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Horn And Antler Identification Guide

Horn And Antler Identification Guide Average ratng: 4,4/5 4439 votes
  1. Elk Antler Identification

Carcass and Antler/Horn Tags Required. Encounters and Identification. A guide to game animals. Than the whitetail and the antlers are dichotomous (branches. Van Horn, Texas.

Related Content. First, two silver-dollar-sized patches of cells on a buck’s head start to churn out tissue at a breakneck pace. But these winding growths aren’t made up of dead cells, like your fingernails, hair, or the keratin that creates a ram’s horn. These cells are alive. From late March until early fall, a buck’s budding antlers are covered with a layer of fuzzy skin called “velvet,” like soft moss covering a smooth stone. Beneath this protective coating, blood vessels and nerves lace around rapidly developing bone, as if the animal were growing a femur with no muscle to surround it. As the antlers grow, they branch into increasingly larger forks.

Come fall, the velvet begins to shrink and die. The antlers become maddeningly itchy, and the male deer runs around trying to get rid of his velvet by rubbing his new toys on small saplings and branches.

(These scratching posts are called “rubs”.) Once the velvet comes off, it reveals all the smooth, calcified bone beneath. Now, the buck is ready to wage war against his rivals and fight for his right to mate with all the females he can find. Animals with bony growths known as horns—rhinos, rams, impala—tend to grow them young and keep them their whole life. Antlers, by contrast, are born anew each year. That's right: This intricate cycle of growth, life, death and itching happens every year. Besides that fact, what’s remarkable about antler development is how fast it happens.

Animals like the starfish or the gecko may be best known for their rapid limb regeneration, but deer are actually among in the animal kingdom. If food is ample and a buck is healthy, his tines can grow at a rate of around three-quarters of an inch a day. Just imagine if your hair or fingernails grew that fast! Unlike tusks or horns, antlers start out as living organs encased in a layer of skin known as 'velvet.' (Eric Kilby / Flickr) But in biology, as in economics, there is no free lunch, meaning all of that sprouting comes at a cost.

No matter how many berries and acorns a male deer consumes, he can't ever fully make up for the energy that gets funneled into his dashing head ornaments. To balance the ledger, his body will actually siphon off nutrients from other parts of the skeleton for use in the antlers. “They rob from Peter to pay Paul, so to speak,” says, a wildlife biologist specializing in deer and elk for the Pennsylvania Game Commission. This process is called cyclical reversible osteoporosis, and it starts by targeting areas that do not bear weight, like the ribs. All in all, studies of deer energetics estimate that the toll of antler generation lags just behind gestation, according to Fleegle. (Similarly, if a pregnant mother doesn't get enough calcium, her body will to help build her growing baby's skeleton.) In other words, it’s almost as taxing for males to sprout bones out of their foreheads as it is for females to create a whole new life form in their wombs. The sad part is, bucks don’t even get to keep those hard-earned antlers for life.

After mating season, the males no longer have any use for their antlers, and in fact, keeping them is kind of a pain. So the structures just pop off and get left behind like, and the deer go on with their lives. This might sound ludicrous, given the sacrifice involved in their creation. But deer aren’t sentimental.

More importantly, keeping those antlers would be a huge liability. First off, they’re heavy. The largest species of deer, the moose, can have antlers that weigh. This is the definition of dead weight. They’re also dangerous. Antlers can get caught in trees, fences, and generally limit the animal’s movement throughout the woods.

Sometimes, deer and other cervids can lock their antlers together with a rival. If the animals can’t free themselves, they will die of starvation—or drowning, as evidenced by the now infamous example of the. So why even bother with the whole antler growth thing at all? For that, you can thank the vagaries of. The deer mating system dictates that males guard territories, and retain the right to mate with females within those territories. As you might imagine, possessing a few head weapons helps. And if bigger head weapons tend to defeat smaller head weapons, as you’ll see in, then those genes are more likely to be passed on to the next generation of bucks. Making antlers is one of the most energy-sucking activities a body can do, next to creating new life.

(Eric Kilby / Flickr) But even antlers' key role in fighting and impressing the ladies can’t fully explain their borderline magical properties. Consider this: Back in the 1960s, scientists transplanted some of these antler-forming cells onto a different part of the deer’s skull, and watched as an antler started to form. And the same thing happens if you transplant those cells onto the deer’s leg. Now get this: If you slice antler cells off the head of a deer and transplant them onto the forehead of a mouse,. Perhaps it’s no surprise that some scientists think antlers might hold a few secrets we could use for medicine, nerve growth and even limb regeneration. No one is suggesting growing antlers on people, but imagine what we might be able to do with those cells’ amazing generative capabilities., a neuroscientist at Washington University in St Louis, is one of the believers.

Elk Antler Identification

“As the antler grows rapidly, reaching up to 2 cm per day, the nerves have to match that pace,” writes Pita Thomas in an email. “This means that they regenerate 10 times faster than human nerve!” This is important because if we can figure out how those nerves move so fast, we might be able to use it to spur our own nervous system into regenerating when its been damaged, say, in the case of a paraplegic injury.

Currently, we have a few ways to accomplish this type of healing in small increments, says Pita Thomas, including grafting nerves from another region and using artificial collagen conduits to can guide nerve growth. But these methods struggle if the distance the nerves need to cross is more than an inch. By contrast, 'the nerves present in the deer antlers can regenerate up to several feet in less than three months,” says Pita Thomas.

“We hope to apply the same mechanisms or molecules to one day enhance nerve regeneration in humans.” Pita Thomas and his colleagues have already identified three of the proteins involved in the antler’s rapid nerve production, and found that sensory neurons grow faster when all three are present in a culture. “We observed that the enhancement of nerve growth was much more than the sum of their single effects, meaning that they work synergistically,” he said. Behold: A lump of antler tissue growing on a mouse. (Chunyi Li, A.J. Suttie / Journal of Experimental Zoology, 2001 ) Other scientists are interested in antlers because of what they might be able to teach us about cell memory, or a cell's future can be shaped by past events. For instance, if a deer suffers an injury to the base of its antler (called a pedicle), it can end up creating a deformed antler at that site for many years after the initial wound has healed. Sometimes the new antler shape lasts a lifetime.

This is yet another one of antlers' mind-blowing qualities, say, a developmental biologist at Tufts University: They can teach us about how animals that can regenerate remember their own shapes. One explanation for this so-called memory that Levin researches is called, or the tiny, communicative charges traded between our cells.

Levin and others have linked this common but mysterious force to things like body shape, limb regeneration and wound healing. For instance, he’s shown that flatworms that have had their bioelectricity tampered with can be coaxed to. As of now, we know far more about how flatworms manage their regenerative powers than deer, but Levin says the role of bioelectricity is likely the same. It’s just that flatworms are tiny, they grow fast, and they conveniently lack spiky face bones upon which scientists might be impaled. Even what we think we know about antler growth turns out to have new twists. For instance, Fleegle says that there’s a general rule for any critter that the better its habitat is, the more healthy and robust its populations will be.

Identification

And for deer, that conventional wisdom should translate into massive racks. But a published in 2009 shows that the truth is more complicated.

Indeed, when does don’t get enough to eat while pregnant and nursing, any male offspring they produce will have stunted antler growth for their entire lives. Amazingly, this holds true even if the male fawns are supplemented with highly nutritious feed. You might think that this trait would be inherited should the wimpy males ever manage to sire young of their own. Actually, second generation males who were birthed by mothers with a normal amount of food went on to have racks that were more or less typical.

All of which points to just how important mothers are in the grand scheme of things, and why Fleegle says she has a love/hate relationship with antlers. “I get angry about antlers because the boys get all the attention, but the girls never do,” she says. Remember how antler growth is nearly as strenuous on a deer’s body as being pregnant? Not that it’s a contest, but there’s one activity that dwarfs them both, and that’s —another province of the ladies.

According to Fleegle, a doe expends more than three times as much energy during peak milk-making as a buck does to produce his antlers. It seems both sexes have a rack worthy of our wonder.

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