''Aspergillus flavus'' is a

saprotrophic Saprotrophic nutrition or lysotrophic nutrition is a process of chemoheterotrophic extracellular digestion involved in the processing of decayed (dead or waste) organic matter. It occurs in saprotrophs, and is most often associated with fungi ( ...

and

pathogen In biology, a pathogen ( el, πάθος, "suffering", "passion" and , "producer of") in the oldest and broadest sense, is any organism or agent that can produce disease. A pathogen may also be referred to as an infectious agent, or simply a germ ...

fungus A fungus ( : fungi or funguses) is any member of the group of eukaryotic organisms that includes microorganisms such as yeasts and molds, as well as the more familiar mushrooms. These organisms are classified as a kingdom, separately from t ...

with a cosmopolitan distribution. It is best known for its colonization of cereal grains, legumes, and

tree nuts A nut is a fruit consisting of a hard or tough nutshell protecting a kernel which is usually edible. In general usage and in a culinary sense, a wide variety of dry seeds are called nuts, but in a botanical context "nut" implies that the shell ...

. Postharvest rot typically develops during harvest, storage, and/or transit. Its specific name ''

flavus Flavus is the Latin word for yellow or blond and has given the name to many, more or less yellow, objects: * Subrius Flavus, a failed Roman conspirator against the Emperor Nero * Flavus, brother of Arminius See also * Flavius * Flava (disambi ...

'' derives from the Latin meaning yellow, a reference to the frequently observed colour of the spores. ''A. flavus'' infections can occur while hosts are still in the field (preharvest), but often show no symptoms ( dormancy) until postharvest storage or transport. In addition to causing preharvest and postharvest infections, many strains produce significant quantities of toxic compounds known as

mycotoxins A mycotoxin (from the Greek μύκης , "fungus" and τοξίνη , "toxin") is a toxic secondary metabolite produced by organisms of kingdom Fungi and is capable of causing disease and death in both humans and other animals. The term 'mycotoxin' ...

, which, when consumed, are toxic to mammals. ''A. flavus'' is also an opportunistic human and animal

, causing aspergillosis in immunocompromised individuals.

Hosts

''Aspergillus flavus'' is found globally as a saprophyte in soils and causes disease on many important agriculture crops. Common hosts of the pathogen are cereal grains, legumes, and tree nuts. Specifically, ''A. flavus'' infection causes ear rot in corn and yellow mold in peanuts either before or after harvest. Infection can be present in the field, preharvest, postharvest, during storage, and during transit. It is common for the pathogen to originate while host crops are still in the field; however, symptoms and signs of the pathogen are often unseen. ''A. flavus'' has the potential to infect seedlings by

sporulation In biology, a spore is a unit of sexual or asexual reproduction that may be adapted for dispersal and for survival, often for extended periods of time, in unfavourable conditions. Spores form part of the life cycles of many plants, algae, ...

on injured seeds. In grains, the pathogen can invade seed embryos and cause infection, which decreases germination and can lead to infected seeds planted in the field. The pathogen can also discolor embryos, damage seedlings, and kill seedlings, which reduces grade and price of the grains. The incidence of ''A. flavus'' infection increases in the presence of insects and any type of stress on the host in the field as a result of damage. Stresses include stalk rot, drought, severe leaf damage, and/or less than ideal storage conditions. Generally, excessive moisture conditions and high temperatures of storage grains and legumes increase the occurrence of ''A. flavus'' aflatoxin production. In mammals, the pathogen can cause liver cancer through consumption of contaminated feed or aspergillosis through invasive growth.

Morphology and pathology

''Aspergillus flavus'' colonies are commonly powdery masses of yellowish-green spores on the upper surface and reddish-gold on the lower surface. In both grains and legumes, infection is minimized to small areas, and discoloration and dullness of affected areas is often seen. Growth is rapid and colonies appear downy or powdery in texture. Hyphal growth usually occurs by thread-like branching and produces

mycelia Mycelium (plural mycelia) is a root-like structure of a fungus consisting of a mass of branching, thread-like hyphae. Fungal colonies composed of mycelium are found in and on soil and many other substrates. A typical single spore germinates ...

. Hyphae are

septate In biology, a septum (Latin for ''something that encloses''; plural septa) is a wall, dividing a cavity or structure into smaller ones. A cavity or structure divided in this way may be referred to as septate. Examples Human anatomy * Interatr ...

and hyaline. Once established, the mycelium secretes degradative enzymes or proteins which can break down complex nutrients (food). Individual hyphae strands are not typically seen by the unaided eye; however, conidia producing thick mycelial mats are often seen. The conidiospores are asexual spores produced by ''A. flavus'' during reproduction. The conidiophores of ''A. flavus'' are rough and colorless.

Phialide The phialide ( ; el, phialis, diminutive of phiale, a broad, flat vessel) is a flask-shaped projection from the vesicle (dilated part of the top of conidiophore) of certain fungi. It projects from the mycelium without increasing in length unless ...

s are both uniseriate (arranged in one row) and

biseriate Biseriate is a botanical term applied to both plantae and fungi, meaning 'arranged in two rows'. The term can refer to any number of structures found within these kingdoms, from arrangement of leaves to the placement of spores. It becomes usef ...

. Recently, ''Petromyces'' was identified as the sexual reproductive stage of ''A. flavus'', where the ascospores develop within

sclerotia A sclerotium (; (), is a compact mass of hardened fungal mycelium containing food reserves. One role of sclerotia is to survive environmental extremes. In some higher fungi such as ergot, sclerotia become detached and remain dormant until favor ...

. The sexual state of this heterothallic fungus arises when strains of opposite mating type are cultured together. Sexual reproduction occurs between sexually compatible strains belonging to different vegetative compatibility groups. ''Aspergillus flavus'' is complex in its morphology and can be classified into two groups based on the size of sclerotia produced. Group I consists of L strains with sclerotia greater than 400 μm in diameter. Group II consists of S strains with sclerotia less than 400 μm in diameter. Both L and S strains can produce the two most common aflatoxins (B1 and B2). Unique to the S strains is the production of aflatoxin G1 and G2 which typically are not produced by ''A. flavus''. The L strain is more aggressive than the S strain, but produces more less aflatoxin. The L strain also has a more acidic homoeostatic point and produces less sclerotia than the S strain under more limiting conditions.

Disease cycle

''Aspergillus flavus'' overwinters in the soil and appears as propagules on decaying matter, either as mycelia or

. Sclerotia germinate to produce additional hyphae and asexual spores call conidia. These conidia are said to be the primary inoculum for ''A. flavus''. The propagules in the soil, which are now conidia, are dispersed by wind and insects (such as stink bugs or lygus bugs). The conidia can land on and infect either grains or legumes. The spores enter the corn through the silks and thus infect the kernel. Conidiophores and conidia are produced in the spring from sclerotial surfaces. There is a secondary inoculum for ''A. flavus'', which is conidia on leaf parts and leaves. ''A. flavus'' grows on leaves after damage by leaf-feeding insects. Insects are said to be a source of inoculum and promote inoculum production.

Environment

''Aspergillus flavus'' is unique in that it is a thermotolerant fungus, so can survive at temperatures that other fungi cannot. ''A. flavus'' can contribute to the storage rots, especially when the plant material is stored at high moisture levels. ''A. flavus'' grows and thrives in hot and humid climates. Temperature: ''A. flavus'' has a minimum growth temperature of and a maximum growth temperature of . Though the maximum growth temperature is around , the optimum growth temperature is . ''A. flavus'' had rapid growth at , slow growth at , and almost ceases growth at . Moisture: ''A. flavus'' growth occurs at different moisture levels for different crops. For starchy cereals, growth occurs at 13.0–13.2%. For soybeans, growth occurs at 11.5–11.8%. For other crops, growth occurs at 14%. ''A. flavus'' growth is prevalent in tropical countries. Minimum a (

water activity Water activity (''aw'') is the partial vapor pressure of water in a solution divided by the standard state partial vapor pressure of water. In the field of food science, the standard state is most often defined as pure water at the same tempe ...

) required for growth is inversely correlated with temperature in other words higher temperatures permit lower a. This is known to range from a 0.78 at to 0.84 at . Gibson et al 1994 provides a model relating expected growth rate to a x temperature parameters. . .

Management

To ensure grains and legumes remain free of ''A. flavus'' infection, certain conditions must be incorporated before, during, and after harvest. Moisture levels should be kept below 11.5%. Temperature in storage units should be kept as low as possible since the pathogen is unable to grow below 5 °C. The low temperature facilitates slower respiration and prevents moisture increase. Fumigants are used to decrease the occurrence and persistence of insects and mites, which aids the rapid growth of the pathogen. Sanitary practices including, removing old and unripe seeds, exclusion of damaged and broken seeds, and overall cleanliness assist in minimizing the colonization and spread of the pathogen. The most common management practice for grains and legumes is the use of aeration systems. Air is pushed through the storage bins at low flow rates, which removes excess moisture and heat. Regulation of air flow allows the moisture content in harvested products to remain at a constant level and decreases the temperature within the bins. Temperature levels can decrease enough so insects and mites are dormant, which reduces rapid growth of the pathogen. Some environmental control practice have been explored to aid in the reduction of ''A. flavus'' infection. Resistant crop lines have shown little to no protection against unfavorable environmental conditions. However, good irrigation practices aid in the reduction of stress brought upon by drought, which in turn, reduces the likelihood of pathogen infection. Some research has been done in identifying particular plant proteins, both pathogen-related and drought-resistant proteins, that defend against ''A. flavus'' entry. To protect tree nuts and corn plants affected by ''A. flavus'', scientists of the Agricultural Research Service found that treating these plants with the yeast ''

Pichia anomala ''Pichia anomala'' is a species of ascomycete and teleomorphic fungi of the genus '' Pichia''. It is used as a preventive (biocontrol agent) for undesirable fungi or mold, nevertheless it may spoil food in large quantities. It is used in wine ...

'' reduced the growth of ''A. flavus''. The study showed that treating pistachio trees with ''P. anomala'' inhibited the growth of ''A. flavus'' up to 97% when compared to untreated trees. The yeast successfully competes with ''A. flavus'' for space and nutrients, ultimately limiting its growth. Essential oils of ''

Glycyrrhiza glabra Liquorice (British English) or licorice (American English) ( ; also ) is the common name of ''Glycyrrhiza glabra'', a flowering plant of the bean family Fabaceae, from the root of which a sweet, aromatic flavouring can be extracted. The liqu ...

'' inhibit growth.

''Aspergillus flavus'' AF36

''Aspergillus flavus'' strain AF36 is noncarcinogenic and aflatoxin-free and is used as an active ingredient in pesticides. AF36 is a fungal antagonist and is applied as a commercial biocontrol to cotton and corn to reduce aflatoxin exposure. AF36 was initially isolated in Arizona and has also occurred in Texas. It is grown on sterile seeds which serve as the carrier and a source of nutrients. Following application and colonization and in the presence of high moisture, AF36 growing seeds outcompete aflatoxin-producing strains of ''A. flavus''. Nonaflatoxin spore dispersal is aided by wind and insects.

Importance

''Aspergillus flavus'' infections will not always reduce crop yields alone; however, postharvest disease can reduce the total crop yield by 10 to 30%, and in developing countries that produce perishable crops, total loss can be greater than 30%. In grains and legumes, postharvest disease results in the production of mycotoxins. The largest economic loss caused by this pathogen is a result of aflatoxin production. In the United States, annual economic loss estimations of peanuts, corn, cottonseed, walnuts, and almonds are less severe when compared to Asia and Africa. After '' Aspergillus fumigatus'', ''A. flavus'' is the second-leading cause of aspergillosis. Primary infection is caused by the inhalation of spores; bigger spores have a better chance of settling in the upper respiratory tract. The deposition of certain spore sizes could be a leading factor for why ''A. flavus'' is a common

etiological Etiology (pronounced ; alternatively: aetiology or ætiology) is the study of causation or origination. The word is derived from the Greek (''aitiología'') "giving a reason for" (, ''aitía'', "cause"); and ('' -logía''). More completely, e ...

cause of fungal

sinusitis Sinusitis, also known as rhinosinusitis, is inflammation of the mucous membranes that line the sinuses resulting in symptoms that may include thick nasal mucus, a plugged nose, and facial pain. Other signs and symptoms may include fever, head ...

and cutaneous infections and noninvasive fungal pneumonia. Countries with dry weather, such as Saudi Arabia and most of Africa, are more prone to aspergillosis. Two allergens have been characterized in ''A. flavus'': Asp fl 13 and Asp fl 18. In tropical and warm climates, ''A. flavus'' has been shown to cause keratitis in about 80% of infections. ''A. flavus'' infection is typically treated with antifungal drugs such as

amphotericin B Amphotericin B is an antifungal medication used for serious mycosis, fungal infections and leishmaniasis. The fungal infections it is used to treat include mucormycosis, aspergillosis, blastomycosis, candida infections, candidiasis, coccidioidomy ...

itraconazole Itraconazole, sometimes abbreviated ITZ, is an antifungal medication used to treat a number of fungal infections. This includes aspergillosis, blastomycosis, coccidioidomycosis, histoplasmosis, and paracoccidioidomycosis. It may be given by mo ...

, voriconazole, posaconazole, and caspofungin; however, some antifungal resistance has been shown in amphotericin B, itraconazole, and voriconazole.

Aflatoxin

In 1960 on an English farm, about 100,000 turkeys died. Investigation into the cause of death showed the primary food source, peanut meal, was infected with ''A. flavus''. The culture was isolated, grown in pure culture, and a subset of healthy turkeys was infected. The pure culture isolate caused death in the healthy turkeys. Chemical investigation into the cause of death showed the production of four toxic chemicals, named aflatoxins after being discovered in ''A. flavus''. Turkey necropsies showed aflatoxins targeted the liver and either completely killed the tissue cells or induced tumor formation. The discovery of aflatoxins led to substantial changes in agricultural practices and regulations on how grains and legumes were grown, harvested, and stored. The amount of aflatoxins produced by ''A. flavus'' is affected by environmental factors. If other competitive fungal organisms are present on host plants, aflatoxin production is low. However, if noncompetitive fungal organisms are present on host plants, aflatoxin production can be quite high. The nature of the host is also an important factor in aflatoxin production. High ''A. flavus'' growth on soybean produces very little aflatoxin. High ''A. flavus'' growth aided by increased moisture content and warm temperatures on peanut, nutmeg, and peppers produces high concentrations of aflatoxins. ''A. flavus'' growth on spices produces low concentrations of aflatoxin as long as the spices remain dry. Species sensitivity is highly variable when exposed to aflatoxins. Rainbow trout are highly sensitive at 20 ppb, causing liver tumor development in half the population. White rats develop liver cancer when exposed to 15 ppb. Young piglets, ducklings, and turkeys exposed to high doses of aflatoxin become sick and die. Pregnant cows, mature pigs, cattle, and sheep exposed to low doses of aflatoxin over long periods develop weakening, intestinal bleeding, debilitation, reduced growth, nausea, no appetite, and predisposition to other infections. The four major aflatoxins produced are B1, B2, G1, and G2. The production of the major toxins is a result of particular strains of ''A. flavus''. Aflatoxin B1 is the most toxic and potent hepatocarcinogenic natural compound characterized. ''A. flavus'' also produces other toxic compounds including

sterigmatocystin Sterigmatocystin is a polyketide mycotoxin produced by certain species of ''Aspergillus''. The toxin is naturally found in some cheeses. Sterigmatocystin is a toxic metabolite structurally closely related to the aflatoxins as it is the penultimate ...

, cyclopiazonic acid,

kojic acid Kojic acid is a chelation agent produced by several species of fungi, especially ''Aspergillus oryzae'', which has the Japanese common name ''koji''. Kojic acid is a by-product in the fermentation process of malting rice, for use in the manufactur ...

, β-nitropropionic acid, aspertoxin, aflatrem,

gliotoxin Gliotoxin is a sulfur-containing mycotoxin that belongs to a class of naturally occurring 2,5-diketopiperazines produced by several species of fungi, especially those of marine origin. It is the most prominent member of the epipolythiopiperazi ...

, and aspergillic acid. In humans, ''A. flavus'' aflatoxin production can lead to acute

hepatitis Hepatitis is inflammation of the liver tissue. Some people or animals with hepatitis have no symptoms, whereas others develop yellow discoloration of the skin and whites of the eyes ( jaundice), poor appetite, vomiting, tiredness, abdominal ...

, immunosuppression, hepatocellular carcinoma, and neutropenia. The absence of any regulation of screening for the fungus in countries that also have a high prevalence of viral

highly increases the risk of hepatocellular carcinoma. The deaths of ten conservationists present at the opening of a 15th century tomb in Kraków, Poland in the 1970s has been attributed to aflatoxins originating from ''A. flavus'' present in the tomb.

References

External links

''Aspergillus flavus'' Genome Sequencing Project

''Aspergillus flavus'' research
{{Taxonbar, from=Q137096

Fungi described in 1809 Parasitic fungi