Category Zology

What makes the blue whale incredible?

Can you imagine a creature longer than three buses, heavier than 33 elephants, with blood vessels so gigantic that you could swim around in them, a heart as big as a car and a tongue as heavy as a pick-up truck? This creature has the unique distinction of being the largest animal EVER to have lived on Earth. Meet the blue whale.

This blue-grey leviathan weighs a whopping 130,000 kg and can grow over 33 m long! It has a long, streamlined body, powerful tail, small dorsal fin and yellowish underside, giving it the nickname ‘sulphur bottom’ whale. Considering its enormous size, one would imagine it to be a top predator with brutal, fearsome teeth to shred its victims, but the blue whale is a gentle giant that feeds mainly on tiny shrimp-like crustaceans called krill.

The blue whale is also called baleen whale because it has unique fibrous plates called ‘baleen’ plates instead of teeth in its mouth. While eating, the blue whale gulps a huge amount of water into its mouth and then expels it back out through these baleen plates which act like hairy nets that capture the krill within. It can eat up to 4000 kilograms of krill every day!

Interestingly the blue whale is not only the largest animal on Earth but also the loudest! Its call may be heard for hundreds of kilometres around!

Sadly, this powerful, yet peaceful creature has been hunted almost to extinction.

Picture Credit : Google 

WHAT IS A FOSSIL?

Fossil, remnant, impression, or trace of an animal or plant of a past geologic age that has been preserved in Earth’s crust. The complex of data recorded in fossils worldwide—known as the fossil record — is the primary source of information about the history of life on Earth.

Only a small fraction of ancient organisms are preserved as fossils, and usually only organisms that have a solid and resistant skeleton are readily preserved. Most major groups of invertebrate animals have a calcareous skeleton or shell (e.g., corals, mollusks, brachiopods, bryozoans). Other forms have shells of calcium phosphate (which also occurs in the bones of vertebrates), or silicon dioxide. A shell or bone that is buried quickly after deposition may retain these organic tissues, though they become petrified (converted to a stony substance) over time. Unaltered hard parts, such as the shells of clams or brachiopods, are relatively common in sedimentary rocks, some of great age.

The hard parts of organisms that become buried in sediment may be subject to a variety of other changes during their conversion to solid rock, however. Solutions may fill the interstices, or pores, of the shell or bone with calcium carbonate or other mineral salts and thus fossilize the remains, in a process known as permineralization. In other cases there may be a total replacement of the original skeletal material by other mineral matter, a process known as mineralization, or replacement. In still other cases, circulating acid solutions may dissolve the original shell but leave a cavity corresponding to it, and circulating calcareous or siliceous solutions may then deposit a new matrix in the cavity, thus creating a new impression of the original shell.

Fossils of hard and soft parts that are too small to be observed by the naked eye are called microfossils. Some fossils are completely devoid of plant and animal parts but show evidence of an organism’s activities. Such traces of organisms, which are appropriately known as “trace fossils”, include tracks or trails, preserved waste products, and borings.

Credit: Britannica

Picture credit: Google

What ant actually explodes to protect the entire colony?

Found in the remote rainforests of Borneo, Colobopsis explodens ants have developed extreme abilities to protect their colony. When threatened by other insects, these ‘exploding ants’ rupture their own body walls, releasing a toxic, sticky liquid which kills or immobilizes their attacker.  Outside the kitchen door at the Kuala Belalong Field Studies Center in Brunei, on a number of trees near the balcony, there is a nest of very special ants. Workers of C. explodens have a distinctive, rather foul talent. When their nest is invaded, they rupture their own abdomens, releasing a sticky, bright yellow fluid laced with toxins on their attackers. Similar to honey bees that die after stinging, the exploded ants do not survive, but their sacrifice can help save the colony. Scientists call this suicidal behaviour “autothysis”.

Some ants (called door-keepers) have even developed plug-shaped heads used to physically barricade the nest entrances against intruders. These ants explode, but their nests live to see another day.

Credit : The Newyork Times

Picture Credit : Google 

How are baby elephants similar to human babies?

Baby elephants suck their trucks just like human babies suck their thumbs. And they do it for the same reason – comfort. Trunk sucking also helps young elephants master the use of their trunks for feeding.

Aside from the comfort it provides, trunk sucking helps an elephant calf learn how to use and control this lengthy appendage. With more than 50,000 individual muscles in the trunk, you can imagine how complicated it is to get it to do what you want it to do at any given time. Sucking on the trunk helps a young elephant learn how to control and manipulate the muscles in the trunk so that it can fine-tune its use.

Elephants also suck their trunks as a means of advanced “smelling.” They can taste the pheromones of other elephants by touching their trunks to urine or feces and then popping the trunk in their mouths to get a closer whiff.

While trunk sucking is primarily a mannerism found in young elephants, older elephants—even mature bulls—have been seen sucking their trunks when they are nervous or upset.

Credit :  Tree Hugger

Picture Credit : Google 

WHAT DID EARLY ANIMALS LOOK LIKE?

By around 500 million years ago, bacteria in the oceans had evolved into the earliest fish. These strange creatures had no jaws; they had funnel-like Sucking mouths.

The first animals – including the common ancestor of all animals today – evolved in the sea over half a billion years ago. We have no direct evidence of what they were like.

But by studying animals today, we can work out features they must have shared – small size, soft bodies, and a tendency to stay very still or creep slowly across the ocean floor.

The creatures had bodies built from multiple cells with specialised roles, like organisms before them. Now, those cells could also form sheets called epithelia, allowing structures to develop. Along with increased genetic complexity, this set the scene for big changes.

Earth’s environment was in flux during the Cambrian period, and the Ediacaran period that came before it. Sea levels rose, and chemicals washed into the ocean. In the underwater world, evolution got to work. New creatures emerged that could move further than ever before – and change their environment by burrowing and building. Soon, the new species were living in every habitat across the length and breadth of the ocean.

Credit: Natural History

Picture credit: Google

What is the largest carnivorous marsupial?

The Tasmanian devil is the largest carnivorous marsupial, known for their high-pitched squeal and aggressive temperament. They have held this title for over 80 years. Specifically, these creatures weigh between 9 and 29 pounds. A Tasmanian Devil weighing 29 pounds is as heavy as three one-gallon cans of paint. These mammals range from 20 to 31 inches long. Picture two bowling pins lined up end to end and you have the length of a 31-inch Tasmanian Devil. This mammal’s tail is equal to half of its body length. These animals store fat in their tail to use for energy. So, if you see one of these animals with a thick tail, you know it’s healthy. Thanks to conservation efforts, they are being reintroduced to Australian mainland after a 3,000-year gap. Mother devils can give birth to 50 young ones at one go. However, very few survive.

A Tasmanian Devil is a small animal with short brown or black fur with a stripe of white hair across its chest. Some of these marsupials have patches of white hair near their dark tail. This marsupial’s front legs are longer than its back ones. They have dark eyes and small mouselike ears. These animals have excellent sight and hearing allowing them to track down prey at night.

They are known for their very strong jaws. In fact, this marsupial’s jaws have a bite force of 94 pounds. That strong bite force allows them to easily consume the meat, hair, bones, and organs of the dead animals they find. Some scientists refer to Tasmanian Devils as environmental vacuums because they clean up the carcasses they find in their habitat.

Credit : A-Z-Animals

Picture Credit : Google