Living in Extreme Places

Life can be found in every environment on Earth, even in areas that humans wouldn’t be able to live.

This story was created for the Google Expeditions project by Vida Systems, now available on Google Arts & Culture.

Antarctica (1964) by Michael RougierLIFE Photo Collection

While humans are able to adapt their behavior and clothing to suit new environments, many animals have evolved special adaptations to ensure they survive the conditions they face in their habitats.

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Polar regions

Earth has 2 polar regions: the North Pole in the Northern Hemisphere and the South Pole in the Southern Hemisphere. The South Pole is the colder of the 2 regions, however animals that live in both of these places need to survive extremely cold conditions. 

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Winters

Due to their locations, darkness descends for almost half of the year during winter in the North and South Poles. Winter temperatures for the North Pole average -40℉. In the South Pole, the average temperature goes even lower, -76℉.

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Emperor penguin

Emperor penguins, found only in the Antarctic region, have behavioral adaptations, such as huddling together. In fact, their bodies are so well–adapted for this region that it’s believed they change positions during huddling because they get too hot!

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Polar bears

Polar bears, living in the Arctic region, have evolved a number of structural and behavioral adaptations to survive. Their black skin absorbs more sunlight, and their thick layers of blubber and wide paws stop them from sinking in the snow.

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Summer

Much of the Arctic region loses its snow cover during summer, and the sun shines 24 hours a day. To cope with the higher temperatures, which average about 32℉, polar bears shed much of their fur.

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Deserts

Most deserts are extremely hot, dry places. They receive less than 10 inches of rain a year, although some may not see rain for years at a time. The average daytime temperature in a desert can reach over 100℉. However, during the night, the temperature drops to an average of 25℉. 

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Burrows

Many desert animals live in holes and tunnels they dig under the desert floor, known as burrows. A more stable place with consistent temperatures, the world underground provides a safe spot for animals to hide and rest. 

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Storage

The ultimate desert animal, the camel stores fat in its humps to provide energy when food is scarce. A camel can go a week without water (and months without food), and its eyes, ears, and nostrils have evolved to keep out blowing sand.

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Birds

Desert birds lose less water through body evaporation, have less chicks, and spend less energy doing the same tasks as birds living in cooler conditions. With paler colors in their feathers, they take in less heat and are less visible to their predators. 

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Active time

Many desert animals will simply avoid being out during the hottest parts of the day. Animals such as meerkats are most active during early morning and late afternoon. Some birds will stay active, but perch in a shady spot when they need to rest.

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Deep sea

Animals living in the deepest parts of the ocean need to deal with enormous water pressure (a normal submarine would be crushed like a tin can!). They must also meet the challenge of a habitat in complete darkness, with temperatures averaging 34℉. 

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Pressure

Air–filled swim bladders found in a normal fish would collapse under the immense pressure of the deep sea. Most deep sea fish either don’t have these swim bladders, or they have swim bladders that are filled with liquid instead of gas. 

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Bioluminescence

Sunlight doesn’t reach down into the deep ocean. Many animals can produce their own light, called bioluminescence, using special cells found on their skin. This light helps them navigate, attract mates as well as prey, and scare off predators. 

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Stretch

Many deep sea predators like the Gulper Eel can stretch their mouths very wide in order to eat anything that comes along. A Gulper Eel can eat fish much larger than itself using its incredible mouth.

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Marine snow

Particles are always falling in the deep sea. Called “marine snow,” these particles include bits of dead animals, animal poo, bacteria, and pieces of dead marine plants. This snow makes up the diet of many deep sea animals. 

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Deep underground

Once thought to not hold any life, scientists have found animals living in the deepest parts of the explored Earth. Animals living here need to be able to survive in complete darkness, endure extreme heat (average 100℉), and survive on very little oxygen.

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Nematodes

Small, wormlike creatures called nematodes live in water deep underground. They also live deep in the Earth’s crust where there is little oxygen. Nematodes feed on the thin layers of bacteria that are found deep underground. 

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Tardigrade

Tardigrades are one of the toughest animals known to man. Found not only deep underground but almost everywhere water is present, they can even survive the vacuum of space! They stay alive by using their ability to reduce metabolic activity to extremely low levels.

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Oxygen

We humans need our air to contain at least 21% oxygen in order to survive. Animals such as nematodes, however, only need the air to contain 0.5% oxygen. They can even survive in Earth’s hot, dry crust, which contains very little oxygen.

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Hydrothermal vents

Hydrothermal vents can be found in the deepest parts of the ocean. These vents release super hot minerals with temperatures reaching up to 750℉ that come from underground volcanic activity.

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Despite being well over boiling temperature, the water doesn’t boil due to the immense water pressure. Much of what is released by the vents is highly poisonous to most life.

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Tube worms

The discovery of these 5–foot long tube worms living on hydrothermal vents was a surprise to scientists. With no mouths, they rely on bacteria living within them to produce energy via chemosynthesis. 

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Darkness

Like deep underground and deep sea creatures, organisms living around the hydrothermal vents need to be able to survive in total darkness. Instead of photosynthesis, bacteria use a process call chemosynthesis to convert minerals into energy. 

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Their red plumes exchange oxygen, carbon dioxide, and hydrogen sulfide with the seawater.

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Crustaceans

The Vent Crab lives in very high numbers around the hydrothermal vents. Scientists use the crab’s appearance as an indicator that they are approaching a hydrothermal site. Adults can only survive under high water pressure; bringing them to the surface will kill them.

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Ecosystem

Scientists were astounded to discover not just a few organisms that have evolved to live near these super hot, poisonous vents but a whole complex ecosystem. The existence of these types of ecosystems greatly interests scientists looking for signs of life on other planets.

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High altitude

Living at high altitudes above 8,000 feet comes with many challenges including low oxygen levels, low temperatures, and highly variable weather conditions. Only a handful of mammals and birds have evolved specialized adaptations to live in this environment.

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Yak

Tibetan yaks are only found at elevations above 9,800 feet. Their heart and lungs are much larger than the cattle that live in the lowlands in order to ensure adequate oxygen supply for their bodies.

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Rodents

Rodents that have adapted to live at high altitudes breathe faster than their lowland relations. The lungs of these rodents have a much higher surface area, and they are also covered with more capillaries to distribute blood and oxygen. 

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Birds

Birds are particularly adaptable to life at high altitudes. Birds generally use oxygen more efficiently than mammals, while some species have evolved specific genes that help their blood take in more oxygen. 

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Scientists have studied only a small proportion of high altitude birds to date.

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Tardigrades

Tardigrades have been found in every extreme environment on Earth. Numbers of tardigrade species seem to increase at higher altitudes. In inhospitable conditions, tardigrades stop their bodies from functioning, called cryptobiosis. 

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Once conditions become favorable, they return to their normal state.

Credits: All media
The story featured may in some cases have been created by an independent third party and may not always represent the views of the institutions, listed below, who have supplied the content.
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