Amphibians

Amphibians are a group of tetrapod vertebrates that include modern-day frogs and toads, caecilians, and newts and salamanders. The first amphibians evolved from lobe-finned fishes approximately 370 million years ago during the Devonian Period. The world of those early amphibians was quite different than it is today.
There were no birds, no mammals, and no reptiles on land (or in the water for that matter). There were only invertebrates and an assortment of prehistoric plants. It was a silent place, void of birdsong and lacking the growl of predators. The land lay wide open to amphibians and those with the evolutionary tenacity to set forth from the shallow shores began a new and important stage in the history of life on our planet. Several types of fishes had developed lungs. Among those lung-bearing fishes were the lobe-finned fish and the lungfishes.
The Crossopterygians, a group of primative lobe-finned fish are believed to be the ancestors of amphibians. They evolved several key features that enabled them to colonize land:

* a more rigid skeleton that would support the animal's body weight on land
* nostrils
* leg bones

Early amphibians included creatures such as Diplocaulus, Ophiderpeton, Adelospondylus, Diplocaulus, and Pelodosotis.
Most lineages of amphibians never fully severed their ties with aquatic habitats. A majority of amphibian species return to the water to breed and some species remain entirely aquatic throughout their entire life cycle. Most amphibians go through a complex metamorphosis process as they grow to adulthood.
The life cycles of amphibians reflects their evolutionary history of bridging land and water. Most amphibians lay their eggs in freshwater. A few species tolerate brackish water and some species lay their eggs on land. Extraordinarily, some species even carry their eggs inside their body. Although life cycles of amphibians vary from species to species, they all share the following three basic stages of development: egg, larva, adult.
Amphibian eggs do not have a hardened shells which means amphibians are not amniotes like reptiles, birds, and mammals. Instead, amphibian eggs consist of a gelatinous envelope that must remain moist to survive. Eggs hatch to release tiny larvae which later undergo a metamorphosis into the adult form.
Many amphibians can absorb oxygen directly into their bloodstream through their skin and are also able to expell carbon dioxide waste back into the air. The skin of amphibians lacks scales and hair. It is smooth and sometimes moist, making it quite permeable to gases and water. This permeability is thought to make amphibians particularly vulnerable to toxins in air and water such as herbicides, pesticides, and pollutants. Amphibians have been sharp decline throughout many areas worldwide. This is thought to be an early warning sign of a troubled environment.
Classification:

* Kingdom: Animalia
* Phylum Chordata
* Class Amphibia
* Subclass Lissamphibia
The Subclass Lissamphibia contains the following subgroups:
o Order: Caudata (newts and salamanders)
o Order: Gymnophiona (caecilians)
o Order: Anura (frogs and toads)

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10 Facts About Animals | Amphibians, Birds, Insects, Fishes, Mammals and Reptiles

10 Facts About Animals

Animals are one of the basic groups of life on Earth. All animals share a set of fundamental characteristics—they move, they feed on other organisms, they're multicellular and they reproduce sexually. Animals belong to the Kingdom Animalia, a group also known as the Metazoa. Animals include organisms such as amphibians, birds, fishes, invertebrates, mammals, and reptiles. The first animals evolved about 600 million years ago during the late Precambrian.

1. Animals are divided into six basic groups which include amphibians, birds, fishes, invertebrates, mammals and reptiles.

Invertebrates were the first animals to evolve. Fossil evidence of invertebrates dates back to the late Precambrian, 600 million years ago.

Fishes were among the first vertebrates to evolve. The earliest known fishes were the ostracoderms, a now-extinct group of jawless fish that appeared in the Cambrian Period. Fish later evolved jaws and diversified into a number of lineages including cartilaginous fish, ray-finned fish and lobe-finned fish.

Amphibians (Class Amphibia) were the first vertebrates to make the move from life in water to life on land. Despite their early colonization of terrestrial habitats, most lineages of amphibians have never fully severed their ties with aquatic habitats. Amphibians include newts and salamanders, frogs and toads, and caecilians.

Reptiles (Class Reptilia) are cold-blooded vertebrates that diverged from ancestral amphibians about 340 million years ago during the Carboniferous Period. Reptiles include turtles, squamates, crocodiles, and tuataras. There are about 8,000 species of reptiles alive today.

Mammals (Class Mammalia) are vertebrates that evolved from therapsid reptiles during the Jurassic Period about 200 million years ago. There are approximately 5,400 species of mammals alive today. Some of the better-known mammal groups include carnivores, rodents, elephants, marsupials, rabbits, bats, primates, seals, anteaters, cetaceans, odd-toed ungulates, and even-toed ungulates.

Birds (Class Aves) evolved from reptiles during the Mesozoic Era about 150 million years ago. Birds have a number of characteristics that sets them apart from other vertebrates such as feathers, bills, and a furcula.

2. There are between 3 and 30 million species of animals.

Scientists estimate that there are in the ballpark of 3 and 30 million species of animals alive today. Of those species, about 97% are invertebrates and 3% are vertebrates. The insects are the most numerous of all animal groups, with 1 to 29 million species. In addition to insects, invertebrate animals include about 100,000 species of molluscs, 75,000 species of arachnids, 10,000 species of sponges, and more than 20,000 nematotes. Vertebrate animals include 8,000 reptiles, 10,000 birds, 23,000 fish, and 5,000 mammal species.

3. The first animals appeared approximately 600 million years ago during the late Precambrian.

The oldest evidence of life, fossilized stromatolites unearthed from Bolivia, is about 3.8 billion years old. It wasn't until the late Precambrian that the first animals appear in the fossil record. Among the earliest animals are those known as the Ediacara biota, an assortment of tubular and frond-shaped creatures that lived between 635 and 543 million years ago. The Ediacara fossils appear to have vanished by the end of the Precambrian.

4. Early animals diversified during the Cambrian Explosion.

The Cambrian Explosion (570 to 530 million years ago) refers to an unprecedented and unsurpassed period of evolutionary innovation in the history of our planet. During the Cambrian Explosion, early organisms evolved into many different, more complex forms. During this time period, nearly all of the basic metazoan body plans that persist today were established.

5. Animals are multicellular eukaryotes.

All animals have bodies that consist of multiple cells—they are multicellular. In addition to being multicellular, animals are also eukaryotes—their bodies are composed of eukaryotic cells. Eukaryotic cells are complex cells that have membrane-bound nuclei and organelles. The DNA in a eukaryotic cell is linear and organized into chromosomes. With the exception of the sponges, animal cells are organized into tissues that perform different functions. Animal tissues include connective tissue, muscle tissue, epithelial tissue, and nervous tissue.

6. Most animals are capable of movement.

Unlike plants, which are fixed to the substrate in which they grow, most animals are motile (capable of movement). One exception is the sponges, which are considered to be sedentary for most of their life cycle, although it has been shown that some species can move at a very slow rate (a few millimeters per day).

7. Animals rely on other organisms for food.

All animals are heterotrophs which means they cannot produce their own food. Instead, they must ingest plants and other organisms as a way to get the carbon and energy they need to live.

8. Animals undergo sexual reproduction at some point in their life cycle.

Most animals undergo sexual reproduction at some point during their life cycle. Sexual reproduction is a process that combines the genetic material of parent organisms to form the genetic material of offspring. Sexual reproduction augments genetic diversity within a population.

9. Animal cells are held together by a matrix that contains collagen.

Animal cells are embedded in an extracellular matrix that consists of collagen and glycoproteins. Collagen is a protein found exclusively in animals. It is the primary protein of which connective tissue is constructed.

10. The largest animal alive today is the blue whale.

The blue whale is the largest animal alive today and is perhaps the largest animal ever to have lived. It weighs in the range of 110 to 160 tonnes and grows to lengths of between 20 and 30 meters. But blue whales break more than just size records. They produce vocalizations at volumes in excess of 180 decibels, earning them the title of the loudest animal on the planet.

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