ovotestis
简明释义
英[ˌəʊvəʊˈtestɪs]美[ˌoʊvəˈtestɪs]
n. (蜗牛等的)两性腺
复 数 o v o t e s t e s
英英释义
A reproductive organ that contains both ovarian and testicular tissue, allowing for the production of both eggs and sperm. | 一种生殖器官,包含卵巢和睾丸组织,能够同时产生卵子和精子。 |
单词用法
卵睾的发育 | |
卵睾的功能 | |
卵睾组织 | |
卵睾形成 |
同义词
反义词
| 睾丸 | 睾丸产生精子和睾酮。 | ||
| 雄性生殖器 | 雄性生殖器对受精至关重要。 |
例句
1.Researchers are investigating how the ovotestis functions in different environmental conditions.
研究人员正在调查卵睾腺在不同环境条件下的功能。
2.The ovotestis can produce both sperm and eggs, making it a unique reproductive organ.
卵睾腺可以同时产生精子和卵子,使其成为一种独特的生殖器官。
3.The study of the ovotestis reveals interesting aspects of intersex conditions.
对卵睾腺的研究揭示了双性特征的有趣方面。
4.In some fish species, the presence of an ovotestis is crucial for reproductive success.
在某些鱼类中,卵睾腺的存在对繁殖成功至关重要。
5.Understanding the role of the ovotestis may help in conservation efforts for certain species.
了解卵睾腺的作用可能有助于某些物种的保护工作。
作文
The study of reproductive biology has revealed many fascinating aspects of how different organisms reproduce and develop. One particularly interesting structure is the ovotestis, which is a type of gonad that possesses both ovarian and testicular tissues. In simpler terms, an ovotestis is an organ that can produce both eggs and sperm, making it a unique feature in the animal kingdom. This dual functionality allows certain species to have greater flexibility in their reproductive strategies. For example, many hermaphroditic organisms, such as some species of snails and fish, possess ovotestis to maximize their chances of reproduction in varying environmental conditions.Understanding the role of the ovotestis in these organisms can provide insights into evolutionary adaptations. In environments where finding a mate is challenging, having the ability to produce both gametes can ensure that an organism can still reproduce. This strategy can be particularly advantageous in isolated habitats or during times when population densities are low.In addition to its biological significance, the ovotestis also raises intriguing questions about gender and sex determination in various species. Traditional views of male and female roles in reproduction are challenged by the existence of organisms with ovotestis. It blurs the lines of binary gender classifications, suggesting that nature has evolved more complex systems of reproduction than previously understood.Research on ovotestis has implications beyond just biology; it can inform conservation efforts for endangered species that exhibit hermaphroditism. By understanding how these organisms function reproductively, conservationists can better strategize interventions that support their survival. Moreover, studying ovotestis can also contribute to advancements in reproductive technologies in humans, as scientists explore the potential of manipulating gamete production for fertility treatments.Furthermore, the presence of ovotestis in certain species prompts discussions about the ethical considerations of genetic manipulation and biotechnology. As we delve deeper into the genetic basis of sex determination and gonadal development, we must consider the moral implications of altering these natural processes. Should we attempt to replicate the functionality of an ovotestis in humans, and what would that mean for our understanding of gender and identity?In conclusion, the ovotestis is not just a fascinating anatomical structure but also a gateway to understanding the complexities of reproduction, gender, and evolution. As research continues to unfold, it is crucial to appreciate the diversity of reproductive strategies in the animal kingdom and what they can teach us about life itself. The study of ovotestis invites us to rethink established norms and encourages a broader perspective on the biological world, reminding us of the intricate web of life that exists on our planet.
生殖生物学的研究揭示了不同生物体如何繁殖和发育的许多迷人方面。其中一个特别有趣的结构是ovotestis,这是一种具有卵巢和睾丸组织的性腺。简单来说,ovotestis是一种可以同时产生卵子和精子的器官,使其成为动物王国中的独特特征。这种双重功能使某些物种在繁殖策略上具有更大的灵活性。例如,许多雌雄同体生物,如某些种类的蜗牛和鱼类,拥有ovotestis,以最大限度地提高它们在不同环境条件下的繁殖机会。理解ovotestis在这些生物体中的作用可以提供对进化适应的见解。在寻找伴侣困难的环境中,能够同时产生两种配子的能力可以确保生物体仍然能够繁殖。这种策略在孤立栖息地或种群密度低的时期尤为有利。除了其生物学意义外,ovotestis还引发了关于各种物种性别和性别决定的有趣问题。传统的男性和女性在繁殖中的角色观念被拥有ovotestis的生物所挑战。它模糊了二元性别分类的界限,表明自然已经进化出比以前理解的更复杂的繁殖系统。对ovotestis的研究不仅仅局限于生物学;它还可以为展现雌雄同体特征的濒危物种的保护工作提供信息。通过了解这些生物体的繁殖功能,保护主义者可以更好地制定支持其生存的干预措施。此外,研究ovotestis也可以为人类生殖技术的进步做出贡献,因为科学家探索操控配子生成的潜力以进行生育治疗。此外,某些物种中ovotestis的存在促使人们讨论基因操纵和生物技术的伦理考量。随着我们深入研究性别决定和性腺发育的遗传基础,我们必须考虑改变这些自然过程的道德影响。如果我们试图在人类中复制ovotestis的功能,这对我们对性别和身份的理解意味着什么呢?总之,ovotestis不仅仅是一个迷人的解剖结构,也是理解生殖、性别和进化复杂性的一个入口。随着研究的不断展开,欣赏动物王国中繁殖策略的多样性及其教会我们的生命本质变得至关重要。对ovotestis的研究邀请我们重新思考既定规范,并鼓励我们对生物世界采取更广泛的视角,提醒我们地球上存在着错综复杂的生命网络。
