thallophyte
简明释义
叶状植物
[植] 原植体植物
菌藻植物
英英释义
A thallophyte is a type of plant that lacks true roots, stems, and leaves, typically characterized by a simple, undifferentiated body known as a thallus. | 一种植物,缺乏真正的根、茎和叶,通常以一种简单、未分化的体称为藻体为特征。 |
单词用法
藻类植物群 | |
藻类植物生物 | |
藻类植物的研究 | |
藻类植物分支 | |
藻类植物栖息地 | |
藻类植物特征 |
同义词
| 藻类 | 藻类包括多种形式的藻类。 | ||
| 真菌 | Fungi are often classified under thallophytes due to their simple structure. | 真菌通常被归类为藻类,因为它们的结构简单。 | |
| 地衣 | Lichens are a symbiotic association between algae and fungi. | 地衣是藻类和真菌之间的共生关系。 |
反义词
| 胚胎植物 | Embryophytes are characterized by the presence of a multicellular embryo. | 胚胎植物的特征是具有多细胞胚胎。 | |
| 维管植物 | Vascular plants have specialized tissues for conducting water and nutrients. | 维管植物具有专门的组织来输送水分和养分。 |
例句
1.But indoors avoid by all means USES a needle thallophyte or Yin Shu (like peach), especially avoid cuckoo.
但在室内切忌采用针叶状植物或阴树(如桃树),尤其忌杜鹃。
2.But indoors avoid by all means USES a needle thallophyte or Yin Shu (like peach), especially avoid cuckoo.
但在室内切忌采用针叶状植物或阴树(如桃树),尤其忌杜鹃。
3.Researchers are exploring how thallophytes 藻类植物 can be used in bioremediation.
研究人员正在探索如何将thallophytes 藻类植物用于生物修复。
4.The thallophyte 藻类植物 kingdom includes organisms like algae and fungi.
thallophyte 藻类植物王国包括像藻类和真菌这样的生物。
5.Mosses and ferns are not thallophytes 藻类植物, but they share some similar characteristics.
苔藓和蕨类植物不是thallophytes 藻类植物,但它们有一些相似的特征。
6.Some thallophytes 藻类植物 can photosynthesize, producing oxygen as a byproduct.
一些thallophytes 藻类植物可以进行光合作用,产生氧气作为副产品。
7.In the study of botany, a thallophyte 藻类植物 is often discussed for its simple structure.
在植物学的研究中,thallophyte 藻类植物通常因为其简单的结构而被讨论。
作文
In the vast realm of biology, the classification of living organisms is a fundamental aspect that helps us understand the diversity of life on Earth. Among these classifications lies a group known as thallophytes, which encompasses a variety of simple, non-flowering plants. This term, derived from the Greek words 'thallos' meaning 'young shoot' and 'phyton' meaning 'plant', refers to organisms that do not have differentiated roots, stems, or leaves. Instead, they possess a thallus, a simple body structure that can perform photosynthesis and other essential functions. Thallophyte includes organisms such as algae, fungi, and lichens, highlighting their unique characteristics and ecological importance.The study of thallophytes reveals fascinating insights into the evolution of plant life. These organisms are considered some of the earliest forms of life on Earth, dating back billions of years. Their ability to thrive in diverse environments, from freshwater to marine ecosystems, showcases their adaptability and resilience. Algae, one of the most well-known types of thallophytes, play a crucial role in aquatic ecosystems. They are primary producers, converting sunlight into energy through photosynthesis, and serve as a vital food source for various marine organisms.Furthermore, thallophytes contribute significantly to the global carbon cycle. By absorbing carbon dioxide during photosynthesis, they help mitigate climate change effects. The presence of healthy algal populations can indicate the overall health of aquatic ecosystems, making them essential indicators for environmental monitoring.On the other hand, fungi, another category within thallophytes, are often misunderstood but are equally important. They play a critical role in nutrient cycling by decomposing organic matter. Without fungi, ecosystems would become overwhelmed with dead material, disrupting the balance of nature. Additionally, many fungi form symbiotic relationships with plants through mycorrhizae, enhancing nutrient uptake and promoting plant growth.Lichens, which are composite organisms formed from a symbiotic relationship between fungi and algae or cyanobacteria, exemplify the intricate interdependence found within thallophytes. These remarkable organisms can survive in some of the harshest environments on Earth, including arctic tundras and rocky surfaces. Their ability to withstand extreme conditions makes them valuable bioindicators of environmental health and climate change.Despite their simplicity, thallophytes are integral to our ecosystem's functioning. They provide habitats for countless organisms, contribute to soil formation, and enhance biodiversity. Understanding the role of thallophytes in our environment is crucial for conservation efforts, especially as we face challenges such as habitat destruction and climate change.In conclusion, thallophytes represent a diverse and essential group of organisms that offer significant ecological benefits. From their role in photosynthesis and nutrient cycling to their contributions to biodiversity, these simple plants are vital to the health of our planet. As we continue to study and appreciate the complexity of life, recognizing the importance of thallophytes will be key to fostering a sustainable future for all living beings.
藻类植物是生物学领域中的一个重要分类,帮助我们理解地球上生命的多样性。这个词源自希腊语,意为“年轻的芽”和“植物”,指的是没有分化的根、茎或叶的生物。相反,它们具有简单的体结构,能够进行光合作用和其他基本功能。藻类植物包括藻类、真菌和地衣,突显了它们独特的特征和生态重要性。对于藻类植物的研究揭示了植物生活进化的迷人见解。这些生物被认为是地球上最早的生命形式之一,已有数十亿年的历史。它们在淡水和海洋生态系统中的适应能力展示了它们的韧性。藻类是最著名的藻类植物之一,在水生生态系统中扮演着至关重要的角色。它们是初级生产者,通过光合作用将阳光转化为能量,并成为各种海洋生物的重要食物来源。此外,藻类植物对全球碳循环的贡献也相当重要。通过在光合作用过程中吸收二氧化碳,它们帮助缓解气候变化的影响。健康的藻类种群的存在可以表明水生生态系统的整体健康,因此它们是环境监测的重要指标。另一方面,真菌是藻类植物中的另一类,常常被误解,但同样重要。它们在养分循环中发挥着关键作用,通过分解有机物质来维持生态平衡。如果没有真菌,生态系统将会被死去的物质所淹没,破坏自然的平衡。此外,许多真菌通过菌根与植物形成共生关系,增强养分吸收,促进植物生长。地衣是由真菌与藻类或蓝藻之间的共生关系形成的复合生物,体现了藻类植物中复杂的相互依赖性。这些非凡的生物能够在一些最恶劣的环境中生存,包括北极苔原和岩石表面。它们承受极端条件的能力使它们成为环境健康和气候变化的宝贵生物指示剂。尽管它们相对简单,藻类植物对生态系统的功能至关重要。它们为无数生物提供栖息地,促进土壤形成,并增强生物多样性。理解藻类植物在我们环境中的作用对保护工作至关重要,尤其是在我们面临栖息地破坏和气候变化等挑战时。总之,藻类植物代表了一类多样且重要的生物,提供了显著的生态益处。从它们在光合作用和养分循环中的作用到对生物多样性的贡献,这些简单的植物对我们星球的健康至关重要。随着我们继续研究和欣赏生命的复杂性,认识到藻类植物的重要性将是促进所有生物可持续未来的关键。
