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The "bonded" Gotland bees lose there mite resistance in the F-2 generation

3K views 16 replies 5 participants last post by  crofter 
#1 ·
Odemer (2020) Reproductive capacity of varroa destructor in four different honey bee subspecies https://www.sciencedirect.com/science/article/pii/S1319562X19301640?via=ihub
For the F2 generation of the surviving population from Gotland however, we had expected a different outcome. The Gotland bees have developed an apparent reduced mite reproductive success trait that is either inheritable from paternal, maternal or both sides in the F1 generation (Locke, 2016b). Our results provide evidence that this trait seems to fade out by further generational change, once more making the colonies susceptible to Varroosis.
speaks to just how fast traits are lost with outcrosing
 
#2 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

This is a good read, MSL.

By this same token, why the beekeepers keep "breeding" their bees for less swarming, more honey, less defensiveness, yadda, yadda?
A common line you read over and over - "breed from that queen because she is not swarmy".

None of this breeding makes sense because of "how fast traits are lost with out-crossing" (unless you are THE breeder, I suppose).
Exact same idea should apply to most any trait.

No?
:)
 
#3 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

If you can't control both sides of the reproductive equation, trying to maintain certain traits in any species is a futile attempt or at best a shot in the dark. The only way to control both sides of the equation with honeybees is through AI due to the way the honeybee breeds. But hey, I'm just a DA ******* from Alabama so what do I know :scratch:
 
#5 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

If you can't control both sides of the reproductive equation, trying to maintain certain traits in any species is a futile attempt or at best a shot in the dark. The only way to control both sides of the equation with honeybees is through AI due to the way the honeybee breeds. But hey, I'm just a DA ******* from Alabama so what do I know :scratch:
And yet, I read just few threads over right now:
I have a store bought queen that just got through her 3rd winter and never made a swarm cell. I'm grafting off of her this year' just wonder if that will help with that.
So why would one do that - graft off the non-swarmy queen so to breed non-swarmy bees in back-yard environment?
:)

In fact, we read a plenty reputable advice how one should be selecting their "best bees" and propagate from them - all of this in the uncontrolled back-yard conditions.
Plenty of such advice right on the BS.
 
#4 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

I see the reverse, it shows just how important selection/breeding is
"breeding" bees is beyond most, witch is why requeening with bought queens has been the SOP to maintain a apiary's traits.
Some one with enuff hives can easy practice stock selection, Taking a colony that is strongly expressing a trait you like(or buy a breeder queen) and re queening form them..
a year or 2 down the road you have picked a new breeder and repeat. This is how you keep traits at an apiary level.
sadly this is showing(lock2016b was looking good in the f-1) how fast "natural" selection(20 years untreated) is undone in bees, this suggests this method will not be a viably source of exportabul gentinces.

but human selection, human selection can be much stronger then natural. We see this in traits like hygienic behavior being selected to be expressed much higher then in nature every trait has a cost, and nature often selects for just enough to get by (as a species) if the need for hygienic behavior arises in a out break, some will live.. but with human selection we can increase the expression of the trait to be many times stronger than nature, and therefore it survives more out crossing.

If you can't control both sides of the reproductive equation, trying to maintain certain traits in any species is a futile attempt
disagree.. Swarmy hives tend to make swarmy queens, hot hives tend to make hot queens
The only way to control both sides of the equation with honeybees is through AI due to the way the honeybee breeds
What about isolated mating stations, moonlight mating, drone saturation ?
 
#7 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

I see the reverse, it shows just how important selection/breeding is
"breeding" bees is beyond most, witch is why requeening with bought queens has been the SOP to maintain a apiary's traits.
Some one with enuff hives can easy practice stock selection, Taking a colony that is strongly expressing a trait you like(or buy a breeder queen) and re queening form them..
a year or 2 down the road you have picked a new breeder and repeat. This is how you keep traits at an apiary level.
sadly this is showing(lock2016b was looking good in the f-1) how fast "natural" selection(20 years untreated) is undone in bees, this suggests this method will not be a viably source of exportabul gentinces.

but human selection, human selection can be much stronger then natural. We see this in traits like hygienic behavior being selected to be expressed much higher then in nature every trait has a cost, and nature often selects for just enough to get by (as a species) if the need for hygienic behavior arises in a out break, some will live.. but with human selection we can increase the expression of the trait to be many times stronger than nature, and therefore it survives more out crossing.


disagree.. Swarmy hives tend to make swarmy queens, hot hives tend to make hot queens

What about isolated mating stations, moonlight mating, drone saturation ?
Yes, I agree that certain traits can be carried on to daughter queens, but unless you can control the drone side of the equation these traits will most likely be diminished with each successive breeding. Is controlling the drone side possible? Absolutely! But it's out of the reach of the vast majority of beekeepers. Are gentle traits always passed on from queen to queen or does the drone impact those traits for better or worse? If you have a virgin queen from a known gentle queen breed with a drone from a very aggressive queen, which trait is passed on or is it a mix. Will the next generation of queen from this now mated queen be hot or calm? Would it make more sense to focus more of our efforts on controlling the drone genes since they only get the traits of the queen whereas the queens genes are diluted by those of an unknown drone?

Look guys, I am way in over my head on this subject. I don't raise my own queens at this point but I do have plans to start in the near future. But I look at this from a basic math problem even though I know its more complicated than that. I certainly don't know the answers to the questions I raised, I simply asked in hopes of getting a better understanding of queen rearing and I appreciate the feedback.
 
#10 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

I think most people would conclude that the prospects are a lot better IF you can control drone genetics as well. Also that it would be quite hard on a small scale to make changes if there is an overwhelming presence of bees with a decidedly unwanted characteristics. Like say you are in an area commonly used as a holding area for bees off almonds and you are trying to encourage bees displaying traits more often found in russian, carniolan or caucasion bees. You might get lucky but the math is working against you.
 
#11 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Ok, here's another question. Let's say you have the ability to control both queen and drone genetics, how concerned do we need to be about inbreeding? If inbreeding is generally a concern, and I believe it is, how big of a math problem does this get to be? How many generations removed from the original queen and drone do we need to be to not consider it inbreeding?
 
#12 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Yes, I agree that certain traits can be carried on to daughter queens, but unless you can control the drone side of the equation these traits will most likely be diminished with each successive breeding.
correct, that is why you re queen with daughters of a colony that is highly expressing what you looking for, with the under standing it will get watered down by F-2+.. That's the difference between a breeder queen(F-0) and a production queen (F-1)

how big of a math problem does this get to be?
http://www.capabees.com/shared/2013/02/pagelaidlawbreedingprogram.pdf
https://www.tandfonline.com/doi/abs/10.1080/0005772X.1985.11098826?journalCode=tbee20

There are very good reasons why buying replacement (production) queens from a breeder every few years has long been the standard for the smaller beekeeper to keep traits like honey production in the apiary.
 
#15 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

correct, that is why you re queen with daughters of a colony that is highly expressing what you looking for, with the under standing it will get watered down by F-2+.. That's the difference between a breeder queen(F-0) and a production queen (F-1)
I agree and think this is good practice, I just wanted to make sure that the new beekeepers understand the realities of trying to breed certain traits across generations of bees.



There are very good reasons why buying replacement (production) queens from a breeder every few years has long been the standard for the smaller beekeeper to keep traits like honey production in the apiary.
This is what I have practiced up to this point and have had fairly good results, but I'm getting to the point in my journey that I'm ready to add another aspect of beekeeping and queen rearing is next on the list. I do plan to continue to add outside queens on a regular basis to maintain A diverse pool of genes.
 
#13 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Odemer (2020) Reproductive capacity of varroa destructor in four different honey bee subspecies https://www.sciencedirect.com/science/article/pii/S1319562X19301640?via=ihub


speaks to just how fast traits are lost with outcrosing
Became interested in the current status of the "Gotland" project.
After some Googling, here it is:
The Gotland population comprised 20 to 30 colonies in 2015 (Locke, 2016). It is still monitored for
research purposes, although it is not used commercially. Due to the increasing density of nonresistant
colonies in the surrounding environment, the experimental population recently
experienced increasing infestation levels and, from 2017 on wards, it was treated as a
precautionary measure in order to decrease the risk of losing a stock of such scientific
importance (Dietemann and Locke, 2019). Although it is not known whether this population
would have perished without these treatments, the unusual increase in infestation rates raises
a question concerning the long-term resilience of populations that have been through such a
severe bottleneck.
From: https://www.researchgate.net/public..._destructor_Outcomes_Limitations_and_Strategy
 
#14 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Good find !!!!
sad news, but good info
maby this will help some people get off the "natural selection" idea and focus on the reality's of beekeeping
 
#16 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Gotland is also a small population of mites. What may have been happening was natural selection for a variety of slightly less dangerous mite. When the population of prey (bees) is very low, it doesn't do the predator much good to kill them all off. So maybe the Gotland bees are more resistant but only to the Gotland mites.
 
#17 ·
Re: The "bonded" Gotland bees lose there mite resistance in the F-2 generation

Gotland is also a small population of mites. What may have been happening was natural selection for a variety of slightly less dangerous mite. When the population of prey (bees) is very low, it doesn't do the predator much good to kill them all off. So maybe the Gotland bees are more resistant but only to the Gotland mites.
From reading the article on mite resistance (or tolerance) it appears there is a wide range of mechanisms or combinations responsible. Add that to specific local conditions and it sure makes it difficult to put your finger on what to pursue. After achieving survival you may have another whole selection process to get rid of undesirables such as temperament, excessive swarmyness or productivity issues. An equation in multi, multi, unknowns.
 
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