''Diplocarpon earlianum'' is a species of

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 th ...

that causes disease in

strawberry The garden strawberry (or simply strawberry; ''Fragaria × ananassa'') is a widely grown hybrid species of the genus '' Fragaria'', collectively known as the strawberries, which are cultivated worldwide for their fruit. The fruit is widely ap ...

plants called strawberry leaf scorch. The disease overwinters in plant debris and infects strawberry plants during the spring season when it is wet. The five main methods to reduce strawberry leaf scorch include:

irrigation Irrigation (also referred to as watering) is the practice of applying controlled amounts of water to land to help grow Crop, crops, Landscape plant, landscape plants, and Lawn, lawns. Irrigation has been a key aspect of agriculture for over 5,00 ...

techniques,

crop rotation Crop rotation is the practice of growing a series of different types of crops in the same area across a sequence of growing seasons. It reduces reliance on one set of nutrients, pest and weed pressure, and the probability of developing resistant ...

, planting resistant and disease-free seeds,

fungicide Fungicides are biocidal chemical compounds or biological organisms used to kill parasitic fungi or their spores. A fungistatic inhibits their growth. Fungi can cause serious damage in agriculture, resulting in critical losses of yield, quality, ...

use, and sanitation measures. Control of strawberry leaf scorch is important because it is responsible for the majority of disease in strawberries. ''Diplocarpon earliana'' affects the fruit quality and yield of the strawberry crop. Losses range from negligible to severe depending on numerous epidemiological factors including cultivar susceptibility, type of cropping system, and weather conditions

Hosts and symptoms

The host of ''Diplocarpon earliana'' is the strawberry plant. The disease mainly infects strawberry leaves at any stage of its

life cycle Life cycle, life-cycle, or lifecycle may refer to: Science and academia *Biological life cycle, the sequence of life stages that an organism undergoes from birth to reproduction ending with the production of the offspring *Life-cycle hypothesis, ...

, but may infect all parts of the strawberry plant, including the petioles, fruits, and stems. The disease is characterized by numerous small, purplish to brownish lesions (from 1/16 to 3/16 of an inch in diameter) with undefined borders on the upper surface of the leaf. These symptoms are different from strawberry leaf spot which has brown lesions with defined borders and a lighter center. As the leaf scorch progresses over time, the leaves turn brown and dry up, resembling a burnt or “scorched” appearance as indicated by its disease name. It is common for the petioles of the leaves to have purple, sunken lesions that resemble streaks. If these streaks are severe enough, they may lead to the bowing of the petiole which in turn kills the leaf. Strawberry leaf scorch infects all parts of the flower, leading to unattractive blemishes on the fruit (strawberries). Minuscule dark, black spots are a sign of the fungus. These spots are specialized asexual fruiting bodies called

acervuli An acervulus (pl. acervuli) is a small asexual fruiting body that erupts through the epidermis of host plants parasitised by mitosporic fungi of the form order Melanconiales ( Deuteromycota, Coelomycetes). It has the form of a small cushion at th ...

. When the acervuli accumulate into masses, they resemble little drops of tar. Very rarely, the sexual structure

apothecia An ascocarp, or ascoma (), is the fruiting body ( sporocarp) of an ascomycete phylum fungus. It consists of very tightly interwoven hyphae and millions of embedded asci, each of which typically contains four to eight ascospores. Ascocarps are mo ...

that develop in advanced lesions of the plant can be seen. Leaf scorch seriously weakens the host plant, greatly reducing the ability to tolerate drought stress and the ability and lowering resistance to winter damage.

Disease cycle

The life cycle of ''D. earliana'' starts with the fungus overwintering in infected leaves. The survival fruiting body structures, acervuli, can continue to develop in foliage beneath snow cover. In the spring, conditions are ideal for the production of

conidia A conidium ( ; ), sometimes termed an asexual chlamydospore or chlamydoconidium (), is an asexual, non-motile spore of a fungus. The word ''conidium'' comes from the Ancient Greek word for dust, ('). They are also called mitospores due to the ...

, the asexual reproductive structures, and

ascospore An ascus (; ) is the sexual spore-bearing cell produced in ascomycete fungi. Each ascus usually contains eight ascospores (or octad), produced by meiosis followed, in most species, by a mitotic cell division. However, asci in some genera or s ...

s, the sexual reproductive structures. Conidia can escape from a small opening at the top of the acervulus and are dispersed mainly by splashing water or rain. These spores penetrate the plant cuticle directly, germinating and developing into an intracellular

mycelium 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 substrate (biology), substrates. A typical single ...

. The fungus produces new acervuli after infection. This allows repeated infections all season long, making the disease polycyclic. The sexual spores, ascospores, are produced in sacs called asci. The asci are produced in a cup-shaped structure called an apothecium. When conditions are ideal, the ascospores produced in the asci are discharged. Optimal temperature for conidia production is between 20 and 25 degrees Celsius with free water present (commonly occurring during midsummer in many regions). Conidia are produced on the leaves of strawberry plants which leads to dark lesions appearing on the leaves. An environmental pH between 5 and 6 is optimal for

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, f ...

as well as growth of ''D. earliana''.

Environment

Disease increase of ''Diplocarpon earliana'' is favored by long periods of leaf wetness (12 hours or more) between 15 and 25 degrees Celsius and frequent rain. The disease is prevalent in temperate, subtropical, and tropical regions because of the constant warm temperatures and heavy rainfall. Likelihood of the disease occurrence is heavily reduced in hot weather (above 35 deg C), cold weather (below freezing), and dry conditions. During early spring, infection may be most severe due to more precipitation creating adequate conditions for the development of this disease. The disease will then progresses from June until mid to late August. During this time, symptoms and severity of those symptoms are most prevalent on the strawberry plant.

Management

Because ''Diplocarpon earliana'' thrives in warm, wet environments, the control of water is important. Without water present, the acervuli are unable to produce conidia and the disease cycle comes to a halt. The leaf tissues should not be wet for more than 12 hours at a time, to reduce susceptibility of the leaf tissue to the production and penetration of conidia. Irrigation can be used to control the amount of water present at all time periods throughout the day. Sun light can also aid with maintaining water levels by evaporation accumulation of water. Planting resistant and disease-free seed as well as burning all plant debris after harvest are common sanitation methods used. Resistant varieties of strawberry plants will be able to grow and produce fruit with limited effects of ''D. earliana''. Disease-free seed allows the new and emerging strawberry plants an increased chance of producing undiseased fruit. Lastly, burning the plant debris left after harvest decreases the amount of the ''D. earliana''

inoculum In biology, inoculum refers to the source material used for inoculation. ''Inoculum'' may refer to: * In medicine, material that is the source of the inoculation in a vaccine * In microbiology, propagules: cells, tissue, or viruses that are used t ...

present in the subsequent season of production.

Crop rotation Crop rotation is the practice of growing a series of different types of crops in the same area across a sequence of growing seasons. It reduces reliance on one set of nutrients, pest and weed pressure, and the probability of developing resistant ...

can be used in intervals of three to five years. Crop rotation gives various nutrients a chance to accumulate in the soil, such as

nitrogen Nitrogen is the chemical element with the symbol N and atomic number 7. Nitrogen is a nonmetal and the lightest member of group 15 of the periodic table, often called the pnictogens. It is a common element in the universe, estimated at se ...

, as well as the mitigation of pests or in the case of ''D. earliana'', pathogens. For this reason, the crop rotated with strawberries should not be a host for ''D. earliana.'' Since the rotated crop is not a host for ''D. earliana,'' the pathogen has a severely decreased chance of survival in structures such as endospores. Some common crops in this rotation include

corn Maize ( ; ''Zea mays'' subsp. ''mays'', from es, maíz after tnq, mahiz), also known as corn (North American and Australian English), is a cereal grain first domesticated by indigenous peoples in southern Mexico about 10,000 years ago. Th ...

and

legume A legume () is a plant in the family Fabaceae (or Leguminosae), or the fruit or seed of such a plant. When used as a dry grain, the seed is also called a pulse. Legumes are grown agriculturally, primarily for human consumption, for livestock f ...

s, which can increase soil quality, suppress the strawberry leaf scorch pathogen, and reduce the amount of weeds. Frequent renewal of strawberry plantings helps to prevent severe scorch because the disease often does not become severe during the first and second years after planting Annual cropping systems are observed to have much lower risk and occurrences of infection. Symptoms may be present but will generally disappear before the disease can progress. Generally, an annual strawberry system will not need further disease management action and economic losses are not of heavy concern. Fungicides, such as

thiophanate-methyl Thiophanate-methyl is an organic compound with the formula C6H4(NHC(S)NH(CO)OCH3)2. The compound is a colorless or white solid, although commercial samples are generally tan-colored. It is prepared from ''o''-phenylenediamine. Uses and analysis ...

, are used to inhibit the ability of ''D. earliana'' to access the host. Therefore, it prevents the growth of the fungus on the strawberry leaves. These fungicides are applied a variety of ways, at intervals ranging from one to two weeks when the strawberry plants are in early bloom. The number of applications depends on the extent of the disease the previous year as well as the water conditions during application. An increase in the wetness of the environment would lead to an increase in the number of applications of the fungicide

Economic significance

Strawberry leaf scorch is the most common leaf disease of strawberries, affecting the growth and yield of strawberry plants in the season it occurs as well as subsequent seasons in the same field. Leaf scorch is the most prevalent disease affecting strawberries in Ontario, Canada. While the fruit of diseased plants are still edible, the market value decreases greatly because of consumer demand for the perfect, unblemished strawberry. According to study done by Turechek et al., the rate of photosynthesis on strawberry plants is affected by the lesions made by the pathogen, ''D. earliana''. The severity of lesions on the leaflets of the strawberry plants ranged from having none (0%) to almost entirely cover in lesions (100%). The average lesion size for these plants were 2.1. As the number of lesions increased, the ability of the leaf to photosynthesize decreased. A decrease in photosynthesis inhibited the plants ability to produce sugar and quality fruit. This phenomenon is what leads to a severe decrease in the yield and quality of strawberries. Not as much sugar being produces means not as sweet of fruit for consumers to buy. The number of lesions on the leaves also shared a negative correlation with the ability of the plant to take up water. Not being able to take up water also limits the plants nutrients which affects the fruit yield of strawberry plants.W.W. Turechek, M.C. Heidenreich, A.N. Lakso, M.P. Pritts. "Estimation of the impact of leaf scorch on photosynthesis and "physiological-lesion" size in strawberry." Canadian Journal of Plant Pathology. Vol. 29, Iss. 2, 2007

References

External links

USDA ARS Fungal Database
{{DEFAULTSORT:Diplocarpon Earlianum Fungal strawberry diseases Dermateaceae Fungi described in 1924