Everything Everywhere Daily: History, Science, Geography & More - Australian Wildlife
Episode Date: July 17, 2025Australia is unique among the countries in the world. It is a continent, a country, and an island all wrapped up into one. Australia is also home to some of the most bizarre species in the world, ...most notably its large number of marsupials, which comprise 70% of all marsupial species worldwide. Why do Australia’s animals differ so significantly from those of the rest of the world, and what led to the dominance of marsupials? Learn more about the animals of Australia on this episode of Everything Everywhere Daily. ***5th Anniversary Celebration RSVP*** Sponsors Quince Go to quince.com/daily for 365-day returns, plus free shipping on your order! Mint Mobile Get your 3-month Unlimited wireless plan for just 15 bucks a month at mintmobile.com/eed Jerry Compare quotes and coverages side-by-side from up to 50 top insurers at jerry.ai/daily American Scandal Follow American Scandal on the Wondery App or wherever you get your podcasts. Subscribe to the podcast! https://everything-everywhere.com/everything-everywhere-daily-podcast/ -------------------------------- Executive Producer: Charles Daniel Associate Producers: Austin Oetken & Cameron Kieffer Become a supporter on Patreon: https://www.patreon.com/everythingeverywhere Update your podcast app at newpodcastapps.com Discord Server: https://discord.gg/UkRUJFh Instagram: https://www.instagram.com/everythingeverywhere/ Facebook Group: https://www.facebook.com/groups/everythingeverywheredaily Twitter: https://twitter.com/everywheretrip Website: https://everything-everywhere.com/ Disce aliquid novi cotidie Learn more about your ad choices. Visit megaphone.fm/adchoices
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Australia is unique among the countries of the world.
It's a continent, a country, and an island all wrapped up into one.
Australia is also home to some of the most bizarre species in the world.
Most notably, its large number of marsupials,
which comprise 70% of all marsupial species worldwide.
But why do Australia's animals differ so significantly from those of the rest of the planet,
and what led to the dominance of these marsupials?
Learn more about the animals.
of Australia. On this episode of Everything Everywhere Daily.
What if your perceptions about the past were wrong?
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As I noted in the introduction, Australia is.
is different. Geologically, it's very old, with very little in the way of geological activity
over the last several million years. It's also very remote. Africa, Europe, and Asia form a single
vast landmass that was once connected to North and South America, as recently as 20,000 years ago.
Australia, however, is off on its own. As such, it shouldn't come as too much of a surprise that the
wildlife in Australia is also markedly different than what is found in the rest of the planet.
When I say different, I'm really talking about Australia's mammals.
And to start this discussion, we should define what a mammal is.
If you remember back to my episode on biological taxonomy, there are eight different taxonomic levels in biology.
Domain, kingdom, phylum, class, order, family, genus, and species.
Mammals are simply a taxonomically defined group of animals that fall under the class,
Mammalia. Under the class mammalia, there are two major subclasses. The subclasses are defined
based on how mammals give birth. There are monotrems, which are mammals that lay eggs, and Therians
which give live birth. The Therians are further subdivided into two infracasses, which are
essentially sub-sub-classes. There are two major types of mammals under this. Pouched mammals, known as
marsupials and placental mammals commonly referred to as Eutherians. If we take monotrems,
marsupials, and Eutherians as the three most basic types of mammals, Australia is the only
continent that contains all three. And in all three types, their presence in Australia has a
pretty interesting story. So let's start with marsupials. Marsupials share many common traits with
the larger mammalian class, including having hair and mammary glands, which are specialized glands
that produce milk.
Marsupials are a group of mammals that give birth to relatively undeveloped young, which then
continue to develop outside of the womb, typically in a pouch on the mother's belly.
Technically, marsupials do have placentas, but theirs are very short-lived and much less complex
than those of the Eutherians. The marsupial placenta provides nutrients to developing
embryo for only a brief time before birth. After this short gestation, the tiny underdeveloped young
are born and crawl into the mother's pouch to continue developing while nursing. In this phase,
the offspring is roughly the size of a jelly bean. In this embryonic condition, the child's hind legs and
skull are not fully developed, but their four limbs and mouth are more developed. This gives the
offspring the tools to climb to their mother's pouch or cling to their mother if they do not
have a pouch. They then fuse to the mother's nipple for the rest of their development.
There may be certain evolutionary advantages to having a pouch. In a dangerous situation, marsupials can
abandon their young. Now this might not seem like a good evolutionary strategy at first,
but it could mean that the mother lives to have more offspring, which can better help the species
survive. Likewise, the embryo in the pouch also has some benefits as well. The mother's immune system
is less likely to attack the embryo
and allows the mother to maintain eating
the same amount of food as before.
Risks of childbirth are also usually avoided
as the offspring is born at such an early stage.
Some of the most common and well-known types of marsupials
reside in Australia, including kangaroos, koalas, wombats, and many more.
Due to their embryonic stage,
biologists have long believed that marsupials
represent an intermediate stage of development
between egg-laying mammals and placental mammals.
One of the reasons it's thought that marsupials survive this stage is because of their isolation in Australia.
Interestingly, despite developing separately, marsupials and placental mammals developed in similar
behavioral and structural ways. This is an example of convergent evolution, similar to how fish
and aquatic mammals often share a similar appearance. Such examples include sugar gliders and
flying squirrels, marsupial moles versus placental moles, or the extinct Tasmanian tiger, and wolves.
Marsupials can also fill the same ecological spaces as cats, bears, and rabbits, among others.
A good example of this is the kangaroo and the deer, which fill similar ecological roles.
This process is known as adaptive radiation, which occurs when a species diversifies rapidly
to fill ecological roles and utilize available resources. I recall driving,
around the country and coming to the realization that kangaroos were essentially Australia's
equivalent to the white-tailed deer in North America. However, there's a reason why there are fewer
marsupials compared to placental mammals in the rest of the world. Marsupials are generally
considered to be less intelligent than placental mammals. This is due to their brains being smaller.
Their skulls tend to be tinier and more compacted, and their brains don't have a corpus callosum,
which is what connects the two cerebral hemispheres of the brain.
Marsupials also tend to have less social organization when compared to their placental counterparts.
Even those species like kangaroos that do move in groups tend not to live in a true hierarchical social structure.
So there are a lot of marsupials in Australia.
The big question then is, why is there such a disproportionately large number of marsupials in Australia?
Marsupials likely originated in South America during the Cretaceous period over 100 million years ago.
Fossil evidence suggests that the earliest marsupials evolved there after diverging from a common ancestor shared with placental mammals.
From South America, some marsupials then migrated to Antarctica, which at the time was connected and much warmer.
From there, they then migrated to Australia, likely around 50 to 60 million years ago.
Once in Australia, marsupials diversified extensively due to the absence of competing placental mammals,
leading to the wide variety of marsupial species found today.
Marsupials were not the only species to attempt this crossing, but they were the main survivors of the journey.
According to biologists, this could be because the journey to Australia was easier for marsupials
because of their reproductive system.
Other biologists are unsure if marsupials developed before or after the placentals,
But if placental animals did cross over to Australia, they died out.
Regardless what happened, plate tectonics eventually resulted in the continent spreading further apart from each other,
leading to Australia's isolation about 65 million years ago.
While marsupials dominate Australia's mammal population, they're not the only ones.
The subclass of monotrems, the egg-laying mammals, are also present in Australia.
Monotrems are the only mammals that lay eggs instead of giving birth to live young.
Monotrems also retain some reptilian traits, such as a cloaca, or a single opening for
excretion and reproduction.
There are only five living species of monotrems, all of which are found in Australia and
Pocau, New Guinea, the platypus, and four species of echidna, also called spiny ant-eaters.
Despite their unusual reproduction, monotrems are.
are true mammals in that they produce milk and have fur.
Monotrems are the most primitive group of living mammals,
and they represent an ancient lineage that split off from the common ancestor of all mammals
more than 200 million years ago during the Triassic or early Jurassic period.
Fossil evidence and genetic studies suggest that monotrems diverged before the evolution
of the other two main mammalian groups, that being marsupials and placental mammals.
This early split explains their many unique traits, such as egg laying, a cloaca, the lack of a corpses colosum, and certain skeletal features which are more reminiscent of reptiles.
The oldest known monotrem fossils date back to approximately 110 million years ago during the early Cretaceous period, and were found in Australia.
These fossils confirm that monotrems were already distinct and specialized in the age of the dinosaurs.
Montetrems likely evolved in Gondwana, the southern supercontinent that included Australia,
Antarctica, and South America. As these land masses drifted apart, monotrems became isolated in Australia
and Pawpenni, where they survived and evolved into the modern platypus and echidnas.
I should also address the placental mammals, or euthyrians that exist in Australia.
While marsupials and monotrems get most of the attention, euthherians in Australia do exist.
The most common are bats and small rodents such as rats.
And I'll explain while they're in Australia in a bit, but there's one large mammal which is also a placental mammal.
Dingoes.
Dingoes likely arrived in Australia around 3,500 to 4,000 years ago, brought by Austronesian seafarers or other maritime peoples from Southeast Asia.
This was long after humans first arrived in Australia around 50,000 years ago.
and well after marsupials had become the dominant mammals on the continent.
Dingoes spread across mainland Australia and became top predators,
often filling ecological roles that were once occupied by now extinct native species such as the Tasmanian tiger.
So dingoes are essentially an invasive species, albeit a very ancient one.
Now a question that some of you might be asking is,
if the isolation of Australia resulted in the dominance of marsupials on the continent,
why are there any uterians or placental mammals in Australia at all?
Well, the answer lies in the natural boundary known as the Wallace Line,
a topic that I covered in a previous episode.
During past ice ages, sea levels dropped,
allowing Australia to be connected by land to Papua New Guinea
and for most of Indonesia to be connected to Southeast Asia.
However, Australia never connected to Asia during the sea level drops.
And this is because of a deep ocean trench that exists between the islands of Bali and Lombok
in Borneo and Sulawesi in Indonesia.
No matter how low sea levels dropped, that trench prevented these two landmasses from becoming connected.
And that meant large mammals that traveled by land couldn't migrate between Australia and Asia.
However, flying mammals like bats or small animals like rats, if they got lucky enough to get stuck
on a piece of debris, could cross the gap. It also explains why marsupials didn't cross into Asia
and stayed in Australia. The vast majority of marsupial species in the world today reside in Australia,
with 70% of these species inhabiting the Australian continent and the nearby islands on the same
side of the Wallace line. The remaining 30% of marsupial species live in the Americas,
with the majority of those marsupials residing in South America and one species, the Virginia
possum living in North America.
As stated earlier, the lack of marsupials is likely due to competition with placental mammals
present in South America, which caused the larger marsupial species to eventually go extinct.
Modern-day marsupials in Australia are facing new challenges and threats.
Since the British colonized Australia over 200 years ago, it has rapidly lost much of its unique
biodiversity. One of the most severe impacts on Australia's biodiversity has been the introduction
of invasive species. Australia has had the highest rate of mammal extinction of any country.
House cats and foxes have decimated the population of some smaller marsupial species,
as these species have never evolved to protect themselves from such predators.
Competition prevents resources such as food or water from reaching some native species.
This can be seen in the addition of grazing animals such as
cattle and sheep, which can overgraze vegetation. The introduction of new weeds can often outcompete
native plant populations, altering the food sources for marsupials. Finally, new species can introduce
diseases to native populations as they have never developed immunity. However, not all marsupials
are at risk, and some are thriving. Kangaroos and wombats have been adapting surprisingly well to modern
environments. The isolation of Australia led to an explosion of biodiversity on the continent,
resulting in the vast majority of marsupial species in the world today being found there. Geology,
evolutionary biology, and a strategically placed ocean trench were all factors that contributed
to the mix of animals that live in Australia today. The executive producer of Everything
Everywhere Daily is Charles Daniel. The associate producers are Austin Otkin and Cameron Kiefer.
Research and writing for this episode was provided by Olivia Ash.
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They write,
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