide synergists can significantly improve the insecticidal and disease prevention effects of pesticides. For example, the use of organosilicon synergists can significantly improve the utilization rate and rainwater erosion resistance of pesticides, reduce the number of times and the cost of medication.
Application in fruit trees and vegetables: In fruit trees and vegetables, the use of biostimulant fertilizer synergists can improve the quality and taste of fruits and increase the yield and stress resistance of vegetables. For example, the use of humic acid synergists can increase the sugar content and vitamin content of fruits; the use of alginic acid synergists can enhance the stress resistance and immunity of crops.
4. Development prospects and challenges of agricultural synergists
With the continuous development of agricultural production and the continuous improvement of people's requirements for the quality of agricultural products, the application prospects
of agricultural synergists are becoming more and more broad. However, it also faces some challenges and problems:
R&D innovation: It is necessary to continuously develop new varieties and formulas of synergists to meet the needs of different crops and different growth environments.
Standardized production: It is necessary to establish strict synergist production standards and quality control systems to ensure the quality and safety of synergists.
Environmental protection requirements: It is necessary to pay attention to the impact of synergists on the environment and ecosystem, and promote the use of environmentally friendly and degradable synergist products.
Policy guidance: It is necessary to strengthen the government's supervision and guidance on agricultural synergists to promote their healthy and orderly development.
In summary, as an important auxiliary material in agricultural production, agricultural synergists play an important role in improving the efficiency of pesticides and fertilizers, improving soil structure, and enhancing crop resistance. In the future, with the continuous advancement of agricultural technology and the continuous improvement of people's requirements for the quality of agricultural products, the application prospects of agricultural synergists will be broader. At the same time, we also need to continue to pay attention to its R&D innovation, standardized production, environmental protection requirements and policy guidance to promote the healthy development of agricultural synergists.