bioweapon

简明释义

英[/ˈbaɪoʊˌwɛpən/]美[/ˈbaɪoʊˌwɛpən/]

n. 生物武器

英英释义

单词用法

同义词

反义词

例句

1.Multiplying rapidly as it flows through tubes, stacked 14 high in four long rows, the organism thickens and darkens like the bioweapon of a deranged scientist.

这些管道有14个上下叠在一起，排成四个长列。这种生物在流经管道时就在迅速繁殖，同时会变得浓厚而暗实，就像一位癫狂科学家的生化武器一样。

2.If the computer picks up on a possible situation - say, a passenger has a dirty bomb or a bioweapon - a series of actions will occur.

如果计算机捕捉到可能发生的情况，比如一名乘客携带脏弹或生物武器，一系列动作将随之启动。

3.Multiplying rapidly as it flows through tubes, stacked 14 high in four long rows, the organism thickens and darkens like the bioweapon of a deranged scientist.

这些管道有14个上下叠在一起，排成四个长列。这种生物在流经管道时就在迅速繁殖，同时会变得浓厚而暗实，就像一位癫狂科学家的生化武器一样。

4.International treaties aim to prevent the development of bioweapons 生物武器 among nations.

国际条约旨在防止各国发展生物武器 bioweapons。

5.The military has protocols in place to respond to bioweapon 生物武器 attacks.

军方已经制定了应对生物武器 bioweapon 攻击的协议。

6.The government is concerned about the potential use of a bioweapon 生物武器 in terrorist attacks.

政府对恐怖袭击中潜在使用的生物武器 bioweapon 感到担忧。

7.Scientists are studying how to defend against bioweapons 生物武器 in modern warfare.

科学家们正在研究如何防御现代战争中的生物武器 bioweapons。

8.The outbreak was initially suspected to be caused by a bioweapon 生物武器 released accidentally.

此次疫情最初被怀疑是由于意外释放的生物武器 bioweapon 引起的。

作文

In recent years, the term bioweapon has gained significant attention in discussions about global security and warfare. A bioweapon is defined as a biological agent used intentionally to harm or kill humans, animals, or plants. The use of such weapons raises ethical, moral, and legal questions that are critical to understanding their implications in modern society. As we delve into the complexities surrounding bioweapons, it becomes evident that they pose not only a threat to national security but also to public health and safety.Historically, the concept of using biological agents as weapons dates back centuries. Ancient civilizations utilized various pathogens to infect enemy populations, but it was during World War I and II that the development of bioweapons advanced significantly. Countries began to invest in research to create more potent agents, leading to a chilling arms race. The infamous Unit 731 in Japan conducted horrific experiments on prisoners, demonstrating the extreme lengths to which some nations would go in the pursuit of biological warfare.The international community recognized the dangers posed by bioweapons and responded with treaties aimed at banning their development and use. The Biological Weapons Convention (BWC) of 1972 was a landmark agreement prohibiting the production and stockpiling of bioweapons. However, compliance and enforcement remain challenging, as not all countries have adhered to the treaty, and clandestine programs may still exist.One of the most concerning aspects of bioweapons is their potential for mass destruction. Unlike conventional weapons, which often require significant resources and infrastructure, bioweapons can be relatively easy to produce and deploy. This accessibility raises fears that terrorist organizations might seek to acquire or develop their own biological agents. The 2001 anthrax attacks in the United States illustrated how vulnerable societies can be to biological threats, resulting in widespread panic and a reevaluation of public health preparedness.Moreover, the rise of synthetic biology presents new challenges in the realm of bioweapons. Advances in genetic engineering and biotechnology have made it possible to manipulate pathogens in ways that were previously unimaginable. This capability raises concerns about the potential for creating novel bioweapons that could evade existing defenses and cause unprecedented harm. The ethical implications of such advancements must be carefully considered, as the line between beneficial scientific research and harmful applications becomes increasingly blurred.Public awareness and education about bioweapons are crucial in mitigating their risks. Governments and organizations must work together to promote transparency and share information regarding biological threats. Additionally, investing in robust public health infrastructure and response systems can help societies better prepare for potential biological attacks or outbreaks.In conclusion, the issue of bioweapons is multifaceted, involving historical, ethical, and technological dimensions. As we navigate an era marked by rapid advancements in science and technology, it is imperative that we remain vigilant against the misuse of biological agents. By fostering international cooperation and promoting responsible research practices, we can work towards a safer future free from the threat of bioweapons.

近年来，术语生物武器在全球安全和战争的讨论中引起了显著关注。生物武器被定义为故意用于伤害或杀死人类、动物或植物的生物制剂。这种武器的使用引发了伦理、道德和法律问题，这些问题对于理解其在现代社会中的影响至关重要。当我们深入探讨与生物武器相关的复杂性时，很明显，它们不仅对国家安全构成威胁，还对公共健康和安全造成威胁。历史上，利用生物制剂作为武器的概念可以追溯到几个世纪以前。古代文明利用各种病原体感染敌对人口，但在第一次和第二次世界大战期间，生物武器的发展显著加速。各国开始投资研究，以创造更强效的生物制剂，导致了令人不寒而栗的军备竞赛。日本臭名昭著的731部队对囚犯进行了可怕的实验，展示了一些国家在追求生物战争方面的极端手段。国际社会认识到生物武器所带来的危险，并通过条约回应，旨在禁止其开发和使用。1972年的《生物武器公约》是一个具有里程碑意义的协议，禁止生产和储存生物武器。然而，遵守和执行仍然面临挑战，并非所有国家都遵守该条约，秘密计划可能仍然存在。生物武器最令人担忧的一个方面是它们造成大规模毁灭的潜力。与常规武器不同，后者通常需要大量资源和基础设施，而生物武器相对容易生产和部署。这种可及性引发了恐怖组织可能寻求获取或开发自己生物制剂的担忧。2001年美国的炭疽攻击表明，社会对生物威胁的脆弱性，导致了广泛的恐慌和对公共卫生准备的重新评估。此外，合成生物学的崛起在生物武器领域提出了新的挑战。基因工程和生物技术的进步使得操纵病原体变得前所未有的可能。这一能力引发了对创造新型生物武器的潜在担忧，这些武器可能会逃避现有的防御措施并造成前所未有的伤害。这些进展的伦理影响必须得到认真考虑，因为有益的科学研究与有害应用之间的界限变得越来越模糊。公众对生物武器的意识和教育对于减轻其风险至关重要。各国政府和组织必须共同努力，促进透明度并分享有关生物威胁的信息。此外，投资于强大的公共卫生基础设施和应急响应系统可以帮助社会更好地为潜在的生物攻击或疫情做好准备。总之，生物武器问题是多方面的，涉及历史、伦理和技术维度。在科学和技术迅速发展的时代，我们必须保持警惕，防止生物制剂的滥用。通过促进国际合作和推广负责任的研究实践，我们可以为一个没有生物武器威胁的安全未来而努力。