heavy metals – Page 2

Microbial diversity at remediated former gold and copper mines and the metal tolerance of indigenous microbial strains

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This research examined microorganisms living in abandoned gold and copper mines in the Czech Republic to understand how they survive in toxic, metal-rich environments. Scientists identified bacteria and fungi that can tolerate high concentrations of heavy metals and other contaminants. These microorganisms could potentially be used to clean up polluted mine water naturally, offering a sustainable alternative to traditional treatment methods.

Water Quality Assessment and Decolourisation of Contaminated Ex-Mining Lake Water Using Bioreactor Dye-Eating Fungus (BioDeF) System: A Real Case Study

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Researchers tested a natural solution for cleaning polluted water from an old mining lake in Malaysia. They used a special fungus called Ganoderma lucidum in a system called BioDeF that acts like a sponge to remove dirt and discoloration from contaminated water. After just 48 hours, this fungus-based system removed over 90% of the water’s brown color, offering a cheap and eco-friendly alternative to traditional water cleaning methods.

Evaluation of resistance patterns and bioremoval efficiency of hydrocarbons and heavy metals by the mycobiome of petroleum refining wastewater in Jazan with assessment of molecular typing and cytotoxicity of Scedosporium apiospermum JAZ-20

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Scientists isolated fungi from oil refinery wastewater in Saudi Arabia and discovered that a fungus called Scedosporium apiospermum JAZ-20 is exceptionally good at removing harmful metals and oil pollutants from contaminated water. This fungus was also tested on human cancer cells and showed promise as a potential anti-cancer agent while being relatively safe. The research suggests this fungus could be used as an eco-friendly solution to clean up polluted industrial wastewater.

Mycoremediation of Flotation Tailings with Agaricus bisporus

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Researchers investigated whether common button mushrooms (Agaricus bisporus) can help clean up polluted industrial waste from copper mining. They grew mushrooms on compost mixed with contaminated flotation tailings at different concentrations and measured which elements the mushrooms accumulated. The mushrooms successfully absorbed certain metals and elements, suggesting they could be useful for environmental cleanup, though more testing is needed before using them in real industrial applications.

Mushroom-Based Supplements in Italy: Let’s Open Pandora’s Box

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Researchers tested 19 mushroom supplement products sold in Italy and found serious quality problems. Many supplements didn’t actually contain the mushroom species listed on their labels. Some products also contained toxic substances or inconsistent amounts of beneficial compounds. The study highlights the need for better regulation and manufacturing standards to ensure these popular health products are safe and effective.

Methods Using Marine Aquatic Photoautotrophs along the Qatari Coastline to Remediate Oil and Gas Industrial Water

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This review examines how marine plants and algae along Qatar’s coast can help clean up pollution from oil and gas industries. Plants like mangroves, seagrasses, and seaweeds work together with beneficial bacteria to remove heavy metals and break down petroleum pollutants in seawater. Using these natural organisms as biological filters could be an effective and sustainable way to protect coastal marine environments while being economically beneficial through biotechnology applications.

Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration

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This review examines how industrial waste contaminates soil and water through heavy metals and chemicals, harming ecosystems and human health through food chain contamination. The study shows that pollutants like cadmium and lead kill aquatic life, reduce soil fertility, and disrupt beneficial soil microorganisms. The review recommends solutions including cleaner manufacturing practices, advanced wastewater treatment, and eco-friendly methods like using plants to absorb contaminants.

Phytoremediation of Heavy Metal-Contaminated Soil Using Drought-Adapted Sweet Sorghum (Sorghum bicolor L.) in Arid Regions of Kazakhstan

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Researchers found that sweet sorghum, a drought-tolerant crop, can effectively clean soil contaminated with toxic metals in Kazakhstan’s dry regions. By carefully selecting genotypes that were both adapted to harsh conditions and showed strong growth in laboratory tests, they demonstrated that the plants accumulate lead, cadmium, and cobalt primarily in their roots, making them safe for harvesting. This plant-based approach offers an affordable and environmentally friendly alternative to expensive traditional soil cleanup methods.

Effect of mining activities on the rhizosphere soil bacteria of seven plants in the iron ore area

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Iron ore mining damages soil and contaminates it with heavy metals, disrupting the beneficial bacteria that live around plant roots. This study examined seven plants growing in a mining area and found that each plant attracted different types of bacteria to survive the harsh conditions. Some bacteria help plants resist metal toxicity through various mechanisms. Understanding which bacteria naturally thrive in contaminated soils could help restore degraded mining areas.

Research landscape of experiments on global change effects on mycorrhizas

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Scientists conducted a comprehensive survey of research on how mycorrhizal fungi (underground fungi that partner with plant roots) respond to global environmental changes like drought and pollution. They found that most research focuses on just one stressor at a time, with very few studies examining how multiple environmental changes together affect these important fungi. The research also showed significant geographic biases, with most studies concentrated in developed countries, leaving major knowledge gaps about mycorrhizal responses in understudied regions.

Research Keyword: heavy metals