Ascosphaera spp.
Pest description and damage Chalkbrood is a severe fungal disease caused by different species of Ascosphaera. Problems with chalkbrood are common in both alfalfa leafcutter bees and honeybees. Although A. aggregata is the main species causing mortality to alfalfa leafcutting bees, a recent study revealed that multiple species of Ascosphaera can be found in a single brood cell. It was first reported in the U.S. in 1973 and remains as one of the greatest causes of alfalfa leafcutting bee deaths. In 2009, a devastating outbreak of chalkbrood almost wiped out the bee production in Idaho and Oregon. Bee equipment can be contaminated by fungal spores facilitating the spread of the disease. Adult bees emerging from contaminated cells and bee larvae consuming contaminated pollen may become infected and continue to spread fungal spores. Spores germinate in the midgut and penetrate into the body cavity. Chalky white coloration occurs when the mycelium fills the body cavity and spores are released when the cuticle of infected bee cadavers rupture. Newly emerging adults become contaminated with spores as they chew through cells with spore-laden cadavers then spores are transferred to provisions of the new nest.
Management
To ensure a healthy bee stock, growers should not expect more that 3% of chalkbrood presence in their bee samples. To keep track of the chalkbrood levels in purchased stocks and prevent severe infestations, it is highly recommended to sample bee cells every year and request diagnostic analyses (e.g., The Parma Cocoon Testing Lab). Replacing old used nest material can reduce or limit the spread of chalkbrood. Alternatively, decontaminate bee equipment and nesting materials using bleach or heat. Bee cells and nest materials can also be dipped in bleach or 3% solution of sodium hypochlorite for 1 to 2 minutes to reduce or prevent spreading of the infection. Dry bee cells away from direct sunlight or excessive heat. Bleaching and drying should be completed before incubation. Submerging the nests in bleach solutions (1:3) for one minute is in debate, as there could be a significant damage to the bee larvae if mistakes are made. This practice could be a last resort in severe cases of chalkbrood infestations.
Solid wood blocks, boards, and laminates can be heated in a kiln at 248°F to kill chalkbrood spores. Wood and polystyrene nesting boards can also be dipped in 5% solution of sodium hypochlorite. Disinfect boards in the spring and allow them to dry completely before use. Fumigation of cells and equipment using formaldehyde may be more effective than bleach or heat treatments. Formaldehyde, however, can be toxic and dangerous for the handler, therefore neutralization with ammonium bicarbonate is strongly suggested. Formaldehyde gas reacts with ammonia gas to produce hexamine which is relatively harmless to the handler, bee brood, and environment. Some bee providers in the Pacific Northwest prefer using wood boards to minimize the propagation of chalkbrood.
Loose cell management method where bee cells are contained loosely together in over-wintering bins or trays may improve ease of sanitation measures and reduce some pest problems. The loose cell method allows for the removal of chalkbrood cadavers and prevents newly emerging adult bees from having to chew their way through chalkbrood cadavers and becoming exposed. Note, however, that loose cell management may pose wide-spread risk of spore exposure. Current research is being conducted to examine ways to kill spores while using loose cell management.
For more information:
Clements J., Haylett M., Nelson B., Shumate S., Young N., Bradford B., Walsh D., Lamour K. 2022. Multiplex Polymerase Chain Reaction Reveals Unique Trends in Pathogen and Parasitoid Infestations of Alfalfa Leafcutting Brood Cells. J. Ins. Sci. 22: 1-9.
Baird, C.R. and R.M. Bitner. Loose Cell Management of Leafcutting Bees. Western Regional Extension Publication 12.
James, R.R. 2005. Impact of disinfecting nesting boards on chalkbrood control in the alfalfa leafcutting bee. J. Econ. Entomol 98(4): 1094-1100.