hybridisation

简明释义

[ˌhaɪbrɪdaɪˈzeɪʃən][ˌhaɪbrɪdəˈzeɪʃn]

n. 混合淡化技术(等于 hybridization)

英英释义

The process of combining different varieties of organisms or elements to produce a hybrid, often used in genetics and agriculture.

将不同品种的生物或元素结合以产生杂交体的过程,通常用于遗传学和农业。

In linguistics, the blending of two or more languages or dialects to create a new form of communication.

在语言学中,将两种或多种语言或方言融合以创造一种新的交流形式。

单词用法

genetic hybridisation

遗传杂交

cultural hybridisation

文化杂交

hybridisation techniques

杂交技术

hybridisation strategies

杂交策略

hybridisation events

杂交事件

the hybridisation of species

物种的杂交

hybridisation in plants

植物中的杂交

hybridisation and adaptation

杂交与适应

successful hybridisation

成功的杂交

hybridisation leading to diversity

导致多样性的杂交

同义词

crossbreeding

杂交

Crossbreeding can enhance genetic diversity in livestock.

杂交可以增强家畜的遗传多样性。

interbreeding

异种交配

Interbreeding between different species can lead to new traits.

不同物种之间的异种交配可能会导致新的特征。

mixing

混合

Mixing different cultures can create a rich social fabric.

不同文化的混合可以创造丰富的社会结构。

blending

融合

Blending various ideas can result in innovative solutions.

融合各种想法可以产生创新的解决方案。

反义词

purification

纯化

The purification process removed all impurities from the sample.

纯化过程去除了样本中的所有杂质。

separation

分离

Separation of the two species is essential for maintaining their unique traits.

将这两种物种分开对保持它们的独特特征至关重要。

例句

1.We know that probably at least 10 per cent of plant species were formed by some kind of hybridisation.

我们知道,大体上至少有10%的植物品种是通过杂交而形成的。

2.A cheaper alternative to storage is hybridisation.

另外一个比较便宜的贮能方式就是hydbridisation.

3.There are various methods to operate the project including ordinary ways such as selection, introduction and hybridisation, in addition to bioengineering arts such as gene engineering and mutation.

有许多不同的方法用来选育耐盐植物,包括选、引、育等常规育种方法和基因工程,突变体育种等生物工程方法。

4."Electrification and hybridisation were among the key technologies I introduced at Porsche and I think there is potential for these technologies in Bentleys too," he said.

“曾经我引入到保时捷的关键技术之中就包括了电气化以及混合性技术,同样我认为这些技术在宾利也有着很大的潜力”他说。

5.The technique, called polar body array comparative genomic hybridisation, is the first that can check all of an egg's chromosomes to see if any are missing or duplicated.

这项新的技术是利用一种叫作极体的物质携带CGH,它能率先检测出卵细胞的染色体是否丢失是否已经复制。

6.There are various methods to operate the project including ordinary ways such as selection, introduction and hybridisation, in addition to bioengineering arts such as gene engineering and mutation.

有许多不同的方法用来选育耐盐植物,包括选、引、育等常规育种方法和基因工程,突变体育种等生物工程方法。

7.The hybridisation 杂交 of different technologies can lead to innovative solutions.

不同技术的hybridisation 杂交可以带来创新的解决方案。

8.The process of hybridisation 杂交 in plants can lead to new varieties with desirable traits.

植物中的hybridisation 杂交过程可以产生具有理想特性的新品种。

9.Scientists study hybridisation 杂交 to understand genetic diversity in species.

科学家研究hybridisation 杂交以了解物种的遗传多样性。

10.In linguistics, hybridisation 混合 occurs when elements from different languages are combined.

在语言学中,hybridisation 混合发生在不同语言的元素被结合时。

11.The hybridisation 杂交 of cultures can result in unique artistic expressions.

文化的hybridisation 杂交可以产生独特的艺术表现形式。

作文

In recent years, the concept of hybridisation has gained significant attention across various fields, including biology, linguistics, and even technology. At its core, hybridisation refers to the process of combining different elements to create something new and often more effective. This essay will explore the implications of hybridisation in different domains and how it can lead to innovation and progress.In biology, hybridisation is a natural process that occurs when two different species interbreed to produce offspring. This can result in new traits that may enhance the survival of the species in changing environments. For example, plant breeders often utilize hybridisation to develop new crop varieties that are more resistant to pests and diseases. These hybrid plants can yield higher crops and contribute to food security in a world with an ever-growing population. Thus, hybridisation plays a crucial role in agricultural advancements and sustainability.Moving beyond biology, hybridisation has also become a significant topic in linguistics. Language, much like species, evolves over time through the interaction of different cultures and communities. When speakers of different languages come into contact, they often borrow words, phrases, and grammatical structures from one another, leading to the creation of pidgins and creoles. This linguistic hybridisation enriches communication and fosters cultural exchange. For instance, in regions where English and indigenous languages coexist, we see the emergence of unique dialects that reflect the history and identity of the people. Such linguistic hybridisation not only preserves heritage but also promotes understanding among diverse groups.In the realm of technology, hybridisation manifests itself in the form of innovative products that combine features from different sources. A prime example is the smartphone, which integrates functionalities of a phone, computer, camera, and more into a single device. This technological hybridisation has transformed the way we communicate, work, and access information. Furthermore, industries are increasingly adopting hybridisation strategies to enhance their offerings. For instance, automotive companies are exploring hybridisation by combining electric and traditional fuel technologies to create vehicles that are both efficient and environmentally friendly. This approach not only addresses the pressing issue of climate change but also meets consumer demands for sustainable options.However, while hybridisation presents numerous benefits, it also raises questions about identity, authenticity, and the potential loss of original forms. In the context of language, for example, some purists argue that hybridisation dilutes the richness of a language and its cultural significance. Similarly, in biology, concerns about genetically modified organisms (GMOs) highlight the ethical dilemmas surrounding hybridisation. It is essential to strike a balance between embracing innovation and preserving the integrity of original forms.In conclusion, hybridisation is a multifaceted concept that permeates various aspects of our lives. Whether in biology, linguistics, or technology, the process of combining different elements can lead to remarkable advancements and enrich our experiences. As we navigate a world that increasingly values diversity and innovation, understanding and embracing hybridisation will be crucial in shaping a future that is both progressive and respectful of our roots.

近年来,hybridisation的概念在生物学、语言学甚至技术等多个领域引起了显著关注。其核心含义是将不同元素结合以创造出新的、通常更有效的事物。本文将探讨hybridisation在不同领域的影响,以及它如何推动创新和进步。在生物学中,hybridisation是一个自然过程,发生在两个不同物种交配时产生后代。这可能导致新特征的出现,从而增强物种在变化环境中的生存能力。例如,植物育种者常常利用hybridisation来开发对害虫和疾病更具抵抗力的新作物品种。这些杂交植物可以提高作物产量,并在日益增长的人口面前促进粮食安全。因此,hybridisation在农业进步和可持续性中发挥着至关重要的作用。超越生物学,hybridisation在语言学中也成为一个重要的话题。语言就像物种一样,随着不同文化和社区的互动而不断演变。当不同语言的使用者接触时,他们往往会相互借用单词、短语和语法结构,从而形成皮钦语和克里奥尔语。这种语言的hybridisation丰富了沟通并促进了文化交流。例如,在英语和土著语言共存的地区,我们看到独特方言的出现,这些方言反映了人们的历史和身份。这种语言的hybridisation不仅保护了遗产,还促进了不同群体之间的理解。在技术领域,hybridisation表现为将不同来源的功能结合起来的创新产品。一个典型的例子是智能手机,它将电话、计算机、相机等功能整合到一个设备中。这种技术上的hybridisation改变了我们沟通、工作和获取信息的方式。此外,各行业越来越多地采用hybridisation策略来增强他们的产品。例如,汽车公司正在探索通过将电动和传统燃料技术结合来创建既高效又环保的车辆。这种方法不仅解决了气候变化这一紧迫问题,还满足了消费者对可持续选择的需求。然而,尽管hybridisation带来了许多好处,但它也引发了关于身份、真实性以及原始形式可能丧失的问题。在语言的背景下,一些纯粹主义者认为,hybridisation稀释了语言的丰富性及其文化意义。同样,在生物学中,关于转基因生物(GMO)的担忧突显了围绕hybridisation的伦理困境。在拥抱创新与保护原始形式的完整性之间找到平衡至关重要。总之,hybridisation是一个多方面的概念,渗透到我们生活的各个方面。无论是在生物学、语言学还是技术中,将不同元素结合的过程都可以带来显著的进步,并丰富我们的体验。在我们驾驭一个越来越重视多样性和创新的世界时,理解和接受hybridisation将对塑造一个既进步又尊重我们根源的未来至关重要。