stomatogastric

简明释义

英[ˌstɒmətəʊˈɡæstrɪk]美[ˌstoʊmətoʊˈɡæstrɪk]

[动] 口胃的

英英释义

单词用法

同义词

反义词

例句

1.The lobster stomatogastric pyloric rhythm generator is one kind of CPG. It is implemented and how it can maintain phase is analyzed briefly.

龙虾胃幽门节律发生器是一个简单的CPG，本文实现了其正常工作时的动作电位，并简单分析了其相位保持的特性。

2.The lobster stomatogastric pyloric rhythm generator is one kind of CPG. It is implemented and how it can maintain phase is analyzed briefly.

龙虾胃幽门节律发生器是一个简单的CPG，本文实现了其正常工作时的动作电位，并简单分析了其相位保持的特性。

3.In the lab, we used a model organism to study the stomatogastric 口腔胃肠的 neural circuits.

在实验室中，我们使用模型生物研究stomatogastric 口腔胃肠的 神经回路。

4.The stomatogastric 口腔胃肠的 system plays a crucial role in coordinating digestive processes.

stomatogastric 口腔胃肠的 系统在协调消化过程方面发挥着至关重要的作用。

5.The stomatogastric 口腔胃肠的 control of muscle contractions is vital for effective digestion.

stomatogastric 口腔胃肠的 对肌肉收缩的控制对有效消化至关重要。

6.Researchers observed the stomatogastric 口腔胃肠的 ganglion to understand its function in crustaceans.

研究人员观察了stomatogastric 口腔胃肠的 神经节，以了解其在甲壳类动物中的功能。

7.The study focused on the role of the stomatogastric 口腔胃肠的 nervous system in regulating feeding behavior.

这项研究集中于stomatogastric 口腔胃肠的 神经系统在调节进食行为中的作用。

作文

The term stomatogastric refers to the connection between the mouth and the stomach, particularly in the context of anatomy and physiology. This concept is crucial in understanding how organisms, especially invertebrates, process food and maintain their digestive systems. The stomatogastric system plays a vital role in the overall functioning of an organism, as it is responsible for the initial stages of digestion. In many marine animals, such as crabs and lobsters, the stomatogastric nervous system controls the movements of the stomach and the rhythmic contractions necessary for grinding food. In essence, the stomatogastric system consists of a complex network of neurons that coordinate the feeding process. This network allows these creatures to effectively manage their intake of food and break it down into smaller, digestible pieces. Understanding the stomatogastric system is not only important for biologists studying marine life but also for researchers exploring evolutionary biology. By examining how different species have adapted their stomatogastric systems, scientists can gain insights into the evolution of feeding mechanisms across various taxa.Moreover, the study of the stomatogastric nervous system has broader implications in the field of neurobiology. It serves as a model for understanding more complex nervous systems in higher organisms. For example, the principles learned from the stomatogastric system in simpler organisms can be applied to understand how similar processes occur in mammals, including humans. This can lead to advancements in medical science, particularly in treating digestive disorders or neurological conditions that affect feeding behavior.In addition to its biological significance, the stomatogastric system has sparked interest in robotics and artificial intelligence. Engineers and scientists are inspired by the efficiency of these natural systems and seek to replicate their functions in robotic designs. By mimicking the stomatogastric processes, they aim to create machines that can perform tasks related to food processing or even develop autonomous systems that can adapt to their environments in a similar way to living organisms.In conclusion, the term stomatogastric encompasses much more than just the anatomical connection between the mouth and stomach. It represents a fascinating area of study that bridges multiple disciplines, including biology, neuroscience, and engineering. By delving deeper into the intricacies of the stomatogastric system, we not only enhance our understanding of digestive processes in various species but also uncover potential applications that can benefit technology and medicine. As research continues to evolve, the significance of the stomatogastric system will undoubtedly remain a key focus in scientific inquiry, revealing the interconnectedness of life and the innovations it inspires.

术语stomatogastric指的是口腔与胃之间的连接，特别是在解剖学和生理学的背景下。这个概念对于理解生物体，尤其是无脊椎动物，如何处理食物并维持其消化系统至关重要。stomatogastric系统在生物体的整体功能中起着重要作用，因为它负责消化的初始阶段。在许多海洋动物中，如螃蟹和龙虾，stomatogastric神经系统控制着胃的运动和研磨食物所需的有节律收缩。本质上，stomatogastric系统由一组复杂的神经元网络组成，这些神经元协调进食过程。这个网络使这些生物能够有效地管理食物的摄入，并将其分解成较小的可消化部分。理解stomatogastric系统不仅对研究海洋生物的生物学家重要，也对探索进化生物学的研究人员至关重要。通过检查不同物种如何适应其stomatogastric系统，科学家可以获得关于不同分类群喂养机制进化的见解。此外，对stomatogastric神经系统的研究在神经生物学领域具有更广泛的意义。它作为理解更复杂神经系统的模型，在较高生物体中也适用。例如，从简单生物的stomatogastric系统中学习到的原则可以应用于理解哺乳动物，包括人类，类似过程的发生。这可能导致医学科学的进步，特别是在治疗消化障碍或影响进食行为的神经疾病方面。除了生物学的重要性外，stomatogastric系统在机器人技术和人工智能领域也引起了兴趣。工程师和科学家受到这些自然系统高效性的启发，寻求在机器人设计中复制其功能。通过模仿stomatogastric过程，他们旨在创建可以执行与食品加工相关任务的机器，甚至开发能够以类似于生物体的方式适应其环境的自主系统。总之，术语stomatogastric包含的内容远不止口腔与胃之间的解剖连接。它代表了一个迷人的研究领域，跨越多个学科，包括生物学、神经科学和工程学。通过深入研究stomatogastric系统的复杂性，我们不仅增强了对各种物种消化过程的理解，还揭示了可以使技术和医学受益的潜在应用。随着研究的不断发展，stomatogastric系统的重要性无疑将继续成为科学探究的关键焦点，揭示生命的相互联系及其所激发的创新。