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''Monilinia fructigena'' is a plant pathogen in the
fungus kingdom 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 th ...
causing a fruit rot of apples, pears, plums, peaches and cherries.


Classification

Three ''Monilinia'' species cause brown rot of fruit (''
Monilinia laxa ''Monilinia laxa'' is a plant pathogen that is the causal agent of brown rot of stone fruit In botany, a drupe (or stone fruit) is an indehiscent fruit in which an outer fleshy part ( exocarp, or skin, and mesocarp, or flesh) surrounds a ...
,
Monilinia fructicola ''Monilinia fructicola'' is a species of fungus in the order Helotiales. A plant pathogen, it is the causal agent of brown rot of stone fruits. Stone fruit (summer fruit) Stone fruits such as apricot and peaches originated in China and spread th ...
, Monilinia fructigena)''; ''Monilinia fructigena'' is found most commonly to cause brown rot in fruits of the Pome family and Rosaceae family. The genus ''Monilinia'' could be viewed as divided into two sections
Disjunctoriae and Junctoriae
''M. fructigena'' belongs to Junctoriae. These ‘sections’ are the resulting attempt to further differentiate ''Monilinia'' into two separate classifications based on morphology, the specialization of the pathogens’ hosts, and the biological process of infection. Belonging to the section Junctoriae entails possessing no disjunctor cells in between the mature spores contained in the conidial chains. Differentiation in the laboratory of the three main ''Monilinia'' species can be quite difficult. In a report by De Cal and Melgarejo, it was demonstrated that the species can be differentiated through altering the light exposure to a long-wave UV light and dark cycle. ''Monilinia fructigena'' and ''Monilinia fructicola'' can be recognized from ''Monilinia laxa'' in this experiment, as ''M. laxa'' possesses a noticeably short distance from the conidia to the first germ tube branch. Furthermore, ''M. fructigena'' and ''M. fructicola'' can be individually distinguishable through measuring the maximum diametric growth rate of the culture. The maximum growth rate of ''M. fructigena'' was just 8 mm/2 days, whilst ''M. fructicola'' expanded its diameter by 20 mm after two days. Conidia produced by ''Monilinia fructigena'' are noted to be dry spores, and are not discharged, but pulled away on currents of wind. The conidiophores are short and unspecialized, and perform as a means to elevate the spore chains above infected tissues to provide better exposure to air currents. Except for the occasion of a desiccated infected fruit falling to the ground, peduncles and fruits carrying the pathogen are in the perfect place for further dispersal of airborne spores—in a tree, of course. Infection of fruits by ''M. fructigena'' can take place during all periods of development, from the fruitlet to the mature fruit.


Hosts and symptoms

When infection occurs during or shortly after pollination, asymptomatic growth of the pathogen allows the fruit to mature normally. However, as the fruit ripens, small circular brown spots begin developing and quickly rotting on the flesh's surface; given plenty of moisture, conidial pustules develop on the infected areas. On mature infected fruits, brown rot spreads quickly throughout the fruit as a brown decay of the flesh. In areas/climates with high relative humidity, conidial tufts appear at the surface of the fruit; when RH is low, the fruit simply desiccates. Fruit rot caused by the brown rot pathogen Monilinia fructigena is a notorious ailment found in ''
Malus domestica An apple is an edible fruit produced by an apple tree (''Malus domestica''). Apple trees are cultivated worldwide and are the most widely grown species in the genus ''Malus''. The tree originated in Central Asia, where its wild ancestor, ' ...
''—the apple tree—with the fungus occasionally spreading from the infected fruit to the branches, causing cankering. With apple infections, a varying symptom can occur within the fruits, causing what is commonly known as “black apple”. This symptom entails the color of the rot changing from brown to a deep shade of black. The apple skin remains shiny and unbroken, and shrinkage of the actual tissue does not occur until later in development, where it often rots quickly in storage. Fruit rot is commonly found on apples, pears, and plums, but is less often found within peaches, nectarines, or apricots.


Disease cycle

Within the short span of several days, the entire ripe fruit is rotten and rife with conidial tufts and/or vegetative growth of mycelium. When relative humidity surrounding the fruit is low, conidial tufts and mycelium do not develop. After dropping in a mummified form to the ground, the pathogen overwinters, eventually sending up apothecia to produce the wind-carried ascospores that arrive on new plant tissues. Fallen infected tissues that possess sufficient moisture to undergo the sporulation process often provide a source of secondary inoculation. Under the right conditions, mycelial growth takes place, forming a hardened sclerotia sphere-shape around the core or seed of the fruit. As this mycelial/stroma growth is taking place, the outside of the fruit rots away. The resulting germination utilizes a third type of spore called a “microconidia” that acts as a spermatia in sexual reproduction. Roberts and Dunegan postulated that the means of aerial distribution of conidia resulted in widespread transportation to new hosts, while rain performs well as a means of washing the conidia into more favorable conditions. Conidia are not the only primary way Monilinia fructigena has been observed to be propagated in nature. There are numerous insects, such as wasps, beetles, flies, and butterflies that have been recognized as vectors of ''Monilinia spp''. Birds wounding the tree or its fruits have been identified as possible wound-causing agents that allow the fungus to enter the host.


Environment and management

In a study conducted over a period of four years by Holb and Scherm (2007), it was reasonably concluded that the use of integrated management along with inorganic insecticides attributed a lower infection rate (6.4%) than plots using just organic insecticides (20.1%). With ''Monilinia fructigena'', it is important to note that primary infection of the pathogen occurs through wounds; vector control may be a more logical route of attempting to control the fungus. It was also found that certain fungicides—namely
pyraclostrobin Pyraclostrobin is a quinone outside inhibitor ( QI)-type fungicide used in agriculture. Among the QIs, it lies within the strobilurin chemical class. Use Pyraclostrobin is used to protect ''Fragaria'', ''Rubus idaeus'', ''Vaccinium corymbosum'', ...
and boscalid—applied after spring bloom were effective against ''Monilinia fructigena'' as a means of combating primary infection. Conidia produced by ''Monilinia fructigena'' are also spread by the wind in times of high temperatures and low relative humidity; conidia can also be spread by rain drops. When spores are spread by rain dislodging the conidia, the added water also provides a supply of moisture for germination and mycelial development.


Photographs

File:Monilia owocowa (grzyb).jpg File:Monilia.jpg File:Monilinia disease of apple 02.jpg


References

{{Taxonbar, from=Q1620122 Fungal plant pathogens and diseases Apple tree diseases Pear tree diseases Stone fruit tree diseases Sclerotiniaceae Fungi described in 1801