Tobacco streak virus

virus

Annulus orae, Asparagus stunt virus, Black raspberry latent ilarvirus, Datura quercina virus, New logan virus, Micotiana virus 8, Nicotiana virus vulaerans, Tobacoo streak ilarvirus, Tracttus orea

Worldwide

CA, CO, FL ID IA, KT, MA, MI, MN, NC, OH, OK, OR, PA, WA, WI

Korea, Thailand

2022-11-04

Requires thrips to transmit from plant to plant.

Extensive host range includes many weeds, fruit and ornamental plant species. Over 70 species reported as hosts. The vegetables and agronomic crops listed below are important hosts of Tobacco streak virus

No

TSV000-5,TSV000-6,TSV000-7,

Pathway not proven. Occasionally listed as a host. Seed pathway has been shown in laboratory experiments only with the cowpea strain. No references found indicating seed is a pathway in soybean in nature.

TSV000-5,TSV000-6,TSV000-7,

Tomato black ring virus

virus

Lettuce Ringspot Virus, Bean Ringspot Virus, Beet Ringspot Virus, Celery Yellow Vein Virus, Lettuce Ringspot Virus,Potato Bouquet Virus, Potato Pseudo-Aucuba Virus,Tomato Black Ring Nepovirus

India, Japan, Turkey, throughout Europe

Not known to occur

China, Korea, Mexico, Thailand

2022-11-03

Wide host range reported. Requires the Dagger nematode to transmit this virus

Wide host range, however many are experimental only. Important crops listed below.

No

TBRV00-4,TBRV00-2,TBRV00-3,

Pathway not proven. Older literature (TBRV00-2, TBRV00-3) lists seed as a possible pathway, but no evidence of seed transmission was presented for this host. Seed pathway often inferred due to other hosts or nepoviruses seed pathway. No evidence of seed as a pathway from naturally infected seed was found.

TBRV00-4,TBRV00-2,TBRV00-3,

Curtobacterium flaccumfaciens pv. flaccumfaciens

bacterium

Bacterium flaccumfaciens, Corynebacterium flaccumfaciens pv. flaccumfaciens, Corynebacterium flaccumfaciens ssp. flaccumfaciens, Phytomonas flaccumfaciens, Pseudomonas flaccumfaciens

South Europe, North Africa, Canada, Mexico, Brazil, Venezuela, Colombia, Australia

CO, CT, ID, IA, MI, MN, NE, ND, OH, OR, VA, WI, WY

Chile, China, Mexico, Korea

2023-08-21

Rare in common bean with certification schemes. Found in most bean and soybean production areas

beans, soybean, cowpea, mung bean

Yes

CORBFL-3,CORBFL-7,CORBFL-4,

Soybean seed as a pathway for this pathogen is established and accepted, though it is a minor pathogen of soybean.

Grow out

CORBFL-3,CORBFL-7,CORBFL-4,

Grow out, Serological, PCR

CORBFL-2,CORBFL-3,CORBFL-6,CORBFL-9,CORBFL-13,

Grow out is the standard method of the USDA. This method is a temporary standard for National Seed Health System.

No effective seed treatments known. Resistant varieties exist

Rhodococcus fascians

bacterium

Corynebacterium fascians, Bacterium fascians, Phytomonas fascians, Pseudobacterium fascians, Rhodococcus rubropertinctus

Europe, North America, Central America, Australia, New Zealand, Iran, Russia, Egypt, Colombia

Widespread

Brazil, Thailand

2023-08-21

Though found in many US states, the pathogen is usually restricted and localized. Probably Worldwide, though not reported. Disease outbreaks are sporadic and usually related to poor sanitation. Bulbs, floral and greenhouse crops most susceptible to disease outbreaks. No reports of seed as a pathway in vegetables and agronomic crops.

Primarily a pest of ornamentals, woody ornamentals and floowers. Vegetables and agronomic crops reported susceptible to the bacterium are listed below. Transmits primarily through propagation.

No

CORBFA-3,

Listed as a potential host, not common. No references found indicating seed is a pathway.

CORBFA-3,

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

Pseudomonas savastanoi pv. phaseolicola

bacterium

Pseudomonas syringae pv. phaseolicola, Pseudomonas phaseolicola

Worldwide

Reported in the US where beans are grown. Not common in dry climates where most bean seed is produced.

2023-08-21

Primarily species of Phaseolus. Reported on pea and soybean, though rare

No

Soybean is not a primary host for this pathogen. No references found indicating soybean seed is a pathway.

Colletotrichum truncatum

fungus

Colletotrichum dematium f. sp.truncatum, Vermicularia truncata

Worldwide

Widespread

Chile, Mexico

2022-11-11

A possible anamporh of Colletotrichum capsici (ARS GRIN)

soybean, pepper, tomato, bean, pea and a broad range of weed species

Yes

COLLDU-2,

Soybean seed is known to be a pathway for this pest.

COLLDU-2,

Blotter, Culture plating

COLLDU-3

These methods have not been validated or standardized.

Seed treatments; thiram, difolatan and captan; fludioxonil + mefenoxam and thiabendazole + thiram.

COLLDU-2,COLLDU-6,COLLDU-1,

Botrytis fabae

fungus

Botryotinia fabae

Worldwide

CA

Brazil

2024-11-10

Reported in many countries but only widespread in Egypt and the United Kingdom

Main: faba bean; Other: soybean, lentil, common bean, pea.

No

BOTRFA-7,CABI CPC

There is no evidence that seed is a pathway for this pathogen in this crop. This is a minor pathogen of soybean.

BOTRFA-7,CABI CPC

Verticillium nigrescens

fungus

China, Japan, Canada, Italy, Australia, New Zealand. (Most likely a worldwide saprophyte.)

GA, MS, MO

Brazil

2022-10-09

Not considered a highly virulent fungal pathogen. Often found as a saprophyte or weakly pathogenic at most. This fungus should not be regulated on seed.

Soybean and cotton are main hosts, but even on these hosts it is a weak pathogen. Has been isolated from other hosts, though primarily as a saprophyte or weakly pathogenic

No

No references found indicating seed is a pathway. Not considered an important pathogen for this crop. Often saprophytic or weakly pathogenic at most.

Phytophthora sojae

fungus

Phytophthora megasperma f.sp. glycinea, Phytophthora megasperma var. sojae, Phytophthora sojae f.sp. glycines

Worldwide

Widespread

China

2022-06-27

This pathogen has been reported in China.

soybean, lupine

No

PHYTMS-5,PHYTMS-3,

Seed is not known to be a pathway. The pathogen has been isolated from debris associated with seed samples, however, seed contamination was not found. Commercial seed contamination, after cleaning and conditioning is not known to occur.

PHYTMS-5,PHYTMS-3,

Verticillium albo-atrum

fungus

Verticillium albo-atrum var. caespitosum, Verticillium albo-atrum var. tuberosum

Worldwide, primarily in cool temperate climates and in potato producing areas

Widespread, especially in northern states

China, Thailand

2022-11-11

Many reports of Verticillium albo-atrum in crops reported prior to 1970 may have actually been Verticillium dahlia. Only lucerne, potatoes, tomatoes and hops are considered important hosts. This pathogen has been reported in China

Wide host range. An important pathogen of potatoes.

No

VERTAA-2,VERTAA-9,

On reference found indicating soybean is attacked by this fungus. but no citation presented. No evidence that seed is a pathway for this crop.

VERTAA-2,VERTAA-9,

Verticillium dahliae

fungus

Verticillium ovatum, Verticillium trachiephilum

Worldwide

Widespread

China

2022-11-11

Prevalent in China

Wide host range (ornamentals, vegetables, agronomic). Isolated from some small grains but not pathogenic on small grains

No

VERTDA-16,

Verticillium dahliae has been reported on soybean, but is not an important host. No references found indicating seed is a pathway.

VERTDA-16,

Fusarium virguliforme

fungus

Fusarium solani f.sp. glycines, Fusarium brasiliense, Fusarium cuneirostrum, Fusarium tucumaniae

China, Malaysia, South Africa,Ontario Canada, Argentina, Brazil

Widespread

China

2022-03-16

soybean

No

FUSAVI-3,

Seed is not known to be a direct pathway. Nematode cysts associated with non-conditioned or cleaned seed lots have been discussed as possible means of dissemination but no references found to confirm.

FUSAVI-3,

Phoma pinodella

fungus

Phoma medicaginis var. pinodella,Ascochyta pinodella, Phoma trifolii; Peyronellaea pinodella

Worldwide

Widespread

China

2023-08-21

This pathogen has not been reported in China

Pea, soybean and alfalfa are the most important hosts. Has been reported on beet, lentils, cotton, parsley, fava bean, mung bean, cowpea, oats, barley, clovers and leguminous plants

No

PHOMME-3,RICH ISTA,PHOMMP-1,

One reference commonly cited for seed as a possible pathway (PHOMME-3), but this reference could not be located to validate data. Regardless, this is the only report found indicating soybean seed might be a pathway for this pathogen. There is no evidence of seed transmission.

PHOMME-3,RICH ISTA,PHOMMP-1,

Fusarium tucumaniae

fungus

Argentina, Brazil

Not known to occur

China

2021-04-19

soybean

No

No references found indicating seed is a pathway.

Diaporthe phaseolorum var. caulivora

fungus

Diaporthe caulivora

Argentina, Ecuador, Bulgaria, Serbia, Croatia, Brazil, Italy, France, Southern Russia, Yugoslavia (former), Republic of Korea, Ontario.

Eastern and Midwestern US

China

2022-02-23

This pathogen has not been reported in the western United States

soybean

Yes

DIAPPC-2,

This pathogen is part of the Phomopsis Complex and seed is known to be a pathway, although seed transmission does not always occur. The frequency of the pathogen on seed was less than 0.5% in research.

Culture plating or Blotter incubation are both NSHS standard methods.

DIAPPC-2,

Culture plating, Blotter incubation

DIAPPC-5,

These are standard methods of the NSHS.

Captan,Thiram fungicides reduce infection

DIAPPC-6,

Diaporthe phaseolorum var. meridionalis

fungus

Diaporthe aspalathi

Nigeria, Ghana, Tanzania, China, South America, Italy

IL, WI, MS, GA, FL, IN, MO, AL, TN, AR, LA, TX, SC.

China

2022-02-23

Pathogenic variability should be expected because the infective form of this fungus in the field is sexual, allowing genetic recombination (DIAPAS-4)). This pathogen has not been reported in the western United States.

soybean

Yes

DIAPAS-4,DIAPAS-7,DIAPAS-6,DIAPAS-8,

This pathogen is part of the Phomopsis Complex and seed is known to be a pathway, although seed infection is usually very low. Seed may play a minor role in the epidemiology of the disease.

Culture plating and Blotter incubation are NSHS standard tests

DIAPAS-4,DIAPAS-7,DIAPAS-6,DIAPAS-8,

Culture plating, Blotter incubation

DIAPAS-5,

These methods are standard methods of the NSHS

Fungicides (benomyl/thiram, benomyl/captan, carbendazim/thiram and thiabendazol combined with thiram, captan, PCNB and tolyfluanid) are effective

DIAPAS-1,

Cadophora gregata

fungus

Phialophora gregata, Cephalosporium gregatum

Ontario, Puerto Rico, Japan, Egypt, Argentina, Brazil, Croatia, Serbia, Yugoslavia, Montenegro

Midwest and Southeast states

China, Korea

2021-10-28

Transmission of Cadophora gregata is primarily through plant debris and infected soil.

soybean, adzuki bean, mung bean

No

PHIAGR-3,PHIAGR-5,PHIAGR-6,

Pathway not proven. The first two references found this pathogen on or in seed, but there was little or no evidence of seed transmission. Additionally, research was done with seed produced under conditions favorable to disease development or with inoculated seed. No toothed references found indicating seed transmission. The NSHS (PHIAGR-6) classifies this pathogen as a "Regulated Non-seedborne Pest"

Culture plating is the NSHS standard method.

PHIAGR-3,PHIAGR-5,PHIAGR-6,

Culture plating

PHIAGR-6,

PHIAGR-2,

Soil amendments with Trichoderma were compared with benomyl seed treatments, however, no references found on direct seed treatments.

Calonectria ilicicola

fungus

Cylindrocladium ilicicola

Africa: Kenya, Asia: China, Indai, Indonesia, Iran, Japan, Malaysia, South Korea, Sri Lanka, Taiwan, Thailand; Europe: Belgium, Italy, Netherlands, UK; North America: USA,; Oceania, Australia; South America: Brazil, Ecuador, Venezuela.

FL, GA, HI, IN, LA, MS, NC, SC, TX, VA, WV

China

2024-10-28

Calonectria ilicicola is a soilborne fungus. It causes red rot of soybean and root rot on alfalfa.

A major pathogen of avacado, and peanut. Reported in soybean and alfalfa.

No

CALOIL-2,CABI CPC,CALOIL-6

Seed is not a known pathway.

CALOIL-2,CABI CPC,CALOIL-6

Tobacco ringspot virus

virus

Anemone necrosis virus, Annulus tabaci, Blueberry necrotic ringspot virus, Nicotiana virus 12, Soybean bud blight virus, Tobacco Brazilian streak virus, Tobacco ringspot nepovirus, Tobacco ringspot virus No. 1

Worldwide

Widespread

Korea, China

2022-09-22

Nepovirus. Requires the Xiphinema americanum nematode for transmission. This pest has been reported to be in Korea.

Extensive host range includes many weed, fruit and ornamental plant species. The vegetables and agronomic crops listed below are important

Yes

TORSXX-2,TORSXX-7,TORSXX-8,

Seed transmission important in soybean and is well documented.

ELISA

TORSXX-2,TORSXX-7,TORSXX-8,

Indicator host inoculation, Grow out, ELISA

TORSXX-1,NSHS USDA,

ELISA is the temporary standard of the NSHS.

TORSXX-1,

Resistant varieties available. Hot water at 56°C for 10 min, hot air at 52°C and 56°C, or aerated steam at 60°C seed treatments have been unsuccessful on soybean.

Broad bean wilt virus

virus

Broad bean wilt fabavirus, Catalpa chlorotic leaf spot virus, Nasturtium ringspot virus, Nasturtium white spot virus, Pea streak virus, Patchouli mild mosaic virus, Patchouli mild mottle virus, Petunia ringspot virus, Tropaeolum ringspot virus, Plantago II virus

Africa: Egypt, Ethiopia, Morocco, South Africa, Sudan, Tanzania, Tunisia; Asia: Bangladesh, China, India, Iran, Iraq, Japan, Jordan, North Korea, Philippines, Singapore, South Korea, Syria, Taiwan, Turkey; Europe: Bulgaria, Czechia, France, Germany, Greece, Hungary, Italy, Poland, Slovakia, Slovenia, Spain, United Kingdom; North America, USA; Oceania: Australia, New Zealand; South America: Argentina.

FL, MN, NY, OH, SC, VT, WI

Mexico

2024-09-03

Broad bean wilt virus has only shown possible seed transmission in faba beans through artificial inoculation. It is not known to be common in nature. The virus is transmissible by sap inoculation and by several aphid species in the non-persistent.

Broad bean wilt virus has been reported in natural infections of 180 species of 41 plant families and thus has a very extensive natural host range. Main host families are: Apiaceae, Brassicaceae, Fabaceae, and Solanaceae.

No

CABI CPC,DPV WEB

Seed is not known to be a pathway.

CABI CPC,DPV WEB

Tomato ringspot virus

virus

blackberry (Himalaya) mosaic virus, Euonymus chlorotic ringspot virus, Euonymus ringspot virus, grape yellow vein virus, grapevine yellow vein virus, Nicotiana 13 virus, peach stem pitting virus, prune brown line virus, Prunus stem pitting virus, red currant mosaic virus, tobacco ringspot virus 2, tomato ringspot nepovirus, ToRSV, winter peach mosaic virus

Africa: Egypt, Nigeria, Togo; Asia: China, India, Iran, Japan, Jodan, Lebanon, Oman, Pakistan, South Korea, Taiwan, Turkey; Europe: Belarus, Croatia, France, Netherlands, Poland, Russia, Slovakia, Spain, UK; North America: Canada, Puerto Rico, USA; Oceania: Fiji, New Zealand; South America: Brazil, Chile, Colombia, Peru, Venezuela.

Widespread

Korea, Mexico, Thailand

2022-11-07

Natural spread is confined to areas where there are moderate to high populations of nematode vectors belonging to the genus Xiphinema. Requires the nematode to spread. Seed transmission only shown in strawberry and raspberry in nature.

Wide host range, primarily ornamentals and fruit trees and berries. Vegetable crops infected are listed below. Not known to infect grains and grasses

Uncertain

CABI CPC,DPV WEB,TORSV0-7,EPPO

Varying degrees of seed transmission have been reported in soybean in the laboratory, however, most references are very old. There is no conclusive evidence of natural seed transmission in soybean.

ELISA (NSHS Method Sb 6.1)

CABI CPC,DPV WEB,TORSV0-7,EPPO

ELISA

NSHS USDA

This is a temporary standard of the NSHS. Seed pathway is inconclusive.

No seed treatments

Prevention and control requires several strategies to be undertaken in concert. Fallowing is not an effective means of disease control because weeds and remaining roots of woody crop plants act as carryover hosts for the nematode vector and the virus. Soil fumigation is an alternative to fallowing.

Tobacco mosaic virus

virus

TMV U1, type, Vulgare or Common strain tobacco mosaic tobamovirus, VMT (Virus mosaique de tabac)

Worldwide

Widespread

Mexico

2023-08-21

Broad host range. Cultivated species listed below.

No

Occasionally listed as a host, no evidence that seed is a pathway.

White clover mosaic virus

virus

Potexvirus

Western Australia. Possibly Japan, Turkey, Brazil, United Kingdom

IN

Brazil

2023-08-21

Primarily clover, pea, sweet pea, alfalfa. Artificially inoculated into other legumes and plant species in the laboratory. Only crops with reported natural infections of this virus included below.

No

WCLMV0-2,

Mechanically transmitted in laboratory studies. There is no evidence of that seed is a pathway for this host in nature.

WCLMV0-2,

Southern bean mosaic virus

virus

Bean mosaic virus 4, Bean southern mosaic virus, Southern bean mosaic sobemovirus, Southern bean mosaic virus 1, Phaseolusvirus

Asia, Africa, S. American, Mexico, Costa Rica, Nicaragua, Europe.

AR, CA, FL, GA, LA, MD, MI, SC, TN, TX, VA

China, Korea

2022-08-16

Several strains of Southern bean mosaic virus are known and are very specific to thier host. SBMV-B infects bean (Phaseolus vulgaris) but not cowpea (Vigna unguiculata), SBMV-CP infects cowpea, Ghana strain (SBMV-G) infects cowpeas and some bean cultivars, Mexican strain (SBMV-M) (Severe bean mosaic strain) infects beans and some cowpea cultivars.

soybean, common bean, cowpea

Yes

SBMV00-6,SBMV00-11,

Soybean is not considered an important host of this virus. Produces a mild mottle when infected artificially. Seed as a pathway seems relatively unimportant and has primarily been shown with artificially inoculated plants from seed extracts.

SBMV00-6,SBMV00-11,

ELISA

SBMV00-12,

ELISA and other serological tests have been applied for other hosts. Test has not been validated or standardized.

Bean pod mottle virus

virus

Bean pod mottle comovirus, Pod mottle virus, Pod mottle of bean

Iran, Nigeria, Brazil, Ecuador, Peru, Canada

Widespread

China, Korea

2021-09-16

soybean, bean

Yes

BPMV00-2,BPMV00-3,BPMV00-4,

Bean pod mottle virus can be transmitted at very low rates (~ 0.10%)

NSHS B Method.

BPMV00-2,BPMV00-3,BPMV00-4,

ELISA

BPMV00-8,

NSHS B Method, not yet validated.

BPMV00-3,BPMV00-7,

Beetle control reduces virus infection.

Tomato spotted wilt virus

virus

Tomato spotted wilt tospovirus, Tomato spotted wilt virus group

Worldwide

Widespread

2023-08-21

Seed is not a pathway for Tospoviruses, including Tomato spotted wilt virus

Wide host range. Over 800 plant species are known hosts. Primarily ornamentals,flowers. No evidence that small grains or corn are hosts.

No

TSWV00-1,TSV000-3,

Seed is not a pathway for Tospoviruses, including Tomato spotted wilt virus

TSWV00-1,TSV000-3,

Cowpea severe mosaic virus

virus

Cowpea severe mosaic comovirus, Puerto Rico cowpea mosaic virus

Trinidad and Tobago,Puerto Rico, El Salvador, Costa Rica, Venezuela, Surinam, Brazil, Peru

AR, IL

China

2022-02-15

soybean, mung bean, cowpea

No

CPSMV0-2,CPSMV0-6,

Seed is not known to be a pathway in soybean. Transmission by beetles.

CPSMV0-2,CPSMV0-6,

Cotton leaf curl virus

virus

Cotton leaf curl bigeminivirus, Cotton leaf curl geminivirus

India, Africa

Not known to occur

China

2022-02-08

Not known to be seed transmitted (VIDE PVO)

cotton

No

CLCuV-1,CLCuV-2,VIDE PVO,

Whitefly transmitted virus only. Only one report of possible infection of soybean by this virus in India (CLCuV-2). Seed is not known to be a pathway. Whitefly transmitted only.

CLCuV-1,CLCuV-2,VIDE PVO,

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 that seed is a pathway

Stemphylium vesicarium

fungus

Pleospora alli, Helminthosporium vesicarium, Macrosporium alliorum, Mystrosporium alliorum, Macrosporium parasiticum, Stemphylium parasiticum

Worldwide

AZ, CA, FL, MI, MN, NM, NY, TX, WA

-

2024-10-22

Ascospores (P. allii) and conidia (S. vesicarium) are mainly wind-blown or water-dispersed.

Main: onion, garlic, asparagus, soybean, alfalfa, tomato; Other: leek, sunflower, lettuce, radish.

No

PLEOAL-11

No references found indicating seed is a pathway for this crop. Only one reference found indicating this is a host for the pathogen (PLEOAL-11)

PLEOAL-11

Colletotrichum trifolii

fungus

-

Africa: Morocco, South Africa; Asia: China, Turkey; Europe: Hungary; North America: Canada, USA; Oceania: Australia.

NC, OK

Sudan

2024-09-06

Colletotrichum trifolii causes anthracnose in alfalfa resulting in economic losses. Under favorable conditions, conidia can spread from plant to plant by wind, rain or irrigation.

alfalfa, soybean

No

No references found indicating seed is a pathway for this crop

Alfalfa mosaic virus

virus

Alfalfa virus 1 and 2, Lucerne mosaic virus, Marmor medicaginis, Potato calico virus, Tomato necrotic tip curl, Alfalfa yellow spot

Worldwide

Widespread

Sudan, Mexico

2022-09-13

Wide host range

No

AMV000-1,AMV000-7,AMV000-8,

Pathway not proven. Though seed has been reported as a possible pathway in Brazil and Argentina, no references were found with data to conclusive show seed transmission or that seed is a pathway.

AMV000-1,AMV000-7,AMV000-8,

Bean golden mosaic virus

virus

Bean golden mosaic begomoivirus, Bean golden mosaic geminivirus, bean golden mosaic virus (type 1), mosaico dorado

North America: Cuba, Nicaragua; South America: Argentina, Bolivia, Brazil.

Not known to occur

Korea

2024-11-10

BGMW is transmitted by the whiteflies B. tabaci and B. tabaci.

Main: soybean, lima bean, common bean.

No

CABI CPC,DPV WEB

Seed is not a known pathway.

CABI CPC,DPV WEB

Arabis mosaic virus

virus

Arabis mosaic nepovirus, Ash ring and line pattern virus, Forsythia yellow net virus, Hop nettlehead virus,Jasmine yellow blotch virus, Raspberry yellow dwarf virus, Rhabarber mosaik virus (rhubarb mosaic virus), Rhubarb mosaic virus

Worldwide

CT, FL, MI, MN, MO, NE, NY, OH, SC

Mexico, China, Korea, Brazil, Thailand

2022-10-08

This virus has been reported in Mexico, China (CABI, 2017), but natural spread may be limited to EU (Murant, 1974).

Wide host range including many vegetable, agronomic and fruit species

No

ARMV00-3,ARMV00-4,ARMV00-5,

Pathway not proven. Lister and Murant (ARMV00-5) research done with artificially inoculated plants only. Mandahar (ARMV00-4) states that seed transmission of Arabis mosaic virus in field uncommon

ARMV00-3,ARMV00-4,ARMV00-5,

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.

Beet western yellows virus

virus

Brassica virus 5, Malva yellows virus, Radish yellows virus, Turnip mild yellows virus, Turnip yellows virus luteovirus

Africa: Eritrea, Ethiopia, Tunisia; Asia: China, Iran, Iraq, Israel, Japan, Lebanon, Pakistan, South Korea, Syria, Thailand, Turkey, Yemen; Europe: Czechia, France, Germany, Greece, Italy, Spain, UK; North America: USA; Oceania: Australia, New Zealand.

CA, IL, OR, WA

Korea

2024-08-21

Transmission is by aphid vectors, particularly the green peach aphid.

Main: Brassica spp., radish, spinach. Other: sugarbeet, chickpea, pepper.

No

BWYV00-3,CABI CPC,ISF RPLD,DPV WEB

Seed is not known to be a pathway.

BWYV00-3,CABI CPC,ISF RPLD,DPV WEB

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

RICH ISTA,

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.

RICH ISTA,

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

Cowpea mild mottle virus

virus

Bean angular mosaic virus, Cowpea mild mottle carlavirus, Eggplant mild mottle virus, Groundnut crinkle virus, Groundnut ngomeni mottle virus, Psophocarpus necrotic mosaic virus,Tomato pale chlorosis virus,Voandzeia mosaic virus

Asia, Africa, Oceania, Belgium, Netherlands

Not known to occur

Korea

2022-11-11

The virus is transmitted by white flies.

cowpea, soybean, common bean, tomato, peanut, faba bean

No

CPMMV0-3,CPMMV0-4,CPMMV0-5,CPMMV0-6,CPMMV0-7,CPMMV0-8,

Pathway not proven. Seed transmission in soybean is contradictory, as early reports indicated that seed may be a pathway, though in low levels (Iwaki, et al, 1982) or seed transmission was detected from seed produced from artificially inoculated plants (Brunt and Kenten, 1973). Later references (Gillaspie, 1995 and Horn, 1991) were unable to detect the virus using direct ELISA tests on seed from naturally infected plants. Virus strain, plant genotype and duration of infection may have affected seed transmission studies (Jeyanandara and Brunt, 1992)

CPMMV0-3,CPMMV0-4,CPMMV0-5,CPMMV0-6,CPMMV0-7,CPMMV0-8,

ELISA

CPMMV0-6,CPMMV0-8,

This test has not been validated or standardized.

Cowpea chlorotic mottle virus

virus

Bean yellow stipple virus, Marmor flavopunctum,Virus del moteado amarillo

USA, Costa Rica

Unknown, appears to be restricted.

Korea

2023-04-27

Beetle transmitted bromovirus. Sporadic outbreaks over the years, as resistance and beetle control have improved.

bean, soybean, cowpea

No

CCMV00-3,

Seed is not known to be a pathway.

CCMV00-3,

CCMV00-4,

Resistant varieties 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

No references found indicating seed is a pathway

Tomato leaf curl New Delhi virus

virus

Tomato leaf curl New Delhi begomovirus, ToLCNDV

Africa: Algeria, Morocco, Seychelles, Tunisia; Asia: Bangladesh, China, India, Indonesia, Iran, Nepal, Pakistan, Philippines, Sri Lanka, Taiwan, Thailand, Turkey; Europe: France, Greece, Italy, Portugal,Slovakia, Spain,.

Not known to occur

Korea

2024-11-09

Tomato leaf curl New Delhi virus is transmitted by the whitefly. Seed transmission of ToLCNDV has not been reported.

ToLCNDV affects a wide spectrum of plant species. Main are the Cucurbitaceae and Solanaceae families.

No

CABI CPC

Seed is not a known pathway.

CABI CPC

Pseudomonas syringae pv. tabaci

bacterium

Bacterium angulatum, Bacterium tabaci, Bacterium tabacum, Chlorobacter angulatum, Chlorobacter tabaci, Phytomonas angulata, Phytomonas tabaci, Pseudomonas angulata, Pseudomonas tabaci, Xanthomonas tabaci

Worldwide

Eastern and southeastern states.

Thailand

2022-12-01

soybean, common bean, pea, pepper, cucumber, tomato, eggplant

No

PSDMTA-3,PSDMTA-5,PSDMTA-6,

Pathway not proven. All references above present circumstantial evidence for seed transmission of P. syringae pv. tabaci in soybean was suggested by the fact that wildfire developed in the field on seedlings grown from seed harvested from infected soybean plants, but not from seeds harvested from healthy plants. No references with direct evidence of seed transmission in nature were found.

PSDMTA-3,PSDMTA-5,PSDMTA-6,

Hot water treatment 

PSDMTA-1,

Field management and pathogen free seed also suggested.

Phytophthora macrochlamydospora

fungus

Australia, Netherlands

Not known to occur

Korea

2022-06-27

soybean

No

PHYTMA-1,

Pathway not proven. Pathogen may adhere to soil on the surface of the seed, however, there is no evidence of internal seed infections. No other references indicating seed is a pathway were found. Commercial seed contamination, after cleaning and conditioning is not known to occur.

PHYTMA-1,

None

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.

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-10,GIBBZE-11,GIBBZE-12,

Seed as a pathway has been established and accepted. Seed of soybean can become infected and effect germination and cause seedling blights.

GIBBZE-10,GIBBZE-11,GIBBZE-12,

Culture plating and blotter incubation have been described for corn (NSHS USDA)

Fungicide seed treatments.

GIBBZE-11,GIBBZE-12,

Coniothyrium glycines

fungus

Dactuliochaeta glycines, Dactuliophora glycines, Phoma glycinicola, Pyrenochaeta glycines

Africa: Cameron, Congo, Ethiopia, Malawi, Mozambique, Nigeria, Rwanda, Tanzania, Uganda, Zambia, Zimbabwe; Asia: India; South America: Bolivia.

Not known to occur

Korea

2024-09-23

Local spread occurs through rain showers, watersplash and/or animal or human activities that transport fungal propagules between plants and fields. The primary source of inoculum is sclerotia and pycnidia in the soil or on leaf debris. There are no studies to show how natural dispersal of inoculum occurs among fields, but one may assume that the dispersal of fungal propagules is similar to other soil-borne fungi that produce pycnidia and sclerotia. (CABI)

soybean

No

CABI CPC

Seed is not known to be a pathway.

CABI CPC

Pratylenchus brachyurus

nematode

Anguillulina brachyura, Pratylenchus leiocephalus, Pratylenchus pratensis, Pratylenchus steineri, Tylenchus brachyurus

Worldwide

Widespread

Korea

2022-06-28

Seed is not known to be a pathway. Common in tropics (PRATBR-1)

Wide host range

No

PRATBR-2,

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

PRATBR-2,

Nematospora coryli

fungus

Eremothecium coryli

Worldwide

Widespread

Korea

2022-12-01

Requires stink bug feeding to transmit fungus to seeds. (NMATCO-3)

bean, soybean

Yes

NMATCO-1,NMATCO-3,

Seed infection and transmission has been established and accepted. Though no data was found regarding the importance of seed inoculum in disease development. Seed infection does affect seed quality.

NMATCO-1,NMATCO-3,

Agar plating

NMATCO-1,

Agar plating was used in research to determine seed infection. This method has not been validated or standardized.

Use of clean seed

NMATCO-3,

Insecticides to control stink bugs

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

Grovesinia pyramidalis

fungus

Cristulariella pyramidalis

Asia: India, Japan, Taiwan. North America: USA; South America: Brazil.

FL, GA, IA, LA, MN, NY, SC.

Korea

2024-09-14

Walnuts, grapes, other trees and woody ornamentals.

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,CLADCL-6,CLADCL-7,

Pathway not proven. This fungus was recovered from seed samples in Pakistan (CLADCL-6) and India (CLADCL-7) in the laboratory. No evidence of seed transmission was found in nature. This fungus is primarily a post harvest fungus and field debris may provide survival habitat for the fungus (CLADCL-1, CLADCL-7)

CLADCL-1,CLADCL-6,CLADCL-7,

Blotter or agar incubation

CLADCL-6,CLADCL-7,

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

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-13,ALTEAL-14,ALTEAL-15,

Pathway not proven. A. alternata is a weak pathogen of soybean and has been reported on seed. Seed quality and germination may be affected by seed contamination, however, no references were found indicating seed transmission. Seeds contaminated usually do not germinate and if they do germinate in soil, they do not emerge.

ALTEAL-13,ALTEAL-14,ALTEAL-15,

Blotter incubation, Culture plating

ALTEAL-15,ALTEAL-16,

Both methods were used for research purposes. The Blotter incubation method was described for A. alternata on zinnia. These methods have not been standardized or validated.

Fungicide seed treatments

ALTEAL-13,ALTEAL-1,

Seed treatments have been described for other hosts. No information on soybean found. Pathogen management is rarely required. Seed contamination increases with delayed harvest, freezing and beetle injury.

Mungbean yellow mosaic India virus

virus

Oman

Not known to occur

Korea

2022-12-01

Whitefly transmitted virus.Not to be confused with Mungbean yellow mosaic virus affecting mungbean in Asia.

Only reported in cucumber, kidney bean. Tomato and soybean are uncommon hosts.

No

MYMIV-1,

No references found indicating seed is a pathway. Not considered a common host of the virus.

MYMIV-1,

Ralstonia solanacearum

bacterium

Too many to list, see CABI CPC for a complete list

Worldwide

Widespread

China

2022-08-30

Most important economic crop is potato. Host range is extremely wide.

No

RLSTSO-1,RLSTSO-9,RLSTSO-10,

Pathway not proven. Though references indicating that seed may be a pathway were found, these references only indicated that the pathogen was found on the seed in the laboratory. No evidence of seed transmission of this pathogen on this crop in nature was found.

RLSTSO-1,RLSTSO-9,RLSTSO-10,

Blotter

RLSTSO-9,

Blotter incubation was used in this research. This method has not been standardized or validated.

Peanut stunt virus

virus

black locust true mosaic virus, clover blotch virus, groundnut stunt virus, peanut common mosaic virus, peanut stunt cucumovirus, robinia mosaic virus

Morocco, Sudan, Asia, Bulgaria, France, Hungary, Italy, Poland, Spain

Southeast, Midwest states, WA

Brazil

2023-04-05

Common virus in peanuts. Can be seedborne in peanuts at low levels.

Primarily a virus of Fabaceae family, tomato, celery,

No

PSV000-1,PSV000-2,CABI CPC,RICH ISTA,

Pathway not proven. References from Japan appear to have used artificially inoculated plants in the laboratory. No evidence of seed transmission in nature. No other references found indicating seed is a pathway.

PSV000-1,PSV000-2,CABI CPC,RICH ISTA,

CABI CPC,

Use cultural practices such as eliminating the source of infection and using good quality seed to prevent the disease spreading. The use of resistant or tolerant varieties is recommended.

Phakopsora meibomiae

fungus

Aecidium crotalariae, Aecidium crotalariicola, Malupa vignae, Phakopsora aeschynomenes, Phakopsora crotalariae, Phakopsora diehlii, Phakopsora psoraleae, Phakopsora vignae, Physopella aeschynomenes, Physopella concors, Physopella meibomiae, Uredo aeschynomenes, Uredo concors, Uredo teramni, Uredo vignae

North America: Barbados, Belize, Costa Rica, Cuba, Dominican Republic, Guatemala, Honduras, Mexico, Panama, Puerto Rico, Trinidad & Tobago, US Virgin Islands, USA; South America: Argentina, Brazil, Chile, Colombia, Ecuador, Venezuela.

FL, HI, KY

South Korea

2024-06-25

P. meibomiae is a rust native to the tropical and subtropical regions of the Americas that has a broad host range among legume species. (CABI) Urediniospores are distributed by the wind locally and over long-distances (CABI; PHAKME-2; PHAKME-3)

soybean, bean

No

No reference found indicating seed is a pathway.

CABI CPC

Seed treatments have been used as a means of controlling early season infection by wind blown spores. 

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