It’s commonly thought the giraffe evolved to grow its six-foot-long neck so it could reach leaves on the highest branches.
But a new study by Chinese experts claims the mammal’s distinctive neck evolved over millions of years because it was an effective weapon.
Researchers came to this conclusion following an analysis of fossils from a ‘strange’ early giraffoid species called Discokeryx xiezhi, which roamed the Xinjiang region of northwest China 17 million years ago.
Results suggest giraffes evolved long necks for hitting other males in the fight for a female, because the longer a neck allowed them to generate more power and speed.
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Fossils of a strange early giraffoid have revealed the key driving forces in giraffe evolution, say Chinese researchers. This illustration depicts two fighting males of the extinct early giraffoid species (Discokeryx xiezhi, foreground) and two fighting males of the modern day Northern giraffe (Giraffa camelopardalis, background)
Unlike modern giraffes, D. xiezhi had only one ossicone – the skin-covered bone structure at the top of the head – but it was shaped more like a dome or a disc.
D. xiezhi is so-called because its single ossicone resembles that of the xiezhi, a one-horned creature from ancient Chinese mythology.
The new study was led by researchers from the Institute of Vertebrate Paleontology and Paleoanthropology (IVPP) of the Chinese Academy of Sciences in Beijing.
‘Both living giraffes and Discokeryx xiezhi belong to the Giraffoidea, a superfamily,’ said study author Wang Shiqi at IVPP.
‘Although their skull and neck morphologies differ greatly, both are associated with male courtship struggles and both have evolved in an extreme direction.’
Today, the neck of a giraffe can be six feet long – taller than the average man – and can weigh up to 600 pounds.
Millions of years ago, the giraffe had a more stumpy neck, but competition for food drove the steady increase in neck length over many generations.
Longer necks allowed giraffes to browse for edible treetop leaves in the African Savannah woodlands that would otherwise be out of reach, according to Charles Darwin’s theory of natural selection.
The theory suggested giraffes with the longest necks were able access the required food to survive and pass on their genetic code to subsequent generations.
However, as observation of giraffe behaviour increased, scientists began to realise that the neck serves as a weapon in male courtship competition.
This is evident in clips that circulate online today, showing two males brutally whacking each other.
D. xiezhi is so-called because its single ossicone resembles that of the xiezhi, a one-horned creature from ancient Chinese mythology (depicted here as a sculpture in the Forbidden City in Beijing, China)
The characteristic long neck of the modern giraffe – the tallest land animal and largest ruminant on Earth – has long been considered a classic example of adaptive evolution and natural selection since Darwin first penned the concepts
Longer necks tend to generate more speed and power, so the longer the neck, the greater the damage to the opponent.
In fact, neck size of male giraffes is directly related to social hierarchy, and courtship competition is the driving force behind the evolution of long necks.
The fossils in this study were found in early Miocene ‘strata’ (a layer of rock or sediment) from about 17 million years ago on the northern margin of the Junggar Basin, Xinjiang.
A full skull and four cervical vertebrae belonging to Discokeryx xiezhi were part of the find.
Analysis indicates the ancient species had helmet-like headgear, more like a dome than a sharp point, and particularly complex head and neck joints.
Complicated articulations between the skull and cervical vertebrae of the species was particularly adapted to high-speed head-to-head impact, researchers found.
This structure was far more effective than that of living animals, such as the musk ox, that are well adapted to head impact.
In fact, D. xiezhi may have been the vertebrate best adapted to head impact ever, researchers think.
Results suggest the ability to whack an opponent with their necks, and the associated survival benefits, has been a key part of giraffe morphology for millions of years.
Computer modeling shows the ‘complicated’ joints between cranium and vertebrae of Discokeryx xiezhi
Pictured, two giraffes go at each other in a head-to-head position. Longer necks tend to generate more speed and power, so the longer the neck, the greater the damage to the opponent
Depicted is the community of wildlife in the Junggar Basin, Xinjiang, China, around 17 million years ago. Discokeryx xiezhi are in the middle
The research team also compared the horn morphology of several groups of ruminants, including giraffoids, cattle, sheep, deer and pronghorns.
They found that horn diversity in giraffes is much greater than in other groups, with a tendency toward extreme differences in morphology.
This indicates that courtship struggles are generally more intense and diverse in giraffes than in other ruminants.
Results also suggest D. xiezhi was living in dry open grasslands and may have migrated seasonally.
For animals of the time, the grassland environment was more barren and less comfortable than the forest environment.
In fact, the species’ violent fighting may have been related to survival-related stress caused by the environment.
The new study has been published in the journal Science.