"Breeding-back" aims to restore or immitate extinct animals by selective breeding. This blog provides general information, the facts behind myths and news from various projects.
The head of
the aurochs is another one of those features that clearly distinguish it from
many modern cattle breeds. Most domestic cattle skulls are paedomorphic: they
retain juvenile traits all their life, such as a concave profile, a short snout
and front head, larger eyes et cetera. Consequently, the skull bone of the
aurochs was much more elongated than in many cattle breeds, with a long snout
and front head and comparably small eyes sitting in prominent sockets.
Over the
last year I did a lot of life restorations based directly on photos of a lot
aurochs skulls, about 20 or so. Some of the better ones are presented above.
These reconstructions confirm what is implied by the actual skull bones. There
are, however, skulls that are shorter than in average aurochs individuals (f.e.
the Cambridge cow from the early Holocene), but the snout profile is always
either straight or slightly concave.
Note that
the different horn shapes on my drawings are either an result of perspective or
orientation relative to the skull – the basic curvature of aurochs horns was
always the same. I’ll do a post on the aurochs’ horns some time as well.
The skull
of most, if not all, Heck cattle is considerably shorter than in the aurochs
and more or less paedomorphic, therefore its skull differs from the wild bovine
but is much like that of other domestic cattle.
Heck cattle usually have a paedomorphic skull much shorter than in the aurochs (Photo above: Wenzel)
Taurus
cattle individuals usually have much better skulls, probably thanks to the influence of
Sayaguesa. This Taurus cattle skull that I repost here, resembles the aurochs
skulls to a large extent already (just slightly shorter):
Taurus bull skull (above) compared with a true aurochs skull (below)
In
Sayaguesa, particularly the cows have a very elongated, straight-profiled
skull. The same goes for some Pajuna individuals, and also some Maremmana
primitivo.
Even some
highly-derived breeds like Holstein and some zebuine breeds have very elongated
skulls:
Holstein cow (Photo: flickr)
A
particularly interesting detail of the European aurochs’ head in life was the
curly hair between the horns. Anton Schneeberger makes a reference about it in
a letter published in 1602, and the copy of the “Augsburg painting” by Charles
Hamilton Smith also shows it. It was a cult to cut the skin with the hair off
the face of caught living aurochs during the middle ages, because it was
thought that belts made from that skin could increase fertility [1]. Many
cattle breeds show that curly front head hair, particularly the bulls. The exact
colour of this portion is unknown. Historic evidence (text references and
artistic depictions) suggest that it was coloured black or at least dark in
European aurochs bulls, while a cow depicted at Lascaux clearly shows a
lightly-coloured area between the horns. But many aurochs-like breeds show
lightly-coloured hair between the horns in bulls as well. Cis van Vuure
considers this to be a discolouration after domestication [1], but Gaurs also
display lightly-coloured hair on their fronthead. Thus, parsimony implies that
it must have been present in at least some aurochs populations if not in
Europe. Because of that uncertainty, I think that it is possible that the
colour of that particular area ranged from black over reddish-brown to blond in
bulls, and probably always light in cows.
[1] van Vuure, Cis: Retracing the Aurochs - History, Morphology
and Ecology of an extinct wild Ox.
In this
post, I described a number of Tarpan-like horse breeds. None of these breeds is
a complete stand-in for the Tarpan, but each of them is able to survive without
human help and each of them resembles at least one colour morph of the Tarpan
to a larger or lesser extent. That’s why most rewilding projects are convinced
that no further breeding (more precisely, “breeding-back”) is necessary for "restoring" the wild horse in Europe.
Speaking in terms of ecology and social behaviour, this might be true indeed.
But in this post I want to share my thoughts on which kinds of breeds would
give us an authentic picture of how the Tarpan looked like and behaved like,
and what combination might be best for being rewilded.
As I
explained here, the Tarpan did not have a uniform appearance. Although probably
all Tarpans had a relatively small, strong and stocky body with a robust head
and a short frizzy mane, there are five possible colour morphs known. Based on
historic and genetic evidence, bay dun (like in the Przewalski’s horse)
probably was the most common of these, followed by black dun. There is no
evidence of a correlation of these morphs to a specific region (yet), so probably
each of them were distributed all over Europe. Therefore I think that we have
to consider more than one breed or type of breed if we want to create
authentically Tarpan-like feral horse populations. One also has to consider
that landraces usually show regional adaption to a specific habitat or climate and
might do not as well in other regions. For example, the attempt to introduce
Koniks into the Atapuerca mountains failed badly because the horses were not
adapted to the mountainous habitat (and also the presence of wolves).
The
Przewalski horse is, as we all know, the only living wild representative of Equus ferus. Its authentic wild horse
features, be it phenotypic or behavioural, are certainly very desirable and
their influence would compensate the domestic “maladaptions” of some otherwise
authentic breeds. Surely some people would be against the influence of Przewalskis
in the feral/wild European horse population because there are genetic
differences (they have one more chromosome pair and separated from domestic
horses during the middle Pleistocene), and they are adapted to a very cold, dry
steppe environment. But pure Przewalskis are used in a number of grazing
projects in Europe, and also semi-feral in Hortobagy (Hungary) and Atapuerca.
Nevertheless, I am inclined not to use pure Przewalskis for releasing them into
European wilderness among domestic horses because I think that a) it might be a
waste as their native range is Asia and b) their different climatic adaptions
might not be ideal in some regions. But F1 hybrids with suited, local primitive
horses could be used instead. The use of crosses instead of pure individuals
also has the advantage of not diminish the population of Przewalskis that are
used for the conservation of this precious subspecies.
As I
mentioned here, the ABU in Germany has Przewalski x Konik crosses which
probably represent the most common phenotype of the Tarpan very well. They have
the muscular stocky body that all these ponies have, a robust head, a short
frizzy mane and a perfectly bay dun colour. They are most likely adapted fine
to European climate. Since these crosses worked out well, imagine other
combinations like Exmoor x Przewalski, or Hucule x Przewalski.
The
behaviour of Przewalski’s horses is, not surprisingly, very reminiscent of what
is known about that of the Tarpan. They are difficult to handle or to tame and
have a high potential aggression, and they are known to kill concurring
domestic horses. But in the wilderness, they behave shy towards humans, and
they also know how to defend themselves against predators. This is very
desirable and needed, because tame released horses can cause problems in
interaction with humans (according to some sources, Koniks remain tame even after living their whole life
without human contact) and if the horses do not know how to defend themselves
successfully against predators, you’ll get the same results as with the Koniks
in Atapuerca. UPDATE: In Popielno and the Biesczcadzki Koniks defend themselves successfully against predators - even bears; they form a defensive circle around their foals and stallions try to chase away wolves. See f.e. here. On the other hand I might mention that there are domestic/feral
horses which know how to defend themselves as well, such as Exmoors (f.e. they
form a defensive circle around their foals, and they tend to be shier) and
Garrano from Portugal (feral Garrano deal with wolves).
I agree
that actual breeding-back is not really necessary in the case of the horse,
because the suited breeds are very close to the desired archetype already.
Instead, releasing a bunch of suited breeds together in an area so that they
interbreed and letting mother nature do the rest might be sufficient already.
Therefore,
my proposal of breeds and breed combinations is:
Iberia:
Garrano,
Asturcon (used to predation, phenotypic closeness to the Tarpan but lack the
dun factor), primitive Pryor Mountains mustangs and Przewalski crossbreeds (bring
in the dun factor). This combination would result in a population that is
experienced in living feral, dealing with predation, suited to the climate and
contains all desired wild horse features.
Garrano during winter
Pryor Mountain Mustang
Northern
Europe:
Exmoor (feral
ancestry, phenotypic closeness to the Tarpan, but lacking the black gene and
dun factor), Fjord horse (brings in the dun gene), Konik (brings in dun and
black), Przewalski crosses. This population would be perfectly cold-adapted, have
all the Tarpan features and contain animals that can deal with predators (not
only the Przewalski is adapted to predation, but also Exmoor ponies were
exposed to predators in previous centuries). The lack of dun is actually not a
negative feature, because the presence of the dun factor within Holocene wild
horse populations is not evaluated yet, and non-dun wild coloured horses like
the Exmoor are perfectly camouflaged in wooded habitats.
Semi-feral Exmoor ponies
Fjord horses
Western,
Central and Eastern Europe:
Exmoor,
Konik, Hucule and Noriker (used to mountainous habitat), Przewalski crosses.
Noriker horse
Koniks
I am sure
that everyone has a different opinion on this, and some might not agree with me
at all and prefer regionalism, existing feral populations or the exclusive
presence caballine horses. Until now it seems that each project uses its own
breed, and I think this is good. It might lead to exactly the diverse horse
population that contains all known Tarpan features as I am proposing it here. Only
time will tell. But in my opinion, the fact that the Tarpan had a number of
different colour morphs and that modern breeds have different local adaptions
should be considered when compositing a new semi-feral horse population for a
specific region.
Heck horses
are the only horse breed that actually is the result of breeding-back (the
Konik is not, as I explained here), except for the Hegardt horse (as far as I
know, this breed is merely a bunch of mustangs that were selected for a black
dun colour, that’s not enough in my view, and there aren’t any photos of this
breed avaiable). Often Heck horses are referred to as “bred-back Tarpans”,
especially in Germany. But is this labelling justifiable? Does the Heck horse
resemble the European wild horse better than other horse breeds?
The Heck
horse was created by (big surprise) the Heck brothers during the 1930s and
1940s. The Hecks crossed Icelandic horses, Gotland ponies and Dülmen ponies
with a Przewalski stallion, and subsequently Koniks from Poland were crossed
in. After WWII, more and more Koniks were merged into the breed, so that there
is only little difference between the Konik and many Heck horses [1]. However,
Heck horses are more heterogeneous and tend to have a larger and more gracile
phenotype. Towards the 1970s Heck horses were crossed with Przewalski horses
again in a zoo in North-Rhine Westphalia. As a result, some Heck horses have
upright manes today [1] (this trait, however, is unlikely for Holocene European
wild horses [2]).
Just like
the Konik, the Heck horse is a black dun breed, and thus representative of one
of five possible colour morphs within European wild horses. Bay dun, just as
authentic, does not appear as far as I know. Many Heck horses have a quite
light expression of their basic colour, resulting in a very light gray that is
not very likely for genuine wild horses because it is never mentioned in
historic references. Also, some Heck horses have typical riding horse
proportions and a long mane. Take a look at this Heck horse from the Munich Zoo
which barely has any wild horse features:
Nevertheless,
thanks to the high amount of Konik influence, there are Heck horses in grazing
projects which do have a wild horse-like stocky body and a brownish colour, the
Przewalski influence contributed a large robust head and a short mane. These
individuals are prime examples for what black dun Tarpans probably looked like (I can't link the first photo directly):
But,
considering the multifaceted origin of this breed, some individuals with a bit weird
appearance can show up as well (the colour in that one is OK, but it is too slender and the head shape is awkward):
To address
my question in the first paragraph: No, the Heck horse is not more Tarpan-like
than other primitive horse breeds, even if we look at the phenotype only. Its
population misses the other colour morphs of the Tarpan (bay dun, leopard
spotted, possible non-dun individuals) and both authentic and not authentic
individuals are present in this breed. Basically, modern Heck horses are Koniks with introgression from other horse breeds, they is not necessarily more
authentic than the Koniks are. What does that mean for creating a wild horse
substitute: one has to pick the best individuals out of that pool, just like in
any other suitable breed.
By the way,
there is no breeding book for the Heck horse, and German breeders often either
consciously or unintentionally mix Heck horses and Koniks, so that the two
breeds probably will be one pool in the future [1].
Literature:
[1] Bunzel-Drüke, Finck, Kämmer, Luick, Reisinger, Riecken, Riedl,
Scharf & Zimball: „Wilde Weiden: Praxisleitfaden für Ganzjahresbeweidung
in Naturschutz und Landschaftsentwicklung“. 2010
[2] Baker, Sue: Exmoor Ponies: Survival of the Fittest – A natural
history. 2008.
The Heck cattle at Tierpark Hellabrunn, Munich, were the first Heck herd I ever saw. This herd is particularly interesting not only because they live in exactly the Zoo where Heinz Heck created that breed and had considerable influence on many other Heck herds, including the wonderful Wörth lineage, but also because they are among the very few Heck cattle herds that have a nearly perfect Aurochs-like coat colour:
As you see, the bulls are dark brown to black without a prominent saddle, the eel stripe and mealy mouth are present. The cows are reddish-brown becoming darker towards neck, head, legs and tail tip. Actually, it is almost surprising to see purebred Heck cattle with a coat that strongly reddish, because many lightly-coloured Heck cows tend to have either a pale brown or beige-coloured coat. But in this herd, the colour genes seem to be puzzled together correctly. But as we know, coat colour is only one aspect of the aurochs' outer appearance. The body of the Munich herd is very bulky and domestic, very similar to "usual" cattle breeds and unlike the aurochs. Same goes for the small and short head. The legs are considerably shorter than in the aurochs, while the trunk is elongated. There is little to no hump. Their body size isn't remarkable, probably they are within Heck cattle's usual size average of 140 cm for bulls and 130 for cows at the withers, and therefore, much too small. The horns have a correct basic curvature, but they are oriented too vertically and the tips do not face as much inwards as in the aurochs. Also the horns should be slightly larger. Apart from that, there are black cows in the herd. There were black aurochs cows too, but probably only very rarely, while in Heck cattle they might make up more than the half of the cows in a herd.
Quite frankly, this cow should be selected out
So, when taking a closer look, the Munich herd resembles the aurochs only in colour closely. In some Iberian breeds the coat colour also matches that of the aurochs very well, such as Maronesa (I will cover Maronesa in a later post), or some of the few "primitive" Lidia herds left. Nevertheless, the Hellabrunn Heck cattle are still nice to look at. Cows from that herd have recently been transported to the national park in Hortobagy, Hungary, where they contribute to a large herd of Taurus/Heck cattle.
The Quagga,
Equus quagga quagga, got some
attention during the last decade because of a selective breeding project in
South Africa that tries to “rebreed” the appearance of this Plains zebra
subspecies. The Quagga project is different from those concerning the aurochs or wild
horse, particularly because there are no living descendants of the Quagga to
work on. The identity and evolutional history of the Quagga has been a matter
of debate for a considerable time, but let’s have a look at the history of the equines
referred to as zebras as a whole, because we have to look at the complete
picture in order to understand it better.
Surprisingly,
a study by Orlando et al. 2009 [1] found zebras to be a polyphyletic
arrangement, with the Mountain Zebra E. zebra being more closely related to the
African ass E. asinus, the Grevy’s
zebra E. grevi within hemionine asses
and the Plains zebra as an outgroup to these two clades. According to this
study, zebras are an umbrella term for heavily striped wild asses, if you
will. But the paper itself states these conclusions are to be taken with
caution, and mtDNA analyses might be necessary for better resolving the
non-caballine Equus tree. Another
2009 study finds zebras to be monophyletic, but oddly the onager outside E. hemionus [2].
The
phylogeny of zebras is essential for understanding the evolutional cause of their striped coats, in order to deduce which coat pattern is a plesiomorphy
and which is an apomorphy. If the plesiomorphic state of the clade formed by
zebras and their most recent common ancestor is a bay dun coat colour, it means
that the striped zebra coat pattern evolved several times independently within
Africa (E. simplicidens from the Pleistocene of America is often claimed to be
a zebra-like animal, but I think this is highly speculative based on skeletal
morphology alone). If the plesiomorphic state is the striped coat, it must have
been lost several times again and re-developed into a bay dun coat of the asses
nested within that group according to Orlando et al. 2009. Several hypotheses
try to explain why zebras developed their unique coat, and if it evolved several times independently within Africa, a connection to a special
environmental condition is very likely. The hypothesis that it evolved in order
to remain undetected for tsetse flies and horseflies is the most popular one,
and indeed it has been shown that polarized striped patterns is less attractive
to tabanid flies [3]. According to the hypothesis, zebras needed this
protection because their relatively recent arrival on the African continent did
not give them the time to evolve efficient immune defence against diseases transmitted
by these parasites. And that is how we finally come to the Quagga: far in the
south, where the tsetse fly is not present, the stripe pattern allegedly got
useless and therefore these zebras reduced it again. But I have several
problems with this scenario. First of all, there is no real correlation between
the range of the tsetse flies and that of the zebras. The modern range of the Mountain zebra’s range
is totally outside (and it actually occurs as southwards as the Quagga did), as
is a large part of that of the Plains zebra, and I wouldn’t be surprised if the
former range of the African wild ass and that of the tsetse fly also
overlapped. Furthermore, I don’t know of studies suggesting that zebras are more
vulnerable to trypanosomiasis than other African herbivores, making the passive
protection through their striped coat necessary. I think the “fly hypothesis”
is plausible, but not yet really convincing for me (please correct me if my
criticism is erroneous).
Regardless
of why the Quagga had reduced stripes, they were its most remarkable feature
(there is the possibility that this condition actually is a basal one, but I’ll
address that later on). Sometimes the quagga is described as looking like half
zebra and half horse, but I don’t think that is an ideal portrayal of its
appearance. I would rather describe it as a brown zebra with white legs and
tail and stripes fading away at the posterior half of its body. On its
brownish rear, the Quagga displayed an eel stripe just like phenotypically bay
dun wild equines. Most stuffed specimen show brownish stripes, but that’s
likely due to discolouration because all of them are more than hundred years
old. Based on contemporaneous paintings and photographs of one individual, I
think that the lighter space between the stripes on the neck and head area were
white or whitish, in some individuals maybe brownish. With this (baaadly rendered) drawing, which
is also featured on the Quagga Project’s website, I tried to portray the individual variation within the Quagga:
The preserved specimen of the Quagga, which are all listed here, might give you a good idea of the variation within the population as well. Considering
the unique pelage characteristics and also alleged craniometric differences between the
Quagga and the Plains zebra [4]*, it is understandable that it has been
regarded as a separate species for a long time. However, genetic studies found
the Quagga to cluster within the Plains zebra (thus indicating that its
ancestors were fully striped) and having little genetic diversity. It is likely
that the Quagga split from other lineages between 290.000 and 120.000 years
ago, possibly due reproductive isolation during the last glacial, what also
provides a possible scenario for the radically different pelage colour (genetic
drift) [3]. Most importantly, the Quagga does not share any haplotypes with
other Plains zebras according to this study, indicating that there was no
genetic exchange after their isolation [4]. This means that the Quagga is a
genetically distinct subspecies rather than a mere colour variant, although
more material might be needed.
* Some have
disputed the craniometric differences because available horse or donkey skulls
were used for some mounted zebra skins instead of genuine skulls. However, I
know that there is at least one preserved Quagga skull (on the only mounted
Quagga skeleton); I wonder which material those cranimetric comparisons are
based on. If you want to judge it for yourself, here is the confirmed Quagga
skeleton with the skull in profile view, and a Plains zebra skull.
However,
the Quagga’s outer appearance was not homogeneous, there actually was
considerable variation concerning the degree of striping among the mounted Quagga
skins. Some museum specimen show a very brownish coat with stripes only
recognizable at the shoulder, neck and head area, others display stripes that
go right to the hips and a comparably light background colouration (as far as
we can tell from those skins). Interestingly, the living plains zebras also
show a degree of striping varying from north to south, with those in the north
having the most polarized stripe pattern (E.
q. boehmi) and those in the south showing a tendency to reduced striping on
the rear and legs (E. q. burchelli). Concerning the pelage characteristics, the
quagga might represent the end of a cline, although it seems to be genetically distinct.
Because of
the obvious variation in modern Burchell’s Zebras striping, Lutz Heck proposed that selective breeding could rebreed the Quagga’s
outer appearance (phenotype) in a book published in 1955. Eventually a project with this aim was formed by
zoologists, veterinarians and museum personnel under the initiative of Reinhold
Rau in 1987 [4]. They selected wild zebras, mostly from the Etosha national
park and exclusively from the burchelli
subspecies that already showed a promising-looking amount of stripe-reduction. The
current herd has 83 of zebras resulting from this selective breeding programme
living in several locations near Cape Town. The youngest individuals are from
the fourth generation. Keep in mind that zebras have a longer generation span
than domestic horses so breeding with them takes longer. The project selected
for a reduced striping and a more brownish background colour by crossing the
chosen wild zebras and choosing the offspring with the least striping for
further breeding. Surprisingly, some animals also showed stronger striping, but
those were selected out. The breeding progressed surprisingly fast, already the third
generation showd considerable reduction of stripes on the legs and rear, a
white tail and a slightly more brownish background colour. The fourth
generation (some of them were born in 2012) show an even greater approximation
towards the Quagga’s pelage characteristics. The project developed a counting
system in order to quantify the progress, and the results show that the
reduction of striping is happening fast, but the darkening of the background
colour progresses only slowly (this aspect is especially hard to quantify
because of dust, sun et cetera). Here are some photos and a video of some of
these “Rau zebras”**:
Individual "Freddy", F4
Individual "Henry", F3
Individual FM12, F4
** Funnily,
I independently came up with the idea of calling these animals “Rau zebra”, the
Quagga Project itself wants to name their results “Rau Quagga”, but I think
calling them zebras is more objective.
If you are
interesting in seeing more photos of these Rau Zebras, you can have a look at
the homepage www.quaggaproject.com
or the project’s facebook page. In contrast to aurochs or wild horse projects,
where all desired phenotypic features are present in living animals (which descend from the desired archetype) and “just”
have the be united, the Quagga Project wants to achieve features that are not
present in any living zebras (which do not descend from the Quagga). If you’d imagine a bell curve, the Boehm zebra is
on the one end and the Quagga is on the other end, and the Burchell zebras are
somewhere in between. Nevertheless, the optical resemblance that already has been
achieved is impressive to me. Some of these individuals have show a
significant resemblance to the Quagga already, like “Freddy”, “Henry”, DJ10 and
FM12. The stripes on the legs are greatly reduced or absent, the stripes on the rear are reduced, and the background colour is more brownish than on average Bruchells zebras. Imagine how Quagga-like the F5 and F6 generation might become. But can the project truly rebreed all the Quagga’s phenotypic features,
or even the Quagga as a whole?
The
Quagga’s appearance often is equalized with its coat, but there are other
features that yet have to be evaluated. For example, there is no osteometric study working with that one complete skeleton and that of living Plains zebras,
and since the use of skulls from stuffed skins is questionable, one should
compare the genuine Quagga skull with that of living zebras in order to verify
the statement that there are no osteometric/craniometric differences between
the Quagga and other members of that species. I think it is well plausible that
there are, because of the apparent founder effect during its evolution, but
this simply requires testing.
Furthermore,
there is more that defines a subspecies than just a differing phenotype. The
argument “the Quagga was merely a subspecies, so it can be rebred” that is
sometimes brought up in connection with the project is erroneous. Some of the Youtube commenters seemingly have a very simplified idea of species and little clue
about population genetics. Species that are divided into several subspecies are
not genetically homogenous, connected populations but more like a branched
tree, with each subspecies being an evolutionary distinct clade, defined by
whatever differences that are laid down in the genome. And apparently there was
not much genetic exchange between the Quagga and other Plains zebra populations
for at least 120.000 years (although more evidence might be needed). This means
that E. q. quagga was genetically
different from E. q. burchelli just
like burchelli is from E. boehmi and so on. To make a
comparison on a similar level, you cannot rebreed the Polar wolf by selecting
white Timber wolves. Also, you cannot rebreed the Boehm Zebra by selecting
those Burchell’s Zebra with the heaviest striping. Different subspecies mean a
different genetic make-up (although not as marked as on species level, of
course) and therefore a different animal. Consequently, the Rau zebra will
always differ from the Quagga because the populations have a different
ancestral history. These differences are at least genetically, and perhaps also
in ecologic, behavioural or phenotypic respects that are either unknown or not
evaluated, although I personally think these aspects are overall roughly the same the within the
Plains zebra.
We probably
cannot say anything about the exact ecologic role of the Quagga because there
are no living representatives left to study. But probably, since they belong to
the same species, they were largely similar if not ecologically identical to
other Plains zebras. I read in some sources that South Africa’s flora has a
higher degree of endemism than farther in the north, but I don’t know if that
is true (does anybody have literature on that?). The Quagga project claims that
the flora is not significantly different from that of the habitat of living
members of the species. I think that many conservationist would be in favour of
reintroducing the Plains zebra into its former range in South Africa, as
subspecies are obviously no barrier for reintroduction projects, especially
when the native type is lost (as the reintroduction of Przewalski horses in
some parts of Europe or recent projects with big cats have shown). The ecologic functionality and physical characteristics of the Rau zebras are the same as in other
plains zebras, but they are the only lineage that resembles the type that once
was native in that region. If the Plains zebra is to return into this area –
what would surely make sense from a conservational view – the Rau zebras from
the Quagga Project certainly are the most desirable option (just like the
project says on their web page).
I think it
is very helpful that the Quagga Project methodologically quantifies their
selective breeding progress; also, it’s the only breeding-back project that has
published papers explaining their “materials and methods”, making the whole
process much more scientific and transparent (see here and here). Apart from that, I am also curious to see other effects on these zebras because of the selective breeding, and perhaps also new mutations will show up.
Although
the Quagga itself is lost, I am very happy that the Quagga Project is trying to
establish zebras resembling this remarkable subspecies. It will be interesting
to see how far they can get and indeed the similarities that already have been
achieved are astonishing. Some of these Rau zebras already show an amount of
stripe reduction that is shared by some Quagga mounts, and if they had the same brownish background colour they would be virtually indistinguishable. Because the progress in stripe reduction has
been fast but not the change of the background colour, the project decided to put
more focus on that feature [5].
Also, the
Rau zebra would be a very useful tool if it will be possible to clone
one or more Quagga individuals one day, however unlikely that scenario is. But these
few cloned Quaggas could constantly be merged into the Rau zebra’s population
that provides a genetic base, coming as close to the Quagga as technically
possible. However, this is a fantasy scenario of mine (yet?).
Literature
[1] Orlando
et al.: Revising the recent evolutionary history of equids using ancient DNA.
2009
[2] Samantha A.
Price und Olaf R. P. Bininda-Emonds: A comprehensive phylogeny of extant
horses, rhinos and tapirs (Perissodactyla) through data combination. 2009.
[2] Knight,
Kathryn: How the Zebra Got its stripes. 2012.
[3] Leonard
et al.: A rapid loss of stripes: the evolutionary history of the extinct
quagga. 2005
[4] Eric
Harley et al.: The restoration of the
Quagga: 24 years of selective breeding. 2013.
Luckily the
wild types of most of the species that were domesticated are still extant. But
imagine the wolf was extinct because of human persecution. Conservation could
try to substitute their ecologic niche with other wild canines, or create an
effigy that can be released into nature in order to redevelop surviving
strategies and social behaviour patterns typical for that species, Canis lupus. Interestingly, there was some
kind of “breeding-back” effort for the wolf, the Tamaskan dog. It is a
crossbreed of less-derived dog breeds with the target to resemble the wolf in
appearance but without crossing-in any true wolves. And just like cattle and
horses, domestic dogs were domesticated in the middle east but likely
experienced introgression by European wolves, making the situation of the
Tamaskan very similar to that of other breeding-back attempts. The fact that living wolves still exist makes it possible to see how successful classical "breeding-back" can be.
The
breeding was started with a number of sled dogs that were crossed with Siberian
Huskies, Alaskan Malmute and German Shepherds in the 1980s. The similarity that
has been achieved in some individuals is indeed impressing. Tamaskan dogs have
size and proportions very reminiscent of some wolf populations, and also the
colouring is very similar to their wild type, with some subtle differences. Regardless
of that, Tamaskans still have a number of domestic features. For example, a
fifth toe on the hindquarters appears in some individuals, and the face of the
Tamaskan differs from that of wolves in being more paedomorph by having a
broader snout, larger eyes and a more domed front head, and I am pretty sure
the brain volume is reduced as well. These are typical domestication features evident in virtually all dog breeds, just like enlarged udders or dewlaps, a reduced brain volume and snout length are found in most domestic cattle breeds.
Without doubt the Tamaskan is a domestic
animal and not a wolf, although it does resemble its wild ancestor. It would be
interesting to see a genetic comparison of several dog breeds (including the
Tamaskan) with the several wolves from different subspecies, to see if there is
any significant difference between the relationship of the dog breeds to the
wolf. However, I do not expect the Tamaksan to be closer to the wolf than its
founding breeds, for the simple reason that it was selected for a few key genes
for phenotypic features, but the whole genome of a wild type consists of more
than that.
It would be
interesting to see how a population of Tamaskan dogs would do living in the European
or North American wilderness. There are a lot of examples of dogs surviving in
the wild, so I think the Tamaskan would do so as well. They’d probably evolve
hunting strategies and complex social behaviour just like, for example,
Dingoes. One could start a dedomestication experiment releasing a population of
Tamaskan dogs in a large area with deer and other prey animals and watch
evolution doing its work. After some amount of time, we could compare these
wild Tamaskans to true wolves. (I don't know if such a project is legally possible, I think it isn't).
What would
be the point of that? First of all, such a project itself would be interesting
enough. Furthermore, the history of the Tamaskan is surprisingly similar to
primitive cattle and horse breeds designed to be aurochs and tarpan proxies. It
shows that no matter how authentic an effigy breeding result will get, it will
always be different from the genuine wild type. But if man can achieve both
“bovine Tamaskans” and “equine Tamaskans” that resemble their wild type just as
good as this dog breed does and survive in nature in a similar manner to their
wild types, it would be awesome. And several projects are trying to do so. Such cattle and horses would be a prime basis
for dedomestication, for letting nature refine them and develop surviving
strategies and social behaviour necessary for survival so that they can re-occupy the vacant niche of their extinct ancestors.
The
Lippeaue is a reserve in North Rhine-Westphalia, Germany, that is managed by
the ABU (Arbeitsgemeinschaft Biologischer Umweltschutz). During the last
decades, the ABU transformed the area from a former agricultural area into a
natural floodplain again that is home to a diverse avifauna. The Lippeaue also
is the most important Taurus cattle breeding site in Germany and is where
it all started in 1996. Actually, the first Heck cattle arrived in 1991, but 1996 marked the beginning of Taurus cattle by including Chianina cows, and Sayaguesa cows in the following year. I met with Magret Bunzel-Drüke and Matthias Scharf from
the ABU and discussed about the cattle and lots of other things; I learned a lot and it was a very
enjoyable trip.
The cattle
in the Lippeaue are separated into different herds in Hellinghauser Mersch,
Klostermersch and Disselmersch. The Taurus cattle in the Lippeaue number up to
90 individuals (the number is dependent on how many individuals are removed
each year). In the current population, Sayaguesa is the dominating breed in the
crossbreeds with 47 %, followed by Heck 29%, Chianina 20% and Lidia 4%. So the
Taurus cattle actually are more like improved Sayaguesa than improved Heck cattle
today. The influence of Lidia, the Spanish fighting cattle, has been reduced
recently because of their small size and their behaviour that is very difficult
to handle. There are also no pure Heck cattle anymore, so that the cattle keep having a large size and a long-legged body.
"Laola", 50% Sayaguesa 25% Chianina 25% Heck
75% Sayaguesa, 12,5 % Heck, 12% Chianina
Most of the
adult individuals are of the second cross generation (F2), some of F3, and there
is their offspring as well. The breeding bull in the Hellinghauser Mersch, “Lamarck”,
is 50% Sayaguesa, 25% Heck and 25% Chianina and has a very aurochs-like overall
appearance. The other bulls are good too; long legs, an athletic body with an
S-curved back, large skull and good horns. One young bull has Lidia influence. The
dewlap also is not all too long in Taurus cattle. I also like most of the cows,
some had really good and comparably large horns, and especially the very Sayaguesa-influenced
ones have long snouts and a shiny dark colour with a reddish saddle. The colour
of the cows seems to be more variable than that of the bulls, ranging from beige
to light brown, reddish brown or the colour described above. Black cows appear
too, but these still look very nice overall. Unfortunately some individuals can
have white spots on the belly. The colour of the bulls is uniformly dark brown
to black, either solid black or with a kind of saddle on the back. The horn
shape bears a good resemblance to that of the aurochs in many individuals, probably
thanks to the good influence of the Sayaguesa cows and the Neandertal Hecks. The
body of the cattle is surprisingly muscular and athletic, the bulls really look
like large, long-legged and large-horned fighting bulls without having any in
their ancestry. The cow “Larissa” descends from a good half-Sayaguesa bull and
is 62,5% Chianina; I’m curious on how large her male offspring will get.
It would be
interesting to know the exact size of Taurus cattle. But as you can imagine, it
is not easy to measure them. One F1 bull was measured to be about 165 cm tall
at the withers and weighting 1400 kg. Other large bulls might be about the same
size. Judging from what I saw, I think the cows might be around 145 cm tall,
but that’s only a guess.
"Lamarck"
50% Sayaguesa, 25% Chianina, 25% Heck
I was also shown
a number of skulls from cross individuals. One of these (the upper one) was
really huge with a horn span of about a meter or so. The skulls resembled Aurochs skulls, but slightly shorter.
The herds
also include pure Sayaguesa and Chianina cows. My favourite Sayaguesa cow is
named “Dona-Urraca”, she has a very good horn curvature and is fairly large,
and during her 17 years of life she produced a lot of aurochs-like offspring. She is also the only cow that behaves dominant over the horses they share the reserve with. Another
Sayaguesa is very interesting because she has a beautiful, red coat colour (a
rarity in modern Sayaguesa, unfortunately). I also liked the Chianina cows.
Every breed has its pro’s and con’s, and Chianina is better than I initially
thought. Their small horns and the white diluted colour are disadvantages
indeed, but their slim, long-legged and very large body can produce good
results as Taurus cattle demonstrates. And apparently, their hardiness was
largely underestimated, they do just as well as Sayaguesa and Heck cattle.
Red pure Sayaguesa cow
"Donna-Urraca", pure Sayaguesa cow
Pure Chianina and a Taurus cow
Sayaguesa x Chianina
The Taurus
herds are fed supplementary during winter, for the simple fact that the reserve
is not large enough for such a large population during the cold season,
especially because it gets partially flooded during the year. Interestingly,
the pure Lidia cows (not present in the current herds anymore) seemed to be the
least dependent from supplementary food. Because of the legal situation in
Germany it is not possible to dedomesticate cattle. The death of individuals would
cause a public outcry that is a danger for the project. Therefore it is not
possible to let weaker animals starve (just like it would happen in nature) to
increase the hardiness, but cattle obviously doing bad still can be selected
out. Furthermore, as I explained in previous posts, numerous cattle breeds
survived in the wilderness in different regions on this world, so probably
Taurus cattle would do so as well.
The
behaviour of the cattle was interesting. As I mentioned above, the Lidia
influence was reduced to avoid animals too difficult to handle. Of course
all cattle living semi-feral develop a kind of wilder behaviour, so do Taurus cattle.
The behaviour is varying from individual to individual. Some bulls are very
gentle and tame, others might behave shyer and get feisty when caught. Like most semi-feral cattle, they have
a clear herding instinct as well. When running, they appeared comparably swift
and agile, much more like oversized deer than usual sluggish Heck cattle. They can jump over barriers up to 160 cm high, which is quite impressing.
"Larissa", 62,5% Chianina cow
We also
went to Pöppelsche (not one of the ABU's herd), where there was a herd composed of Taurus crosses and usual
Heck cattle. One of the bulls also was Lidia-influenced. This herd shares the
reserve with some beautiful Exmoor Ponies.
Lidia-influenced bull and usual Heck cattle at Pöppelsche
The ABU
interestingly has pure Koniks as much as Przewalski x Konik crosses, and one
pure Przewalski mare. I think that these crosses might represent the phenotype
that most European Tarpans displayed: bay dun colour, mealy mouth, short but
falling mane. Of course these crosses do not have the purpose to get Konik
genes into the Przewalski population, but other way round, and I think this is
good (actually, Koniks even might have Przewalski influence already). The 75% Konik
and 25% Przewalski horse looks very interesting because it has the typical
reddish bay dun colour of Przewalskis, but no pangare and mealy mouth. Life
in a wild-living horse herd is tough, there are constantly fights between the
stallions. The dominant Konik stallion killed its father, and wild
Przewalski horses in Mongolia are known to be even more aggressive.
Konik-Przewalski crosses
75% Konik 25% Przewalski + Konik x Przewalski
Konik stallion
To put it
in a nutshell, I really like the Taurus cattle from Lippeaue. Their behaviour appears natural to me, it is neither overly aggressive nor sluggish or tame, and their surviving capacity
probably is the same as in usual Heck cattle. They are very elegant animals. The
phenotype of some of the individuals, as you see on the photos above, resembles
the Aurochs to a large extent already. Surely the right colour and the right
horn shape/dimensions have yet to be stabilized, and (although the size is good
and much better than in Heck cattle already) the animals could be bigger on
average. With good selection, a very, very aurochs-like population can be
established, but it will take its time because inheritance is very coincidental
in heterozygous crossbreeds. Two very good individuals might produce
disappointing offspring and vice versa. The breeders from the ABU are aware of
that, therefore it is complicated to find out which individuals should be
selected out. Is a cow with good horns but the wrong colour less good than a
cow with bad horns but the right colour? Are long snouts and legs more
important than large and well-shaped horns? An individual that does not look
that good might produce good offspring combined with the right partner … that
sort of stuff. With more breeding locations and cooperation between the
breeders the progress can be speeded up, and not to forget that nature itself would
shape the cattle the way it is best if released in a large natural area where they can live more independently.
I really
enjoyed my trip, it was cool to go directly to the source and see the cattle. I
am curious on the future development of Taurus cattle, and I hope that such
cattle will play a crucial role in improving Heck cattle as a whole. The cattle at the Lippeaue are surely the most aurochs-like animals in Germany, and in my opinion might be better than many other primitive breeds on this worldon average.
If you want
to see more of the photos I took there, you can go to my flickR stream.
