biotechnical

简明释义

英[ˌbaɪəʊˈteknɪkəl]美[nɪkəl]

生物技术的

英英释义

单词用法

同义词

反义词

例句

1.Graduates of this field work in the pharmaceutical, petrochemical, and biotechnical industries, as well as public utilities such as water purification and sewage treatment plants.

毕业生可以在医药、石油化工和生物技术的产业从事工作，同时也可以在公共机构工作，比如污水净化、净化植物培养等。

2.He added that he's looking forward to seeing results from several ongoing studies that are evaluating new biotechnical drugs for treating patients prior to surgery.

他还补充说，他希望看到来自正在进行研究的结果，这几项研究正在评估新的生化药物在术前对患者的治疗作用。

3.Graduates of this field work in the pharmaceutical, petrochemical, and biotechnical industries, as well as public utilities such as water purification and sewage treatment plants.

毕业生可以在医药、石油化工和生物技术的产业从事工作，同时也可以在公共机构工作，比如污水净化、净化植物培养等。

4.The university offers a degree in biotechnical 生物技术的 engineering, focusing on genetic modification.

这所大学提供一个专注于基因改造的生物技术的工程学位。

5.Many biotechnical 生物技术的 companies are working on sustainable agriculture solutions.

许多生物技术的公司正在研究可持续农业解决方案。

6.The biotechnical 生物技术的 methods used in this lab are cutting-edge.

这个实验室使用的生物技术的方法是尖端的。

7.The biotechnical 生物技术的 advancements have revolutionized the pharmaceutical industry.

这些生物技术的进展彻底改变了制药行业。

8.She is involved in biotechnical 生物技术的 research that aims to improve human health.

她参与的生物技术的研究旨在改善人类健康。

作文

In recent years, the field of biotechnology has gained immense popularity and importance across various industries. One of the key aspects of this field is its focus on using biological systems and living organisms to develop products and technologies that can improve our quality of life. The term biotechnical (生物技术的) refers to the application of these biological principles in practical scenarios, particularly in areas such as agriculture, medicine, and environmental management.In agriculture, biotechnical methods are employed to enhance crop yields and resistance to pests and diseases. Genetic engineering, for instance, allows scientists to modify the DNA of crops to create varieties that can withstand harsh environmental conditions. This not only helps in increasing food production but also contributes to sustainable farming practices by reducing the need for chemical pesticides and fertilizers. The use of biotechnical approaches in agriculture has revolutionized the way we grow food, making it possible to feed a growing global population while minimizing environmental impact.Similarly, in the medical field, biotechnical advancements have led to significant breakthroughs in the development of new therapies and treatments. For example, the production of insulin through recombinant DNA technology has transformed the lives of millions of diabetics. Moreover, biotechnical innovations have paved the way for personalized medicine, where treatments can be tailored to individual patients based on their genetic makeup. This not only increases the effectiveness of treatments but also reduces the risk of adverse effects, making healthcare more efficient and patient-centered.Environmental management is another area where biotechnical solutions are making a difference. Bioremediation, a process that uses microorganisms to clean up contaminated environments, is a prime example of how biotechnical methods can address ecological issues. By harnessing the natural abilities of certain bacteria and fungi, scientists can effectively break down pollutants and restore ecosystems. This approach not only helps in cleaning up hazardous waste but also promotes biodiversity and sustainability.Despite the numerous benefits of biotechnical applications, there are also ethical and safety concerns associated with their use. The manipulation of genetic material raises questions about the long-term effects on ecosystems and human health. As such, it is crucial to have stringent regulations and oversight in place to ensure that biotechnical practices are safe and responsible. Public education and dialogue are also essential in addressing these concerns and fostering a better understanding of biotechnology among the general population.In conclusion, the term biotechnical (生物技术的) encompasses a wide range of applications that utilize biological systems to solve real-world problems. From enhancing agricultural productivity to advancing medical treatments and improving environmental health, biotechnical innovations hold great promise for the future. However, it is imperative to approach these advancements with caution, ensuring that ethical considerations and safety measures are prioritized. As we continue to explore the potential of biotechnology, it is essential to strike a balance between innovation and responsibility, paving the way for a healthier and more sustainable world.

近年来，生物技术领域在各个行业中获得了巨大的关注和重要性。该领域的一个关键方面是其专注于利用生物系统和生物体来开发可以改善我们生活质量的产品和技术。术语biotechnical（生物技术的）指的是在实际场景中应用这些生物学原理，特别是在农业、医学和环境管理等领域。在农业中，biotechnical方法被用来提高作物产量和对害虫及疾病的抵抗力。例如，基因工程使科学家能够修改作物的DNA，以创建能够抵御恶劣环境条件的品种。这不仅有助于增加粮食生产，还通过减少对化学农药和肥料的需求来促进可持续农业实践。在农业中采用biotechnical方法彻底改变了我们种植食品的方式，使得在最小化环境影响的同时能够养活日益增长的全球人口。同样，在医学领域，biotechnical的进步导致了新疗法和治疗方法的显著突破。例如，通过重组DNA技术生产的胰岛素改变了数百万糖尿病患者的生活。此外，biotechnical创新为个性化医疗铺平了道路，治疗可以根据患者的遗传构成量身定制。这不仅提高了治疗的有效性，还降低了不良反应的风险，使医疗服务更加高效和以患者为中心。环境管理是另一个biotechnical解决方案产生影响的领域。生物修复是一种利用微生物清理污染环境的过程，它是biotechnical方法如何解决生态问题的典范。通过利用某些细菌和真菌的自然能力，科学家可以有效地分解污染物并恢复生态系统。这种方法不仅有助于清理危险废物，还促进了生物多样性和可持续性。尽管biotechnical应用带来了众多好处，但其使用也存在伦理和安全问题。基因材料的操控引发了对生态系统和人类健康长期影响的担忧。因此，确保biotechnical实践的安全和负责至关重要，需要建立严格的监管和监督机制。公众教育和对话也是解决这些问题和促进大众对生物技术更好理解的重要环节。总之，术语biotechnical（生物技术的）涵盖了利用生物系统解决现实问题的一系列应用。从提高农业生产力到推进医疗治疗，再到改善环境健康，biotechnical创新为未来带来了巨大希望。然而，必须谨慎对待这些进展，确保伦理考虑和安全措施优先。随着我们继续探索生物技术的潜力，必须在创新与责任之间取得平衡，为一个更健康、更可持续的世界铺平道路。