Biogenic Weathering: Solubilization of Iron from Minerals by Epilithic Freshwater Algae and Cyanobacteria

Mustoe, George

doi:10.3390/microorganisms6010008

Cited by 18 publications

(4 citation statements)

References 82 publications

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“…Most minerals exhibit limited solubility in pure water, reaching equilibrium levels before significant lattice damage occurs. Organic chelating agents, such as acids and polysaccharides, increase cation solubility by reacting with released ions, forming soluble organic complexes that can permeate the stone's pores and precipitate upon contact with a suitable substance, such as oxygen [43].…”

Section: Discussionmentioning

confidence: 99%

Uncovering the Fungal Diversity and Biodeterioration Phenomenon on Archaeological Carvings of the Badami Cave Temples: A Microcosm Study

Agrawal,

Khumlianlal,

Devi

2023

Life

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The Badami Caves are a significant example of ancient Indian rock-cut architecture, dating back to the 6th century. These caves are situated in the Malaprabha River valley and are part of the candidate UNESCO World Heritage Site known as the “Evolution of Temple Architecture—Aihole-Badami-Pattadakal”, which is considered to be the cradle of temple architecture in India. Our study aimed to investigate the diversity, distribution, and biodeterioration phenomena of the fungal communities present on the cave surfaces. The study also conducted a comprehensive analysis of fungal biodeterioration on the cave carvings. Utilizing specialized techniques, the dissolution of calcite, alterations in pH levels, and biomineralization capabilities of isolated fungal strains were monitored. Additionally, this study analyzed fungal acid production using high-performance liquid chromatography (HPLC). Our findings revealed that the major genera of fungi found on the cave surfaces included Acremonium, Curvularia, Cladosporium, Penicillium, and Aspergillus. These isolated fungi were observed to produce acids, leading to the dissolution of calcium carbonate and subsequent decrease in pH values. Notably, the dominant genus responsible for acid production and the promotion of biomineralization was Aspergillus. These discoveries provide valuable insight into the ecology and functions of fungi inhabiting stone surfaces, contributing to our understanding of how to preserve and protect sculptures from biodeterioration.

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Section: Discussionmentioning

confidence: 99%

Uncovering the Fungal Diversity and Biodeterioration Phenomenon on Archaeological Carvings of the Badami Cave Temples: A Microcosm Study

Agrawal,

Khumlianlal,

Devi

2023

Life

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“…Microalgae have been shown to secrete mucilage and many other compounds into the growing environment (Kumar et al., 2018; Pichler et al., 2020; Shoarnaghavi et al., 2022). Soil algae may influence plant growth directly by secreting growth‐stimulating compounds (Solomon et al., 2023) and indirectly through mineral solubilization (Devi et al., 2022; Mustoe, 2018). Additionally, the details of wet adhesive biomolecules secreted by epilithic microalgae on soil particles and their economic possibilities, like those identified from some macro algae (Bitton & Bianco‐Peled, 2008) or epiphytic roots of orchids (Tay et al., 2021), remain unexplored.…”

Section: Introductionmentioning

confidence: 99%

A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

Joseph,

Ray

2024

Journal of Phycology

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Aero‐terrestrial algae are ecologically and economically valuable bioresources contributing to carbon sequestration, sustenance of soil health, and fertility. Compared to aquatic algae, the literature on subaerial algae is minimal, including studies of distinctive habitats such as forest soils, agricultural fields, deserts, polar regions, specific subaerial zones, artificial structures, and tropical soils. The primary goal here was to identify the gaps and scope of research on such algae. Accordingly, the literature was analyzed per sub‐themes, such as the “nature of current research data on terrestrial algae,” “methodological approaches,” “diversity,” “environmental relationships,” “ecological roles,” and “economic significance.” The review showed there is a high diversity of algae in soils, especially members belonging to the Cyanophyta (Cyanobacteria) and Chlorophyta. Algal distributions in terrestrial environments depend on the microhabitat conditions, and many species of soil algae are sensitive to specific soil conditions. The ecological significance of soil algae includes primary production, the release of biochemical stimulants and plant growth promoters into soils, nitrogen fixation, solubilization of minerals, and the enhancement and maintenance of soil fertility. Since aero‐terrestrial habitats are generally stressed environments, algae of such environments can be rich in rare metabolites and natural products. For example, epilithic soil algae use wet adhesive molecules to fix them firmly on the substratum. Exploring the ecological roles and economic utility of soil and other subaerial algae could be helpful for the development of algae‐based industries and for achieving sustainable soil management.

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“…These methods are simple and efficient; however, they involve lengthy processes, require large investments, have high costs, increase tailing production, exhibit low economic efficiency, and cause environmental pollution, thus hindering further development of this industry ( 9 ). In recent years, weathering (dissolution and release) of minerals through microorganisms has been performed in many countries ( 10 – 12 ); this method can greatly reduce environmental pollution ( 6 ). Additionally, this method facilitates the supply of nutrients to the microorganisms themselves, as well as the acquisition of enzymatic metal cofactors ( 13 , 14 ).…”

Section: Introductionmentioning

confidence: 99%

Transcriptomic Analysis Reveals the Response of the Bacterium Priestia Aryabhattai SK1-7 to Interactions and Dissolution with Potassium Feldspar

Yang

Chen

et al. 2023

Appl Environ Microbiol

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Biogenic Weathering: Solubilization of Iron from Minerals by Epilithic Freshwater Algae and Cyanobacteria

Cited by 18 publications

References 82 publications

Uncovering the Fungal Diversity and Biodeterioration Phenomenon on Archaeological Carvings of the Badami Cave Temples: A Microcosm Study

Uncovering the Fungal Diversity and Biodeterioration Phenomenon on Archaeological Carvings of the Badami Cave Temples: A Microcosm Study

A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

Transcriptomic Analysis Reveals the Response of the Bacterium Priestia Aryabhattai SK1-7 to Interactions and Dissolution with Potassium Feldspar

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