suborder
简明释义
n. [生物] 亚目
英英释义
A taxonomic category that ranks below an order and above a family, used in the classification of organisms. | 一种分类学类别,排名在目之下、科之上,用于生物的分类。 |
单词用法
在亚目内 | |
亚目的分类 | |
亚目层级 | |
分类亚目 | |
生物亚目 | |
生物的亚目 |
同义词
反义词
| 目 | 目食肉目包括像狗和猫这样的动物。 | ||
| 超目 | In the biological classification, a superorder is a higher taxonomic rank than order. | 在生物分类中,超目是比目更高的分类等级。 |
例句
1.Of or belonging to the Pinnipedia, a suborder of carnivorous aquatic mammals that includes the seals, walruses, and similar animals having finlike flippers as organs of locomotion.
有鳍状肢的属于鳍脚亚目动物的,肉食水生动物的一个分支,包括。
2.A bird, especially one of the suborder Oscines of passerine birds, having a melodious song or call.
一种鸟,尤其指雀形目鸟中鸣禽亚目中的一种,其歌声或叫声宛啭动听。
3.Since the dinosaurs recovery plans since 1970, many studies have pointed out that modern birds most likely suborder Theropoda a direct descendant of dinosaurs.
自恐龙复原图从1970年以来,许多研究指出现代鸟类极可能是兽脚亚目恐龙的直系后代。
4.Any of various reptiles of the suborder Sauria, which includes the lizards and in former classifications also the crocodiles and dinosaurs.
任一种蜥蜴目爬行动物,包括蜥蜴,在以前分类中还包括鳄鱼和恐龙。
5.All these feather types have been found in fossil impressions of theropods, the dinosaur suborder that includes Tyrannosaurus rex as well as birds and other Maniraptorans.
所有这些羽毛类型在兽脚亚目的印痕化石中都被找到了,兽脚类属于恐龙亚目,包括了雷克斯霸王龙、鸟类以及其他手盗龙。
6.Any member of the suborder anthropoidea including monkeys and apes and hominids.
猿科动物亚目中的成员,包括猴子、猿和原人。
7.A bird of the suborder Oscines.
鸣禽亚目一个科里的鸟。
8.Of or belonging to the Pinnipedia, a suborder of carnivorous aquatic mammals that includes the seals, walruses, and similar animals having finlike flippers as organs of locomotion.
有鳍状肢的属于鳍脚亚目动物的,肉食水生动物的一个分支,包括。
9.Any of numerous reptiles of the suborder Sauria or Lacertilia, characteristically having a scaly elongated body, movable eyelids, four legs, and a tapering tail.
蜥蜴一种属于蜥蜴类目的爬行动物,特征是有带鳞狭长的身体、可移动的眼睑、四条腿和渐细的尾巴。
10.A reptile genus of suborder plesiosaur ia.
爬行类蛇颈龙科亚目的一属。
11.The classification of animals includes several levels, with the suborder 亚目 being one of them.
动物的分类包括多个层级,其中suborder 亚目 是其中之一。
12.The suborder 亚目 Carnivora contains many familiar animals like lions and bears.
suborder 亚目 食肉目包含许多熟悉的动物,如狮子和熊。
13.In entomology, insects are divided into various families and suborders 亚目 to better understand their relationships.
在昆虫学中,昆虫被分为不同的科和suborders 亚目 以更好地理解它们之间的关系。
14.Taxonomists use suborders 亚目 to group species that share common characteristics.
分类学家使用suborders 亚目 来将具有共同特征的物种进行分组。
15.The suborder 亚目 Primates includes monkeys, apes, and humans.
suborder 亚目 灵长类包括猴子、猿类和人类。
作文
In the vast realm of biological classification, organisms are categorized into various hierarchical levels. One of these critical levels is the suborder, which serves as a further division within an order. Understanding the concept of suborder is essential for anyone studying biology or taxonomy, as it helps to organize the immense diversity of life on Earth. The classification system, known as Linnaean taxonomy, was developed by Carl Linnaeus in the 18th century and has since been refined to accommodate new discoveries in genetics and evolutionary biology.A suborder is a taxonomic rank that falls below the level of order and above the level of family. For example, in the classification of mammals, the order Carnivora includes several suborders, such as Feliformia and Caniformia. Feliformia includes cats, hyenas, and mongooses, while Caniformia encompasses dogs, bears, and seals. This hierarchical structure allows scientists to group organisms based on shared characteristics and evolutionary relationships, making it easier to study their biology and ecology.The significance of suborder classification extends beyond mere organization; it also provides insights into the evolutionary history of species. By examining the traits and genetic makeup of organisms within a suborder, researchers can infer how different species have adapted to their environments over time. For instance, the differences between felids (cats) and canids (dogs) illustrate divergent evolutionary paths despite their common ancestry within the order Carnivora.Moreover, the concept of suborder is not limited to animals; it also applies to plants and fungi. In the plant kingdom, for example, the order Rosales includes several suborders, such as Ulmaceae (elms) and Moraceae (figs and mulberries). Understanding these classifications is crucial for botanists and ecologists who study plant interactions within ecosystems. Each suborder may exhibit unique adaptations and ecological roles, contributing to the overall health and stability of their habitats.As science progresses, the definitions and classifications of suborder and other taxonomic ranks continue to evolve. Advances in molecular biology and genetic sequencing have led to the reevaluation of traditional classifications, allowing scientists to create more accurate representations of the relationships between organisms. This dynamic nature of taxonomy highlights the importance of ongoing research and the need for flexibility in our understanding of biodiversity.In conclusion, the term suborder plays a vital role in the classification of living organisms, facilitating our understanding of the intricate web of life on Earth. By organizing species into suborders, scientists can better study their characteristics, evolutionary histories, and ecological roles. As we continue to explore and uncover the mysteries of the natural world, the significance of suborder classification will remain a cornerstone of biological science, guiding researchers in their quest to understand and protect the diverse forms of life that share our planet.
在生物分类的广阔领域中,生物体被分为各种层级。一个关键的层级是亚目,它作为一个进一步的划分存在于目之内。理解亚目的概念对任何学习生物学或分类学的人来说都是至关重要的,因为它有助于组织地球上巨大的生命多样性。分类系统,称为林奈分类法,是由卡尔·林奈在18世纪发展而来的,此后随着基因和进化生物学的新发现而不断完善。亚目是一个分类学等级,位于目之下、科之上。例如,在哺乳动物的分类中,食肉目包括几个亚目,如猫形亚目和犬形亚目。猫形亚目包括猫、鬣狗和 mongoose,而犬形亚目则包含狗、熊和海豹。这种等级结构使科学家能够根据共享特征和进化关系对生物体进行分组,从而更容易研究它们的生物学和生态学。亚目分类的重要性不仅在于简单的组织;它还提供了对物种进化历史的洞察。通过检查亚目内生物体的特征和遗传构成,研究人员可以推断不同物种如何随着时间的推移适应其环境。例如,猫科(猫)和犬科(狗)之间的差异说明了尽管它们在食肉目中有共同的祖先,但却呈现出不同的进化路径。此外,亚目的概念不仅限于动物;它也适用于植物和真菌。在植物界中,例如,蔷薇目包括几个亚目,如榆科(榆树)和桑科(无花果和桑树)。理解这些分类对于研究植物在生态系统中相互作用的植物学家和生态学家至关重要。每个亚目可能展现出独特的适应性和生态角色,有助于其栖息地的整体健康和稳定。随着科学的发展,亚目及其他分类等级的定义和分类也在不断演变。分子生物学和基因测序的进步导致传统分类的重新评估,使科学家能够创建更准确的生物体关系表示。这种分类法的动态特性突显了持续研究的重要性以及我们对生物多样性理解的灵活性。总之,术语亚目在生物体分类中扮演着至关重要的角色,促进了我们对地球上复杂生命网络的理解。通过将物种组织到亚目中,科学家可以更好地研究它们的特征、进化历史和生态角色。随着我们继续探索和揭示自然世界的奥秘,亚目分类的重要性将始终是生物科学的基石,引导研究人员在理解和保护与我们共享星球的多样生命形式的追求中。
