This document provides information about seed-borne diseases and how they affect organic seed growers. It discusses the three main types of plant pathogens - bacteria, fungi, and viruses. It highlights some important seed-borne diseases like brassica black rot and lettuce mosaic virus. It explains that bacterial diseases tend to be systemic and difficult to treat, while fungal diseases are more topical and sometimes treatable. Viruses cannot be treated. The document provides guidance on determining disease risk levels and responding appropriately if diseases are found in seed crops, often requiring crop destruction. It discusses seed treatment options like hot water and bleach to eliminate pathogens from seed. The goal is to prevent spreading diseases through contaminated seed.
2. Insert slide about prevention
of disease in organics
⢠Note that bacterial diseases tend to be systemic,
highly virulent, and rarely treatable in fields, but can
be treated by hot water if present in small amounts
on seedâthough this isnât advised for the more
virulent pathogens. Fungal diseases tend to be more
topical and treatable in fields, but can be harder to
eradicate on seed and can be highly virulent. Viruses
are less destructive in fields but are not treatable at
any time and must be handled by prevention.
4. BACTERIA
simple cells with âsoftâ cell walls, mostly have to stay
moist at all times â so live INSIDE of plants
-Hard to stop in the field â get into plant veins and tend to
travel throughout whole plants (systemic)
-Likely to get INTO seed because systemic
-Easier to treat inside seed than fungi, as more sensitive to heat
Xanthomonas
campestris
From Muirbiology
Institute of Cell and Molecular Biology, The University of Edinburgh
5. FUNGI
complex cells with hard (chitin) cell walls, spread by
spores and tend to colonize OUTSIDE of plants
-Easier to set back in field â often on plant surfaces
-Variable entry into seed
-Variable success in treating on seed (some more sensitive to heat
than others)
-Can live in soil, but usu.insignificantly seed-borne if soil-borne
Botrytis
cinerea on
lettuce seed
From Muirbiology
Photo High Mowing Seeds
6. VIRUSES
packaged DNA or RNA â no cells âhard to
âkillâ (very different from other two)
-
Impossible to stop in field
Impossible to treat in seed
Often less devastating as diseases go
Easier to detect before planting â strip tests
From Muirbiology
From Cornell Cooperative Extension
7. As a seed grower, what do
I need to worry about?
⢠RED ALERT diseases:
= highly virulent, highly seed-borne
⢠ORANGE ALERT diseases:
= moderately virulent, highly seed-borne
OR highly virulent, moderately seed-borne
⢠YELLOW ALERT diseases:
= moderate or weakly virulent, moderate or weakly
seed-borne (I wonât talk about these today)
9. Brassica BLACK ROT
BACTERIA (Xanthomonas campestris)
â RED ALERT
â Highly virulent, highly seed-borne
â Distinction of being #1 among top ten seed-borne
diseases
â Spreads quickly in warm, humid weather
â New strip test available from Agdia
â Sensitive to hot water treatment
12. Brassica BLACKLEG
FUNGUS
(Phoma lingam / Leptosphaeria maculans )
â
â
â
â
â
RED ALERT (#2 for Brassicas)
Highly virulent, highly seed-borne
Spreads quickly in warm, humid weather
Not as common or explosive as Black Rot
Sensitive to hot water treatment
15. Lettuce Mosaic Virus
â RED Alert
â Highly virulent, highly seed-borne
â Very common, especially on the west
coast
â Spreads by insects, mainly leaf hoppers
â Not as deadly as fungal or bacterial
diseases â low levels can be tolerable
20. Carrot FUNGAL BLIGHTS
FUNGUS
⢠ALTERNARIA BLIGHT (Alternaria dauci,
also A. radicina)
⢠CERCOSPORA BLIGHT (Cercospora
carotae)
â Orange Alert
- Moderately virulent, moderately seedborne
- Can occur in the same field, cause yield
losses due to leaf loss
23. Onion WHITE ROT
FUNGUS
(Sclerotium cepivorum, Sclerotinia sclerotiorum)
â Orange Alert
â Doesnât actually travel on seed, but black
sclerotia can easily get mixed with seed
because they look so similar
â Most prevalent in cool seasons and poorlydrained fields
â Sclerotia can persist in soil for up to
fifteen years
26. TOMATO MOSAIC VIRUS
Effectively same as Tobacco Mosaic
Virus
- Red Alert
- Highly virulent, highly seed-borne
- Commercial damage may range from
light to heavy, but disease extremely
hard to eradicate from seed
- Good strip test available from Agdia
28. TOMATO BACTERIAL
DISEASES
BACTERIA
Bacterial canker
michiganense),
(Corynebacterium michiganense pv.
Bacterial Spot (Xanthomonas campesiris pv, vesicatoria)
Bacterial Speck (Pseudomonas syringae pv. tomato)
Orange Alert
- Highly to moderately virulent, highly seedborne
- Cause considerable damage, esp. in GHâs
- eradicated from seed by fermentation
and/or hot water treatment
29. Bacterial Canker Symptoms
D. Cuppels, Agriculture & Agri-Food Canada, via BC Ministry of AG
Round, pale, âbirdseyeâ spots
Cornell Cooperative Extension
30. Bacterial Spot Symptoms
Sherrie Smith, Univ. Ark
From Plant Health Progress article
Scabby, raised spots. Infects green fruit.
33. What is a growerâs
responsibility with respect
to seed-borne disease?
⢠Knowledge of which diseases are seed-borne
⢠Careful scouting of crops to spot symptoms
⢠Confirmation of diagnosis with Extension or
other diagnostic service if symptoms appear
⢠Consultation with seed company to determine
course of action
34. What are the scenarios when
I find ANY kind of disease in
a seed crop?
35. I.
If itâs NOT a seedborne disease:
Apply treatment to keep the plants
alive
(E.g. late blight of tomato)
36. II. If itâs a disease of
LOW virulence:
AND the seed could be treated, it
may be harvested and flagged for hot
water treatment
E.g. possible for some bacterial spot
diseases in tomato or pepper
37. III. For MOST seed-borne
diseases:
The crop is typically destroyed as
soon as disease confirmed
Avoids spending any more time or
money on a crop that wonât make
saleable seed
39. HOT WATER TREATMENT
⢠Advantages:
â
â
â
â
Most effective
Kills disease on both inside and outside of seed
Can fully eradicate heat-sensitive pathogens
no residue
⢠Disadvantages:
â requires an investment
â Requires careful handling, can damage seed
â Canât be done as easily during harvest, so often
requires wetting and re-drying seed
40. Hot Water Requirements
42-50°C (118-122°F)
15-25 minutes
Seed fully immersed, typically in cotton bags
NEED a setup with temperature control
Budget option is deep fryer (~$50-150)
Better option is a lab-grade water bath
incubator (~150-800 on ebay)
⢠Does NOT damage seed if done carefully
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42. Bleach Treatment
⢠Advantages:
â
â
â
â
Fast, easy, requires little to no special equipment
Can be done during washing of wet-seeded crops
Good for reduction but not eradication of disease
Only organic option for large-seeded crops that
canât be hot water treated
⢠Disadvantages:
â Not likely to completely eradicate disease
â Requires careful handling, can damage seed coat
â Kills disease only on seed coat, not internally
43. Bleach Requirements
⢠Soak seed in a 5-10% bleach solution
⢠usually 5-10 minutes
⢠Can be done by adding bleach to final
wash on wet seed harvest
44. Other Treatments
⢠Natural II
⢠Biocontrol agents, e.g.
Efficacy can be good, but mostly for
improved germination â i.e. not
appropriate for eradication of virulent
seed-borne diseases
45. Print Resources
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1. Common Laboratory Seed Health Testing Methods for Detecting Fungi . 2003. S.B. Mathur, O.
Kongsdal. The International Seed Testing Association. Bassersdorf, CH-Switzerland.
2. Crucifer Diseases: A Practical Guides for Seedsmen, Growers, and Agricultural Advisors. 1994. J.
Cucuzza, J. Dodson, B. Gabor, J. Jiang, J. Kao, D. Randleas, V. Stravato, and J. Watterson. Plant
Pathology Department, Petoseed Company, Inc. Saticoy, California.
3. The Diagnosis of Plant Diseases: A Field and Laboratory Manual Emphasizing the Most Practical
Methods for Rapid Identification. 1972. R.B. Streets, Sr. The University of Arizona Press, Tucson,
Arizona.
4. Diseases and Pests of Vegetable Crops in Canada: An Illustrated Compendium . 1994. R.J. Howard,
J.A. Garland, W.L. Seaman, Eds. The Canadian Phytopathological Society and the Entomological
Society of Canada. M.O.M. Printing Ltd. Ottawa, Ontario, Canada.
5. Hortus Third, A Concise Dictionary of Plants Cultivated in the United States and Canada. 1976. L.
H. Bailey. Macmillan Publishing. New York, New York.
6. Identifying Diseases of Vegetables. 1994. A.A. MacNab, A.F. Sherf, J.K. Springer. Penn State
College of Agricultural Sciences. University Park, Pennsylvania.
7. Illustrated Genera of Imperfect Fungi, 4th Edition. 1998. H.L. Barnett, B.B. Hunter, The American
Phytopathological Society. APS Press. St. Paul, Minnesota.
8. Laboratory Guide for Identification of Plant Pathogenic Bacteria, 3rd Edition. N.W. Schaad, J.B.
Jones, W. Chun, Eds. The American Phytopathological Society. APS Press. St. Paul, Minnosota.
9. Plant Pathology, 3rd Edition. 1988. G.N. Agrios. Academic Press, Inc. San Diego, California.
8. Principles of Seed Pathology, 2nd Edition. 1996. V.K. Agarwal, J.B. Sinclair. CRC Press, Inc., Lewis
Publishers. Boca Raton, Florida.
10. Rules for Testing Seeds. 1999. Association of Official Seed Analysts. Lincoln, Nebraska.
11. Seed to Seed: Seed Saving and Growing Techniques for Vegetable Gardeners , 2nd Edition. 2002.
S. Ashworth. Seed Savers Exchange, Inc. Decorah, Iowa.
12. Tomato Diseases: A Practical Guides for Seedsmen, Growers, and Agricultural Advisors. 1997. B.
Gabor and W. Wiebe, Eds. Plant Pathology Department, Seminis Vegetable Seeds, Inc. Saticoy,
California.
13. World Economic Plants: A Standard Reference. 1999. J. H. Wiersema and B. Leon. Agricultural
Research Service, United States Department of Agriculture. CRC Press, Inc. Boca Raton, Florida.
46. Online Resources
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Common Names of Plant Diseases
http://www.apsnet.org/online/common/toc.asp
Cornell Universityâs Plant Disease Diagnostic Clinic Homepage
http://plantclinic.cornell.edu/Default.htm
Simplified Fungi Identification Key
http://www.plant.uga.edu/Extension/pubs/fungikey.pdf
SBML Fungal Databases â Selecting Fungus-Host Distributions
http://nt.ars-grin.gov/fungaldatabases/fungushost/fungushostframe.cfm
Vegetable Diseases Fact Sheets listed by Crop
http://vegetablemdonline.ppath.cornell.edu/cropindex.htm
Plant diseases directory for agricultural crops â Manitoba agriculture, food,
and rural initiatives
http://www.gov.mb.ca/agriculture/crops/diseases/index.html
Plant Disease Information System
http://www.pdis.org/
Seedborne diseases and their control: Principles and practice. R.B. Maude.
1996. CAB International, Tucson, AZ.
Hot water treatment of vegetable seeds to eradicate bacterial plant pathogens
in organic production systems [Online]. S. Miller and M. Lewis Ivey. 2005. Ohio
State Extension Bulletin HYG-3086-05. Available at: http://ohioline.osu.edu/hygfact/3000/pdf/3086.pdf (verified 10 March 2010).
dwarfism, mosaic, distorsion and yellowing of the leaves with sometimes a very reduced lettuce heart
dwarfism, mosaic, distorsion and yellowing of the leaves with sometimes a very reduced lettuce heart
Bacterial blight, caused by Xanthomonas campestris pv. Carotae
http://vegetablemdonline.ppath.cornell.edu/factsheets/Carrot_Leaf_Blight.pdf
Hot water treatment of vegetable seeds to eradicate bacterial plant pathogens in organic production systems [Online]. S. Miller and M. Lewis Ivey. 2005. Ohio State Extension Bulletin HYG-3086-05. Available at: http://ohioline.osu.edu/hyg-fact/3000/pdf/3086.pdf (verified 10 March 2010).
Seedborne diseases and their control: Principles and practice. R.B. Maude. 1996. CAB International, Tucson, AZ.