土壤中的生物膜群落:使用数学模型的特征和相互作用。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-03-01 DOI:10.1016/j.resmic.2023.104149
Ojeba Innocent Musa , Sikirulai Abolaji Akande , Udeme Joshua Josiah Ijah , Olabisi Peter Abioye , Asmau Mohammed Maude , Job Oloruntoba Samuel , Adamu Mustapha , Al-Musbahu Abdulrahim , Alberto Campos García Gusdanis
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引用次数: 0

摘要

土壤中有许多不同种类的微生物,其中许多是生物膜,因为它们可以制造细胞上化合物。生物膜中的表面相关微生物被包裹在水合的细胞外聚合物中,有助于粘附和存活。许多不同种类的微生物称土壤为家。生物膜使物种之间的强烈相互作用成为可能;这反过来可能会提高土壤中有机化合物和毒物的降解效率。这鼓励我们仔细研究土壤生物膜生态系统,这是我们在本文中所做的。在这项研究中,我们将研究土壤生物膜是如何产生的,以及它如何影响微生物群落的组成及其在土壤中的功能。近年来,人们对生物膜结构和各种细菌的社会互动问题的兴趣有所上升。还提出了许多概念来阐明生物膜生长的基本数学。由于生物膜非常普遍,这一土壤生物膜研究的突破可能有助于科学家更好地了解土壤微生物组。数学模型进一步推断了微生物群落之间的关系,并为生物膜中发生的事情提供了更精确的信息。生物膜可以帮助植物应对各种环境挑战。土壤质量、植物营养、植物保护、生物修复和气候变化都受到生物膜群落相互作用的影响。因此,生物膜在发展环境友好和可持续农业方面发挥着重要作用。
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Biofilms communities in the soil: characteristic and interactions using mathematical model

There are many different kinds of microorganisms in the soil, and many of them are biofilms because they can make supracellular compounds. Surface-associated microorganisms in a biofilm are encased in a hydrated extracellular polymeric substance that aids in adherence and survival. Numerous different kinds of microorganisms call the soil home. Strong interactions with and among species are made possible by biofilms; this, in turn, might increase the effectiveness with which organic compounds and poisons in soil are degraded. This encouraged us to take a close look at soil biofilm ecosystems, which we do in this paper. In this research, we will look at how soil biofilms arise and how that affects the composition of microbial communities and their function in the soil. Recent years have seen an uptick in interest in questions about biofilm structure and the social interactions of various bacteria. Many concepts elucidating the underlying mathematics of biofilm growth are also presented. Since biofilms are so widespread, this breakthrough in soil biofilm inquiry might help scientists understand soil microbiomes better. Mathematical models further extrapolate the relationships between microbial communities and gives a more precise information as to what is happening in a biofilm. Biofilms can help plants cope with a variety of environmental challenges. Soil quality, plant nourishment, plant protection, bioremediation, and climate change are all influenced by the interplay of biofilm communities. Thus, biofilms play an important role in the development of environmentally friendly and sustainable agriculture.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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