Screening of bacteria in Yarık Sinkhole, Antalya, Turkey for carbonate dissolution, biomineralization and biotechnological potentials

IF 1 4区地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Acta Carsologica Pub Date : 2023-09-18 DOI:10.3986/ac.v52i1.10383

Elif Özlem Arslan- Aydoğdu, Yağmur Avci, Nahdhoit Ahamada Rachid, Batu Çolak, Nihal Doğruöz-Güngör

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Abstract

Abiotic and biotic factors, especially microorganisms, play a role in the development of cave formations and the existence of unique characteristics of each cave. Due to the ecological conditions that characterize the cave environments, highly specialized microorganisms that are the main source of diverse bioactive compounds, inhabit these environments. The aim of this study is to determine the role and biotechnological potential of the bacteria isolated from Yarık Sinkhole located in Antalya (Turkey) by screening their ability to induce the CaCO3 precipitation, to hydrolyze urea, to induce calcite dissolution, and screening their possession of NRPS/PKS gene clusters. The most prevalent phylum is the Bacillota (synonym Firmicutes) (75.7 %), while the dominant species is Bacillus pumilus (33 %). All the isolates showed crystal formation on B4 agar medium, and the Energy dispersive X-Ray spectroscopy (EDS) analyses showed that the crystals are predominately composed of calcium, carbon and oxygen. Ninety-six (96 %) of our isolates have negative ureolytic activity. According to this result and having the ability to induce the CaCO3 precipitation, bacteria in this environment use other biosynthesis pathways than urea hydrolysis. MgCO3 and CaCO3 were dissolved by 61 % and 59 % of the isolates, respectively. In addition, 5.9 % and 53.7 % of the isolates showed the possession of PKS and NRPS genes, respectively. This result reveals that our isolates have high industrial and biotechnological potential. They may constitute good candidates for further biotechnological applications such as construction of bio-concretes, bioremediation, soil fertility, and production of biologically active secondary metabolites.

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土耳其安塔利亚Yarık天坑中碳酸盐溶解、生物矿化和生物技术潜力的细菌筛选

非生物和生物因素，特别是微生物，在洞穴形成的发展和每个洞穴独特特征的存在中起着重要作用。由于洞穴环境特有的生态条件，高度特化的微生物是各种生物活性化合物的主要来源，栖息在这些环境中。本研究的目的是通过筛选从土耳其安塔利亚Yarık Sinkhole分离的细菌诱导CaCO3沉淀、水解尿素、诱导方解石溶解的能力，以及筛选它们是否拥有NRPS/PKS基因簇，来确定它们的作用和生物技术潜力。最常见的门是芽孢杆菌门(同厚壁菌门)(75.7%)，优势种是短芽孢杆菌(33%)。所有菌株在B4琼脂培养基上均形成晶体，能谱分析表明，晶体主要由钙、碳和氧组成。96株(96%)的分离株具有阴性的溶尿活性。根据这一结果，并具有诱导CaCO3沉淀的能力，在这种环境下，细菌使用尿素水解以外的其他生物合成途径。MgCO3和CaCO3的溶出率分别为61%和59%。此外，PKS和NRPS基因分别占5.9%和53.7%。这表明我们的分离株具有很高的工业和生物技术潜力。它们可能是进一步生物技术应用的良好候选者，如生物混凝土的构建、生物修复、土壤肥力和生物活性次生代谢物的生产。

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来源期刊

Acta Carsologica 地学-地球科学综合

CiteScore

1.50

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： Karst areas occupy 10-20 % of ice-free land. Dissolution of rock by natural waters has given rise to specific landscape and underground. Karst surface features and caves have attracted man''s curiosity since the dawn of humanity and have been a focus to scientific studies since more than half of millennia. Acta Carsologica publishes original research papers and reviews, letters, essays and reports covering topics related to specific of karst areas. These comprise, but are not limited to karst geology, hydrology, and geomorphology, speleology, hydrogeology, biospeleology and history of karst science.

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