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Explore the diverse world of fungi, from beneficial effects like decomposition and food production to harmful effects such as diseases. Learn about fungal characteristics, infections, lifestyles, and interactions with other organisms. From mycorrhizae to lichens, discover the vital ecological roles fungi play. Uncover how fungi are used in various applications, including bioaccumulation monitoring and drug production. Delve into the philosophical and scientific significance of fungi in evolution and human perception of beauty and truth.
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FungI • Eukaryotes – uni or multicellular • Most are composed of filamentous (tube-like strands called hypha (singular) or hyphae (plural) • mycelium = aggregate of hyphae • multicellular, such as mycelial cords, rhizomorphs, and fruit bodies (mushrooms)
Humans and Fungi • Beneficial Effects of Fungi • Decomposition - nutrient and carbon recycling • Biosynthetic factories. Can be used to produce drugs, antibiotics, alcohol, acids, food (e.g., fermented products, mushrooms) • Model organisms for biochemical and genetic studies • Food • Long historical use of psychoactive fungi for spiritual purposes; modern use as entheogens and treatment of psychiatric disorders and addiction • Harmful Effects of Fungi • Destruction of food, lumber, paper, and cloth • Animal and human diseases/infections, allergies • Toxins produced by poisonous mushrooms and within food (e.g., grain, cheese, etc.) • Plant diseases
Fungal Characteristics • Cell wall composed of cellulose and/or chitin • Food storage - generally in the form of lipids and glycogen • Eukaryotes - true nucleus and other organelles present • All fungi require water and oxygen (no obligate anaerobes). • Fungi grow in almost every habitat imaginable, as long as there is some type of organic matter present • Number of described species - between 69,000 to 100,000 (estimated 1.5 million species total)
Fungal Infections • Mycoses – fungal infections • Chytrid fungus – Chytridomycota = fungal group of unusual, very primitive fungi that may grow as single cells or colonies of cells • Most Chytrids do not form hyphae or yeast-like cells; often have flagellated spores called “zoospores” • Typically free-living saprobes found in soil, water, decaying organic material • Some are parasites of plants, animals, and other microbes • Not known to cause human infections, but responsible to wiping out huge populations of amphibians around the world • Ringworm – dermatophytosis – human skin fungal infection • Some human fungal diseases may be systemic – histoplasmosis
Fungal lifestyles • Heterotrophy - 'other food' • Saprophytes or saprobes - feed on dead tissues or organic waste (decomposers) • Symbionts - mutually beneficial relationships between a fungus and another organism • Parasites - feeding on living tissue of a host. • Parasites that cause disease are called pathogens.
Fungal decomposition • Fungi get carbon from organic sources • Hyphal tips release enzymes • Enzymatic breakdown of substrate • Products diffuse back into hyphae • Hyphae: tubular, hard cell wall of chitin • Multinucleate • Grow at tips
Mycorrhizae • “Fungus roots” • Mutualism between: • Fungus (nutrient & water uptake for plant) • Plant (carbohydrate for fungus) • Several kinds • Zygomycota – hyphae invade root cells • Ascomycota & Basidiomycotahyphae invade root but don’t penetrate cells • Extremely important ecological role of fungi!
Lichen • Mutualism between • Fungus – structure and • Alga or cyanobacterium – provides food • Three main types of lichens: • Crustose lichens form flat crusty plates • Foliose lichens are leafy in appearance, although lobed or branched structures are not true leaves • Fruticose lichens are even more finely branched, may hang down from branches or grow up from ground
Lichens- nature’s biological monitors of pollution and air quality • Some species more sensitive to pollution • Which species are present can indicate air quality • Most resistant species can also be analyzed for pollutants, including bioaccumulation of heavy metals and radioactive isotopes
Fungi applications • http://www.ted.com/talks/paul_stamets_on_6_ways_mushrooms_can_save_the_world.html
philosophy of science and evolution primer • “Neuroscientists have traced subjective feelings of pleasure to endorphins and enkephalins, two groups of neuropeptides produced by the brain. The pleasure associated with seeing beauty, including scientific ‘truth,’ may have come about during the course of evolution, just as love and biophilia – the pleasure we take in the company of others and living creatures – provoke us to seek out mates and the natural environments that have been most conductive to our survival… there may be no better measure of ‘truth’ than that which works – that which helps us survive.” – Margulis and Sagan