Английская Википедия:Agricultural chemistry

Шаблон:Short description Agricultural chemistry is the chemistry, especially organic chemistry and biochemistry, as they relate to agriculture. This includes agricultural production, the use of ammonia in fertilizer, pesticides, and how plant biochemistry can be used to genetically alter crops.

Agricultural chemistry embraces the structures and chemical reactions relevant in the production, protection, and use of crops and livestock. Its applied science and technology aspects are directed towards increasing yields and improving quality, which comes with multiple advantages and disadvantages.

Advantages and Disadvantages

The goals of agricultural chemistry are to expand understanding of the causes and effects of biochemical reactions related to plant and animal growth, to reveal opportunities for controlling those reactions, and to develop chemical products that will provide the desired assistance or control. Agricultural chemistry is therefore used in processing of raw products into foods and beverages, as well as environmental monitoring and remediation. It is also used to make feed supplements for animals, as well as medicinal compounds for the prevention or control of disease. When agriculture is considered with ecology, the sustainablility of an operation is considered.Шаблон:Cn

Eutrophication, the prevalence of genetically modified crops and the increasing concentration of chemicals in the food chain (e.g. persistent organic pollutants) are only a few consequences of naive industrial agriculture.Шаблон:Cn

In recent years there has been somewhat of a debate between industrial agriculture and organic agriculture as to which method is better suited to provide the food necessary for a growing population. Supporters of organic agriculture argue for a more sustainable approach to framing, one that doesn't degrade or harm the environment. Those for industrial agriculture say that organic farming methods do not produce enough food to provide for the world's population, though there is no scientific evidence to back this up. The debate is ongoing on both sides.Шаблон:Fact

Soil Chemistry

Agricultural chemistry often aims at preserving or increasing the fertility of soil, maintaining or improving the agricultural yield, and improving the quality of the crop.

The discovery of the Haber-Bosch process led to increase in production of crops in the 20th century.^[1][2] This process dramatically increases the rate at which crops are produced, which is able to support the growing human population.^[1] The most common form of nitrogen fertilization source is urea, but ammonium sulphate, diammonium phosphate, and calcium ammonium phosphate are also used.^[1]

A drawback to the Haber-Bosch process is its high energy usage.^[3]

Pesticides

Chemical materials developed to assist in the production of food, feed, and fiber include herbicides, insecticides, fungicides, and other pesticides. Pesticides are chemicals that play an important role in increasing crop yield and mitigating crop losses.^[4] These work to keep insects and other animals away from crops to allow them to grow undisturbed, effectively regulating pests and diseases.

Disadvantages of pesticides and herbicides include contamination of the ground and water. They may also be toxic to non-target species, including birds and fish.^[5] Specifically, the pesticide glyphosate has been accused of being a cause for cancer after heavy, routine use, and has suitable faced many lawsuits. The insecticide neonicotinoid has been found to be injurious to pollinators and the herbicide dicamba's tendency to drift has caused damage to many crops, according to US Midwest farmers.^[6]

Plant Biochemistry

Plant biochemistry encompasses the chemical reactions that occur within plants. In principle, knowledge at a molecular level informs technologies for providing food. Particular focus is on the biochemical differences between plants and other organisms as well as the differences within the plant kingdom, such as dicotyledons vs monocotyledons, gymnosperms vs angiosperms, C2- vs C4-fixers, etc.

GMOs

Genetically Modified Organisms (GMO's) are one way of achieving this. GMO's are plants or living things that have been altered at a genomic level by scientists to improve the organisms characteristics. These characteristics include providing new vaccines for humans, increasing nutrients supplies, and creating unique plastics.^[7] They may also be able to grow in climates that are typically not suitable for the original organism to grow in.^[7] Examples of GMO's include virus resistant tobacco and squash, delayed ripening tomatoes, and herbicide resistant soybeans.^[7]

GMO's came with an increased interest in using biotechnology to produce fertilizer and pesticides. Due to an increased market interest in biotechnology in the 1970s, there was more technology and infrastructure developed, a decreased cost, and an advance in research. Since the early 1980s, genetically-modified crops have been incorporated. Increased biotechnological work calls for the union of biology and chemistry to produce improved crops, a main reason behind this being the increasing amount of food needed to feed a growing population.^[8]

That being said, concerns with GMO's include potential antibiotic resistance from eating a GMO.^[7] There are also concerns about the long term effects on the human body since many GMO's were recently developed.^[7]

Because of the concerns some have with GMO's, there is much controversy surrounding them; in the United States, the House of Representatives passed a bill that made it mandatory that all foods that contain GMO's be labeled either in the forms of text on the containers of food, an Agricultural Department created symbol, or a smartphone scannable bar code. Previously, some states had already enacted legislature of this kind, leading farm groups and the food industry to push for the passing of this bill on a national front to prevent the complexity of laws that would come with different state requirements on the labeling of GMO's, believing that it would also lead to increased food prices in stores. Opposition to this bill came from organic food producers and consumer advocacy groups who believed the use of bar codes in labeling would prevent those Americans without smartphones from accessing that important information of what was in their food, as well as the argument that a number of GMO foods, particularly those made with the CRISPR editing tool, would fail to meet the requirements for labeling.^[9]

See also

• Agronomy
• Fertilizer
• Pesticides

Notes and references

Шаблон:Reflist

Шаблон:Branches of chemistry Шаблон:Authority control

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