History of the Earth Part 4: Phanerozoic Eon – Cenozoic Era
Summary
TLDRThis script explores the Cenozoic Era, starting 66 million years ago, known as the 'Age of Mammals.' It covers mammalian evolution, the emergence of primates like humans, and major geographical changes, such as the formation of the Himalayas and Antarctic ice sheets. It also discusses global climate shifts, including glaciation in the Northern Hemisphere, driven by oceanic circulation changes and Milankovitch Cycles. The script contrasts natural climate fluctuations with modern global warming, setting the stage for deeper dives into Earth's history and structural formations.
Takeaways
- 🌍 The Cenozoic Era spans from 66 million years ago to the present, known as the 'Age of Mammals'.
- 🦣 Mammals rapidly evolved after the end-Cretaceous mass extinction, which wiped out the dinosaurs.
- 🦍 The first primate, Altiatlasius, appeared around 57 million years ago, with primates like lemurs, gorillas, and humans evolving later.
- 🧑🦱 Homo sapiens emerged between 200,000 and 300,000 years ago in Africa, evolving from the genus Homo.
- 🏔️ India collided with Asia around 50 million years ago, forming the Himalayan Mountains, an ongoing geological event.
- ❄️ Antarctica became isolated around 34 million years ago, leading to global cooling and the formation of the first permanent Antarctic ice sheet.
- 🌊 The development of the circumpolar current around Antarctica helped cool the oceans and store CO2, marking the start of the modern ice age.
- 🧊 Glaciers in the Northern Hemisphere began forming around 3.2 million years ago, possibly linked to the closing of the Isthmus of Panama.
- 🌍 Milankovitch Cycles, including precession, obliquity, and eccentricity, cause glacial and interglacial periods within an ice age.
- 🔥 Despite being in an interglacial period, human activities and fossil fuel burning are causing global warming, with the Arctic facing potential ice sheet loss.
Q & A
What is the time span of the Cenozoic Era?
-The Cenozoic Era spans from 66 million years ago to the present.
Why is the Cenozoic Era called the 'Age of Mammals'?
-The Cenozoic Era is called the 'Age of Mammals' due to the rapid and intense radiation of mammals after the end-Cretaceous mass extinction, which wiped out the dinosaurs.
What was the size range of early mammals during the Cenozoic Era?
-Early mammals ranged in size from small rodents to medium-sized dogs.
When did the first primate, Altiatlasius, evolve, and where?
-The first primate, Altiatlasius, evolved around 57 million years ago in North Africa.
What event marked the emergence of Homo sapiens, and when did it occur?
-Homo sapiens, or humans, emerged between 200,000 and 300,000 years ago in Africa.
What major geological event occurred during the early Cenozoic related to India?
-During the early Cenozoic, the Indian continent collided with Asia around 50 million years ago, initiating the uplift of the Himalayan Mountains.
How did the isolation of Antarctica impact global climate during the Cenozoic?
-The isolation of Antarctica, around 34 million years ago, led to the development of the circumpolar current, which trapped colder air over the continent, contributing to global cooling and the formation of the first permanent Antarctic ice sheet.
What effect did the closing of the Isthmus of Panama have on the Earth's climate?
-The closing of the Isthmus of Panama around 3.2 million years ago reorganized ocean circulation, causing the Atlantic to become saltier and leading to the development of glaciers in the Northern Hemisphere.
What are Milankovitch Cycles, and how do they influence Earth's climate?
-Milankovitch Cycles are changes in Earth's orbit and axis, including precession, obliquity, and eccentricity, which influence long-term climate patterns and cause glacial and interglacial cycles.
What current climate trend contrasts with the natural cycles predicted by Milankovitch Cycles?
-Despite Milankovitch Cycles suggesting the possibility of expanding glaciers, current global warming caused by burning fossil fuels is leading toward a subtropical Arctic with no ice sheets.
Outlines
🌍 Overview of Earth’s Geological Eras Leading to the Cenozoic Era
This paragraph recaps Earth's geological history, covering the Hadean, Archean, and Proterozoic Eons, followed by a focus on the Phanerozoic Eon. It specifically introduces the Cenozoic Era, spanning from 66 million years ago to the present, and known as the 'Age of Mammals.' The extinction of the dinosaurs paved the way for mammals to rapidly diversify. Early mammals were small, and primates evolved during this period, with the first human genus, Homo, emerging around 2.4 million years ago. Homo sapiens, modern humans, appeared between 200,000 and 300,000 years ago.
🗺️ Geographic Shifts and Their Impact on the Climate During the Cenozoic
This paragraph explores the geographic and climatic changes during the Cenozoic Era. It highlights how Earth's continents shifted to their current positions, with India colliding into Asia 50 million years ago, forming the Himalayan Mountains. Antarctica became isolated, leading to the development of a cold circumpolar current around 34 million years ago, causing global cooling and the formation of the first permanent Antarctic ice sheets. This cooling was linked to robust oceanic circulation and lower atmospheric CO2 levels.
❄️ The Northern Hemisphere Ice Age and Oceanic Changes
The development of glaciers in the Northern Hemisphere is discussed in this paragraph, tracing their emergence to around 3.2 million years ago. It suggests that the closing of the Isthmus of Panama, which reorganized ocean circulation and caused the Atlantic to become saltier, may have triggered this glaciation. This shift prevented warm Gulf Stream waters from reaching the Arctic, leading to the formation of ice sheets over Greenland, Canada, and Northern Europe. The paragraph notes that we are still living in this Northern Hemisphere ice age.
🌡️ Glacial and Interglacial Cycles: Milankovitch Cycles and Modern Climate Change
This paragraph introduces glacial and interglacial cycles within the ongoing ice age. It attributes these cycles to Milankovitch Cycles, which are changes in Earth’s orbit, including precession, obliquity, and eccentricity, occurring over tens to hundreds of thousands of years. Though we are currently in an interglacial period, the paragraph points out that instead of an expanding ice age, modern global warming driven by fossil fuel combustion is leading to a subtropical Arctic with vanishing ice sheets.
📅 Summary of Earth’s Geological Timeline
This brief paragraph wraps up the overview of Earth’s geological timeline, emphasizing its importance for understanding future discussions about Earth's structures. It teases upcoming lessons on glaciers and other aspects of Earth's history that will build on this foundation.
🔎 Transition to Learning About Earth's Structures
The final paragraph serves as a transition, inviting the audience to move forward and start learning about specific Earth structures. It suggests that the previously covered timeline will be key to understanding the upcoming topics.
Mindmap
Keywords
💡Cenozoic Era
💡End-Cretaceous Mass Extinction
💡Primates
💡Homo sapiens
💡Indian Continent Collision
💡Antarctic Circumpolar Current
💡Ice Age
💡Glacial and Interglacial Periods
💡Milankovitch Cycles
💡Isthmus of Panama
Highlights
The Cenozoic Era spans from 66 million years ago to the present and is known as the 'Age of Mammals' due to their rapid radiation after the end-Cretaceous extinction.
Early mammals in the Cenozoic were small, ranging from rodent-sized to medium-sized dogs, and rapidly diversified.
The first primate, Altiatlasius, evolved around 57 million years ago in North Africa.
Primates, including lemurs, gorillas, chimpanzees, and humans, experienced rapid radiation during the Cenozoic Era.
The first member of the human genus, Homo, evolved about 2.4 million years ago from Australopithecus.
Homo sapiens, or modern humans, emerged between 200,000 and 300,000 years ago in Africa.
By the Cenozoic Era, Earth's continents were near their current positions, except for India, which was still moving toward Asia.
The collision of India with Asia around 50 million years ago initiated the uplift of the Himalayan Mountains, a process that continues today.
Antarctica became isolated about 34 million years ago when Australia and South America broke away, leading to the development of a cold ocean current and the first permanent Antarctic ice sheet.
The development of the circumpolar current around Antarctica initiated global cooling and led to the modern ice age.
Around 3.2 million years ago, glaciers formed in the Northern Hemisphere, possibly due to the closing of the Isthmus of Panama.
The closure of the Isthmus of Panama altered ocean circulation, causing the Atlantic Ocean to become saltier and leading to a cooling effect in the Northern Hemisphere.
Milankovitch Cycles, which include precession, obliquity, and eccentricity, influence glacial and interglacial periods by causing changes in Earth's orbit.
We are currently in an interglacial period, though the Milankovitch Cycles suggest the prospect of expanding glaciers.
Despite natural cycles, human-induced global warming from fossil fuel burning is pushing us toward a subtropical Arctic without ice sheets.
Transcripts
At this point we have covered the Hadean, Archean, and Proterozoic Eons, and we are
working our way through the Phanerozoic Eon. We made it through the Paleozoic and Mesozoic Eras,
which brings us to the third and final era of this eon, which is called the Cenozoic Era.
The Cenozoic Era is the period in Earth’s history spanning from 66 million years ago to the present.
The Cenozoic Era is called the “Age of Mammals” due to their rapid and intense
radiation, thanks to the end-Cretaceous mass extinction which killed off the dinosaurs.
The early mammals were small creatures, ranging from the size of small rodents to medium-sized
dogs. The first primate, Altiatlasius, evolved around 57 million years ago in North Africa.
Primates, like other mammals, experienced rapid radiation in the Cenozoic Era.
Types of primates include lemurs, gorillas, chimpanzees, and humans. The first member of
the human genus, Homo, evolved around 2.4 million years ago from Australopithecus. Homo sapiens,
or humans, emerged between 200,000 and 300,000 years ago in Africa.
But this fascinating story will have to be saved for the upcoming anthropology series.
By the Cenozoic Era, most of Earth’s continents were near their current locations,
except for India. The Indian continent was making a beeline toward Asia during the early Cenozoic,
with collision and orogeny occurring around 50 million years ago.
This event initiated uplift of the Himalayan Mountains and is still occurring to this day.
Additional smaller changes in geography greatly impacted the Cenozoic climate. For example,
Antarctica became an isolated continent around 34 million years ago as Australia and South America
broke away, moving northward. This led to the development of a cold ocean current around
Antarctica, helping trap colder air over the continent. The development of the so-called
circumpolar current led to global cooling and the development of the first permanent Antarctic
ice sheet, marking the beginning of the modern ice age. The global cooling was caused by the
development of a robust oceanic circulation, where the cold, dense water of the circumpolar current
sinks down and spreads out. This led to the cooling of the lower ocean, which set the stage
for more atmospheric CO2 to be stored as sediment on the ocean floor, reducing greenhouse warming.
The next major change was the development of glaciers in the Northern Hemisphere,
which existed by around 3.2 million years ago. The cause of this is still debated,
but it was probably related to the closing of the Isthmus of Panama,
which occurred around the same time. The Pacific and Atlantic Oceans used to be connected where
Panama is today, which allowed their waters to mix. Since the closing of the isthmus,
the Atlantic Ocean has become much saltier, which initiated a reorganization of ocean circulation.
Gulf stream waters stopped circulating through the Arctic Ocean, instead sinking to the seafloor
around Greenland and spreading out. This shut off the transport of warm water to the Arctic Ocean,
causing the surrounding regions of Greenland, Canada, and Northern Europe to cool and develop
permanent ice sheets. We have been living in this northern hemisphere ice age ever since.
Within an ice age, there are periods of time called glacial periods where glaciers expand
and interglacial periods where glaciers retreat. Fluctuations in climate due to
changes in Earth’s orbit are responsible for glacial cycles. These changes in Earth’s orbit,
called Milankovitch Cycles, include precession, or the change in the direction that Earth’s
north pole points, obliquity, the change in the angle of Earth’s axis,
and eccentricity, the change in the ellipticity of Earth’s orbit.
They operate on timescales from tens to hundreds of thousands of years.
We are currently in an interglacial period with the prospect of expanding glaciers in sight,
at least according to the Milankovitch Cycles. We are instead barreling toward a subtropical
arctic with no ice sheets, due to the global warming caused by burning fossil fuels.
More on glaciers later in the series. So with that, we are now roughly familiar
with the timeline describing the history of the Earth. This will be useful moving forward,
as we will be referencing structures that originated very far back on this timeline,
so with this understood, let’s move forward and start learning about these structures.
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