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Botulism

Limberneck, Western Duck Sickness, Duck Disease, Alkali Poisoning

Botulism is a severe neuroparalytic disease caused by exposure to botulinum neurotoxins (BoNTs), which are produced by anerobic, spore-forming, ubiquitous microorganism called Clostridium botulinum. There are several different strains of C. botulinum, with each strain producing its own type of toxin---categorized as type A through E. Certain strains are more abundant in particular regions and cause infection to specific species. Waterfowl are most commonly affected by type C and C/D, although type A and E toxins have also been reported.

Waterfowl, both domestic and wild, are at an increased risk of botulism, due to their dabbling habits in water and mud. C. botulinum is widespread in soil however requires certain environmental conditions to be met in order for it to produce toxins; these conditions include:

Warm temperature (optimum growth temperature is between 25°C and 42°C)
An anaerobic environment (absence of oxygen)
A high protein source

Clinical Signs of Botulism in Ducks

Characteristic clinical signs of botulism in ducks is a progressive, symmetrical, flaccid paralysis with weakness, muscle tremors, stumbling, and recumbency. The bird's legs are usually affected first, progressing to the wings (presented as drooped wings), neck (presented as the inability to hold their head erect), and eyelids. Ducks may appear lame and often might stand up and walk a few steps before falling. Others may be found sitting and reluctant to move. The speed of progression varies, depending on the amount of the toxin ingested and the form of the disease. Usually botulism signs develop within 24 hours to 17 days after exposure to the toxin.

How do Ducks Get Botulism?

Ducks can get botulism through eating or dabbling in contaminated soil, water, decaying matter, spoiled feed, or from eating maggots harboring C. botulinum toxins. Decaying animals or vegetation provide both a protein source as well as an anaerobic environment to C. botulinum. Botulism Type C spores exist along the bottoms of various water sources, which begin to thrive as oxygen levels drop and water temperatures rise.

Symptoms

Limp neck (unable to hold head upright)

Using wings to move

Droopy eyelids

Weakness

Muscle tremors

Stumbling

Recumbency

Death

Diagnosis

History
Clinical signs
Physical exam
Laboratory tests

Treatment

Method	Method Summary
Supportive care	Relocate duck to a quiet, isolated area such as a dog kennel or cat carrier. Provide fresh water in a small container, however making sure it's not too large as birds can easily drown.
Call your veterinarian	Obtain and administer an antitoxin, toxoid vaccine for botulism
Activated charcoal	Administered orally at 1 g/kg of body weight, twice a day for the first 24 to 48 hours.
Tube feeding

Reported Cases

Case 1: Botulism in a Chickens Botulism was diagnosed in a flock of backyard chickens. 14 out of 16 backyard chickens were found dead or recumbent and barely able to move (“crawling” according to owner). No significant gross or microscopic lesions were seen in birds submitted for necropsy. Clostridium botulinum toxin type A was detected in the liver of one chicken, confirming a diagnosis of type A botulism. Ref

Case 2: Botulism in a Ducks Botulism was diagnosed in ducks from three different locations in southern California; at each location several birds were affected. In one outbreak, type C botulism was confirmed while the type of botulism could not be determined in the other two outbreaks. Ref

Prevention

Inspect water sources for dying or dead animals (such as mice or rats), and promptly dispose of the carcass properly, dump out the water, disinfect the container, and refill with fresh, clean water.
Properly store animal feed
Remove any dead organisms from the premises immediately.
Don't allow birds access to long-standing stagnant pools of water or mud puddles, especially during hot weather conditions.

References

Meloni, Emma, et al Exposure of waterfowl to Clostridium botulinum in France Frontiers in Conservation Science 4 (2023)
Meurens, François, et al. Clostridium botulinum type C, D, C/D, and D/C: An update Frontiers in Microbiology 13 (2023)
Le Bouquin, Sophie, et al. Human and animal botulism surveillance in France from 2008 to 2019 Frontiers in Public Health 10 (2022)
Martins, Andressa S., et al. Type C botulism outbreak in free-ranging waterfowl in Goiás Pesquisa Veterinária Brasileira 42 (2022)
Woudstra, Cedric, et al New Insights into the genetic diversity of Clostridium botulinum Group III through extensive genome exploration. Frontiers in microbiology (2016)
Anza, I., et al. Differences in the vulnerability of waterbird species to botulism outbreaks in Mediterranean wetlands: an assessment of ecological and physiological factors. Applied and environmental microbiology (2016)
Essian, David A., et al Gut content analysis of Lake Michigan waterbirds in years with avian botulism type E mortality, 2010 - 2012. Journal of Great Lakes Research (2016)
Wlodarczyk R, Minias P, Kukier E, Grenda T, Smietanka K, Janiszewski T. The first case of a major avian type C botulism outbreak in Poland. Avian Dis. (2014)
Flinchum, Gwen, BS, MS, DVM Chapter 36: Management of Waterfowl Clinical Avian Medicine Vol. II (2014)
Fabrizio Anniballi, Alfonsina Fiore, Charlotta Löfström, Hanna Skarin, Bruna Auricchio, Cédric Woudstra, Luca Bano, Bo Segerman, Miriam Koene, Viveca Båverud, Trine Hansen, Patrick Fach, Annica Tevell Management of Animal Botulism Outbreaks: From Clinical Suspicion to Practical Countermeasures to Prevent or Minimize Outbreaks Biosecurity and Bioterrorism: Biodefense Strategy, Practice, and Science. (2013)
USGS Avian Botulism USGS Field Manual of Wildlife Diseases: Birds, Chapter 16 (2012)
Skarin H, Lindberg A, Blomqvist G, Aspan A, Baverud V. Molecular characterization and comparison of Clostridium botulinum type C avian strains. Avian Pathol. (2010)
Evelsizer DD, Bollinger TK, Dufour KW, Clark RG. Survival of radio-marked mallards in relation to management of avian botulism. J Wildl Dis (2010)
Woo GH, Kim HY, Bae YC, Jean YH, Yoon SS, Bak EJ, Hwang EK, Joo YS. Outbreak of botulism (Clostridium botulinum type C) in wild waterfowl: Seoul, Korea. J Wildl Dis (2010)
Degernes LA. Waterfowl toxicology: a review. Vet Clin North Am Exot Anim Pract (2008)
R Martinez and G Wobeser Immunization of Ducks for Type C Botulism Journal of Wildlife diseases (1999)
Laurel Degernes Toxicities in waterfowl Journal of Exotic Pet Medicine (1995)
E M R Critchley A Comparison of human and animal botulism: a review Journal of the Royal Society of Medicine (1991)
Wobeser G, Rainnie DJ, Smith-Windsor TB, Bogdan G. Avian botulism during late autumn and early spring in Saskatchewan. J Wildl Dis (1983)
Keymer IF, Smith GR, Roberts TA, Heaney SI, Hibberd DJ. Botulism as a factor in waterfowl mortality at St. James's Park, London. Vet Rec (1972)

Risk Factors

Hot weather combined with strong rain showers
Exposure to decaying carcasses or vegetation
Feeding or dabbling in stagnant water puddles or slow moving water sources.
Letting ducks eat maggots, especially those that have just came from decaying vegetation or a decomposing body.

Seasonality


Winter	Spring	Summer	Autumn

Botulism

Clinical Signs of Botulism in Ducks

How do Ducks Get Botulism?

Symptoms

Diagnosis

Treatment

Reported Cases

Prevention

References

Geographical Distribution

Risk Factors

Seasonality

Also Consider

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