sustainable agriculture

Role of Azolla in sustainable agriculture and climate resilience: a comprehensive review

mycolabadmin

Azolla is a fast-growing water fern that can help farms become more sustainable by naturally fertilizing soil with nitrogen, reducing the need for chemical fertilizers. It also helps control weeds, conserve water, and provides nutritious feed for livestock and fish. Beyond agriculture, Azolla can help reduce greenhouse gas emissions and clean polluted water, making it valuable for both farming and environmental protection.

Enhancing environmental decontamination and sustainable production through synergistic and complementary interactions of actinobacteria and fungi

mycolabadmin

Actinobacteria and fungi are powerful microorganisms that can be used together to clean up polluted environments and improve agriculture. When these two types of organisms work together in co-cultures, they can degrade toxic substances like pesticides and heavy metals more effectively than either could alone. This approach offers a sustainable way to address environmental contamination while potentially reducing reliance on chemical treatments.

Bacteria from the Amphibian Skin Inhibit the Growth of Phytopathogenic Fungi and Control Postharvest Rots

mycolabadmin

Researchers discovered that bacteria living on frog skin can effectively prevent fungal diseases that rot fruits after harvest. These bacteria work by producing toxic compounds and releasing protective gases that stop fungi like green mold from growing. When applied to citrus, tomatoes, and blueberries, the bacteria significantly reduced fruit rot, offering an eco-friendly alternative to chemical fungicides for food preservation.

Roles of arbuscular mycorrhizal fungi in plant growth and disease management for sustainable agriculture

mycolabadmin

Arbuscular mycorrhizal fungi are beneficial fungi that live in plant roots and form a mutually beneficial relationship with plants. These fungi help plants absorb more nutrients and water from the soil, strengthen their natural defenses against diseases and pests, and work together with other helpful soil bacteria to create disease-suppressive soil. This makes AMF a promising natural alternative to chemical pesticides and fertilizers for sustainable agriculture.

Therapeutic and Nutraceutical Potential of Sargassum Species: A Narrative Review

mycolabadmin

Sargassum is a type of ocean seaweed that has been used in traditional medicine for centuries and contains compounds that may help fight inflammation, oxidative stress, viruses, and bacteria. Scientists have discovered that different Sargassum species produce nearly 200 different bioactive compounds with potential health benefits ranging from reducing arthritis symptoms to supporting immune function. While Sargassum can accumulate harmful heavy metals like arsenic from seawater, researchers have developed effective cleaning methods to remove these contaminants while preserving the beneficial compounds. This makes Sargassum a promising sustainable source of natural medicines and health supplements.

Nanomaterials for Plant Disease Diagnosis and Treatment: A Review

mycolabadmin

Scientists are developing tiny particles called nanomaterials to fight plant diseases caused by bacteria, fungi, viruses, and worms. These nanoparticles can detect infections quickly and treat diseases more effectively than traditional pesticides, while reducing harmful environmental impacts. The technology shows promise for safer, more sustainable farming that could help feed a growing global population.

A review on microbe–mineral transformations and their impact on plant growth

mycolabadmin

Soil microorganisms are crucial partners that help plants access nutrients locked in soil minerals. Bacteria and fungi produce special acids and molecules that dissolve minerals, making nutrients like phosphorus, iron, and zinc available for plant roots to absorb. This natural process reduces the need for chemical fertilizers and helps plants grow stronger while cleaning up contaminated soils.

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

mycolabadmin

This study shows how adding olive mill waste to mushroom growing substrate can increase beneficial compounds in mushrooms while reducing harmful toxins. Researchers grew two types of edible mushrooms (lion’s mane and king oyster) on substrate containing different amounts of olive mill waste and used advanced chemical analysis to identify how the waste affected the mushrooms’ medicinal compounds. Adding olive mill waste increased healthy compounds like hericenones and erinacerins while decreasing toxic enniatin compounds, potentially creating safer and more nutritious mushrooms for consumers.

Harnessing mushrooms for poultry nutrition: Boosting health, immunity, and productivity

mycolabadmin

Mushrooms and mushroom stems are emerging as natural feed additives that can significantly improve poultry health, growth, and egg/meat quality while reducing the need for antibiotics. These fungi contain beneficial compounds that boost immune function, reduce harmful bacteria, and protect against cellular damage. By using mushroom byproducts that are typically discarded, farmers can create more sustainable and environmentally friendly poultry production systems while improving overall bird health and productivity.

Dr. Muhammed Majeed: Father of Indian nutraceuticals industry- a life profile

mycolabadmin

Dr. Muhammed Majeed transformed the nutraceutical industry by using modern science to validate and improve traditional Ayurvedic herbs. He founded Sabinsa Corporation and created patented, scientifically-proven products like turmeric extract (Curcumin C3 Complex®) and black pepper extract (BioPerine®) that are now used worldwide. Beyond business, he pioneered sustainable farming practices for medicinal plants across India and Africa, helping thousands of farmers improve their livelihoods while ensuring quality ingredients.

Research Keyword: sustainable agriculture