Deseases of Stingless Bees

Stingless bees (Meliponini) are vital pollinators in tropical ecosystems and are increasingly significant in sustainable agriculture. However, they face various pests and diseases that can compromise colony health and productivity. Below is a detailed overview of these challenges, their impacts, and management strategies.

1. Bacterial Infections

Stingless bees (Meliponini) are essential pollinators in tropical ecosystems, but they face increasing threats from bacterial infections. These infections can compromise brood health, colony productivity, and overall survival. Understanding their causes, symptoms, and management strategies is crucial for sustainable beekeeping.

Common Bacterial Pathogens in Stingless Bees

1. Pseudomonas spp.

• Found in contaminated hive materials and fermented pollen stores.
• Can cause brood deformities and weaken colony immunity.

2. Melissococcus spp.

• Associated with European Foulbrood (EFB)-like symptoms in stingless bees.
• Leads to larval decay and colony collapse.

3. Lysinibacillus spp.

• Impacts brood development, causing high mortality rates.
• Often linked to environmental contaminants affecting hive health.

Symptoms of Bacterial Infections

• Discolored or decaying brood.
• Unusual odors from pollen and honey stores.
• Reduced colony activity and foraging efficiency.
• Increased larval mortality leading to population decline.

Management Strategies

1. Hive Hygiene and Biosecurity

• Regular cleaning of hive interiors to remove bacterial contaminants.
• Propolis application to enhance antimicrobial defense.

2. Natural Antibacterial Treatments

• Probiotic supplements to support bee immunity.
• Essential oils like thyme and oregano to inhibit bacterial growth.

3. Environmental Control

• Reduce exposure to contaminated water sources.
• Maintain optimal hive ventilation to prevent bacterial buildup.

Conclusion

Bacterial infections pose a significant challenge to stingless bee health, but proper hive management and natural treatments can mitigate their impact. By understanding these pathogens, beekeepers can protect their colonies and ensure sustainable pollination.

2. Fungal and Yeast Infections

Yeasts like Saccharomyces, Starmerella, and Candida are commonly found in stingless bee colonies. While some are benign, others can ferment stored pollen and honey, compromising food quality and colony health. Nature

Common Fungal and Yeast Pathogens in Stingless Bees

1. Saccharomyces and Starmerella Yeasts

• Found in honey and pollen stores, sometimes beneficial but can ferment food.
• Excessive yeast growth leads to nutritional imbalances and hive contamination.

2. Candida and Aspergillus Fungi

• Candida can infect brood cells, causing larval deformities.
• Aspergillus leads to chalkbrood-like symptoms, where larvae become mummified.

3. Zygosaccharomyces Symbiosis

• Some stingless bees, like Scaptotrigona depilis, rely on Zygosaccharomyces yeast for nutritional benefits.
• This yeast helps in ecdysteroid biosynthesis, crucial for larval metamorphosis.

Symptoms of Fungal and Yeast Infections

• Fermented honey and pollen with unusual odors.
• Weak or deformed larvae due to fungal contamination.
• Mummified brood resembling chalkbrood.
• Reduced colony activity and foraging efficiency.

Management Strategies

1. Hive Hygiene and Ventilation

• Remove contaminated food sources to prevent fungal spread.
• Improve airflow to reduce moisture buildup.

2. Natural Antifungal Treatments

• Propolis extracts have antimicrobial properties.
• Essential oils like thyme and tea tree oil can inhibit fungal growth.

3. Biosecurity Measures

• Separate stingless bee colonies from honeybee apiaries to prevent pathogen spillover.
• Monitor colony health regularly for early detection.

Control: Ensure proper ventilation, remove contaminated food sources, and use antifungal treatments if necessary.

3. Viral Diseases

Stingless bees (Meliponini) are vital pollinators in tropical ecosystems, but they are increasingly threatened by viral diseases. These infections can weaken colonies, reduce pollination efficiency, and even lead to colony collapse. Here’s an overview of viral diseases affecting stingless bees and how they can be managed.

Common Viral Diseases in Stingless Bees

1. Acute Bee Paralysis Virus (ABPV)
   • Causes trembling, bloated abdomens, and flight incapacity.
   • Often leads to sudden death in infected bees.
   • Likely transmitted from honeybee populations via shared floral resources or direct contact.
2. Deformed Wing Virus (DWV)
   • Leads to wing deformities, reducing flight ability.
   • Weakens colony health and productivity.
   • Often associated with Varroa mites, which spread the virus.
3. Black Queen Cell Virus (BQCV)
   • Affects developing queen larvae, leading to blackened, dead queen cells.
   • Can disrupt colony reproduction and stability.

Symptoms and Transmission

• Infected bees may appear greasy and hairless.
• Some viruses spread through parasites like Varroa mites.
• Cross-contamination from honeybee colonies can introduce new viral threats.

Management Strategies

• Integrated Pest Management (IPM): Reducing colony density and using resistant bee stocks.
• Hive Hygiene: Removing old combs and applying propolis to reduce viral loads.
• Natural Treatments: Some substances like thymol and fungal extracts show promise in controlling viral infections.
• Biosecurity Measures: Keeping stingless bee colonies separate from honeybee apiaries to prevent pathogen spillover.

Understanding and mitigating viral diseases is crucial for maintaining healthy stingless bee populations and ensuring their role in pollination and biodiversity conservation. If you’re interested in more details, you can explore

4. Pathogen Spillover from Honeybees

Managed honeybee colonies can be sources of pathogens that spill over to wild stingless bees, exacerbating disease pressures and contributing to pollinator declines.

Pathogen spillover occurs when diseases from managed honeybee colonies spread to wild pollinators, including stingless bees. This phenomenon is increasingly recognized as a factor in pollinator declines2.

How Spillover Happens

• Shared floral resources: Honeybees and wild bees often forage on the same flowers, leading to indirect transmission of pathogens.
• Direct contact: Wild bees may rob infected honeybee colonies or interact with contaminated hive materials.
• Vectors: Parasites like Varroa mites can carry viruses between honeybee and wild bee populations.

Common Pathogens Involved

• Deformed Wing Virus (DWV)
• Black Queen Cell Virus (BQCV)
• Nosema ceranae (a microsporidian parasite)
• Acute Bee Paralysis Virus (ABPV)

Pathogens can have devastating effects on stingless bee colonies, impacting their health, productivity, and survival. Here are some key consequences:

1. Colony Decline and Mortality

• Viruses like Acute Bee Paralysis Virus (ABPV) can cause paralysis, bloated abdomens, and flight incapacity, leading to sudden death.
• Bacterial infections from Pseudomonas, Melissococcus, and Lysinibacillus can weaken brood health, causing colony losses.
• Fungal infections, such as Starmerella and Candida, can ferment stored pollen and honey, reducing food quality.

2. Reduced Pollination Efficiency

• Infected bees struggle to forage, leading to lower pollination rates.
• Pathogen spillover from honeybees can introduce Deformed Wing Virus (DWV) and Nosema ceranae, further weakening stingless bee populations.

3. Increased Vulnerability to Environmental Stress

• Pathogens weaken immune responses, making colonies more susceptible to climate change and habitat loss.
• Contaminants in hive materials can exacerbate disease effects, reducing colony resilience.

4. Disruption of Hive Dynamics

• Sick bees may abandon the hive, leading to population imbalances.
• Pathogen transmission can alter social behaviors, affecting colony cohesion and productivit

Mitigation Strategies

• Regulated hive movement: Reducing migratory beekeeping can limit disease spread.
• Habitat restoration: Encouraging native bee populations can help balance pollinator health.
• Monitoring and biosecurity: Keeping stingless bee colonies separate from honeybee apiaries reduces cross-contamination

Control: Keep stingless bee colonies separate from honeybee apiaries and monitor for signs of infection.