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Fungi - lentil

Contributors to this page: ICARDA, Aleppo, Syria (Siham Asaad, Abdulrahman Moukahal).

Contents:
Ascochyta blight of lentil, leaf blight, pod spot
Botrytis gray mold of lentil, lentil Botrytis
Phoma blight, spring black stem, leaf spot.
Anthracnose
Fusarium wilt, Fusarium root rot, Fusarium vascular wilt of lentil, black root rot

Ascochyta blight of lentil, leaf blight, pod spot

Scientific name

Didymella lentis Didymella lentis W.J. Kaiser, B.C. Wang & J.D. Rogers (anamorph Ascochyta lentis Vassiljevsky)

Significance

Ascochyta blight has the potential to occur in all areas where lentils are grown. Serious yield losses due to the disease are uncommon, but pod infection by the pathogen can discolor seed, which can reduce the market value of the crop significantly. This is particularly important in green lentils grown for the whole seed market, which requires high seed quality.

Symptoms

Leaf lesions: Ascochyta blight relies on rain to spread spores from infested debris on the soil surface onto the newly planted lentils. Symptoms may develop after a period of rainfall while the crop is in the vegetative growth stage, during flowering, or even later. The first symptoms appear on leaflets at the bottom of the canopy. Young lesions are small, brown dots. These later expand to 3-6 mm in length and turn tan-colored or brown, sometimes with a dark margin. Pycnidia containing the next generation of spores form in the lesions. Young pycnidia are reddish brown and turn black as they get older. Heavily-infected leaflets or groups of leaves may be completely brown and eventually drop to the ground.

Stem lesions: Ascochyta blight lesions on stems are brown and of variable size. They may girdle the stem, thereby disrupting the epidermal and cortical tissue., The vascular tissues that transport water and nutrients are rarely affected by Ascochyta blight, so, although severe attacks may cause some branches to wilt, entire plants are not killed (in contrast to anthracnose, which penetrates deeper into the stem).

Infection of flowers, pods and seed: Attack of peduncles results in abortion of the flower. Buds or flowers may also be infected. Lesions on pods are a common symptom. The fungus can grow through the pod wall into the seed. Some infected seeds show symptoms such as shriveling and brownish-black discoloration; others have no visible symptoms.

Hosts

Lentil

Geographic distribution

Cosmopolitan

Biology and transmission

The pathogen survives in infected seed and in infected stubble/crop debris. Sowing infected seed can give rise to the appearance of symptoms at the seedling stage. Seed can remain infected for several years. Infected stubble is also an important source of fungal inoculum. Spores are produced on old stubble and are spread to plants by rain splash. Further spread from plant to plant within crops also occurs through rain splash. The development of epidemics is largely determined by environmental conditions, especially levels of moisture. Cool, wet weather with frequent rainfall promotes sporulation, spore dispersal and infection.

Detection/indexing methods used at ICARDA

  • Malt extract agar

Treatment /control

  • Bravo 500 (50% cholorothalonil, Zeneca Agro) is the only fungicide registered in Canada for control of anthracnose and Ascochyta blight in lentil. The recommended rate is 0.8 - 1.6 L/acre (2.0-4.0 L/hectare) with a maximum of two applications. The water rate is 90-640 L/acre (220-1600 L/hectare). Bravo must be present on the plant surface prior to the onset of fungal infection. It sticks well to the plant surface and resists removal by rain. Fungal resistance to cholorothalonil has not been detected.

Procedures followed in case of positive test at ICARDA

  • Severely-infected seed showing disease symptoms is destroyed. Seed not showing symptoms is treated with fungicide.

References and further reading

Beniwal SPS, Baya'a B, Weigand S, Makkouk KH, Saxena MC. 1993. Ascochyta blight. In Field Guide to Lentil Diseases and Insect Pests. Aleppo: ICARDA. [online] Available from URL: http://www.icarda.org/Publications/Field_Guides/Lentil/Lent4.html. Date accessed 13 April 2010

CSIRO. 2009. [online] Available from URL: http://new.dpi.vic.gov.au/notes/crops-and-pasture/ag1350-ascochyta-blight-of-lentil. Date accessed 13 April 2010

Lindbeck K. 2006. Ascochyta blight of lentil. Agriculture note AG1350. Melbourne: Department of Primary Industries, Victoria, Australia. [online] Available from URL: http://new.dpi.vic.gov.au/notes/crops-and-pasture/ag1350-ascochyta-blight-of-lentil. Date accessed 13 April 2010

PARIDSS (Prairie Agriculture Research Initiative Decision Support System). Lentil diseases: Lentil Ascochyta blight. Information sheet.

Schwartz HF, Gent DH, Mikkelson M, Riesselman J. 2007. Pulse crops: Ascochyta blight of lentil. Information sheet. [online] Available from URL: http://wiki.bugwood.org/uploads/AscochytaBlight-Lentil.pdf. Date accessed 13 April 2010

Ascochyta blight of lentil (photos: ICARDA)

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Botrytis gray mold of lentil, lentil Botrytis

Scientific name

Botrytis cinerea Pers.

Other scientific names

Botryotinia fuckeliana (de Bary) Whetzel

Significance

Botrytis gray mold has the potential to occur in all areas where lentils are grown, depending on the season, but is more common in districts with rainfall >400mm. Losses due to the disease can range from minor to very serious, depending on the variety grown, location of the crop, time of infection and amount of spring rainfall. Unprotected crops can lose up to 25 - 30% yield. In addition, seed can be discolored due to pod infection by the pathogens which can further reduce market value of the crop.

Symptoms

All aboveground plant parts of lentil can be affected by botrytis grey mould. Depending on the location of the crop, symptoms may initially appear either on flowers and pods, or lower in the crop canopy. The most damaging symptoms become apparent after the crop has reached canopy closure and a humid microclimate is produced under the crop canopy. The disease appears first as discrete cream colored lesions on lower leaves. These enlarge and coalesce to infect whole leaflets which later senesce and fall to the ground. Unlike Ascochyta blight, no small, black fruiting bodies (called pycnidia) can be seen within the lesions. If conditions remain conducive for disease, that is warm and wet under the crop canopy for at least four days, infection can spread to the lower stems. These lesions will girdle the stem and become covered with a furry layer of grey mould, eventually causing stem death and whole plant death, often occur before the onset of flowering and pod fill. Infection will continue to spread resulting in patches of dead plants within crops. Pods which become infected will be covered in a grey moldy growth, rot, and turn brown when dried out.

Gray mold (photo: ICARDA)

Hosts

Broad host range including other legumes and horticultural and ornamental crops.

Geographic distribution

Argentina, Australia, Bangladesh, Canada, Chile, Colombia, India, Myanmar, Nepal, Pakistan, Spain, Syria, Tunisia, Turkey, USA.

Biology and transmission

The fungal pathogens Botrytis cinerea that cause botrytis grey mould can survive as several forms, these include in infected seed, sclerotia in the soil, in old infected residues, and on alternate host plants. Sowing seed that is infected by the botrytis grey mould pathogens can give rise to infected seedlings and the appearance of seedling blight symptoms, which can reduce seedling survival and reduce crop establishment. Infected residues are an important source of fungal inoculum. Spores are produced on old residues and are carried by the wind into new crops where infection can occur.

Lentil pod infected by Botrytis cinerea. (photo: Department of Primary Industries, Victoria, Australia)

Detection/indexing methods used:

  • at ICARDA - Agar plate test
  • at ICRISAT - Agar plate test

Treatment/control

  • Use of clean seed is advocated. Seed treatment with fungicides such as benomyl (0.1-0.2%), chlorothalonil (0.2-0.3%), or thiabendazol (0.1-0.2%) is recommended to control seed- borne infection. Two to three year crop rotation and deep plowing should be practiced to reduce soil-borne inoculum.
  • Foliar spray using chlorothalonil (2-3 L/ha) in a single application at early bloom to early pod set provides the best protection and increases seed yield.

Procedures followed in case of positive test at ICARDA

  • Seed treatment with appropriate funficide

References and further reading

Beniwal SPS, Baya'a B, Weigand S, Makkouk KH, Saxena MC. 1993. Gray mold. In Field Guide to Lentil Diseases and Insect Pests. Aleppo: ICARDA. [online] Available from URL: http://www.icarda.org/Publications/Field_Guides/Lentil/Lent6.html. Date accessed 13 April 2010

Lindbeck K. 2008. Botrytis grey mould of lentil. Agriculture note AG1257. Melbourne: Department of Primary Industries, Victoria, Australia. [online] Available from URL: http://www.dpi.vic.gov.au/dpi/nreninf.nsf/v/AA398923B804891DCA25746B000FAD89/$file/Botrytis_Grey_Mould_of_Lentil.pdf. Date accessed 13 April 2010

PARIDSS (Prairie Agriculture Research Initiative Decision Support System). Lentil diseases: Lentil Botrytis. Information sheet.

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Phoma blight, spring black stem, leaf spot.

Scientific name

Phoma medicaginis Malbr. & Roum. var. medicaginis

Significance

Not significant.

Symptoms

Small, dark brown to black dots on leaves, petioles and stems;

Leaf spots enlarge, coalesce forming irregular blotches;

Infected leaves turn yellow, wither and drop;

Black tissue may appear near base of stems;

Crown and root rot may occur; and

Infected seed pods and seed may discolor and shrivel.

Spring Black Stem and Leaf Spot (photo: Manitoba Agriculture, Food and Rural Initiatives)

Hosts

Lentils, other legumes. Most important host is alfalfa.

Geographic distribution

Cosmopolitan

Biology and transmission

Favored by cool and wet conditions; overwinters on dead stems and leaves or in crowns and roots; spores released during periods of wet cool weather; spores spread by rain splash, wind blown or carried by insects; and new shoots exposed through infected residue.

Detection/indexing methods used at ICARDA

  • Malt extract agar

Treatment/control

  • Use certified seed; use disease resistant cultivars; crop rotation; and crop rotation; and spring burning when severe.
  • Application of benomyl seed treatments (0.1 and 0.5% w/w) resulted in only a 4-5 week delay in the onset of Phoma black stem symptoms.

Procedures followed in case of positive test at ICARDA

  • Not reported

References and further reading

Manitoba Agriculture, Food and Rural Initiatives. Management of diseases of alfalfa seed. [online] Available from URL: http://www.gov.mb.ca/agriculture/crops/forages/bjb00s28.html. Date accessed 13 April 2010

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Anthracnose

Scientific names

Glomerella lindemutiana (anamorph Colletotrichum lindemuthianum (Sacc. & Magnus) Briosi & Cavara) and other species such as Colletotrichum truncatum (Schwein.) Andrus & Moore)

Significance

Not significant.

Symptoms

Leaf lesions and premature leaf drop: In most lentil crops, the first symptoms of anthracnose appear before flowering, when the plants have 8 to 12 nodes on the main stem. This is also the time when the first tendrils form, and approximately a week before flowers start to open. If there is a large amount of inoculum in the field the first symptoms may appear earlier. Tan coloured lesions of variable size develop on the lower leaflets and the most severely affected leaflets die and drop to the ground. This premature leaf drop indicates that anthracnose may become a problem, and fungicide application should therefore be considered.

Stem lesions: Lesions on stems develop soon after the appearance of leaf lesions, primarily at the base of the plant. Stem lesions may be small, brownish with a black border, or larger, stretching along the stem. As the season progresses, more and more lesions develop at the stem base, as well as on the upper part of the stems, and many stems are girdled.

Wilt: Anthracnose causes defoliation and stem girdling, which inhibits utilization of water and nutrients, and causes the lentil plants to wilt. As a result, large areas of brown and dying plants can be found in the field.

Hosts

Plant species belonging to the Lens and Vicia families, such as lentil, faba bean, mung bean, and wild vetches.

Geographic distribution

The disease is reported from Bangladesh, Canada, Ethiopia, Morocco, and Syria. It is economically important only in Canada.

Biology and transmission

Small, pinhead sized fungal structures (microsclerotia) form on the infected plant tissue. They may be seen with the unaided eye in the centre of stem lesions or more easily with a hand lens (10-15 x magnification). Each microsclerotia consists of a few hundred cells with thick, black cell walls that protect the fungus from colonization by other microorganisms. Microsclerotia enable the fungus to survive between lentil crops either on the plant debris or free in the soil. They remain viable longer when buried in the soil by tillage than left exposed to weather extremes on the soil surface.

Detection/indexing methods used:

  • at ICARDA
    • Agar plate test
    • Freezing blotter test
  • at ICRISAT
    • Agar plate test

Treatment/control

  • Use either certified seed, approved seed, or seed known to have a long disease-free history. The use of disease-free seed is the most important control measure.
  • Do not plant beans for at least two years in land that has carried an infected crop.
  • Remove diseased plants, where practical, to help check the spread of disease.
  • Avoid cultivating and harvesting an affected crop when wet to prevent the spread of spores.
  • Do not pack lightly diseased pods as anthracnose can develop during transport.
  • Bravo 500 (50% cholorothalonil, Zeneca Agro). The recommended rate is 0.8 - 1.6 L/acre (2.0-4.0 L/hectare) with a maximum of two applications in a season. The water rate is 90-640 L/acre (220-1600 L/hectare). Bravo must be present on the plant surface prior to the onset of fungal infection. It sticks well to the plant surface and resists removal by rain. A second application 10-14 days later may be necessary under wet weather conditions and to protect new growth. Fungal resistance to cholorothalonil has not been detected.

Procedures followed in case of positive test at ICARDA

  • Not reported

References and further reading

Beniwal SPS, Baya'a B, Weigand S, Makkouk KH, Saxena MC. 1993. Anthracnose. In Field Guide to Lentil Diseases and Insect Pests. Aleppo: ICARDA. [online] Available from URL: http://www.icarda.org/Publications/Field_Guides/Lentil/Lent5.Html#_Anthracnose. Date accessed 13 April 2010

North Dakota State University Extension Service. ProCrop 2008: Anthracnose disease in lentils. [online] Available from URL: http://www.ag.ndsu.edu/procrop/lnt/lentan07.htm. Date accessed 13 April 2010

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Fusarium wilt, Fusarium root rot, Fusarium vascular wilt of lentil, black root rot

Scientific name

Fusarium oxysporum f.sp. lentis W.L. Gordon

Significance

Fusarium wilt and root rot can cause up to 100% yield losses under heavy infestation, depending on relative humidity, soil moisture, and soil temperature.

Symptoms

Fusarium wilt appears in the field in patches at both seedling and adult stages. Seedling wilt is characterized by sudden drooping followed by drying of leaves and whole seedlings, and apparently healthy-looking roots with reduced proliferation.

Adult wilt symptoms first appear at the flowering to late pod-filling stage. The disease is characterized by sudden drooping of top leaflets of the affected plant, leaflet closure without premature shedding, dull green foliage color followed by wilting of the whole plant or individual branches, an apparently healthy-looking root system with a slight reduction in the lateral roots, as difficult to pull up as the roots of healthy plants, and no internal discoloration of the vascular system in most cases.

Black root rot can appear at any stage of plant growth. The leaves of affected plants show yellowing that progresses from lower to upper leaves. There is rotting of the main and secondary roots, which are characteristically black in color.

Hosts

Lentil

Geographic distribution

Worldwide

Biology and transmission

It can be carried from one field to another on farm equipment, on lentil refuse, and in wind- or waterborne soil. It may be introduced into new areas on the seed. Once introduced into a field it may take two years or more for the fungi to increase in numbers where an appreciable amount of disease is evident. A soil temperature of (23° to 27°C) is most favorable for Fusarium or true wilt, and a slightly higher optimum temperature (27°C) for near wilt. Race 5 of the near wilt fungus, not found in Illinois, infects at lower temperatures. The wilt-producing fungi are soil inhabitants that penetrate the lentil plant through the root hairs and fibrous roots. They grow upward through the stem, often well into the upper branches, in the water conducting tissue (xylem). This process interferes with the passage of water from the roots to the stems, leaves, and pods resulting in yellowing, dwarfing, and wilting of plants. The Fusarium fungi do not reproduce on living plants but produce large numbers of microscopic spores (microconidia, macroconidia, and chlamydospores) in and on dead stems and roots. The spores are splashed or blown about within fields. The spores germinate and the resulting hyphae penetrate the host. The fungi survive in soil for 10 years or longer, in the absence of a lentil crop, as thick-walled chlamydospores. Survival is related to the association of the Fusarium fungi with the roots of nonhost crops. The fungi are also capable of infecting seeds.

Detection/indexing methods used at ICARDA

  • Agar plate test
  • Freezing blotter test

Treatment/control

  • Choose resistant varieties when available. Remove stricken growth and sterilize clippers (one part bleach to 4 parts water) between cuts. Control garden insects, such as cucumber beetles, which are known to spread the disease. Remove all weeds from the garden (many weed species host the disease). The biological fungicide Mycostop will control wilt caused by Fusarium. If the disease persists, it is best to remove the entire plant and solarize the soil before planting again. To solarize the soil, you must leave a clear plastic tarp on the soil surface for 4-6 weeks during the hottest part of the year. Soil solarization will reduce or eliminate many soil inhabiting pests, including nematodes, fungi, insects, weeds and weed seeds.

Procedures followed in case of positive test at ICRISAT

  • Not reported.

References and further reading

Bejiga GN, Abou-Zeid W, Suliman SA, Hassanein A. 2001. Managing wilt and root rots of food legumes in the Nile Valley Countries. ICARDA Caravan 15. [online] Available from URL: http://www.icarda.cgiar.org/publications1/caravan/caravan15/managing/managing.html. Date accessed 13 April 2010

Beniwal SPS, Baya'a B, Weigand S, Makkouk KH, Saxena MC. 1993. Black root rot. In Field Guide to Lentil Diseases and Insect Pests. Aleppo: ICARDA. [online] Available from URL: http://www.icarda.org/Publications/Field_Guides/Lentil/Lent3.Html#_Black. Date accessed 13 April 2010

Beniwal SPS, Baya'a B, Weigand S, Makkouk KH, Saxena MC. 1993. Fusarium wilt. In Field Guide to Lentil Diseases and Insect Pests. Aleppo: ICARDA. [online] Available from URL: http://www.icarda.org/Publications/Field_Guides/Lentil/Lent1.Html. Date accessed 13 April 2010

Fusarium wilt (photos: ICARDA)

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