morphologic

简明释义

英[ˌmɔːfəˈlɒdʒɪk]美[ˌmɔrfəˈlɑdʒɪk]

adj. 形态学（上），形态学的

英英释义

单词用法

同义词

反义词

例句

1.Objective:to observe morphologic characteristics of the endolymphatic duct in guinea pigs.

目的：观察豚鼠内淋巴管形态学特征，以认识内淋巴管的吸收功能。

2.Method: Apoptosis was detected by the morphologic observation, flow cytometry assay and DNA gel electrophoresis.

方法：应用细胞形态学、流式细胞仪分析及DNA凝胶电泳等。

3.ObjectiveTo investigate morphologic change of alcoholic liver damage and its mechanism.

目的探讨酒精性肝损伤的形态学改变和发生机理。

4.The morphologic changes of 17 cases of implanted splenic masses were observed with ultrasonography and their survival was judged.

本文用声象图法观察17例移植脾片的形态学改变，判断移植脾片的存活状况。

5.Microvessel morphologic and functional changes were measured after rapid decompression in animals.

检测了动物快速减压微血管结构与功能的改变。

6.The cell morphologic changes of renal tissue were observed by hematoxylin and eosin (he) staining.

同时取肾组织，苏木素伊红(HE)染色，光镜下观察细胞形态学变化。

7.It reasonably combined the morphologic and functional changes, and would affect deeply the useless of ct in respiratory system.

它合理的将肺的形态和功能结合起来，将对CT在呼吸系统的应用产生深远的影响。

8.Chinese is a language of morphologic punctuaion.

汉语是一种缺乏形态标志的语言。

9.The morphologic 形态学的 variations in the plant samples indicated a response to environmental changes.

植物样本中的形态学的变化表明对环境变化的反应。

10.Researchers used morphologic 形态学的 analysis to determine the differences between the two fish species.

研究人员使用形态学的分析来确定两种鱼类之间的差异。

11.The morphologic 形态学的 aspects of the fossil provide insight into the evolution of the species.

化石的形态学的方面为该物种的进化提供了洞察。

12.In anthropology, morphologic 形态学的 features are essential for classifying human remains.

在人类学中，形态学的特征对于分类人类遗骸至关重要。

13.The study focused on the morphologic 形态学的 characteristics of the new species discovered in the rainforest.

这项研究集中在新发现的雨林物种的形态学的特征上。

作文

The study of biology encompasses various fields, one of which is the examination of organisms' structures and forms. This aspect is crucial for understanding how different species adapt to their environments. In this context, the term morphologic (形态学的) plays a significant role. Morphologic studies focus on the physical characteristics of organisms, including their shape, size, and overall structure. These features can provide insights into an organism's evolutionary history and its ecological niche.For instance, consider the diversity of bird species found across the globe. Each species has evolved specific morphologic (形态学的) traits that enable them to thrive in their respective habitats. The long beak of the hummingbird allows it to feed on nectar from flowers, while the sturdy legs of the ostrich are adapted for running at high speeds on land. By studying these morphologic (形态学的) adaptations, scientists can infer how environmental pressures influence evolutionary changes over time.In addition to animals, plants also exhibit fascinating morphologic (形态学的) variations. For example, cacti have evolved thick, fleshy stems to store water, allowing them to survive in arid climates. The morphologic (形态学的) traits of these plants are not merely aesthetic; they serve vital functions that enhance survival and reproduction. Understanding these adaptations helps researchers develop conservation strategies for endangered species and ecosystems.Furthermore, the field of paleontology heavily relies on morphologic (形态学的) evidence to reconstruct the appearance and behavior of extinct organisms. Fossils provide critical data about the morphologic (形态学的) characteristics of ancient life forms, enabling scientists to piece together the evolutionary puzzle. By analyzing the morphologic (形态学的) features of fossils, paleontologists can draw conclusions about how these organisms lived, what they ate, and how they interacted with their environment.In modern research, the integration of technology has revolutionized the study of morphologic (形态学的) characteristics. Advanced imaging techniques, such as 3D scanning and computer modeling, allow scientists to visualize and manipulate morphologic (形态学的) data with unprecedented precision. This technological advancement enhances our understanding of biological forms and opens new avenues for exploration in genetics and developmental biology.In conclusion, the concept of morphologic (形态学的) analysis is fundamental to the biological sciences. It provides a framework for examining the physical attributes of living organisms and understanding their adaptations. Whether through the study of contemporary species or the analysis of ancient fossils, morphologic (形态学的) research continues to illuminate the intricate relationships between form and function in the natural world. As we advance our knowledge in this field, we gain valuable insights that contribute to conservation efforts, evolutionary biology, and our overall appreciation of biodiversity.

生物学的研究涵盖了多个领域，其中一个是对生物体结构和形态的研究。这一方面对于理解不同物种如何适应其环境至关重要。在这个背景下，术语morphologic（形态学的）发挥着重要作用。Morphologic研究专注于生物体的物理特征，包括它们的形状、大小和整体结构。这些特征可以提供对生物体进化历史及其生态位的洞察。例如，考虑到全球范围内鸟类物种的多样性。每个物种都进化出特定的morphologic（形态学的）特征，使它们能够在各自的栖息地中茁壮成长。蜂鸟的长喙使其能够从花中吸取花蜜，而鸵鸟结实的腿则适应于在陆地上以高速奔跑。通过研究这些morphologic（形态学的）适应性，科学家可以推断环境压力如何影响随时间的进化变化。除了动物，植物也表现出迷人的morphologic（形态学的）变异。例如，仙人掌进化出厚实的肉质茎以储存水分，使其能够在干旱气候中生存。这些植物的morphologic（形态学的）特征不仅仅是美观；它们还具有增强生存和繁殖的重要功能。理解这些适应性有助于研究人员为濒危物种和生态系统制定保护战略。此外，古生物学领域在重建灭绝生物的外观和行为时严重依赖于morphologic（形态学的）证据。化石提供了关于古代生命形式的morphologic（形态学的）特征的重要数据，使科学家能够拼凑出进化的拼图。通过分析化石的morphologic（形态学的）特征，古生物学家可以得出关于这些生物如何生活、吃什么以及如何与环境互动的结论。在现代研究中，技术的整合彻底改变了对morphologic（形态学的）特征的研究。先进的成像技术，如3D扫描和计算机建模，使科学家能够以前所未有的精确度可视化和操作morphologic（形态学的）数据。这项技术进步增强了我们对生物形态的理解，并为遗传学和发育生物学的探索开辟了新途径。总之，morphologic（形态学的）分析概念是生物科学的基础。它为检查生物体的物理属性和理解其适应性提供了框架。无论是通过对当代物种的研究还是对古代化石的分析，morphologic（形态学的）研究继续阐明自然界中形态与功能之间的复杂关系。随着我们在这一领域知识的进步，我们获得的宝贵见解为保护工作、进化生物学以及我们对生物多样性的整体欣赏做出了贡献。