The effects of livestock grazing on physicochemical properties and bacterial communities of perlite-rich soil.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-23 eCollection Date: 2024-01-01 DOI:10.7717/peerj.18433
Jiraphan Premsuriya, Nontaphat Leerach, Phatcharin Laosena, Woranich Hinthong
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Abstract

Livestock grazing has been proposed as a cost-effective way to reclaim post-mining lands. It can enhance soil fertility and biodiversity, but its impacts on soil quality and microbial communities vary across soil types. Moreover, waste from grazing raises concerns about pathogens that could pose risks to animal and human health. This study investigated the effects of grazing on post-mining perlite-rich soil in central Thailand. A comparative analysis of soil physicochemical properties and bacterial diversity was conducted between grazed and ungrazed sites. Bacterial diversity was assessed using 16S amplicon sequencing. The perlite-rich soil was found to be sandy, acidic, and to have low nutritional content. Grazing significantly improved the soil texture and nutrient content, suggesting its potential as a cost-effective reclamation strategy. The 16S metagenomic sequencing analysis revealed that microbial communities were impacted by livestock grazing. Specifically, shifts in the dominant bacterial phyla were identified, with increases in Firmicutes and Chloroflexi and a decrease in Actinobacteria. Concerns about increased levels of pathogenic Enterobacteriaceae due to grazing were not substantiated in perlite-rich soil. These bacteria were consistently found at low levels in all soil samples, regardless of livestock grazing. This study also identified a diverse population of Streptomycetaceae, including previously uncharacterized strains/species. This finding could be valuable given that this bacterial family is known for producing antibiotics and other secondary metabolites. However, grazing adversely impacted the abundance and diversity of Streptomycetaceae in this specific soil type. In line with previous research, this study demonstrated that the response of soil microbial communities to grazing varies significantly depending on the soil type, with unique responses appearing to be associated with perlite-rich soil. This emphasizes the importance of soil-specific research in understanding how grazing affects microbial communities. Future research should focus on optimizing grazing practices for perlite-rich soil and characterizing the Streptomycetaceae community for potential antibiotic and secondary metabolite discovery. The obtained findings should ultimately contribute to sustainable post-mining reclamation through livestock grazing and the preservation of valuable microbial resources.

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牲畜放牧对富含珍珠岩的土壤理化性质和细菌群落的影响。
放牧牲畜被认为是开垦采矿后土地的一种具有成本效益的方式。放牧可以提高土壤肥力和生物多样性,但其对土壤质量和微生物群落的影响因土壤类型而异。此外,放牧产生的废弃物也引发了人们对病原体的担忧,这些病原体可能会对动物和人类健康造成危害。本研究调查了放牧对泰国中部富含珍珠岩的采矿后土壤的影响。对放牧地和未放牧地的土壤理化性质和细菌多样性进行了比较分析。细菌多样性采用 16S 扩增子测序法进行评估。结果发现,富含珍珠岩的土壤为沙质、酸性,营养成分含量较低。放牧明显改善了土壤质地和养分含量,表明放牧有可能成为一种具有成本效益的复垦策略。16S 元基因组测序分析表明,微生物群落受到牲畜放牧的影响。具体来说,主要细菌门类发生了变化,真菌和绿藻增加,放线菌减少。在富含珍珠岩的土壤中,人们对放牧导致致病性肠杆菌科细菌数量增加的担忧并未得到证实。无论牲畜是否放牧,这些细菌在所有土壤样本中的含量都很低。这项研究还发现了多种链霉菌科细菌,包括以前未定性的菌株/菌种。鉴于该细菌家族以生产抗生素和其他次级代谢物而闻名,这一发现可能很有价值。然而,放牧对这一特定土壤类型中链霉菌科细菌的数量和多样性产生了不利影响。与之前的研究一致,本研究表明,土壤微生物群落对放牧的反应因土壤类型的不同而有显著差异,富含珍珠岩的土壤似乎具有独特的反应。这强调了针对特定土壤进行研究以了解放牧如何影响微生物群落的重要性。未来的研究重点应是优化富含珍珠岩土壤的放牧方法,并描述链霉菌科群落的特征,以发现潜在的抗生素和次级代谢物。这些研究结果最终将有助于通过放牧和保护宝贵的微生物资源实现可持续的采矿后复垦。
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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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