intrafascicular

简明释义

英[ˌɪntrəˈfæsɪkjʊlər]美[ˌɪntrəˈfæsɪkjʊlər]

束中的

[植] 束内的

英英释义

单词用法

同义词

反义词

例句

1.Conclusions Intrafascicular microelectrodes can record the electric signal of peripheral nerve stably and it could serve as a method of providing more information source.

结论神经束内电极可稳定获取外周神经电信号提供更多的信息源。

2.Conclusions Intrafascicular microelectrodes can record the electric signal of peripheral nerve stably and it could serve as a method of providing more information source.

结论神经束内电极可稳定获取外周神经电信号提供更多的信息源。

3.Then threaded concentric pin electrode into gastrocnemius with intrafascicular electrode as stimulating electrode, the signal was recorded.

以神经束内电极作刺激电极可见该侧腓肠肌处肌肉出现收缩，同心针电极可以记录到肌电信号。

4.The study examined the intrafascicular 肌束内的 connections between muscle fibers.

这项研究检查了肌纤维之间的肌束内的连接。

5.During the surgery, the doctor carefully avoided damaging the intrafascicular 肌束内的 blood vessels.

在手术过程中，医生小心翼翼地避免损伤肌束内的血管。

6.The researchers focused on the intrafascicular 肌束内的 structures to understand nerve regeneration.

研究人员专注于肌束内的结构，以了解神经再生。

7.The intrafascicular 肌束内的 structure of the nerve is essential for its function.

神经的肌束内的结构对其功能至关重要。

8.In the context of plant biology, the intrafascicular 肌束内的 tissue plays a crucial role in nutrient transport.

在植物生物学中，肌束内的组织在营养运输中发挥着关键作用。

作文

The study of plant anatomy reveals many fascinating structures that contribute to the overall functioning of the plant. One such structure is the vascular bundle, which plays a crucial role in the transport of water, nutrients, and sugars throughout the plant. Within these vascular bundles, we find various components that are essential for plant health and growth. Among these components, the term intrafascicular">intrafascicular refers to the region located within the vascular bundles, specifically between the xylem and phloem tissues. This area is vital for the proper functioning of the vascular system, as it contains important cells that facilitate communication and transport between different parts of the plant.Understanding the intrafascicular">intrafascicular region is particularly important for botanists and agricultural scientists. Research has shown that this area can influence how plants respond to environmental stressors such as drought or disease. For instance, when a plant experiences water scarcity, the cells within the intrafascicular">intrafascicular region may alter their function to optimize water usage and maintain cellular integrity. This adaptability is crucial for survival in fluctuating climates.Moreover, the intrafascicular">intrafascicular region also plays a role in the development of new plant tissues. During periods of growth, such as spring, the cells in this area can divide and differentiate, contributing to the formation of new vascular tissues. This process is essential for the overall growth of the plant and its ability to thrive in its environment.In addition to its biological significance, the intrafascicular">intrafascicular region has implications for agricultural practices. Understanding how this part of the plant functions can lead to better crop management strategies. For example, by enhancing the resilience of the intrafascicular">intrafascicular cells through selective breeding or genetic modification, farmers may be able to produce crops that are more resistant to diseases or able to withstand harsher growing conditions. This could result in increased yields and reduced reliance on chemical treatments.Furthermore, the study of the intrafascicular">intrafascicular region opens up new avenues for research into plant biotechnology. Scientists are exploring ways to manipulate the genetic pathways associated with this region to create plants that can grow in suboptimal conditions, thereby addressing food security issues around the world. As the global population continues to rise, finding innovative solutions to enhance agricultural productivity will be paramount.In conclusion, the intrafascicular">intrafascicular region is a critical component of plant anatomy that warrants further study. Its role in nutrient transport, stress response, and tissue development highlights the complexity of plant systems. By deepening our understanding of this area, we can unlock new potential for improving crop resilience and sustainability. As we face the challenges of climate change and a growing population, the insights gained from studying the intrafascicular">intrafascicular region could prove invaluable in shaping the future of agriculture and food production.

植物解剖学的研究揭示了许多有趣的结构，这些结构对植物的整体功能至关重要。其中一个结构是维管束，它在水分、养分和糖分的运输中发挥着关键作用。在这些维管束内，我们发现了许多对植物健康和生长至关重要的组成部分。在这些组成部分中，术语intrafascicular">intrafascicular指的是位于维管束内部的区域，具体来说是在木质部和韧皮部组织之间。这个区域对维管系统的正常功能至关重要，因为它包含了重要的细胞，这些细胞促进植物不同部分之间的交流和运输。理解intrafascicular">intrafascicular区域对于植物学家和农业科学家尤为重要。研究表明，这个区域可以影响植物如何应对干旱或疾病等环境压力。例如，当植物经历水分短缺时，intrafascicular">intrafascicular区域内的细胞可能会改变其功能，以优化水分使用并维持细胞完整性。这种适应能力对植物在气候波动中的生存至关重要。此外，intrafascicular">intrafascicular区域在新植物组织的发展中也起着作用。在生长期间，例如春季，这个区域的细胞可以分裂和分化，促进新维管组织的形成。这个过程对植物的整体生长及其在环境中繁荣发展至关重要。除了生物学意义外，intrafascicular">intrafascicular区域对农业实践也有影响。理解这一部分植物的功能可以导致更好的作物管理策略。例如，通过选择性育种或基因修饰增强intrafascicular">intrafascicular细胞的韧性，农民可能能够生产出对疾病更具抵抗力或能够承受更恶劣生长条件的作物。这可能导致产量增加并减少对化学处理的依赖。此外，研究intrafascicular">intrafascicular区域为植物生物技术的研究开辟了新的途径。科学家们正在探索操纵与此区域相关的基因通路的方法，以创造能够在不理想条件下生长的植物，从而解决全球食品安全问题。随着全球人口的持续增长，寻找创新解决方案以提高农业生产力将至关重要。总之，intrafascicular">intrafascicular区域是植物解剖学的一个关键组成部分，值得进一步研究。它在养分运输、应激反应和组织发育中的作用突显了植物系统的复杂性。通过加深对该区域的理解，我们可以解锁提高作物韧性和可持续性的潜力。面对气候变化和人口增长的挑战，研究intrafascicular">intrafascicular区域所获得的见解可能在塑造农业和食品生产的未来中具有不可估量的价值。