Think about the following questions as you watch the video

1. 00:00 - 01:11 What makes the emergence of photosynthesizing cells a mini-threshold?
2. 01:12 - 01:57 What makes the emergence of eukaryotes a mini-threshold?
3. 01:58 - 02:59 What makes the emergence of multicelled organisms a mini-threshold?
4. 03:00 - 03:36 What makes the emergence of brains a mini-threshold?
5. 03:37 - 04:12 What makes the move of sea creatures to land a mini-threshold?
6. 04:13 - 05:02 What makes the emergence of mammals a mini-threshold?

00:22: Let's explore how life has changed
00:23: and diversified since the emergence
00:25: of organic molecules in basic cells.
00:28: One way to view this process is through six mini-thresholds.
00:31: A threshold is a sudden increase in complexity
00:34: that gives rise to new, emergent properties,
00:36: new qualities.
00:38: Consider each mini-threshold for yourself.
00:40: Does it mark something new and different,
00:42: and if so, why?
00:45: Our first mini-threshold is photosynthesis.
00:48: It's likely that the first prokaryotes evolved
00:50: deep in the ocean in massive vents
00:53: that provided them with chemical and heat energy.
00:56: About 3.5 billion years ago,
00:58: some cells migrated to the ocean's surface
01:01: and evolved to use vastly more abundant energy from the sun.
01:05: The process they developed to do this
01:06: is called photosynthesis.
01:08: It led to an energy bonanza
01:10: and that enabled life to spread to many more places.
01:13: And since oxygen is created as a byproduct of photosynthesis,
01:18: huge numbers of photosynthesizing prokaryotes
01:21: over millions of years
01:22: radically transformed our atmosphere
01:24: from one rich in carbon dioxide
01:27: to one richer in oxygen.
01:29: Oxygen was poisonous for many species
01:32: so they died off,
01:33: but new species emerged
01:35: that could use oxygen's amazing chemical energy.
01:39: Mini-threshold two is the emergence of eukaryotes
01:42: about 2.5 billion years ago.
01:45: These are more complex cells whose DNA is locked up
01:48: inside a special case called the nucleus,
01:50: which help protect and preserve vital genetic information.
01:54: Eukaryotes also contain tiny organs called organelles.
01:59: Like the organs in your body,
02:01: they perform special functions such as photosynthesis
02:04: or processing oxygen.
02:06: This meant that eukaryotes could thrive
02:08: in Earth's increasingly oxygen-rich atmosphere
02:11: while many prokaryotes perished.
02:13: That's a pretty important development
02:15: since we are made entirely of eukaryotic cells.
02:20: Around one billion years ago,
02:21: we crossed mini-threshold number three,
02:24: the introduction of the first multicellular organisms.
02:28: In the same way specialized organelles
02:30: came together to form more complex eukaryotes,
02:33: different eukaryotes came together
02:34: to form even more complex life-forms.
02:38: These organisms could contain billions of cells,
02:41: each with a different function, but all sharing the same DNA
02:46: so they work together.
02:48: With networks of specialized cells and cooperation,
02:51: multicelled organisms could respond to changes
02:53: in the environment in entirely new ways,
02:56: further developing a key survival trait of life
02:59: that we call homeostasis.
03:02: The development of brains is mini-threshold four.
03:07: Multicelled organisms
03:08: needed a way to coordinate all the activities
03:10: going on inside them
03:12: and this became the work of special nerve cells.
03:15: In some organisms, these cells began to cluster at the head
03:19: and down the spinal cord to form the first brains.
03:23: Organisms with brains
03:25: could process much more information
03:27: and they could react to it in even more complex ways
03:30: which enabled richer and more sophisticated activities
03:34: like thinking
03:35: and perhaps even consciousness.
03:39: Mini-threshold number five is when life moves
03:41: from the ocean to land.
03:46: From about 475 million years ago,
03:50: some multicellular organisms,
03:52: beginning with plants and fungi,
03:54: left the oceans for land.
03:56: There was a great incentive;
03:58: this new environment was rich in new opportunities
04:01: for organisms that could find ways to survive.
04:04: But that was a challenge, though,
04:06: as these organisms had to develop special skins
04:08: to avoid drying out,
04:10: special ways to breathe out of water,
04:12: and new ways to reproduce.
04:15: The modern equivalent would be humans
04:16: trying to live in space.
04:19: Mammals, the forerunners of you and me,
04:22: account for mini-threshold number six.
04:25: The first animal to live on land
04:27: may have been like a modern lungfish,
04:29: but other land animals soon evolved such as amphibians.
04:33: But these still needed to return to the water to reproduce.
04:36: Then came reptiles
04:38: like crocodiles or dinosaurs.
04:41: These developed large, leathery eggs
04:44: that could survive well away from water.
04:46: Then about 250 million years ago,
04:49: the first mammals appeared on Earth,
04:52: evolving from a branch of reptiles
04:53: that loosely resembled birds.
04:56: Mammals are warm-blooded,
04:58: they're furry, and they don't lay eggs,
05:01: and you and I are mammals.
05:05: Does the appearance of mammals
05:06: really count as a mini-threshold,
05:08: or is it just because we are mammals
05:10: that we think so?
05:12: What would be other candidates for mini-thresholds, by the way?
05:15: The development of backbones?
05:17: The ability to think?