Wednesday, December 31, 2014

More Agouti Alleles brought about by Mutation

Up until this point, the only Agouti Alleles known to have descended from the Dailley Lines were Aa, Awt, Ag, Albf, and At (Tisket/ Canadian Variant).

Gulmogets in the U.S.

A mutation that popped up in Colorado, in 2010, with the ewe, Thistledown Gainn. Gainn appears to be a gulmoget, but of similar type to the gulmogets produced by UK Roban Dillon, and not like the Canadian/ Tisket gulmogets (which lack the chest stripe).  Gainn is Ag. She is out of two Ag parents pictured below. Gainn has reproduced the gulmoget pattern, as have her offspring. Repeated breedings of the parents have not produced another gulmoget and no other ram had been on the farm at that time.

Thistledown Gainn

Heart Cross Ramos, Gainn's sire (Ag/A? (Ag or Aa) ).
Heart Cross Lola, Gainn's Dam (Ag/A? (Aa or Ag) ).

Thistledown Ru'n (Heart Cross Ramos x Thisledown Gainn). 2011 Ewe, the offspring of a Father-daughter breeding back to Ramos, also Ag/At. Ru'n has also produced gulmogets.

Thistledown Maduinn (Sizemore Jublain x Thistledown Ru'n) 2013 Ewe Showing the gulmoget pattern with no Ag (At/Aa).

Dailley Ab Katmogets in the U.S.
Up until this point, I think that most breeders have suspected that any katmogets that came from the Dailley lines were light badgerface (Albf). After some research, I have found a couple lines of Ab katmogets tracing back to Dailley Ram, Z12345 #B.Y. 65 - Black S Ram 1988-04-20, who produced 19 offsping, including,

Dailley Silversmith S0331 #RD 240 - Emsket Bleset, Katmollet Tw Ram 1991-04-10 and

Dailley Silversmith produced 21 offspring, including,

Cabbage Hill Betsy S2183 #CHF#19 - Fawn Katmoget Tw Ewe 1993-04-12, who produced,

Cabbage Hill Corky S2185 #CHF#81 - Grey w/ white ears S Ram 1994-04-20, who produced,

ReginaLaudis Zephyr S11822 #002 - Fawn Katmoget Tw Ewe 1999-04-18, who produced 7 offspring at The Abbey of Regina Laudis, Bethlehem, Connecticut. Six of the 7 offspring were katmoget, some of these offspring produced more katmoget offspring. These katmogets are of interesting significance, as they allow us a deeper understanding of the genetics of the Dailley imports. They are also another bloodline that could potentially be crossed with UK Katmoget Genetics.

A Fawn Katmoget Ewe at The Abbey of Regina Laudis.

Monday, December 8, 2014

Brain-Dump on Natural Selection and Simulating it in a Domestic Situation

This is a brain-dump, a scattered combination of a couple discussions I have had with other breeders, a mashing of a couple drafts of things I have written but haven't finished, and stuff I'm currently thinking about (it will be added to). I apologized if I give you a headache. Warning, it's a little bit "all-over-the place".

There are some breeders of Shetland that feel that too much selective breeding toward specific wool types, horn phenotypes, colors, patterns, etc. could cause Shetlands to lose their natural hardiness, thriftiness, easy lambing, adaptability and longevity. Some breeders try to select for these traits. However, as breeders, we still have favorites in the flock based on friendliness, phenotype, bloodlines, etc, and we do give care to sick and needy animals. We are bound by what is humane and responsible. We deworm. We cull rams that have fatal horns. We build shelters for the sheep to escape the elements. We have breeding schemes. We manage a flock, we selectively breed according to a Standard, therefore we manage the genetics and the very essence of the sheep. Even if we select for specifically "natural" traits, we are still confined by the limits of the 1927 Standard. A good shepherd must cull even his hardiest sheep if it doesn't fit the breed. We practice Artificial Selection.

Even sheep on Foula, considered to be the most "natural" and unselected of the shetland breed, are subject to some human selection.

"Natural traits" are relative to the Animals Selected by Nature, animals that are naturally selected.

Fitness, also called Darwinian fitness, encompasses the ability to survive to reproductive age, success at finding a mate/s and producing offspring. Basically, the more offspring an individual makes during its lifetime, the greater its biological fitness. The better "fit" it is to it's environment, the more likely it is that it will produce offspring.

- If populations of animals at the mercy of Natural Selection are more "fit" than those who are Selectively Bred by humans, could Natural Selection be simulated?

- Can one simulate Natural Selection while conforming to the specifications of a Standardized Breed?

Those questions came about during a discussion I had a while back over this question:

Are Wild animals are more "fit" than their Domestic counterparts, more likely to better adapted to their environment genotypically and phenotypically, and more likely to live longer, and produce "biologically stronger" offspring than those in a domestic (farm), and further on, industrial (mega-farms)?

 Here's an outline of a simulation of Natural Selection I put together at work one night post-discussion, the context being with Shetland Sheep. I had to try and make sense of my own scribbles, so if it's a little rough, I'm sorry.

 The first thing that must be pointed out is that because Fitness is dependent upon the animal or population of animals in a specific environment, that comparing whether or not a domesticated and/or Standardized animal is more or less fit than an animal subjected to natural selection is slightly tricky, due the fact that the environments are very much different, farm animals have a tendency to be bought and sold (and in turn, moved to new locations) multiple times throughout their life, the ultimate purpose for the animal, and many other factors vary so differently. The ideal domestic situation would be one population in a specific environment over a long period of time, bred for the same purpose and in the same manner over a long period of time.

Natural Selection also varies due to a number of factors:

Environment- Changes in the environment cause changes in the population. Changes in the population cause changes in the environment. There is always a response somewhere. The more common traits in the population are traits that best fit the population to the environment. Natural selection is not so much random in that sense, on a large scale, however, but may be slightly random in regard to specific animals.

 Mutations- Mutations may occur causing randomness, genetic variation, traits that may not typically occur in that population in response to that environment. This aspect of Natural selection is quite random. I will try to simulate both randomness and non-randomness.

Selecting the Founder Animals:

Randomly- all animals are chosen randomly. Bottleneck. This would be the most "true".

Variation- start off with the greatest range of variation you can find. You must choose good and bad, defective, old, young, polled, horned, patterned, solid, extension, spotted, everything. I don't see how this one can be easy, or fun.

Intermediate- As close to middle-spectrum as possible. Would be very fun to watch "drift" over the course of time.

Best- choose the very best examples of the breed you can find. These would be animals that had been Selectively bred for generations. This one would would also be fun to watch, as reversion or evolution could potentially occur.

Basic Care:

Natural selection involves no deworming or extra feeding for animals that need it, so you'd have to get rid of the that.


Breeding Season would consist of one ram with all the ewes, so as to know the parentage of the lambs, and best gather data from this entire thing. The ram would have to be selected randomly from a group of rams. Writing each ram's name on a slip of paper and drawing from a hat would probably be the most random way of choosing. In a natural environment, the ram that creates the most offspring, is the one that is the most productive. This doesn't necessarily mean the ram is the most dominant ram, or that that ram is the most suited for it's environment. It's the ram that bred with the most ewes and/or produced the most lambs. That's something you can't really predict, or determine prior to lambing, so in that sense, randomness is "true" in this situation.

 I am not sure how long the ram would have to be kept with the ewes for, as you could keep him until lambing to ensure all the ewes are bred, but then that might allow some genetics to pass on that may not have, had the ram not been able to reach/breed with these ewes/ the ewes had not cycled at the same time as the ram. Your best bet, if you wanted to be the most "true", would be to leave the ram in with the ewes for entire year. This way, if the ram does not breed with the ewes, it is not because you removed him.


There'd also have to be some form of culling. In wild populations, the size of the population fluctuates in response to the environment, predators, fertility, etc If there was no culling, your population would expand exponentially until the culling took place by itself, which would not end well for you.

In a Domestic situation, people tend to keep the ones they like, save the sick from dying, keep a few pets, and sell all the ones they no longer want in their flock's gene pool. The people select for certain things, and their flock changes because of it.

Culling in the wild is done somewhat randomly. The animals that are least suited for the environment will typically die off first, then the old or sick or disabled (natural causes), then, any that die off due to accidents (falling off a cliff, eating something poisonous, running in front of a car, drowning, getting stuck in a mud bog, being crushed by a boulder, lightning strike, etc.), and then any that are killed by predators. In this case, random culling in the situation would be okay, though not necessarily 'true'.

 Again, draw names from a bag, the first however many drawn are kept, the ones not drawn, are culled. This process would be the same with the rams. After the first cull cycle, your population should have changed either very little or quite a lot, in response to what has happened. Your flock may have more genetics from the first breeding ram, or it may not. Instead of drawing a set number, possibly just reach in and grab a handful, that will determine your population size. The more you grab, the higher the population, the more likely for genetic diversity. The less you grab, the lower the population, the more likely for genetic drift to occur over time.

If populations of animals at the mercy of Natural Selection are more "fit" than those who are Selectively Bred by humans, could Natural Selection be simulated?
-Yes, and no. You can create a situation in which genetic drift will occur, but it is not exactly by natural means. Therefore, not exactly natural selection. There is far too much randomness, and the process is far too quick for increased fitness ("stronger animals") to be viable.

Can one simulate Natural Selection while conforming to the specifications of a Standardized Breed?
-Probably not....

Saturday, January 18, 2014

Dailley Breeding Season 1981- Lambing 1982

Dailley Breeding Season 1981- Lambing 1982

4 Rams, 42 Ewes

------ Color to Color Breeding
------ Repeat Breeding
------ Father to Daughter Breeding
------ Mother to Son Breeding

------ Discrepancy

Colonel Moorit Ram #0983 Z0983           C1981-1982
1. Canada 64 Z0964 Moorit Ewe
                               -Twin Ram Z2400
                                    -Twin Ram Z2401
2. Canada 61 Z0961 Moorit Ewe
                                    -Twin Ewe Z2421
3. Canada 62 Z0962 Moorit Ewe
                                    -White Twin Ram Z2398
                                    -Moorit Twin Ewe Z1399

4. Canada 63 Z0963 Moorit Ewe
                                   -Single Ewe
5. Canada 66 Z0966 Moorit Ewe
                                   -Single Ram Z2402
6. Canada 69 Z0969 Moorit Horned Ewe
                                   -Single Ewe Z2423
7. Canada 68 Z0968 Moorit Ewe
                                   -Single Ewe Z2424
8. Z1744 (Colonel x Canada 64) Single Ewe
                                   -Single Ram Z2406
9. Z1740 (Colonel x Canada 67) Moorit Ewe
                                   -Single Ewe Z2428
10. Z1774 (Colonel x Canada 68) Moorit Ewe
                                   -Single Ewe Z2428
11. Z1734 (Colonel x Canada 69) Single Ewe
                                   -Single Ram Z2403
12. Dailley Dawn Z1736 (Colonel x Canada 61) Fawn Twin Ewe
                                   -Single Ram Z2404
13. Z1743 (Colonel x Canada 62) Moorit Single Ewe
                                   -Single Ewe Z2429
14. Dailley Corrine Z1720 (Pierre x Canada 60) Fawn Twin Ewe
                                   -Dailley Dena Light Moorit Single Ewe Z2425
15. Z1735 (Colonel x Canda 61) Single Ewe
                                   -Single Ewe Z2426
16. Z1739 (Colonel x Canada 66) Moorit Single Ewe
                                   - Single Ram Z2405

Duncan Blue/Grey #0984 Z0984        D1981-1982

1. Canada 72 Z0972 White Ewe
                                   -White Single Ewe Z2430
2. Canada 74 Z0974 White Ewe
                                   -White Single Ewe Z2432
3. Canada 57 Z0957 Blue/Grey Horned Ewe
                                   -Twin Ram Z2410
                                   -Dailley Flether Grey Twin Ram Z2411
4. Canada 55 Z0955 Blue Grey Ewe
                                   -Single Ram Z2407
5. Canada 73 Z0973 White Ewe
                                   -White Single Ewe Z2431
6. Canada 56 Z0956 Blue/Grey Ewe
                                   -Dailley Ole Blue Blue/Grey Twin Ram Z2408
                                   -Twin Ram Z2409
7. Z1750 (Hartland x Canda 72) Single Ewe
                                   -Single Ram Z2413
8. Dailley Della (Hartland x Canada 79) White Twin Ewe
                                   -White Single Ram Z2433
9. Dailley Daphne (Duncan x Canada 58 Grey Twin Ewe
                                   -Grey Single Ram Z2414
10. Z1751 (Hartland x Canda 75) Single Ewe
                                   -Single Ram Z2412
11. Z1753 (Hartland x Canada 79) Twin Ewe
                                   -White Single Ewe Z2434

Hartland Blue/Grey Ram #0985 Z0985 H1981-1982
1. Canada 58 Z0958 Blue/Grey Ewe
                                   -Ram Z1893
2. Canada 70 Z0970 White Ewe
                                   -Twin Ewe Z2438
                                   -Twin Ewe Z2439
3. Canada 82 Z0982 White Ewe
                                  -White Ewe Z2442
4. Canada 79 Z0979 White Ewe
                                  -White S Ewe Z2441
5. Canada 75 Z0975 White Ewe
                                  -Single Ewe Z2440
6. Canada 76 Z0976 White Ewe
                                  -White Single Ram Z2418
7. Z1726 (Pierre x Cnada 81) White Twin Ewe
                                  -Dailley Farah Musket S ewe Z2243
8. Dailley Dale Z1724 (Pierre x Canda 80) White Twin Ewe
                                  -White S Ram
9. Z1727 (Pierre x Canada 81) Twin Ewe
                                  -S Ram Z2420

Pierre White Ram #0986 Z0986     P1981-1982
1. Canada 78 Z0978 White Ewe
                                  -White S Ram Z2415
2. Canda 77 Z0977 White Ewe
                                  -White S Ewe Z2435
3. Canda 80 Z0980 White Ewe
                                  -White S Ewe Z2436
4. Canda 81 Z0981 White Ewe
                                  -White S Ewe Z2437
5. Canada 59 z0959 Black Ewe
                                  -Dailley McMunch White S Ram Z2416
6. Z1728 (Duncan x Canda 56) Grey Twin Ewe
                                 - White S Ram Z2417

Tuesday, January 7, 2014

Breeding Season 1980 (UK)- Lambing 1981 (Canada)

4 Rams, 27 Ewes
---- Color to Color Breeding

Hartland Blue/Grey Ram #0985 Z0985

1. Canada 70 Z0970 White Ewe
                - Single Ram Z1737
2. Canada 71 Z0970 White Ewe
                -Twin Ram Z1745
                - Twin Ram Z1746
3. Canada 78 Z0978 White Ewe
                - Single Ram Z1747
4. Canada 76 Z0976 White Ewe
                - Single Ram Z1748
5. Canada 74 Z0974 White ewe
                - Single Ram Z1749
6. Canada 72 Z0972 White Ewe
                -Single Ewe Z1750
7. Canada 75 Z0975 White Ewe
                -Single Ewe Z1751
8.Canada 79 Z0979 White ewe
                -Dailley Della White Twin Ewe Z1752
                -Twin Ewe Z1753
9. Canada 73 Z0973 White Ewe
                -Single Ram Z1754

Colonel Moorit Ram #0983 Z0983           C1980-1981
1.Canada 69 Z0969 Moorit Horned Ewe
                -Single Ewe Z1734
2. Canada 61 Z0961 Moorit Ewe
                -S Ewe Z1735
                -Dailley Dawn Fawn Twin Ewe Z1736
3. Canada 63 Z0963 Moorit Ewe
                -S Ram Z1738
4. Canada 66 Z0966 Moorit Ewe
                -Moorit S Ewe Z1739
5. Canada 67 Z0967 Moorit Ewe
                -S Ewe Z1740
6. Canada 68 Z0968 Moorit Ewe
                -Twin Ewe Z1741
                -Dailley Capt. Bligh Dark Brown Twin Ram Z1742
7. Canada 62 Z0962 Moorit Ewe
                -Moorit S Ewe Z1743
8. Canada 64 Z0964 Moorit Ewe
                -S Ewe Z1744
9. Canada 65 Z0965 Moorit Ewe
                -Moorit S Ram Z1756

Pierre White Ram #0986 Z0986     P1980-1981
1. Canada 60 Z0960 Black Ewe
                -Dailley Corrine Fawn Twin Ewe Z1720
                -Fawn Twin Ram Z1721
2. Canada 57 Z0957 Blue/Grey Horned Ewe
                -Single Ram Z1722
3. Canada 77 Z0977 White Ewe
                -Ram Z1723
4. Canada 80 Z0980 White ewe
                -Dailley Dale White Twin Ewe Z1724
                -Twin Ewe Z1725
5. Canada 81 Z0981 White Ewe
                -White Twin Ewe Z1726
                -Twin Ewe Z1727
6. Canada 82 Z0982 White Ewe
                -Single Ewe Z1755

Duncan Blue/Grey #0984 Z0984        D1980-1981
1. Canada 56 Z0956 Blue/Grey Ewe
                -Grey Twin Ewe Z1728
                -Dailley Dee Black Tw Ewe Z1729
2. Canada 55 Z0955 Blue/ Grey Ewe
                -Twin Ram Z1730
                -Twin Ewe Z1731
3. Canada 58 Z0958 Blue/Grey Ewe
                -Dailley Daphne Grey Twin Ewe Z1732
                -Twin Ram Z1733

Okay, a few things that caught my eye,
1. Hartland, a Blue/Grey was only put to White ewes. If Hartland was Ag/Aa, the majority of the lambs would have a 25% Percent chance of being Awt/Ag, Awt/Aa, Ag/Aa, or Aa/Aa, assuming all the mothers were Awt/Aa, which, is highly unlikely.
2.Colonel, a Moorit, was only put to Moorit ewes. Pretty Logical.
3. Pierre, a white, gets put to a black, a Blue/Grey, and 4 White Ewes. With the black ewe, he produces two fawn lambs. This could be Fawn (modified), but seeing as how back then most breeders thought Musket was fawn, it could be Musket.
4. Duncan, a Blue/Grey, gets put to 3 Blue/Greys. Also fairly logical...but wait, why was the Horned Blue/Grey put to Pierre? Was Duncan perhaps related to Canada 57? Or did Canada 57 have the worst fleece of the bunch, and was put to Pierre to improve it in the offspring?
5. Where's Canada 59? She didn't breed in 1981, even though she was 4 years old. She actually may have actually lost her lambs to dogs, as they did lose lambs that way the first year or so, or one of the ewes below may have stolen her lamb, as Canada 77 could not have had 2 lambs in the span of 5 months.
6. Canada 77 has a lamb 1981-05-02 and a lamb 1981-10-04.
7. Canada 58 has a lamb 1981-05-07 (by Duncan), 1981-05-08 (by Duncan), and 1981-11-15 (by Hartland)
8. Canada 65 has a lamb 1981-06-01 (by Colonel).
9. This ewe is not in the Registry.

Potential Fall Breeding Groups: Group #3 of 3

Wintertime Jay-Z Sire: Wintertime Blue Jay Dam: Wintertime Malia Color Genotype: Ab/Aa BB/BB SS/S? MM/M? Horn Genotype/Phenotype: p/p? T...