morphologies

简明释义

英[mɔːˈfɒlədʒiz]美[mɔrˈfɑlədʒiz]

[生物][晶体]形态学

形态论

[语]词法（morphology 的名词复数）

英英释义

单词用法

同义词

反义词

例句

1.Different powder sizes result in different morphologies of the shear sources.

颗粒度不同，剪切源的粗细及形式也不同。

2.And the morpHologies of the two strains were compared.

并对两株菌种的形态进行了比较。

3.Surface morphologies of coatings prepared by SPPS presented obvious layer structure.

SPPS法制备的涂层表面形貌呈现明显的层状结构。

4.The effects of silver particles morphologies and size on the electrical bulk resistivity of conductive adhesive were described.

从导电性角度考查银粉颗粒形貌和粒径大小对导电胶电阻率的影响。

5.Loess Plateau is a kind of peculiar relief unit in China and in the world, attracting strong attentions for its various and complex morphologies.

黄土高原是我国乃至全世界的一个十分独特的地貌单元，对其复杂多样的地貌形态的研究和可视化表达一直备受关注。

6.In the meanwhile, irregular broken line and wave modeand fishbone like interface morphologies were observed by TEM.

同时，还发现了不规则的折线界面形貌、波浪线形界面形貌和鱼骨状界面形貌。

7.Using SEM with EDX analysis, the composition, microstructure and morphologies of the surface layer were analyzed.

应用SEM电镜分析和能谱分析等方法分析了热浸扩散渗铝层的成分、组织和形貌。

8.After menopause, women start to display similar body morphologies as men.

女性在绝经以后，开始显现出与男性类似的身体形态特征来。

9.In architecture, the morphologies of buildings can reflect cultural influences.

在建筑学中，建筑的形态可以反映文化影响。

10.In linguistics, the variations in word morphologies can change the meaning of sentences.

在语言学中，单词的不同形态变化可以改变句子的意思。

11.The morphologies of various species provide insights into their evolutionary history.

各种物种的形态提供了对其进化历史的洞察。

12.The study of different cell morphologies helps researchers understand their functions better.

不同细胞的形态学研究帮助研究人员更好地理解它们的功能。

13.The research focused on the morphologies of nanoparticles for drug delivery systems.

研究集中在用于药物传递系统的纳米颗粒的形态上。

作文

In the field of biology, the term morphologies refers to the study of the form and structure of organisms. This concept is crucial for understanding the diversity of life on Earth. Different species exhibit a wide range of morphologies, which are adaptations that have evolved over time to suit their environments. For instance, the elongated neck of a giraffe is a remarkable example of how morphologies can evolve in response to ecological pressures, such as the need to reach high foliage for food. The study of morphologies extends beyond just animals; it also encompasses plants and microorganisms. In botany, the morphologies of plants can reveal information about their evolutionary history and ecological roles. For example, the broad leaves of a tropical rainforest plant allow it to capture more sunlight, while the needle-like leaves of a conifer help reduce water loss in arid environments. Understanding these various morphologies helps scientists to classify plants and predict how they might respond to changes in climate.Moreover, morphologies are not static; they can change over time due to genetic mutations, environmental factors, and interactions with other species. This dynamic aspect of morphologies is particularly evident in studies of evolution and natural selection. Researchers often analyze the morphologies of fossilized remains to gain insights into how ancient organisms lived and adapted to their surroundings.In addition to biology, the concept of morphologies has applications in other fields such as linguistics and computer science. In linguistics, morphologies refer to the structure and formation of words within a language. Understanding the morphologies of words can aid in language learning and translation, as it reveals the rules governing word formation and usage. Similarly, in computer science, particularly in the realm of artificial intelligence, morphologies can describe the structural characteristics of algorithms or data structures, influencing how efficiently they operate.The interdisciplinary nature of morphologies showcases its importance across various domains of study. By examining morphologies, researchers can uncover patterns and relationships that might otherwise go unnoticed. For instance, the convergence of certain morphologies in unrelated species—known as convergent evolution—can illuminate the principles of adaptation and survival in similar environmental contexts.In conclusion, the study of morphologies is vital for understanding not only the biological world but also linguistic structures and computational frameworks. It provides a lens through which we can explore the complexities of life and the principles that govern it. Whether in the context of animal shapes, plant structures, or even the formation of words, morphologies reveal the underlying order and diversity of our universe. As we continue to investigate these forms and structures, we deepen our appreciation for the intricate tapestry of existence that surrounds us.

在生物学领域，术语morphologies指的是研究生物体的形态和结构。这个概念对于理解地球上生命的多样性至关重要。不同物种表现出广泛的morphologies，这些是随着时间的推移为了适应环境而进化出来的适应特征。例如，长颈鹿的细长脖子就是一个显著的例子，展示了如何根据生态压力（如需要获取高处树叶作为食物）进化出morphologies。morphologies的研究不仅限于动物；它还包括植物和微生物。在植物学中，植物的morphologies可以揭示它们的进化历史和生态角色。例如，热带雨林植物的宽大叶子使其能够捕捉更多阳光，而针状叶子的松树则有助于减少在干旱环境中的水分流失。理解这些不同的morphologies有助于科学家对植物进行分类，并预测它们如何应对气候变化。此外，morphologies并不是静态的；它们可以随着时间的推移因遗传突变、环境因素和与其他物种的相互作用而变化。这种morphologies的动态特性在进化和自然选择的研究中尤为明显。研究人员经常分析化石遗骸的morphologies，以深入了解古代生物的生活方式和适应环境的能力。除了生物学，morphologies的概念在语言学和计算机科学等其他领域也有应用。在语言学中，morphologies指的是语言中单词的结构和形成。理解单词的morphologies可以帮助语言学习和翻译，因为它揭示了单词形成和使用的规则。同样，在计算机科学中，特别是在人工智能领域，morphologies可以描述算法或数据结构的结构特征，从而影响它们的效率。morphologies的跨学科性质展示了其在各个研究领域的重要性。通过研究morphologies，研究人员可以发现可能被忽视的模式和关系。例如，某些morphologies在无关物种中的趋同现象——称为趋同进化——可以揭示类似环境背景下适应和生存的原则。总之，研究morphologies对于理解生物世界、语言结构和计算框架至关重要。它提供了一个透镜，通过这个透镜我们可以探索生命的复杂性和支配它的原则。无论是在动物形态、植物结构还是单词形成的背景下，morphologies揭示了我们宇宙中潜在的秩序和多样性。随着我们继续研究这些形式和结构，我们加深了对环绕我们的存在的复杂织锦的欣赏。