Pseudomonas syringae pv. atrofaciens

bacterium

Bacterium atrofaciens, Phytomonas atrofaciens, Pseudomonas atrofaciens

Canada, Iran, Australia, New Zealand, Eastern Europe, Morocco, South Africa, Zimbabwe

AK, CO, IL, MN, MT, NY, ND, PA, VA,

China

2021-04-26

Not considered an important disease in the US. Very limited distribution.

Limited to small grains, though reported on tomato. Grasses may harbor the pathogen but no eivdence that this is a pathogen of grasses.

No

PSDMAT-2,

Pathway not proven. Seed as a pathway is commonly accepted in wheat, though no literature confirming seed transmission was found.

PSDMAT-2,

Candidatus phytoplasma asteris

phytoplasma

Aconitum proliferation, Aconitum virescence, Alberta aster yellows, alfalfa stunt, Alstroemeria decline, American aster yellows, Anemone virescence, apple sessile leaf, apricot chlorotic leaf roll, azalea little leaf, banana elephantiasis, basil little leaf, Bermuda grass white leaf, black currant reversion, black pepper yellows, blueberry stunt, broccoli phyllody, Bunias phyllody, cactus virescence, cactus witches'-broom, Calendula virescence, canola yellows, Cardaria phyllody, carrot proliferation, carrot yellows, cassava phyllody phytoplasma, cassava witches' broom, Catharanthus little leaf, Catharanthus virescence, chayote witches'-broom, cherry bunch leaf, cherry little leaf, chlorantie, Chrysanthemum witches'-broom, Chrysanthemum yellows, Cirsium stunt, Cirsium yellows, clover phyllody, columbine virescence, coorg black pepper yellows, cosmos phyllody, Cyclamen virescence, dandelion yellows, Delphinium virescence, dill yellows, Diplotaxis virescence, dogfennel yellows, dogwood stunt, dwarf western aster yellows, eastern aster yellows, Echinacea phyllody, eggplant dwarf, eggplant little leaf, Epilobium phyllody, Erigeron yellows, European aster yellows, false ragweed, Festuca yellows, Gaillardia yellows, Gladiolus virescence, grapevine yellows, grey dogwood stunt, hyacinth yellows, Hydrangea phyllody and virescence, Ipomoea obscura witches' broom, Italian cabbage yellows, Italian lettuce yellows, kale phyllody, larkspur virescence, lazy daisy yellows, lettuce yellows, lilac little leaf, Limonium proliferation, Limonium yellows, Lotus yellows, maize bushy stunt, mallow yellows, marguerite yellows, marigold phyllody, marigold virescence, Maryland aster yellows, Mitsuba witches' broom, monarda yellows, mulberry dwarf, multiplier disease, New England aster yellows, New Jersey aster yellows, oat proliferation, Oenothera virescence, olive witches'-broom, onion phyllody, onion virescence, onion yellows, Papaver virescence, parsley yellows, Paulownia witches' broom, peach red leaf disease, pear proliferation and decline, periwinkle little leaf, periwinkle witches' broom and virescence, periwinkle yellows, Phytoplasma asteris, plantain virescence, Poa stunt, poplar witches' broom, poplar yellows, Portulaca yellows, potato purple top, prickly lettuce yellows, Primula yellows, pumpkin yellows, purple coneflower yellows, Quercus proliferation, ragweed yellows, Ranunculus phyllody, rape phyllody, rape virescence, rose witches'-broom, ryegrass yellows, safflower phyllody, Salix proliferation, sandal spike, Saponaria proliferation, Schizanthus proliferation, severe western aster yellows, soybean purple stem, Spirea stunt, Stellaria yellows, strawberry green petal, strawberry phylloid fruit, strawberry stunting, Symphytum proliferation, Tacaco witches'-broom, Tagetes witches' broom, Thalictrum proliferation, tomato big bud, tomato yellows, turnip virescence, Veronica phyllody, watercress witches'-broom, western aster yellows, wild radish yellows

Worldwide

Widespread

-

2024-11-09

Candidatus Phytoplasma asteris is naturally transmitted by a wide range of leafhopper, Macrosteles fascifrons is reported to be the principal vector. Seed is not a pathway.

Wide host range, primarily herbaceous dicots, though strains infect monocots and woody ornamentals

No

CABI CPC

Seed is not a known pathway.

CABI CPC

Tilletia indica

fungus

Neovossia indica

India, Pakistan, Nepal, Iran, Iraq, Syria, Turkey, Lebanon, Afghanistan, Mexico, Kenya, South Africa, Brazil

Isolated outbreaks in SW USA: AZ, NM, TX, CA

China

2023-08-21

Regulated pest in many countries, including the USA. The pathogen has been eradicated from NM, TX and CA.

Restricted to wheat Triticum spp and Triticale spp

Yes

NEOVIN-1,NEOVIN-2,NEOVIN-7,

No direct evidence of seed transmission. Teliospores primarily external.

Size selective sieving

NEOVIN-1,NEOVIN-2,NEOVIN-7,

Visual examination, Seed wash, Size selective sieving, PCR

NEOVIN-1,NEOVIN-2,NEOVIN-3,

Size selective sieving most commonly used and accepted in US and EU.

Carboxin + thiram and Chlorothalonil (Goates, PC 2015); Disinfectants; Tri-X, SDS and Tween 20, Gupta, et. al. 2003. Hot Water Soaks (Beniwal, et.al. 2000)

NEOVIN-1,NEOVIN-6,NEOVIN-7,NEOVIN-4,

Pyricularia oryzae

fungus

Magnaportha oryzae, Magnaportha grisea

Brazil, Paraguay, Bolivia

The Triticum pathotype of this pathogen is not known to occur in the US.

Mexico

2023-08-21

The rice strain of this pathogen is worldwide in distribution. Information for this fungus primarily from PYRIGR-1 and PYRIGR-2

wheat, rice

Yes

PYRIGR-2,PYRIGR-3,

Seed is known to be a pathway for this fungus.

PYRIGR-2,PYRIGR-3,

PCR

PYRIGR-3,

This test is used by the USDA APHIS.

No chemicals yet registered in the US

PYRIGR-3,

Seed treatments are not registered for use in the US. In Bolivia, Benlate® and Carbendazim+Thiram® have given excellent control

Globisporangium splendens

fungus

Pythium splendens

Worldwide

Widespread

China, Mexico

2022-03-17

Primarily spread through propagative material. Primarily soil borne in nature. Seed is not known to be a pathway for any host.

Wide host rainge, primarily flowers and ornamentals

No

PYTHSL-1,PYTHSL-2,

Seed is not known to be a pathway.

PYTHSL-1,PYTHSL-2,

Tilletia controversa

fungus

Tilletia brevifaciens, Tilletia tritici-anifican

Worldwide

CA, CO, ID, IN, KS, MI, MT, NY, OR, UT, WA, WY.

China

2022-09-13

Grass seed may carry this pathogens spores, but no references were found to support grass seed as a host. Primarily found where snow cover is persistent in the winter.

Primarily winter wheat. rye, barley, spelt, wheatgrass and perennial grasses of the Poacease family may also be hosts

Yes

TILLCO-3,

Winter wheat is most susceptible. Detection in seed was very low. Pathogen is associated with seed and at most, external. Research was done with wheat for grain and not for seed crops.

TILLCO-3,

Seed wash, Teliospore identification, PCR

TILLCO-4,TILLCO-12,TILLCO-16,

These tests have not been validated or standardized

Difenoconazole, bitertanol + fuberidazole fungicides

TILLCO-5,TILLCO-7,TILLCO-11,

Difenoconazole completely effective. Seed treatments protect germinating seedlings from soil-borne pathogen infections, too.

Phoma glomerata

fungus

Aposphaeria fibricola, Coniothyrium glomerata, Phoma alternariacearum, Phoma fibricola

China, India, Syria, S Africa, Brazil, Greece, Hungary, Italy

Not known to occur.

China

2022-05-26

A strain of Phoma found on wheat in N. Dakota had been reported to be Phoma glomerata (PHOMGL-3), but it differed from type strains of the fungi. ARS GRIN lists 168 species that this fungi has been found on, but considers the fungus opportunistic and associated with other blights and rots. This pathogen has been reported in China.

Primarily a pathogen of grapevine, pines, peach and a few ornamentals. Reported in association with other diseases (opportunistic or decaying) on alfalfa, soy bean, some small grains, rape seed and tomato.

No

PHOMGL-2,PHOMGL-3,PHOMGL-7,

Pathway not proven. Considered an endophyte of wheat required long periods of leaf wetness before symptom development. Possible Phoma glomerata was observed on wheat seed in one reference, but there was no data presented on transmission or affect on seed.

PHOMGL-2,PHOMGL-3,PHOMGL-7,

Phytophthora erythroseptica var. erythroseptica

fungus

Phytophthora himalayensis, Phytophthora erythroseptica

Worldwide, especially where potatoes are grown

Widespread in potato growing regions

China

2023-08-21

This pathogen has not been repoted in China. True seed is not known to be a pathway.

This is an important pathogen of potato. Affects a few other important crops, but not known to be a serious pathogen of other crops. Most crops not known to be a host in nature.

No

PHYTER-1,PHYTER-3,PHYTER-4,

Not a host. Grains as a host has only been established under artificial inoculation, infection in nature not reported. True seed is not known to be a pathway.

PHYTER-1,PHYTER-3,PHYTER-4,

Alternaria triticina

fungus

Bangladesh, China, India, Iran, Iraq, Israel, Lebanon, Nepal, Pakistan, Turkey, Yemen, Egypt, Nigeria, Mexico, Argentina, France, Greece, Italy, Macedonia, Portugal, Eastern Europe

Not known to occur

Korea

2023-08-21

Wheat, only host of pathogenic significance, occasionally reported on oat, rye, barley, triticale.

Yes

ALTETR-2,ALTETR-3,ALTETR-4,

The seed transmission of this pathogen appears to be well established in China and India

ALTETR-2,ALTETR-3,ALTETR-4,

Agar plating

ALTETR-7,ALTETR-9,

This assay has not been validated or standardized for clinical use

Fungicides and hot water treatment

ALTETR-9,ALTETR-1,

Clean seed production practices. Resistant varieties are available.

Hymenula cerealis

fungus

Cephalosporium gramineum

India, Canada, Mexico, Japan, Korea, Republic of Korea, Egypt, S. Africa, Dominican Republic, Austria, Denmark, Germany, Germany, Netherlands, Poland, Sweden, England, Scotland, Wales

CO,GA, ID, IL, KS, MD, MI, MS, MT, NY, OH, OR, TX, VA, WA, WY, WV

China

2021-04-20

Wheat is the only host of pathogenic significance. Has been reported on rye, barley, grasses but none are considered to be important hosts.

Yes

HYMECE-2,HYMECE-3,

Transmission from infected seed well below 1%. Previous researchers concluded that transmission of the pathogen from seed to plant occurred, none conclusively demonstrated that it occurred in the absence of soilborne inoculum.

HYMECE-2,HYMECE-3,

PCR, Blotter incubation

HYMECE-2,HYMECE-3,HYMECE-4,

These tests has not been validated or standardized

Phaeosphaeria avenaria f. sp. triticae

fungus

Stagnospora avenae f.sp. triticae, Septoria avenae f.sp. triticea, Leptosphaeria avenaria f. sp. triticea

Canada, Germany, Austria, Brazil, Poland, Argentina, Temperate wheat growing areas

NY, ND, SD, WA, AZ, ID, MT, OK

China

2023-08-21

wheat, limited range of grasses (primarily Agropyron spp., Elymus spp.)

No

RICH ISTA,PHSPAT-2,PHSPAT-3,PHSPAT-5,

Pathway not proven. Although the pathogen has been found on laboratory seed tests, it is unclear if the pathogen described in these tests is the Septoria form of the pathogen. Seed transmission has not been proven in nature. One reference indicates that there is little proof that spread occurs from seed. The pathogen is often confused with Stagonospora nodorum and is not as common.

RICH ISTA,PHSPAT-2,PHSPAT-3,PHSPAT-5,

Blotter incubation

PHSPAT-2,

This test has not been standardized or validated.

Wheat streak mosaic virus

virus

Wheat streak mosaic potyvirus

Worldwide

Widespread in wheat regions

China, Korea, Chile

2023-08-25

The wheat curl mite (Aceria tosichella,K.), is the only known vector for Wheat streak mosaic virus. When symptoms are present, confirm the causal agent with laboratory diagnoses. Symptoms of this disease may be similar to other viral diseases or inconspicuous under unfavorable climatic conditions or plant physiological stress, requiring thorough laboratory analysis. Latency resulting in asymptotic plants, though documented (WSMV00-4), is not common. Expression may vary with climatic conditions, plant genetics, physiological stress, and plant pathogen strain. Literature showing that random sampling of apparently healthy plants to detect latent populations of this pathogen has not been found.

Primarily a virus of wheat. Other grasses and grains, such as oats, rye, barley, and millet may act as reservoirs for the virus. Not common in maize, though it has been reported in some cultivars.

Yes

WSMV00-2,

Seed transmission by this virus is documented and accepted. The virus is transmitted at low levels.

WSMV00-2,

ELISA and PCR tests

WSMV00-2,

These tests were used in research and have not been validated or standardized.

Resistant varieites are available.

High plains virus

virus

Wheat mosaic virus, Wheat high plains virus, Maize seed stripe virus, High plains wheat mosaic emaravirus

Argentina, Australia, Canada (AB), Chile, Iran, Ukraine,

Pacific Northwest, Midwest, FL

Chile, Korea

2023-08-29

Mite transmitted virus

oats, barley, wheat, rye, corn

No

WHPV00-7

No evidence that seed is a pathway in this host. Only corn seed is known to be a pathway.

WHPV00-7

Maize chlorotic dwarf virus

virus

Maize chlorotic dwarf machlovirus, Maize chlorotic dwarf Maize chlorotic dwarf virus group, Maize chlorotic dwarf ribotungrovirus, Maize chlorotic dwarf waikavirus, Ohio corn stunt agent

United States

Widespread in southeastern US. Present in MD, PA, OH

China

2022-04-06

Transmitted by leafhoppers only. Seed is not known to be a pathway.

corn, sorghum, wheat, millets, foxtail, Johnson grasses

No

MCDV00-2,

Established as a host. No evidence that seed is a pathway. Transmitted by leafhoppers only.

MCDV00-2,

Maize streak virus

virus

Sugarcane streak virus, Cereal African streak virus, Maize mottle virus, Maize streak monogeminivirus

India, Indonesia, Yemen, widespread in Africa

Not known to occur.

Korea

2023-08-21

No evidence that seed is a pathway for this virus. Transmitted by leafhoppers only. Maize streak virus is a quaratine pest in the USA

corn, sugarcane, oat, barley, rye, sorghum, wheat, grasses (Poaceae family)

No

MSV000-1,MSV000-2,MSV000-3,

No evidence that seed is a pathway. Transmission by leafhoppers only.

MSV000-1,MSV000-2,MSV000-3,

Pleospora herbarum

fungus

Too many to list, most commonly used names include Alternaria putrefaciens, Clasterosporium putrefaciens, Sporidesmium putrefaciens, Stemphyllium botryosum, Stemphylium herbarum.

Worldwide

Widespread

2023-08-21

Primarily a post harvest pathogen

Wide host range

No

No references found indicating seed is a pathway.

Pseudomonas syringae pv. coronafaciens

bacterium

Bacterium coronafaciens, Chlorobacter coronafaciens, Phytomonas coronafaciens, Pseudomonas coronafaciens, Pseudomonas coronafaciens pv. zeae

Worldwide

AK, AR, MN, WI

Korea, Thailand

2021-04-26

oats, rye, barley, wheat, corn, other wild grasses

No

No references found indicating that seed is a pathway. Wheat is a minor host of this pathogen.

Rathayibacter tritici

bacterium

Clavibacter tritici

Asia, Africa, Australia, Cyprus

Not known to occur

Korea

2023-08-21

Bacterium is carried in the Anguina tritici nematode galls. No evidence of the bacterium in seed.

wheat, barley, foxtail

No

RATHTR-1,

Bacterium is carried in the nematode Anguina tritici galls and not directly in or on the seed.

RATHTR-1,

Cleaning and conditioning seed to remove nematode galls.

RATHTR-1,

Removal of the nematode gall prevents spread of this pathogen

Clavibacter michiganensis subsp. tessellarius

bacterium

Corynebacterium michiganense subsp. tessellarius

USA

IA, NE

Korea

2022-01-25

Very few references for this bacterium found.

wheat

No

CLAVMT-2,CLAVMT-3,CLAVMT-1,

Pathway not proven. Only one reference found (CLAVMT-3) found indicating seed may be a pathway, but no data based on scientific methods were given.

CLAVMT-2,CLAVMT-3,CLAVMT-1,

Selective media were described in CABI, but there was no indication that these media were used in seed health testing.

Botryosphaeria zeae

fungus

Macrophoma zeae, Physalospora zeae

South Africa, France, Australia

IL, IN

Korea

2021-10-26

corn, wheat

No

No references found indicating seed is a pathway for this pathogen. Wheat is a minor host for this pathogen and only reported in South Africa.

Pseudomonas fuscovaginae

bacterium

Pseudomonas fluorescens biovar II

Most tropical rice production areas in Asia, (Japan, Korea, Philippines, etc.), Central America, South America, Mexico, Australia, Russia, Yugoslavia

Not known to occur

2023-08-21

rice, wheat, other small grains and poaceae grasses

No

No references found indicating wheat seed is a pathway. This pathogen is primarily found on rice in tropical productions, though wheat has been established as a host.

Fusarium redolens

fungus

Fusarium oxysporum var. redolens, Fusarium redolens var. solani, Fusarium solani var. redolens

Africa: Algeria, Tunisia; Asia: China, Iran, Japan, Pakistan, Turkey; Europe: Czechia, Finland, Netherlands, Poland, Sweden, UK; North America: Canada, USA,; Oceania: New Zealand.

MT, ND.

Korea

2024-09-04

No references found indicating seed is a pathway. Fusarium redolens is soil-borne.

An economic pathogen of carnation. Though reported on other vegetable and grain crops, it is not considered an economic pathogen of many hosts or its economic importance is not known.

No

No references found indicating that seed is a pathway.

Cochliobolus spicifer

fungus

Bipolaris spicifera, Brachycladium spiciferum,Curvularia spicifera, Drechslera spicifera,Drechslera tetramera, Helminthosporium spiciferum

Worldwide

Widespread

Korea

2022-11-11

Primarily a leaf pathogen of grass. Only reported in sorghum in Kansas (COCHSI-2)

Wide, but primarily causing disease in grasses in nature. If not listed below, the presence of this pathogen on a host seems to be unimportant or a scientific curiosity.

No

COCHSI-3,COCHSI-4,COCHSI-6,

Pathway not proven. Drechslera tetramers, a synonym of Cochliobolus spicifer has been reported form seed samples in the laboratory. No other references were found. Cochliobolus.spicifer is not listed as seedborne in Richardson, (COCHSI-3). Cochliobolus spicifer is not considered an important pathogen of wheat.

COCHSI-3,COCHSI-4,COCHSI-6,

Blotter or Freezing blotter

COCHSI-6,

Methods have not been verified and were used in research only.

Urocystis agropyri

fungus

Polycystis agropyri (Preuss), Tuburcinia agropyri-campestris, Tuburcinia occulta var. agropyri, Tuburcinia tritici, Turbucinia agropyri, Uredo agropyri, Urocystis occulta, Urocystis agropyri-campestris,Urocystis preussii, Urocystis tritici

Worldwide

Widespread

Brazil

2023-08-21

Usually only associated with seed lots as lose teliospores. A quarantine pest of wheat in the USA.

Wide grass host range. Only economically important in wheat.

Yes

UROCAG-1,UROCAG-4,

Teliospores usually contaminate seed lots. Not commonly internally seed borne, but spores may also found on the seed coat. Quarantine regulations in many countries are being lifted with resistant varieties, seed treatments and cultural control.

AOSA or ISTA Physical Purity

UROCAG-1,UROCAG-4,

Visual examination

UROCAG-3,AOSA/SCST,ISTA,

Physical purity testing using ASOA or ISTA rules should determine if seed lots are contaminated.

Yes, Thiram thiophanate methyl or a combination of tetramethy,l thiuram disulphide and carboxin (Shekhawat et al., 2011) most recent findings. Other seed treatments found were obsolete

UROCAG-1,UROCAG-4,

Flag smut of wheat has ceased to be a problem in the regions where seed treatment with systemics and crop rotationis routine practice for its control.

Phaeosphaeria avenaria f.sp. avenaria

fungus

Leptosphaeria avenaria, Leptosphaeria avenaria f.sp. avenae, Leptosphaeria avenaria f.sp. avenaria, Phaeosphaeria avenaria, Parastagonospora avenae, Septoria avenae, Septoria avenae f.sp. avenae, Septoria avenaria, Septoria avenaria f. sp. avenae, Stagonospora avenae

Worldwide

Widespread

China

2023-08-21

Parastagonospora avenae is the preferred name in the ARS GRIN.

Primarily oats, wheat, rye and barley to a lessor extent

No

PHSPAV-3,

No references found indicating that seed is a pathway. This pathogen is relatively unimportant in wheat.

PHSPAV-3,

Bipolaris sacchari

fungus

Drechslera sacchari, Helminthosporium sacchari,Helminthosporium ocellum, Cercospora sacchari,Bipolaris stenospila, Helminthosporium stenospilum,Drechslera stenospila, Bipolaris ocella, Helminthosporium ocellum, Drechslera ocella

Worldwide, especially in tropic and subtropic regions

AL, FL, GA, HI, LA, MD

Korea

2022-10-09

sugarcane, millet

No

DRECSA-4,

Although Giri, et.al., 2001, claim to have isolated Bipolaris sacchari from wheat seed in India, there are no other references indicating that this fungus is a pathogen of wheat in nature or is found on seed. Seeds were from local production and it is unknown whether these seeds were cleaned or conditioned as a seed crop. CABI, 2018, considers this pathogen to be of low economic importance.

DRECSA-4,

Fusarium poae

fungus

Fusarium sporotrichiella, Fusarium sporotrichiella var. poae, Fusarium tricinctum f.sp. poae, Sporotrichum poae, Sporotrichum anthophilum.

Worldwide in temperate regions

Widespread, primarily in northern states

Korea

2022-04-06

One of many Fusarium spp. isolated from grains and grasses in temperate regions of the world.

pea, grains, corn, grasses. Reported on several vegetables under some conditions. Vegetables are not listed below as the fungus is primarily opportunistic and secondary.

No

FUSAPO-3,

Pathway not proven. Though Fusarium poae is one of many species of fusaria reported on this host and if seed is not properly handled, conditioned and stored, conidia may be found on seeds. The fungus is commonly soil borne and there were no references found indicating that seed is an important means of spread.

FUSAPO-3,

Common seed production practices, careful harvest, seed cleaning, conditioning, seed treatment and proper storage should decrease any risk from this pathogen.

Fusarium culmorum

fungus

Fusarium culmorum f. 1, Fusarium culmorum var. leteius, Fusarium culmorum var. majus, Fusarium roseum, Fusarium roseum cv. culmorum, Fusarium roseum f.sp. cerealis cv. culmorum, Fusisporium culmorum

Worldwide

Widespread

Korea

2022-11-22

A common soil inhabitant and strong sapropic ability on many crops. Usually causing disease problems on grains and grasses, especially with other pathogenic diseases or in saturated soils. Also produces mycotoxins.

Primarily grains and grasses. Reported on a wide range of hosts, but usually as a probable saprophyte. Only primary hosts listed below.

Yes

FUSACU-1,FUSACU-3,FUSACU-9,

Infection of seed and grain of barley by Fusarium culmorum is well established and accepted. Fusarium culmorum in wheat grain produces mycotoxins.

FUSACU-1,FUSACU-3,FUSACU-9,

Blotter Incubation

FUSACU-5,

Though blotter incubation assays are commonly used for fungal contamination of seed, no references were found indicating this test has been validated or standardized.

Seed Treatments (biological and chemical)

FUSACU-1,

Resistant varieties are available. Seed treatments most effective for planting seed.

Heterodera avenae

nematode

Bidera avenae, Bidera ustinovi, Heterodera major, Heterodera schachtii, Heterodera ustinovi

Worldwide

CA, CO, ID, MT, OH, OR, UT, WA

Korea

2024-09-14

Seed is not known to be a pathway.

Main: oats, barley, rye, wheat; Other: grasses, corn

No

CABI CPC,HETDMA-2

Seed is not a pathway for cyst nematodes.

CABI CPC,HETDMA-2

Rice stripe virus

virus

Rice stripe tenuivirus

Asia, Russia

Not known to occur

Korea

2023-08-21

Transmitted by leafhoppers and plant hoppers. Difficult to transmit mechanically and it is not seed transmitted.

Primarily rice. Reported naturally on wheat, corn and millet

No

RSV00-1,RSV00-2,

Seed is not a pathway for rice stripe virus.. Transmitted in a persistent manner by leafhoppers and plant hoppers. Wheat is not an important host of rice stripe virus.

RSV00-1,RSV00-2,

Gibberella avenacea

fungus

Fusarium avenaceum, Fusarium avenaceum f.sp. fabae, Fusarium avenaceum subsp. aywerte, Fusarium roseum var. avenaceum

Worldwide, primarily in temperate regions.

Widespread

Thailand

2022-11-22

One of many Fusaria, Gibberella's that may contaminate kernels.

Primarily a grain and clover pathogen with a wide host range.

Yes

GIBBAV-1,GIBBAV-9,GIBBAV-10,

The pathogen is commonly isolated from seed, though seed transmission is unclear. Duben and Fehrmann (1980) demonstrated transmission using artificially inoculated seed. No reports of natural seed transmission were found. Inoculum from field sources is more important in disease development.

GIBBAV-1,GIBBAV-9,GIBBAV-10,

A blotter test has been described for corn (GIBBAV-8, NSHS,USDA). Most research utilized this method.

Seed treatments

GIBBAV-1,

Common seed fungicides have been effective.

Pseudomonas syringae pv. lapsa

bacterium

Chlorobacter lapsus, Phytomonas lapsa, Pseudomonas lapsa

Egypt, Nigeria, China, India, Pakistan, Germany

CA

Thailand

2022-12-01

sugarcane, sorghum, corn, wheat

No

PSDMSL-3,

Pathway not proven. Seeds became discolored with infection, however, the research does not indicate that bacteria was recovered or that seed may be a pathway.

PSDMSL-3,

Gibberella zeae

fungus

Fusarium graminearum Schwabe, Fusarium graminearum, Fusarium roseum, Fusarium roseum f.sp. cerealis, Fusarium roseum var. graminearum, Gibbera saubinettii, Gibberella saubinetii, Sphaeria zeae Schwein.

Worldwide

Widespread

Thailand

2022-11-22

One of many Fusariium spp. and Gibberella spp. that may contaminate kernels.

Primarily a cereal grain pathogen with a wide host range.

Yes

GIBBZE-6,GIBBZE-10,

Natural seed transmission has been demonstrated

GIBBZE-6,GIBBZE-10,

Culture plating, Grow out, Blotter paper

GIBBZE-7,

These tests have not been validated or standardized.

Fungicide seed treatments, culture control

GIBBZE-1,GIBBZE-8,GIBBZE-9,

Pseudomonas syringae pv. syringae

bacterium

Many

Worldwide

Widespread

Thailand, China, Korea

2022-12-01

Seed is known to be a pathway on several crops. Thailand lists this pathogen as prohibited on corn. China lists this pathogen (Pseudomonas oryzicola) as prohibited on rice.

Wide host range. Important vegetable and agronomic crops listed below.

No

PSDMSY-5,PSDMSY-13,PSDMSY-14,PSDMSY-19,

Environmental sources and soil sources with early wet conditions contribute to disease outbreaks. Yield loss due to this pathogen is incomplete. The general role of seed or seed transmission in establishing disease is uncertain (PSDMSY-19)

PSDMSY-5,PSDMSY-13,PSDMSY-14,PSDMSY-19,

Seed wash and agar plating

PSDMSY-19,

Confirmation of pathogen with traditional biological tests and PCR included. This test has not been validated or standardized.

Resistant varieties are known.

Barley stripe mosaic virus

virus

Barley stripe mosaic hordeivirus, Barley false stripe virus, Barley mild stripe virus, Barley mosaic virus, Barley yellow stripe, Oat stripe mosaic virus

Worldwide

Widespread

Thailand

2021-09-14

Thailand prohibited pathogen list refers to the pathogen as Barley stripe mosaic hordeivirus. Mechanically transmitted to other grains.

barley, wheat, reported in wild oats and corn.

Yes

BSMV00-3,BSMV00-4,BSMV00-5,

Seed as a pathway has been established and accepted. The disease appears to be of little economic concern and is rarely found in commercial fields of wheat.

BSMV00-3,BSMV00-4,BSMV00-5,

Immunodiffusion

BSMV00-6,

iImmunodiffusion serological assays used to research seed transmission. This method has not been standardized or validated.

Certified seed

BSMV00-4,BSMV00-7,

Plants readily express symptoms and no evidence of latency. Seed certification and crop rotation have been effective.

Chloris striate mosaic virus

virus

Chloris striate mosaic geminivirus, Chloris striate mosaic intergeminivirus, Wheat (Australian) striate mosaic virus

Australia

Not known to occur

Thailand

2024-09-05

Leafhoppoer transmission only. No evidence that seed is a pathway for this virus.

poaceae grasses, wheat, oat, barley, corn

No

DPV WEB

No evidence that seed is a pathway.

DPV WEB

Pyrenophora teres

fungus

Drechslera teres, Helminthosporium teres

Worldwide

AK, ID, ND

Thailand

2024-10-13

Main: barley; Other: oats, wheat, corn

No

CABI CPC

Wheat seed is not known to be a pathway.

CABI CPC

Sclerospora graminicola

fungus

Peronospora graminicola, Peronospora setariae, Protomyces graminicola,Sclerospora graminicola var. setariae--italicae, Ustilago urbani

Africa, Asia, Europe, Canada, Mexico, Fiji, Argentina

Widespread in Southeastern US, not reported in Western US

Thailand

2023-08-21

This is an important disease of pearl millet, especially in the tropic climates. Other hosts seem to be unimportant or incidental.

pearl millet, millet. sugarcane, corn, foxtail millet, duram wheat, sorghum, several wild grasses

No

No references found indicating wheat seed is a pathway. Wheat is not an important host for this pathogen and has only been reported once in Italy (ARS GRIN).

Sclerophthora macrospora

fungus

Phytophthora macrospora, Phytophthora oryzae, Sclerospora macrospora, Sclerospora oryzae, Nozemia macrospora, Sclerospora kriegeriana

Worldwide

AZ, AR, FL, IL, LA, MS, ND, RI, TN, TX

Thailand

2023-08-21

corn, rice, oat, barley, rye, sorghum, sugarcane

Yes

SCPHMA-4,SCPHMA-9,

Seedlings from infected wheat seed became infected under laboratory conditions. However, this disease is economically unimportant (SCPHMA-10).

SCPHMA-4,SCPHMA-9,

A direct visual method is described for corn.

SCPHMA-10,

Seed free from host debris s an important sanitation procedure.

Cochliobolus victoriae

fungus

Bipolaris victoriae, Drechslera victoriae, Helminthosporium victoriae, Helminthosporium sativum var. victoriae

Africa: Zambia, Zimbabwe; Asia: India, Iran, Malaysia, Nepal, Saudi Arabia; Europe: Germany, Ireland, Netherlands, Switzerland, UK; North America: Canada, USA; Oceania: Australia; South America: Argentina, Bolivia, Brazil.

CA, FL, GA, ID, IA, LA, MD, MA, MN, MT, NE, NY, TX, WI.

Korea

2024-09-05

Cochliobus victoriae is primarily seed-transmitted in oats, however spread between plants in wet and windy conditions. It is shown to survive in soils for at least ten years, more in wetter soils.

Main: Poaceae family including oats and grasses. Others hosts: rice, barley, and wheat.

No

RICH ISTA

No references found indicating seed is a pathway.

RICH ISTA

Pyrenophora tritici-repentis

fungus

Drechslera tritici-repentis, Drechslera tritici-vulgaris, Helminthosporium gramineum f.sp. tritici-repentis, Helminthosporium tritici-repentis, Helminthosporium tritici-vulgaris, Pleospora culmorum, Pleospora sarcosystis, Pleospora trichostoma, Pleospora trichostoma f.sp. tritici-repentis, Pyrenophora sarcocystis, Pyrenophora trichostoma, Pyrenophora tritici-vulgaris, Pleospora tritici-repentis

Worldwide

Widespread

Korea

2021-04-27

wheat, barley, rye, triticale, oat, corn

Yes

PYRNTR-2,PYRNTR-3,PYRNTR-4,PYRNTR-6,

Seed contamination has been shown to affect seed quality and germination in laboratory tests. Transmission of the fungus was demonstrated, but only to cotyledon stage of the plant or was done with artificially inoculated plants. Reduction to seedling vigor has been demonstrated but seed borne inoculum appears insignificant in disease development.

PYRNTR-2,PYRNTR-3,PYRNTR-4,PYRNTR-6,

Blotter test

PYRNTR-1,PYRNTR-4,

This test has not been standardized or validated.

Fungicide seed treatments

PYRNTR-1,

Effectiveness varied with different fungicides and amount of fungicides applied. Resistant varieties are available.

Cochliobolus hawaiiensis

fungus

Drechslera hawaiiensis, Helminthosporium hawaiiense, Bipolaris hawaiiensis, Curvularia hawaiiensis, Pseudocochliobolus hawaiiensis

Bangladesh, India, Iran, Myanmar, Kenya, Australia, Cuba, Pakistan, Zimbabwe, Egypt, South Africa, Brazil, New Zealand, Papua New Guinea, Sri Lanka, Denmark, Mexico, Tanzania, Nepal, Oman, Mozambique, Tonga

Fl, MS, HI

Korea

2022-02-08

Seed has not been reported as a pathway

corn, wheat, rice, barley, sorghum, sugarcane, grasses. Occasionally reported on cowpea, fruit trees soybean, pumpkin.

No

COCHHA-3,

No references found indicating seed is a pathway.

COCHHA-3,

Pseudocochliobolus pallescens

fungus

Cochliobolus pallescens, Curvularia leonensis, Curvularia pallescens

Africa, Southeast Asia, Caribbean, South America, Pakistan, Australia, Denmark, Singapore, Solomon Islands, Togo, Canada, Mexico

DC, IA

Korea

2023-08-21

pepper, corn, bean, fava bean, wheat , rice, sorghum, sugarcane, soybean, potato, buckwheat,

No

CURVPA-2,

Pathway not proven. Above reference cites one article that indicates seed may be a pathway. This references could not be verified. There were no other references found indicating seed is a pathway.

CURVPA-2,

Pythium vexans

fungus

Pythium complectens, Phytopythium vexans, Pythium allantocladon, Pythium ascophallon, Pythium piperinum, Ovatisporangium vexans, Pythium euthyphyphon, Pythium polycladon

Africa, Asia, Europe, Guatemala, Caribbean, Fiji, Papua New Guinea, Samoa, Solomon Islands, Argentina, Brazil, Venezuela, Chile, South Korea, New Zealand, Canada

HI, OK, CA, NC, MD, VA, DE, PA, NJ, WA, TN, LA, WI, IA

Korea

2023-08-21

Primarily affecting seedlings and roots and is transmitted mainly through infested soil. Seed is not known to be a pathway for any host. Zoospores of this fungus can swim in open water for a short distance. This pathogen has been reported in S. Korea. Korea lists this pathogen as Phytopythium vexans

Wide host range

No

PYTHVE-1,PYTHVE-3,

Seed is not known to be a pathway for any host.

PYTHVE-1,PYTHVE-3,

Exserohilum pedicellatum

fungus

Helminthosporium pedicellatum, Setosphaeria pedicellata, Trichometasphaeria pedicellatum, Bipolaris pedicellata, Drechslera pedicellata

Poland , South Africa, Australia, Egypt, India, Pakistan, Turkey, Azerbaijan, Australia, Iraq, Brazil

CA, HI, IA, MS, NY, OH, TX, MN

Korea

2022-11-22

Korea lists this pathogen as Setosphaeria pedicellata

wheat, corn , barley, rice, oat

No

TRMSPE-1,

No references found indicating seed is a pathway.

TRMSPE-1,

Setosphaeria rostrata

fungus

Exserohilum rostratum, Helminthosporium rostratum, Bipolaris rostrata, Drechslera rostrata, Exserohilum antillanum, Exserohilum gedarefense, Variant spelling Exserohilum gedarefensis, Helminthosporium halodes, Bipolaris halodes, Exserohilum halodes, Drechslera halodes, Helminthosporium halodes var. elaeicola, Helminthosporium halodes var. tritici, Helminthosporium leptochloae, Helminthosporium longirostratum, Exserohilum longirostratum, Exserohilum macginnisii, Setosphaeria prolata, Exserohilum prolatum, Drechslera prolata

Worldwide

Widespread, especially east of the Continental Divide

Korea

2023-08-21

Primarily grasses and grains, reported on other over 200 plant species, including several vegetable crops, but these seem to be experimental curiosity or occasional findings that are not confirmed. Only important grains listed below

No

DRECRO-3,

Pathway not proven. Seed infection has been demonstrated but seed transmission has not been shown to occur.

DRECRO-3,

Indian peanut clump virus

virus

Indian peanut clump pecluvirus, IPCV

India, Pakistan

Not known to occur

-

2024-09-15

Primarily affects peanut and cereal grains. Requires the Polymyxa graminis to infect. Seed as a pathway has only been shown in peanut and millet (IPCV00-2)

wheat, corn, rice, barley, sorghum, peanut, millet

No

No references found indicating seed is a pathway. Wheat may be an incidental host because it can be infected by the Polymyxa vector.

Peanut clump virus

virus

Peanut clump furovirus, PCV , Peanut clump pecluvirus

Africa, India, Pakistan

Not known to occur

Korea

2022-05-12

Requires the Polymyxa graminis vector to transmit. Only known to be seed transmitted in Arachis hypogaea (DVP WEB)

Wheat, sorghum, sugarcane, peanut and millet

No

No references found indicating seed is a pathway. Wheat can be a host and can be infected by the Polymyxa graminis vector.

Dilophospora alopecuri

fungus

Dilophospora graminis, Dilophospora holci, Sphaeria alopecuri, Lidophia graminis

Asia, Europe, Oceania

Widespread

Korea

2021-04-13

Fungus is associated with Aguina nematode seed galls, but not associated with seeds. Sporatically found in US states.

barley, wheat, oat, rye

No

RICH ISTA,

This fungus is associated with seed galls formed by Anguina nematodes and not found associated directly with the seed.

RICH ISTA,

Removing nematode seed galls prevents issues with the disease caused by this pathogen.

Pratylenchus fallax

nematode

Turkey, Canada

WI, ND

Korea

2022-06-28

Seed is not known to be a pathway for Pratylenchus spp. Pratylenchus spp. primarily move passively through the soil water matrix.

watermelon, beet, wheat, barley, soybean, rapeseed

No

No references found indicating seed is a pathway. Seed is not known to be a pathway for Pratylenchus spp.

Tilletia tritici

fungus

Tilletia caries, Uredo caries, Uredo sitophila, Caeoma sitophilum, Tilletia sitophila

Worldwide

Widespread

Korea

2023-08-21

wheat, rye

Yes

TILLCA-2,TILLCA-3,TILLCA-4,

Seed as a pathway is well established and accepted.

TILLCA-2,TILLCA-3,TILLCA-4,

Seed wash

TILLCA-1,TILLCA-5,

This test has not been validated or standardized.

Fungicide seed treatments

TILLCA-1,TILLCA-2,

Resistant varieties and seed treatments has decreased the importance of this disease in wheat and resulted in the complete control of the pathogen in the US and much of the wheat production.

Oculimacula yallundae

fungus

Cercosporella herpotrichoides, Helgardia herpotrichoides, Pseudocercosporella herpotrichoides, Pseudocercosporella herpotrichoides var. herpotrichoides, Ramulispora herpotrichoides, Tapesia yallundae, Tapesia yallundae var. yallundae

Africa: Ethiopia, Morocco, South Africa, Tanzania, Tunisia; Asia: China, Japan; Europe: Austria, Belarus, Belgium, Bulgaria, Czechia, Denmark, Finland, France, Germany, Greece, Hungary, Ireland, Italy, Latvia, Lithuania, Netherlands, Norway, Poland, Romania, Russia, Serbia, Slovakia, Sweden, Switzerland, Ukraine, UK; North America: Canada, USA; Oceania: Australia, New Zealand; South America: Chile.

ID, NY, OR, WA

Korea

2024-09-06

Korea lists this pathogen as Pseudocercosporella herpotrichoides. O. yallundae can overwinter on cereal stubble but some grasses and weeds also act as sources of inoculum. Infection occurs from conidia that are splashed short distances by rain droplets.

Main: oats; Other: wheat, rye, barley.

No

CABI CPC

Seed is not known to be a pathway.

CABI CPC

Drechslera gigantea

fungus

Helminthosporium giganteum

Asia: Iran; North America: USA; South America: Brazil, Colombia.

TX

Korea

2024-09-10

Drechslera gigantea causes eye spot mainly in grasses.

barley, rice, wheat, rye

No

No references found indicating seed is a pathway.

Tilletia walkeri

fungus

Australia, New Zealand, China

GA, OR, TN

Korea

2023-08-21

US State information from ARS GRIN

rygresses, wheat

No

TILLWA-4,

Pathway not proven. Teliospores of T. walker can be associated with seed samples, but seed transmission has not been proven.

TILLWA-4,

Visual examination, Seed wash, Size selective sieving, PCR

TILLWA-1,TILLWA-3,

Visual examination, Seed wash, Size selective sieving and PCR have been described for T. indica and were used by researchers. PCR is used to distinguish T. indica from T. walker

Meloidogyne naasi

nematode

Libya, Iran, Belgium, Czechia, Czech Republic, Denmark, France, Germany, Hungary, Ireland, Italy, Malta, Netherlands, Norway, Poland, Serbia, England, Wales, Canada, New Zealand, Argentina, Chile

CA, IL, KS, KY, MD, MI, NV, NC, OR, SC, UT, WA

Korea

2023-08-21

Seed is not known to be a pathway for Meloidogyne spp. root knot nematodes (MELGNA-2)

barley, wheat, rice, oat, rye, sorghum, grasses

No

MELGNA-2,

Seed is not known to be a pathway for Meloidogyne spp. root knot nematodes

MELGNA-2,

Crop Rotation

MELGNA-3,MELGNA-4,

Phaeoseptoria spp.

fungus

Worldwide

ND, FL

Korea

2023-08-21

Only P. oryzae reported on rice and P. urvillaena reported on wheat are listed below. Primarily a pathogen in tropical climates.

Species of Phaeoseptoria are primarily pathogens of eucalyptus and banana.

No

ARS GRIN,

No references found indicating seed is a pathway for P. urvilleana. Causes minor leaf spots in wheat after prolonged wet periods.

ARS GRIN,

Boeremia exigua var. exigua

fungus

Ascochyta asteris, Ascochyta cyphomandrae, Ascochyta hydrangeae, Ascochyta nicotianae, Ascochyta phaseolorum, Ascochyta sonchi, Phoma exigua f.sp. exigua, Phoma exigua var. exigua, Phoma herbarum, Phoma herbarum f. brassicae, Phoma herbarum f. hyoscyami, Phoma herbarum f. schoberiae, Phoma herbarum var. dulcamaricola, Phoma linicola, Phoma solanicola, Phoma solanophila, Phoma tuberosa, Phyllosticta decidua, Phyllosticta hortorum, Phyllosticta mulgedii, Phyllosticta sambuci, Phyllosticta vincae-majoris, Phyllosticta vincae-minoris

Worldwide. CABI: B. exigua var. exigua is almost certainly ubiquitous worldwide, but many records fail to specify the variety that it is not possible to provide particular country/state information. There are undoubtedly many records under the many synonyms and these require re-examination.

Widespread

Korea

2024-09-04

This pathogen has been reported in Korea under other synonyms. This is a weak pathogen capable of persisting in soil and also transmitted by rainsplash-dispersed conidia. Common bean and possible sugarcane are the only hosts shown where seed may be a pathway.

B. exigua var. exigua is a ubiquitous weak or secondary pathogen on more than 200 different plant genera. Main hosts are in the Fabaaceae and Solanaceae familes.

No

CABI CPC,RICH ISTA

No references found indicating seed is a pathway. A weak pathogen but widespread in soils throughout the world.

CABI CPC,RICH ISTA

Phaeosphaeria herpotrichoides

fungus

Leptosphaeria herpotrichoides, Trematosphaeria herpotrichoides, Leptosphaeria sparsa

Asia: Pakistan, Uzebekistan; Europe: Austria, Finland, Germany, Italy, Norway, Poland, Portugal, Russia, Scotland, Sweden, Switzerland; North America: Canada, USA; Oceania: Australia.

OK, VA, CA, IL, ND, WA, MN

Korea

2024-09-20

Information from ARS Fungal database. Primarily found in cool climates in the Northern Hemisphere. Primarily overwinters in field debris (LEPTHE-2)

wheat, rye, Poaceae grasses

No

No references found indicating seed is a pathway.

Cladosporium cladosporioides

fungus

Cladosporium graminum, Cladosporium herbarumMycosphaerella schoenoprasi, Mycosphaerella tulasnei, Mycosphaerella tassiana, Penicillium cladosporioides,Hormodendrum cladosporioides, Monilia humicola

Worldwide

Widespread

Korea

2022-11-11

This pathogen is considered primarily a post harvest pathogen that does not cause disease in most of it's hosts (CLADCL-1). The fungus has been isolated from seed in some hosts, but does not transmit or cause disease in most cases.

Wide host range

No

CLADCL-1,

No references found indicating seed is a pathway. This fungus is primarily a post harvest fungus and field debris may provide survival habitat for the fungus, but wheat is not attacked by the fungus.

CLADCL-1,

Phaeosphaeria nodorum

fungus

Leptosphaeria nodorum, Phoma hennebergii, Septoria glumarum, Septoria nodorum, Stagonospora nodorum

Worldwide

Widespread

Korea

2023-08-21

Korea lists this pathogen as Leptosphaeria spp. This pathogen has been reported in Korea.

wheat, rye, barley

Yes

LEPTNO-3,LEPTNO-4,LEPTNO-8,LEPTNO-9,

Seed as a pathway is well established and accepted. Seed transmission has been established (Shah, et.al., 1995) though the importance of seed borne inoculum in disease development is unclear (CABI, 2020)

LEPTNO-3,LEPTNO-4,LEPTNO-8,LEPTNO-9,

Blotter incubation, Culture plating, Serology

LEPTNO-1,LEPTNO-5,LEPTNO-7,

These tests used in research and have not been standardized or validated.

Fungicide seed treatments

LEPTNO-1,LEPTNO-3,

Seed treatments (carboxin + thiram, guazatine triacetate, maneb, oxine-copper and thiram) have been used.

Alternaria alternata

fungus

Alternaria tenuis, Alternaria tenuissima, many others

Worldwide

Widespread

Korea

2022-09-13

Korea listed this pathogen as Alternaria spp. A. alternata, A. tenuis and A. tenuissima have all been reported in Korea. A. alternata has often been found on seed in laboratory testing. There is little evidence of seed transmission. This fungus is ubiquitous and often of minor importance in its hosts.

Wide host range

No

ALTEAL-4,ALTEAL-25,

A. alternata is an ubiquitous sporophyte and a weak pathogen of wheat and has been found on wheat grains, in laboratory surveys and it may affect grain quality. However, seed transmission is not known to occur.

ALTEAL-4,ALTEAL-25,

Blotter incubation, Freezing blotter incubation

ALTEAL-25,

These methods has not been standardized or validated.

ALTEAL-1,

Seed treatments affective against A. alternaria have been described for other hosts.

Cochliobolus cynodontis

fungus

Bipolaris cynodontis, Drechslera cynodontis, Helminthsporuim cynodontis

Worldwide,primarily in the tropics of Asia, Africa, Oceania.

Primarily in the SE.

Korea

2022-11-11

All reports of US presence from 1950-60s. CABI, 2019 does not consider the pathogen to be in the US. Pathogen does not cause serious disease or losses on any host. Also, it is often a secondary invader. (Farr and Rossman, 2019; Manamgoda, 2014)

grains, grasses

No

RICH ISTA,

No references found indicating that seed is a pathway. This pathogen is not an important disease of grains. Richardson, 1990 does not list the pathogen as seed borne.

RICH ISTA,

Wheat dwarf virus

virus

Wheat dwarf mosaic virus

Tunisia, Zambia, China, Iran, Syria, Turkey, Europe

Not known to occur

Korea

2022-10-09

Transmitted by leafhoppers. Not seed transmitted.

wheat, barley, rye, Poaceae grasses

No

WDV-1,VIDE PVO,

Not known to be seed transmitted.

WDV-1,VIDE PVO,

Barley yellow dwarf virus

virus

barley yellow dwarf luteoviruses, cereal yellow dwarf virus, Hordeum virus nanescens, maize leaf fleck virus, red leaf disease of barley, rice giallume virus, wheat cereal yellow dwarf virus

Worldwide

AL, CA, CO, ID. IL, IN, LA, MO, MT, NY, PA, SC, WA

-

2024-09-25

Barley yellow dwarf virus is reported to be transmitted by at least twenty-five aphids.

Main: oats, barley, ryegrass, rice, rye, wheat, corn; Other: poaceae family

No

CABI CPC,DPV WEB

Seed is not known to be a pathway.

CABI CPC,DPV WEB

Ditylenchus destructor

nematode

-

Africa: Nigeria, South Africa; Asia: Azerbaijan, China, Iran, Japan, Pakistan, Saudi Arabia, South Korea, Syria, Tajikistan, Turkey, Uzbekistan; Europe: Albania, Austria, Belarus, Bulgaria, Czechia, Estonia, France, Greece, Hungary, Ireland, Jersey, Latvia, Luxemburg, Moldova, Netherlands, Norway, Poland, Romania, Russia, Slovakia, Sweden, Switzerland, Ukraine, UK; North America: Canada, USA; Oceania: New Zealand.

CA, HI, ID, OR, SC, WA, WI

-

2024-09-26

Ditylenchus destructor is spread through seed potatoes. It is also spread on containers, packaging, and soil. True seed is not know to be a pathway.

Extensive host range. Main: ornamental bulbs, sweet potato, onion, garlic, groundnut, beet, sugarbeet, pepper, cucumber, pumpkin, carrot, soybean, tomato, potato, clover, wheat, corn

No

CABI CPC,DITYDE-1

Seed is not a known pathway.

CABI CPC,DITYDE-1