arsanilic acid

简明释义

阿散酸

英英释义

例句

1.Researchers are exploring alternatives to arsanilic acid for veterinary applications.

研究人员正在探索替代氨基砷酸的兽医应用。

2.Farmers are advised to limit the use of arsanilic acid in livestock feed.

建议农民限制在牲畜饲料中使用氨基砷酸。

3.The study investigated the effects of arsanilic acid on aquatic life.

这项研究调查了氨基砷酸对水生生物的影响。

4.The toxicity of arsanilic acid has raised concerns among health officials.

由于氨基砷酸的毒性，卫生官员表示担忧。

5.Environmental regulations have been established to control arsanilic acid contamination.

已经制定环境法规以控制氨基砷酸污染。

作文

Arsanilic acid, known scientifically as an organoarsenic compound, has a complex history in the fields of chemistry and medicine. It is primarily recognized for its use in veterinary medicine as a growth promoter in livestock. The chemical structure of arsanilic acid consists of an amino group attached to an arsonic acid moiety, which contributes to its unique properties. This compound has been studied extensively for its potential applications in various sectors, including agriculture and pharmaceuticals. Historically, arsanilic acid was first synthesized in the early 20th century, and its introduction into animal husbandry marked a significant advancement in agricultural practices. Farmers began using it to enhance the growth rates of cattle and poultry, leading to increased productivity and profitability. However, the use of arsanilic acid has not been without controversy. Concerns have been raised about its potential effects on human health and the environment, particularly regarding the accumulation of arsenic in the food chain. The mechanism by which arsanilic acid promotes growth involves its role as an antibiotic agent. By inhibiting the growth of certain pathogenic bacteria in the intestines of animals, it allows for better nutrient absorption and overall health. This aspect has made it a valuable tool in veterinary medicine, but it has also led to calls for stricter regulations on its use. In many countries, the use of arsanilic acid in food-producing animals has been banned or restricted due to these health concerns. In addition to its veterinary applications, arsanilic acid has also been studied for its potential therapeutic effects in human medicine. Research has indicated that compounds related to arsanilic acid may possess anti-cancer properties, leading to interest in their development as novel treatments. However, the toxicity associated with arsenic compounds poses significant challenges in this area. The balance between efficacy and safety is critical, and ongoing research aims to identify safer derivatives that retain the beneficial properties of arsanilic acid without the associated risks. Moreover, the environmental impact of arsanilic acid cannot be overlooked. As it is used in agriculture, there are concerns about its leaching into groundwater and its long-term effects on ecosystems. Studies have shown that arsenic can accumulate in soil and water, potentially affecting plant life and entering the food chain. This has prompted scientists and policymakers to reconsider the use of arsanilic acid in agricultural practices and explore alternative methods that are both effective and environmentally friendly. In conclusion, arsanilic acid represents a fascinating intersection of chemistry, agriculture, and health. Its historical significance as a growth promoter in livestock has shaped modern farming practices, yet it also raises important questions about safety and sustainability. As research continues, the challenge remains to harness the benefits of arsanilic acid while mitigating its risks. The future of this compound will depend on our ability to innovate responsibly and prioritize public health and environmental integrity over short-term gains.

阿森尼酸（arsanilic acid），在科学上被称为有机砷化合物，在化学和医学领域有着复杂的历史。它主要因在兽医医学中作为牲畜生长促进剂而被广泛认识。arsanilic acid的化学结构由一个氨基团与一个砷酸部分相连，这赋予了它独特的性质。该化合物在农业和制药等多个领域的潜在应用得到了广泛研究。历史上，arsanilic acid在20世纪初首次合成，其引入动物饲养标志着农业实践的一次重大进步。农民开始使用它来提高牛和家禽的生长速度，从而提高生产力和盈利能力。然而，arsanilic acid的使用并非没有争议。人们对其对人类健康和环境的潜在影响表示担忧，特别是关于砷在食物链中的积累。arsanilic acid促进生长的机制涉及其作为抗生素的作用。通过抑制某些病原细菌在动物肠道中的生长，它使动物能够更好地吸收营养，提高整体健康。这一方面使其成为兽医医学中的一种宝贵工具，但也导致了对其使用的更严格监管。在许多国家，arsanilic acid在食品生产动物中的使用已被禁止或限制，原因正是出于这些健康担忧。除了在兽医应用之外，arsanilic acid还被研究其在人类医学中潜在的治疗效果。研究表明，与arsanilic acid相关的化合物可能具有抗癌特性，从而引起了对其作为新型治疗药物开发的兴趣。然而，与砷化合物相关的毒性在这一领域带来了重大挑战。有效性和安全性之间的平衡至关重要，正在进行的研究旨在识别更安全的衍生物，以保留arsanilic acid的有益特性，而不带来相关风险。此外，arsanilic acid对环境的影响也不容忽视。随着其在农业中的使用，人们对其渗漏到地下水以及对生态系统的长期影响表示担忧。研究表明，砷可以在土壤和水中积累，可能会影响植物生命并进入食物链。这促使科学家和政策制定者重新考虑在农业实践中使用arsanilic acid，并探索既有效又环保的替代方法。总之，arsanilic acid代表了化学、农业和健康之间的一个迷人交汇点。它作为牲畜生长促进剂的历史意义塑造了现代农业实践，但它也提出了关于安全性和可持续性的重大问题。随着研究的持续，挑战在于如何利用arsanilic acid的好处，同时减轻其风险。该化合物的未来将取决于我们是否能够负责任地创新，并优先考虑公共健康和环境完整性，而不是短期利益。