saprophytism
简明释义
英[ˈsæprəˌfaɪtɪzəm]美[ˈsæprəfɪtɪzəm]
n. 腐物寄生;腐生生活;[微] 腐生现象
英英释义
Saprophytism refers to the nutritional mode of organisms that obtain their nutrients by decomposing dead organic matter. | 腐生性是指通过分解死去的有机物质来获取营养的生物的营养方式。 |
单词用法
真菌中的腐生现象 | |
腐生现象的作用 | |
腐生现象的例子 | |
腐生生物 | |
腐生营养 | |
腐生生活方式 |
同义词
反义词
| 寄生主义 | Parasitism involves one organism benefiting at the expense of another. | 寄生主义涉及一个生物体在另一个生物体的损害中获益。 | |
| 共生关系 | 在共生关系中,两个生物体都从这种关系中受益。 |
例句
1.All the results indicate that hybrids of Phytophthora cactorum are of strong ability to survive and colonize in saprophytism in soil.
上述结果表明恶疫霉有性杂交后代在土壤中有较强的存活能力和腐生定殖能力。
2.All the results indicate that hybrids of Phytophthora cactorum are of strong ability to survive and colonize in saprophytism in soil.
上述结果表明恶疫霉有性杂交后代在土壤中有较强的存活能力和腐生定殖能力。
3.Hybrids of Phytophthora cactorum are of strong ability to survive and colonize in saprophytism in soil.
疫霉菌的杂种具有很强的生存能力,可以在腐生土壤中定植。
4.The process of saprohytism 腐生作用 plays a crucial role in nutrient recycling in ecosystems.
在生态系统中,腐生作用 saprophytism 的过程在养分循环中起着至关重要的作用。
5.Bacteria involved in saprohytism 腐生作用 help decompose complex organic compounds.
参与 腐生作用 saprohytism 的细菌帮助分解复杂的有机化合物。
6.In soil ecology, saprohytism 腐生作用 is essential for maintaining soil health.
在土壤生态学中,腐生作用 saprohytism 对维持土壤健康至关重要。
7.The study of saprohytism 腐生作用 can provide insights into ecological balance.
对 腐生作用 saprohytism 的研究可以提供生态平衡的见解。
8.Many fungi exhibit saprohytism 腐生作用, breaking down dead organic matter.
许多真菌表现出 腐生作用 saprohytism,分解死去的有机物质。
作文
In the intricate web of life, various organisms play vital roles that sustain ecosystems. One such role is exemplified by the phenomenon known as saprohytism, which refers to the nutritional strategy employed by certain organisms that feed on decaying organic matter. This process is essential for nutrient cycling and maintaining the health of the environment. Understanding saprohytism not only sheds light on the ecological balance but also highlights the importance of decomposers in our world.Decomposers, including fungi, bacteria, and some insects, are the primary agents of saprohytism. They break down dead plants and animals, returning vital nutrients to the soil. This decomposition process is crucial for the growth of new plants, which rely on these nutrients to thrive. Without saprohytism, ecosystems would be overwhelmed with dead material, leading to a decline in biodiversity and the overall health of the environment.The role of saprohytism can be observed in various ecosystems, from forests to wetlands. For instance, in a forest, fallen leaves and dead trees provide a rich source of organic matter for decomposers. Fungi, such as mushrooms, play a significant role in breaking down this material. As they decompose the organic matter, they release nutrients back into the soil, which are then absorbed by living plants. This symbiotic relationship illustrates the interconnectedness of life and the importance of saprohytism in sustaining it.Moreover, saprohytism has significant implications for agriculture. Farmers often utilize compost, which is a product of saprohytism, to enrich their soils. By recycling organic waste, farmers can enhance soil fertility and promote healthy crop growth. This practice not only reduces waste but also supports sustainable farming practices, emphasizing the value of saprohytism in food production.In addition to its ecological and agricultural significance, saprohytism also plays a role in human health. Certain bacteria and fungi involved in this process are used in bioremediation, a technique that cleans up contaminated environments. These organisms can break down pollutants, transforming harmful substances into less toxic forms. By harnessing the power of saprohytism, we can address environmental challenges and promote public health.Despite its importance, saprohytism is often overlooked in discussions about ecology and conservation. Many people are unaware of the critical role that decomposers play in maintaining the balance of ecosystems. Education and awareness are vital in highlighting the significance of saprohytism and encouraging practices that support these essential organisms.In conclusion, saprohytism is a fundamental process that underpins the health of our ecosystems. By understanding and appreciating the role of decomposers, we can foster a greater respect for nature and its intricate systems. Whether in forests, agricultural fields, or polluted environments, saprohytism serves as a reminder of the interconnectedness of life and the importance of every organism, no matter how small. Through conservation efforts and sustainable practices, we can ensure that saprohytism continues to thrive, benefiting both the environment and humanity as a whole.
在生命的复杂网络中,各种生物扮演着维持生态系统的重要角色。其中一个角色就是被称为saprohytism的现象,它指的是某些生物通过食用腐烂有机物质来获取营养的策略。这个过程对于营养循环和维持环境健康至关重要。理解saprohytism不仅揭示了生态平衡,还强调了分解者在我们世界中的重要性。分解者,包括真菌、细菌和一些昆虫,是saprohytism的主要代理人。它们分解死去的植物和动物,将重要的营养物质返回土壤。这个分解过程对新植物的生长至关重要,因为它们依赖这些营养物质来繁荣。如果没有saprohytism,生态系统将被大量死物淹没,导致生物多样性和环境整体健康的下降。saprohytism的作用可以在各种生态系统中观察到,从森林到湿地。例如,在森林中,落叶和死树为分解者提供了丰富的有机物质来源。真菌,如蘑菇,在分解这些材料中发挥着重要作用。当它们分解有机物质时,会将营养物质释放回土壤,这些营养物质随后被活植物吸收。这种共生关系说明了生命的相互联系以及saprohytism在维持生命中的重要性。此外,saprohytism对农业也有重要影响。农民通常利用堆肥,这是saprohytism的产物,来丰富他们的土壤。通过回收有机废物,农民可以增强土壤肥力,促进健康的作物生长。这种做法不仅减少了废物,还支持可持续农业实践,强调了saprohytism在食品生产中的价值。除了生态和农业的重要性外,saprohytism还在公共健康中发挥作用。参与这一过程的某些细菌和真菌被用于生物修复,这是一种清理污染环境的技术。这些生物可以分解污染物,将有害物质转化为较少毒性的形式。通过利用saprohytism的力量,我们可以应对环境挑战,促进公共健康。尽管saprohytism的重要性不容忽视,但在关于生态和保护的讨论中,它常常被忽略。许多人并不了解分解者在维持生态系统平衡中的关键作用。教育和意识的提升对于强调saprohytism的重要性以及鼓励支持这些基本生物的实践至关重要。总之,saprohytism是支撑我们生态系统健康的基本过程。通过理解和欣赏分解者的作用,我们可以培养对自然及其复杂系统更大的尊重。无论是在森林、农业田还是污染环境中,saprohytism都提醒我们生命的相互联系以及每个生物的重要性,无论它们多么微小。通过保护努力和可持续实践,我们可以确保saprohytism继续蓬勃发展,造福环境和整人类。
