xylogen
简明释义
n. 木质;[有化] 木质素;木纤维
英英释义
A term referring to the tissue in plants that is responsible for the transport of water and nutrients; commonly known as xylem. | 指植物中负责运输水分和养分的组织;通常称为木质部。 |
单词用法
木质组织 | |
木质形成 | |
木质研究 | |
木质在植物中的作用 |
同义词
| 木材 | 木材对于树木的结构至关重要。 | ||
| 木材学 | 木材学研究木材的性质和用途。 | ||
| 木质部 | 木质部在植物中运输水分和养分。 |
反义词
| 韧皮部 | 韧皮部负责在植物中运输养分。 | ||
| 薄壁组织 | Parenchyma cells are involved in storage and photosynthesis. | 薄壁组织细胞参与储存和光合作用。 |
例句
1.This paper adopts the theory of wood-based panel micro-mechanics and cytology, and puts forward mathematical calculated method of using xylogen thick of cellular wall.
本文采用人造板微观力学和木材细胞学理论,提出了一种利用木纤维细胞壁厚的数学求解方法。
2.The middle density fibreboard (MDF) wastewater, which contains a great deal of tannin and xylogen mainly, usually can not be degraded by common physicochemical methods.
中密度板生产废水含有大量的单宁和木质素,采用通常物化方法几乎不能将其降解。
3.The middle density fibreboard (MDF) wastewater, which contains a great deal of tannin and xylogen mainly, usually can not be degraded by common physicochemical methods.
中密度板生产废水含有大量的单宁和木质素,采用通常物化方法几乎不能将其降解。
4.Understanding the cellular structure of xylogen 木质部 can aid in developing better agricultural practices.
理解xylogen 木质部的细胞结构可以帮助开发更好的农业实践。
5.In forestry, the quality of xylogen 木质部 can determine the value of timber.
在林业中,xylogen 木质部的质量可以决定木材的价值。
6.The study of xylogen 木质部 is crucial for understanding plant growth.
研究xylogen 木质部对理解植物生长至关重要。
7.Researchers are examining how xylogen 木质部 formation is affected by climate change.
研究人员正在检查气候变化如何影响xylogen 木质部的形成。
8.The anatomy of xylogen 木质部 reveals much about a tree's health.
对xylogen 木质部的解剖揭示了很多关于树木健康的信息。
作文
The study of plants and their structures has always fascinated scientists and nature enthusiasts alike. One of the crucial components of a plant's anatomy is its vascular system, which plays a significant role in the transportation of nutrients and water. Within this system, a specific type of tissue known as xylogen (木质部) is essential for supporting the plant and facilitating the movement of fluids. xylogen is primarily composed of tracheids and vessel elements that work together to ensure efficient water transport from the roots to the leaves. This process is vital for photosynthesis, as it allows plants to absorb sunlight and convert it into energy.In addition to its functional importance, xylogen also contributes to the structural integrity of plants. The lignin present in xylogen cells provides rigidity and strength, enabling trees and other plants to grow tall and withstand environmental stresses such as wind and rain. Without xylogen, many plants would struggle to maintain their form and survive in various habitats.Moreover, understanding xylogen is not only important for botany but also for various applications in agriculture and forestry. For instance, researchers are investigating how different environmental factors affect the growth and development of xylogen. This knowledge can help in breeding more resilient plant varieties that can thrive in changing climates. Additionally, studying xylogen can aid in improving wood quality for construction and furniture-making, as the properties of xylogen directly impact the durability and appearance of wood products.In recent years, advancements in technology have allowed scientists to explore xylogen at a molecular level. Techniques such as genetic sequencing and imaging have revealed insights into the formation and function of xylogen tissues. This research is paving the way for innovations in bioengineering, where scientists aim to create plants with enhanced traits by manipulating the genes responsible for xylogen development.Furthermore, xylogen is also significant in the context of climate change. Trees play a critical role in sequestering carbon dioxide, and understanding how xylogen functions can help us predict how forests will respond to increasing temperatures and altered precipitation patterns. By studying the adaptability of xylogen, scientists can develop strategies for forest management and conservation that will ensure the health of these ecosystems for future generations.In conclusion, xylogen (木质部) is a vital component of plant biology that serves multiple functions, from water transport to structural support. Its significance extends beyond the realm of botany into fields such as agriculture, forestry, and environmental science. As we continue to explore the complexities of xylogen, we gain a deeper appreciation for the intricate systems that sustain life on Earth. Understanding xylogen is essential not only for enhancing our knowledge of plant biology but also for addressing some of the pressing challenges we face in a rapidly changing world.
