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  • How Do Camels Survive in Deserts?

    How Do Camels Survive in Deserts?

  • Do Camels Store Water in Their Humps?

    Do Camels Store Water in Their Humps?

    Camels are known for their ability to tolerate long periods without drinking a single drop of water. This capacity is often attributed to their humps. The camel’s humps indeed play a vital role for the mammal, but they are not meant to keep it hydrated.


    Surviving Without Eating for Months

    These protrusions do not contain water but rather fat. This allows the camel to have significant energy reserves in case of food scarcity, which is highly advantageous in a desert climate. As a result, a camel can survive for four to five months without eating.

    As it depletes these reserves, its humps gradually “deflate,” and the camel must find something to eat. It’s worth noting that the dromedary, with its single hump, has the same storage capacity as the camel.

    There are two main types of camels: the dromedary camel (one hump) and the Bactrian camel (two humps). Both store fat in their humps, but their adaptations and habitats are slightly different.

    The Camel: A Hydration Champion

    camel blood cells
    Camel blood cells. Image: The Blood Project

    Even though its humps do not keep it hydrated, a camel can indeed go a week without drinking. Two mechanisms come into play to enable this remarkable feat.

    First, its red blood cells are oval in shape. This unique configuration allows blood cells to transport oxygen through thicker blood resulting from dehydration and circulate in small blood vessels despite the increased viscosity.

    Most importantly, these oval cells have the ability to absorb more water. They can swell up to 240% of their initial volume without bursting, whereas the cells of most animal species can only expand by 150%.

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    This explains why when a camel finally finds a water source, it can ingest up to 114 liters (30 gallon), equivalent to half a filled bathtub.

    Camels can convert the fat stored in their humps into both energy and water.


    When they metabolize fat, it releases water as a byproduct, which can help them stay hydrated in the absence of external water sources.

    A Nose Like an Air Conditioner

    Furthermore, camels make the most of each breath. Their nose functions like an air conditioner. Their nasal passages manage to retain moisture from the inhaled air.

    As a result, the air exhaled by the camel is drier, and the retained moisture helps it stay hydrated a bit longer, awaiting the next water source.

    Camels in the Canadian North

    Surprisingly, a Canadian research team discovered in 2013 that camels existed in the Canadian Arctic about 3.5 million years ago.

    In fact, the ancestors of camels are believed to have appeared in North America 45 million years ago. They later migrated via the Bering Land Bridge connecting America to Asia.

    Their famous humps could have been useful there too. The fat reserves on their backs could have aided in surviving harsh winters.

    Why on the Back?

    However, one might wonder why there is an accumulation of fat on the back rather than the abdomen, as in most mammals, including humans.

    One hypothesis suggests that these humps have a protective effect by exposing the animal less directly to the intense desert sun’s rays, thus helping regulate its body temperature.

    Camels, also known as dromedaries, have a single hump, while the Bactrian camel has two humps. This difference is due to their evolutionary history and adaptations to different regions. The single-hump camel is better suited for hot deserts, while the two-hump camel is found in colder, arid regions.

    Why Are Camels Often Referred to as “Ships of the Desert”?

    Camels are often called “ships of the desert” due to their ability to traverse arid and challenging desert environments. They can carry heavy loads, endure long journeys, and provide vital transportation and resources to desert-dwelling communities. Camels have historically played a central role in the nomadic lifestyle of desert communities.

  • What Makes the Bactrian Camel So Durable?

    What Makes the Bactrian Camel So Durable?

    Like a skilled sculptor, evolution shapes living beings over time, allowing them to better adapt to their environment. This enables living species to conquer all available habitats, even those that appear most hostile to us. Few terrestrial environments are as inhospitable as deserts, whether hot or cold: water and food are scarce, temperature variations are extreme, and dangers abound.

    Yet a few animal species make these arid places their home, among them the Bactrian camel.

    It’s in the Gobi Desert, Mongolia, that we find the last population of wild Bactrian camels. Covering nearly 1,300,000 square kilometers, one of the world’s largest deserts is known for its significant temperature variations, from 38°C (100°F) during the hottest summer days to -40°C (-40°F) on the coldest winter nights.

    In just 24 hours, temperatures can vary by 35 degrees, so the animals living there must demonstrate great endurance and be well adapted to this challenging environment.

    Just like its close cousin, the dromedary, the camel is built to withstand the extreme conditions imposed by its environment.

    Its light-insulating fur acts as a thermal shield, protecting its skin from direct exposure to the scorching sun in the summer. Thickening in winter, it insulates the animal from the biting cold during freezing nights. The camel can also endure a variation in body temperature from 34°C (93°F) to 41°C (106°F) without any impact on its health. In comparison, a human can barely tolerate an internal temperature variation of over 1°C without showing symptoms (fever, hypothermia).

    Extremely Useful Humps

    One of the most striking features of the camel is undoubtedly the presence of two humps on its back. Here again, we discover a clever adaptation to help the animal cope with the challenges of its environment.

    No, the humps do not contain water! They are, in fact, reserves of fat that the camel uses when deprived of food for extended periods; each hump can weigh up to 23 kilograms (50 pounds).

    The metabolic conversion of this fat provides twice as many proteins and carbohydrates as any other energy source. Moreover, for every gram of fat converted, a gram of metabolic water is produced. The secret of its extraordinary adaptability to its harsh environment lies in its water-saving capability.

    Bactrian camels and dromedary camels are different species. Bactrian camels have two humps, while dromedary camels have one. Their geographic ranges also differ, with Bactrian camels primarily found in Central Asia and dromedary camels in the Middle East and North Africa.

    Saving Water to Survive

    The animal can go without water for extended periods without suffering from the effects of dehydration. In fact, it can lose up to 30% of its body weight in water without any consequences. In humans, a loss greater than 12% can be fatal for most people.

    Nevertheless, the camel minimizes its water loss to the maximum, never knowing when its next drink will come. Its droppings are very dry, and its urine is highly concentrated compared to other mammals of similar size; it can be twice as salty as seawater.

    Additionally, although the animal has sweat glands, it rarely sweats except in extremely hot conditions, allowing it to minimize water loss through evaporation. Its coat insulates its skin from direct heat and reduces the use of this strategy to lower the mammal’s internal temperature.

    Remarkably well-adapted, sooner or later, the camel still needs to drink water. Faced with a water source, the animal drinks to its heart’s content, consuming up to a hundred liters in one go.

    Domesticated for over 4,500 years, the Bactrian camel has enabled human populations living in some of the most inhospitable places on the planet to obtain food, engage in trade, and travel between isolated communities.

    While there are millions of domesticated camels, the wild population now numbers only about a thousand individuals. The camels of the Gobi Desert, devoted companions in a life of extreme conditions, now have more to fear from human activity than from their environment if they are to survive extinction.