biotechnologies

简明释义

[ˌbaɪəʊtɛkˈnɒlədʒiz][ˌbaɪoʊtɛkˈnɑlədʒiz]

n. [生物]生物技术(biotechnology 的复数形式)

英英释义

Biotechnologies refer to the use of living organisms, cells, and biological systems to develop products and technologies for various applications in fields such as medicine, agriculture, and environmental science.

生物技术是指利用生物体、细胞和生物系统开发产品和技术,以用于医学、农业和环境科学等各个领域。

单词用法

genetic biotechnologies

遗传生物技术

industrial biotechnologies

工业生物技术

medical biotechnologies

医学生物技术

agricultural biotechnologies

农业生物技术

advancements in biotechnologies

生物技术的进步

applications of biotechnologies

生物技术的应用

impact of biotechnologies

生物技术的影响

research in biotechnologies

生物技术研究

同义词

biotech

生物技术

Biotech companies are at the forefront of medical innovation.

生物技术公司在医疗创新的前沿。

biological technologies

生物技术

Advancements in genetic engineering have revolutionized agriculture.

基因工程的进步彻底改变了农业。

genetic engineering

基因工程

Molecular biology techniques are essential for modern research.

分子生物学技术对现代研究至关重要。

molecular biology

分子生物学

Biological technologies play a crucial role in environmental conservation.

生物技术在环境保护中发挥着至关重要的作用。

反义词

traditional methods

传统方法

Traditional methods of agriculture rely on natural soil and crop rotation.

传统的农业方法依赖于自然土壤和作物轮作。

natural processes

自然过程

Natural processes in ecosystems maintain balance without human intervention.

生态系统中的自然过程在没有人类干预的情况下维持平衡。

例句

1.A second group of biotechnologies can be used for planted forests that provide industrial raw materials on a large planting scale.

第二组生物技术可用于提供工业原料的大规模人工种植林。

2.There is a need for better management of intensive systems, and biotechnologies are being used for this purpose.

对集约型体系更需要加强管理,而生物技术正在被用于了这一目的。

3.Various factors have limited the use of many other biotechnologies.

许多其他生物技术的应用受到多种因素的限制。

4.And production and commercialization of new biotechnologies and genetically engineered crops is almost entirely in the hands of the private sector.

而且,新的生物技术和基因工程作物的生产和商业化几乎完全掌握在私营部门手中。

5.For simplicity, three different groups of biotechnologies can be identified according to the type of planted forests, ranging from the least sophisticated to the most advanced.

为简单起见,依据人工种植林的类型确定三种不同组别的生物技术,其从最不复杂的到最先进的。

6.The applications of biotechnologies in tobacco fermentation, improvement of tobacco quality, treatment of tobacco pipe and slice, tobacco essence production and bio-filters are reviewed in this paper.

本文综述了生物技术应用于烟草陈化发酵、改善原料、处理烟梗与烟草薄片、生产烟用香精及生物滤棒等方面的研究进展。

7.We urgently need new biotechnologies, a cure for AIDS and a cleaner energy infrastructure, to name just a few.

我们迫切地需要新的生物技术来治疗艾滋病、提供洁净的能源等等。

8.Some biotechnologies have already been applied, but there is ample scope for the greater use of biotechnologies in fisheries management worldwide.

一些生物技术早已在这方面得到应用,但全球范围内生物技术在渔业上的更大规模的利用仍具有广阔的应用空间。

9.The field of biotechnologies is rapidly evolving, offering solutions for various medical challenges.

随着各种医疗挑战的出现,生物技术领域正在迅速发展,提供解决方案。

10.Agricultural biotechnologies have allowed farmers to grow more resilient crops.

农业生物技术使农民能够种植更具抗逆性的作物。

11.The use of biotechnologies in pharmaceuticals has revolutionized drug development.

在制药中使用生物技术彻底改变了药物开发。

12.Many companies are investing in new biotechnologies to improve crop yields.

许多公司正在投资新的生物技术以提高作物产量。

13.Researchers are exploring biotechnologies that can help in the production of renewable energy.

研究人员正在探索可以帮助生产可再生能源的生物技术

作文

In recent years, the field of biotechnologies (生物技术) has gained significant attention due to its potential to revolutionize various sectors, including healthcare, agriculture, and environmental management. Biotechnologies (生物技术) encompass a wide range of techniques that utilize living organisms or their components to develop products and processes that improve our quality of life. This essay will explore the impact of biotechnologies (生物技术) on society, highlighting both the benefits and challenges associated with these innovations.One of the most notable applications of biotechnologies (生物技术) is in the field of medicine. The development of biopharmaceuticals, which are drugs produced using biological systems, has transformed the treatment of various diseases. For instance, insulin used by diabetics is now often produced through recombinant DNA technology, allowing for more efficient and cost-effective production. Additionally, biotechnologies (生物技术) have paved the way for personalized medicine, where treatments can be tailored to an individual's genetic makeup, improving efficacy and reducing side effects.In agriculture, biotechnologies (生物技术) have played a crucial role in enhancing food security. Genetically modified organisms (GMOs) are a prime example of how biotechnologies (生物技术) can increase crop yields and resistance to pests and diseases. By introducing specific genes into crops, scientists can create varieties that require fewer pesticides and can withstand harsh environmental conditions. This not only benefits farmers but also contributes to sustainable agricultural practices, which are essential in feeding the growing global population.However, the rise of biotechnologies (生物技术) is not without controversy. Ethical concerns surrounding GMOs and the potential for ecological disruption have sparked debates among scientists, policymakers, and the public. Critics argue that the long-term effects of consuming genetically modified foods are still unknown, and there are fears that the introduction of such crops could lead to a loss of biodiversity. Furthermore, the monopolization of biotechnologies (生物技术) by large corporations raises questions about access and equity, particularly in developing countries where smallholder farmers may struggle to compete.Environmental applications of biotechnologies (生物技术) also showcase their potential to address pressing global challenges. Bioremediation, the use of microorganisms to clean up contaminated environments, exemplifies how biotechnologies (生物技术) can contribute to environmental sustainability. By harnessing the natural abilities of certain bacteria and fungi, we can effectively remove pollutants from soil and water, promoting healthier ecosystems.Despite the challenges, the future of biotechnologies (生物技术) looks promising. Ongoing research and innovation are likely to yield breakthroughs that could further enhance our understanding and application of these technologies. Collaborative efforts between governments, academia, and the private sector will be essential in addressing ethical concerns and ensuring that the benefits of biotechnologies (生物技术) are shared equitably across all populations.In conclusion, biotechnologies (生物技术) hold immense potential to transform our world for the better. From advancing medical treatments to improving agricultural practices and addressing environmental issues, the applications of biotechnologies (生物技术) are vast and varied. However, it is crucial to navigate the ethical and societal implications carefully to ensure that these advancements contribute positively to humanity as a whole.

近年来,生物技术biotechnologies)领域因其在医疗、农业和环境管理等多个领域的潜力而备受关注。生物技术biotechnologies)涵盖了利用生物体或其成分开发产品和工艺的广泛技术,这些产品和工艺改善了我们的生活质量。本文将探讨生物技术biotechnologies)对社会的影响,突出这些创新所带来的好处和挑战。生物技术biotechnologies)在医学领域的一个显著应用是生物制药的开发。生物制药是使用生物系统生产的药物,已经改变了各种疾病的治疗。例如,糖尿病患者使用的胰岛素现在通常通过重组DNA技术生产,从而实现更高效和成本效益的生产。此外,生物技术biotechnologies)为个性化医学铺平了道路,治疗方案可以根据个人的基因构成量身定制,提高疗效并减少副作用。在农业方面,生物技术biotechnologies)在增强粮食安全方面发挥了关键作用。转基因生物(GMO)是生物技术biotechnologies)如何提高作物产量和抵抗害虫及疾病的一个典型例子。通过将特定基因引入作物,科学家可以创造出抗虫害和能够耐受恶劣环境条件的品种。这不仅使农民受益,也有助于可持续农业实践,在满足日益增长的全球人口需求方面至关重要。然而,生物技术biotechnologies)的崛起并非没有争议。围绕转基因食品的伦理问题以及生态破坏的潜在风险引发了科学家、政策制定者和公众之间的辩论。批评者认为,消费转基因食品的长期影响仍然未知,并且担心此类作物的引入可能导致生物多样性的丧失。此外,大公司对生物技术biotechnologies)的垄断引发了有关获取和公平的问题,特别是在发展中国家,小农户可能难以竞争。生物技术biotechnologies)的环境应用也展示了其应对全球紧迫挑战的潜力。生物修复是利用微生物清理受污染环境的例子,体现了生物技术biotechnologies)如何促进环境可持续性。通过利用某些细菌和真菌的自然能力,我们可以有效去除土壤和水中的污染物,促进更健康的生态系统。尽管面临挑战,生物技术biotechnologies)的未来看起来充满希望。持续的研究和创新可能会带来突破,进一步增强我们对这些技术的理解和应用。政府、学术界和私营部门之间的合作努力对于解决伦理问题和确保生物技术biotechnologies)的好处在所有人群中公平共享至关重要。总之,生物技术biotechnologies)具有巨大的潜力,可以改善我们的世界。从推进医疗治疗到改善农业实践和应对环境问题,生物技术biotechnologies)的应用广泛而多样。然而,仔细处理伦理和社会影响至关重要,以确保这些进步对整人类产生积极影响。