Brood Cell Microcosm: Difference between revisions

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Solitary wasps are any of the Aculeate Hymenoptera that are not social, meaning they don't have a reproductive division of labor with queens laying eggs and workers.. working. Instead, female individuals create their own nests (broods) and provision these nests with a food source on their own. The food sources that each species of solitary wasps collect are highly variable. Some individual species or groups of closely related species can be extremely specialized to one type of food item. Examples of this are the clade Anthophila (the bees) which all provision their brood cells exclusively with pollen, or the family Pompilidae (the spider wasps) which only provision their nests with spiders. Once a brood cell is provisioned to perfection the solitary wasp mother will lay a single egg and seal the cell. She will build and provision brood cells until she dies. The eggs laid will hatch into larvae and begin to eat the food provision and grow. Larvae of many species undergo a period of diapause during the winter months before they pupate and exit as adults in the spring/summer. The focus of this page will take place in the part of the life cycle after the mother wasp seals her preciously provisioned cell and before her offspring emerges the following year.  
Solitary wasps are any of the Aculeate Hymenoptera that are not social, meaning they don't have a reproductive division of labor with queens laying eggs and workers.. working. Instead, female individuals create their own nests (broods) and provision these nests with a food source on their own. The food sources that each species of solitary wasps collect are highly variable. Some individual species or groups of closely related species can be extremely specialized to one type of food item. Examples of this are the clade Anthophila (the bees) which all provision their brood cells exclusively with pollen, or the family Pompilidae (the spider wasps) which only provision their nests with spiders. Once a brood cell is provisioned to perfection the solitary wasp mother will lay a single egg and seal the cell. She will build and provision brood cells until she dies. The eggs laid will hatch into larvae and begin to eat the food provision and grow. Larvae of many species undergo a period of diapause during the winter months before they pupate and exit as adults in the spring/summer. The focus of this page will take place in the part of the life cycle after the mother wasp seals her preciously provisioned cell and before her offspring emerges the following year.  


'''Members of Brood Cell Microcosm:'''


----
==Members of Brood Cell Microcosm:==


Bacteria and Yeast:
This section is a brief window into the understudied diversity of the '''solitary bee''' brood cell. There are many non-bee solitary wasp brood cell associates but most study has been placed on the economically important bee species.




''Bacteria and Yeast:''


Most studies of microbial associates living inside the pollen provisions of bees come from work done on the non-solitary bee species such as honey or bumblebees. Work was done using culture based techniques by Gilliam et al. in 1984 and 1989 that demonstrated spore-forming bacteria in the genus ''Baccilus'' are not only found in the pollen provisions of social honey bee colonies, but also in 3 species of solitary bee spanning across 2 different families (Apidae and Colletidae). This genus of bacteria is known to produce enzymes that are used by honey bees as microbial agents in their pollen and nectar provisions. Gilliam states:


"The production of both antibiotics and fatty acids by Bacillus spp. in larval provisions could limit the types of microbes that are able to survive, inhibit competition by other microbes for this food source, and protect the food from spoilage. The low pH of provisions may aid in this regard as well. Thus, these bacteria may be necessary for the maintenance of proper nutrition."


Other microbial species known to inhabit


More research is needed to determine the role microbial associates such as ''Baccilus sp.'' play in solitary bee brood cell microcosm. 


Fungi:  
 
 
 
''Fungi:''
[[File:BCM_2.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_2.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]


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Nematodes:  
''Nematodes: ''
[[File:BCM_3.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_3.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]


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Mites:
''Mites:''
[[File:BCM_4.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_4.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_5.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_5.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_6.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]
[[File:BCM_6.jpg|right|300px|"Photo scanned from Danforth et al. "The Solitary Bees"]]

Revision as of 16:52, 14 April 2021

"Photo scanned from Danforth et al. "The Solitary Bees"

The nests of solitary wasp species (including everybody's favorite pollen-collecting solitary wasps "the bees") are known as brood cells. Depending on the species observed these cells can be found in underground chambers, hollow twigs, sculpted with mud, or even crammed inside abandoned snail shells. These cells that female wasps provision with a food source (prey or pollen) and lay an egg in, don't stop interacting with the environment once they are sealed. The microcosm formed when a mother wasp seals a finished brood cell is home to a plethora of co-evolved relationships that can beneficially or negatively affect the health of the egg/larvae found in the nest. Brood cell mutualists and parasites span across many taxa; from yeasts and bacteria that negatively affect the health of the occupant, all of the way to mutualistic prostigmatic mites that fend off/eat infectious fungi.



Solitary Wasp Life Cycle and Development:


Solitary wasps are any of the Aculeate Hymenoptera that are not social, meaning they don't have a reproductive division of labor with queens laying eggs and workers.. working. Instead, female individuals create their own nests (broods) and provision these nests with a food source on their own. The food sources that each species of solitary wasps collect are highly variable. Some individual species or groups of closely related species can be extremely specialized to one type of food item. Examples of this are the clade Anthophila (the bees) which all provision their brood cells exclusively with pollen, or the family Pompilidae (the spider wasps) which only provision their nests with spiders. Once a brood cell is provisioned to perfection the solitary wasp mother will lay a single egg and seal the cell. She will build and provision brood cells until she dies. The eggs laid will hatch into larvae and begin to eat the food provision and grow. Larvae of many species undergo a period of diapause during the winter months before they pupate and exit as adults in the spring/summer. The focus of this page will take place in the part of the life cycle after the mother wasp seals her preciously provisioned cell and before her offspring emerges the following year.


Members of Brood Cell Microcosm:

This section is a brief window into the understudied diversity of the solitary bee brood cell. There are many non-bee solitary wasp brood cell associates but most study has been placed on the economically important bee species.


Bacteria and Yeast:


Most studies of microbial associates living inside the pollen provisions of bees come from work done on the non-solitary bee species such as honey or bumblebees. Work was done using culture based techniques by Gilliam et al. in 1984 and 1989 that demonstrated spore-forming bacteria in the genus Baccilus are not only found in the pollen provisions of social honey bee colonies, but also in 3 species of solitary bee spanning across 2 different families (Apidae and Colletidae). This genus of bacteria is known to produce enzymes that are used by honey bees as microbial agents in their pollen and nectar provisions. Gilliam states:

"The production of both antibiotics and fatty acids by Bacillus spp. in larval provisions could limit the types of microbes that are able to survive, inhibit competition by other microbes for this food source, and protect the food from spoilage. The low pH of provisions may aid in this regard as well. Thus, these bacteria may be necessary for the maintenance of proper nutrition."

Other microbial species known to inhabit

More research is needed to determine the role microbial associates such as Baccilus sp. play in solitary bee brood cell microcosm.



Fungi:

"Photo scanned from Danforth et al. "The Solitary Bees"




Nematodes:

"Photo scanned from Danforth et al. "The Solitary Bees"




Mites:

"Photo scanned from Danforth et al. "The Solitary Bees"
"Photo scanned from Danforth et al. "The Solitary Bees"
"Photo scanned from Danforth et al. "The Solitary Bees"