Presentation is loading. Please wait.

Presentation is loading. Please wait.

Habitability: Making a habitable planet 26 January 2016.

Published byClyde Kelley Modified over 8 years ago

Similar presentations

Presentation on theme: "Habitability: Making a habitable planet 26 January 2016."— Presentation transcript:

1 Habitability: Making a habitable planet 26 January 2016

2 Introduction  Define Habitability  The Habitable Zone  Environment of early Earth  Define Habitability  The Habitable Zone  Environment of early Earth

3 Defining Habitability  What do we mean when we say habitable?  Earth-like animal life: specific requirements  Microbial life - broader set of conditions  What do we mean when we say habitable?  Earth-like animal life: specific requirements  Microbial life - broader set of conditions Defining Habitability

4  What do we mean when we say habitable?  Earth-like animal life: specific requirements (oxygen, water, dry land, temperature range)  Microbial life - broader set of conditions (more extreme conditions ok)  What do we mean when we say habitable?  Earth-like animal life: specific requirements (oxygen, water, dry land, temperature range)  Microbial life - broader set of conditions (more extreme conditions ok) Defining Habitability

5 Common basic requirements for life  Water  Stable climate  Water  Stable climate Defining Habitability

6 What stabilizes the climate?  Size - long-term heat source  Stellar evolution - incoming solar energy  Impact rate - could result in climate change  Presence of large, natural satellite - prevents large swings in obliquity  Oceans - regulate global temperatures  Size - long-term heat source  Stellar evolution - incoming solar energy  Impact rate - could result in climate change  Presence of large, natural satellite - prevents large swings in obliquity  Oceans - regulate global temperatures Defining Habitability

7 Habitable Zones  Why is Earth the only (as far as we know) habitable planet in our solar system?  2 main properties:  Abundant liquid water  Environmental conditions that maintain liquid water  Why is Earth the only (as far as we know) habitable planet in our solar system?  2 main properties:  Abundant liquid water  Environmental conditions that maintain liquid water The Habitable Zone

8 Liquid Water is the Key!  Required temperature: 273-373 K  Use this as simple requirement for identifying possibly habitable planets  Where do planets in this temperature range orbit?  Required temperature: 273-373 K  Use this as simple requirement for identifying possibly habitable planets  Where do planets in this temperature range orbit? The Habitable Zone

9 Liquid Water  Where do planets in this temperature range orbit?  Called the Habitable Zone  Where do planets in this temperature range orbit?  Called the Habitable Zone The Habitable Zone

10 How does star type affect HZ?  Different sized stars have different luminosities  T goes as L 1/4  Brighter stars have HZs farther out  Different sized stars have different luminosities  T goes as L 1/4  Brighter stars have HZs farther out The Habitable Zone

11 How does star type affect HZ?  Main sequence stars have different luminosities throughout their lifetimes  Continuously Habitable Zone: maintains conditions suitable for life throughout the lifetime of star  Main sequence stars have different luminosities throughout their lifetimes  Continuously Habitable Zone: maintains conditions suitable for life throughout the lifetime of star The Habitable Zone

12 Is it that simple?  Albedo, a  Atmosphere greenhouse – chemical absorbers act like a warm blanket  Albedo, a  Atmosphere greenhouse – chemical absorbers act like a warm blanket The Habitable Zone Moves HZ inwards Moves HZ outwards

13 Role of the Carbon Cycle  Kasting proposed the Carbon Dioxide Thermostat  Extends to HZ for Earth-like planets  Keeps off temperature extremes  Kasting proposed the Carbon Dioxide Thermostat  Extends to HZ for Earth-like planets  Keeps off temperature extremes  Carbon sources:  Volcanic outgassing  Decarbonation  Organic carbon  Carbon sinks:  Calcium carbonate formation  Photosynthesis The Habitable Zone

14 How the CO2 cycle buffers the planet’s temperature

15 Continuously Habitable Zone  Inner edge: 0.95 AU  Outer edge: 1.15 AU  Inner edge: 0.95 AU  Outer edge: 1.15 AU  Were other planets habitable in the past?  Will other planets be habitable in the future? The Habitable Zone

16 Mars: Once Habitable? Still Habitable?  Early Mars  Evidence of large amounts of flowing liquid water  Warmer temperatures:  Heat from interior would have been higher  Warm climate from greenhouse gases or CO 2 clouds  Early Mars  Evidence of large amounts of flowing liquid water  Warmer temperatures:  Heat from interior would have been higher  Warm climate from greenhouse gases or CO 2 clouds  Current Mars  Gullies may be due to underground water  Carbon cycle not as active as on Earth The Habitable Zone

17 Characteristics that make a habitable planet The Habitable Zone Other Heat sources to sustain liquid water Geothermal Iceland Tidal Europa Other Heat sources to sustain liquid water Geothermal Iceland Tidal Europa Size of planet Internal heat comes from Accretional heat Differentiation Radiogenic decay Allows for plate tectonics Mars cooled quickly, so no plate tectonics at present Size of planet Internal heat comes from Accretional heat Differentiation Radiogenic decay Allows for plate tectonics Mars cooled quickly, so no plate tectonics at present

18 Characteristics that make a habitable system  Star Type: stable luminous stars necessary  Sufficiently long lifetime for life to evolve  Large enough so planets don’t tidally lock The Habitable Zone Star system Single star: allows for stable orbit Binary system: Fewer stable orbits exist HZ calculated on individual basis Star system Single star: allows for stable orbit Binary system: Fewer stable orbits exist HZ calculated on individual basis

19 Characteristics that make a habitable neighborhood  Galactic Habitable Zone  Area of high metallicity (elements w/ Z>2)  Outer region of galaxy  Lower stellar density  Lower radiation levels The Habitable Zone

20 Discussion Topics: How common are habitable zones? What does this say about the likelihood of life? What stars are the best to search? How common are habitable zones? What does this say about the likelihood of life? What stars are the best to search?

21

22

23 Environment of early Earth Evidence of a habitable planet 3.8 Ga –Geological evidence near Isua, Greenland –Limestone and sandstone –We can infer presence of liquid water –Earth must have had temperatures similar to today’s Evidence of a habitable planet 3.8 Ga –Geological evidence near Isua, Greenland –Limestone and sandstone –We can infer presence of liquid water –Earth must have had temperatures similar to today’s Early Earth

24 Liquid water 3.8 Ga? Faint young Sun –Sun was 25-30% less luminous –Simple energy balance shows Earth’s surface temperature would have been below 273 K Other heat sources –Geological activity More internal heat from radioactive decay and primordial heat Plate tectonics release CO 2 - greenhouse traps heat Faint young Sun –Sun was 25-30% less luminous –Simple energy balance shows Earth’s surface temperature would have been below 273 K Other heat sources –Geological activity More internal heat from radioactive decay and primordial heat Plate tectonics release CO 2 - greenhouse traps heat Early Earth

25 Snowball Earth Global glaciations brought on by disruptions in the carbon cycle –Up to 4 occurred between 750 Ma and 580 Ma ago –Geological record shows layered deposits in tropics attributable to glacial erosion CO 2 sinks would cease, but sources would continue. 350 times current CO 2 levels would accumulate to create a severe greenhouse, causing the ice to melt w/in a few hundred years. All eukaryotes today are from the survivors of snowball earth Global glaciations brought on by disruptions in the carbon cycle –Up to 4 occurred between 750 Ma and 580 Ma ago –Geological record shows layered deposits in tropics attributable to glacial erosion CO 2 sinks would cease, but sources would continue. 350 times current CO 2 levels would accumulate to create a severe greenhouse, causing the ice to melt w/in a few hundred years. All eukaryotes today are from the survivors of snowball earth Early Earth

26 Summary  Habitable Zone: area around a star where liquid water can exist on the surface  Continuously Habitable Zone: the region where water would exist over the entire star lifetime  Habitable Zone: area around a star where liquid water can exist on the surface  Continuously Habitable Zone: the region where water would exist over the entire star lifetime

Download ppt "Habitability: Making a habitable planet 26 January 2016."

Similar presentations

CO2 and Long Term Climate GEOL 1130 Spring 2007. Earth-Venus contrast Which planet receives more incoming solar radiation? Which planet absorbs more solar.

CO2 and Long Term Climate GEOL 1130 Spring Earth-Venus contrast Which planet receives more incoming solar radiation? Which planet absorbs more solar.
Presentation by: Heather DeRoy. Discovery of New Planet! Planet Earth, a part of a Solar System, is a possible candidate for life.

Presentation by: Heather DeRoy. Discovery of New Planet! Planet Earth, a part of a Solar System, is a possible candidate for life.
Habitable Zone ASTR 1420 Lecture 8 Sections 10.1-10.4.

Habitable Zone ASTR 1420 Lecture 8 Sections
1.Greenhouse Effect 2.The CO 2 Cycle, Long-Term Climate Change 3.Ice Ages and Short-Term Climate Change 4.Human-Induced Climate Change.

1.Greenhouse Effect 2.The CO 2 Cycle, Long-Term Climate Change 3.Ice Ages and Short-Term Climate Change 4.Human-Induced Climate Change.
Climate over the long term (Ch highlights)

Climate over the long term (Ch highlights)
Habitability Bonnie Meinke January 27, 2009 Bonnie Meinke January 27, 2009.

Habitability Bonnie Meinke January 27, 2009 Bonnie Meinke January 27, 2009.
CALEB BRITISH ACADEMY LAGOS NIGERIA. Earth’s temperature depends on the balance between energy entering and leaving the planet’s system.energy entering.

CALEB BRITISH ACADEMY LAGOS NIGERIA. Earth’s temperature depends on the balance between energy entering and leaving the planet’s system.energy entering.
Reading: Chapter 4 Lecture 25. Snowball Earth vs. Slushball Earth..

Reading: Chapter 4 Lecture 25. Snowball Earth vs. Slushball Earth..
Astronomy190 - Topics in Astronomy

Astronomy190 - Topics in Astronomy
Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 10 : Earth History Ty Robinson.

Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 10 : Earth History Ty Robinson.
Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 11 : Earth’s Habitability Ty Robinson.

Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 11 : Earth’s Habitability Ty Robinson.
Average Composition of the Troposphere Gas Name Formula Abundance (%) Residence time (approx) Nitrogen N 2 78.08%42,000,000 years Oxygen O 2 20.95%5,000.

Average Composition of the Troposphere Gas Name Formula Abundance (%) Residence time (approx) Nitrogen N %42,000,000 years Oxygen O %5,000.
Layers of the Atmosphere SC 6-4.1 SC 6-4.7. Layers of the Atmosphere The atmosphere is the layer of gases that surrounds the planet and makes conditions.

Layers of the Atmosphere SC SC Layers of the Atmosphere The atmosphere is the layer of gases that surrounds the planet and makes conditions.
The Solar System.

The Solar System.
Essentials to Life A description of factors that have allowed complex life to evolve on Earth as noted in Rare Earth: Why Complex Life is Uncommon in the.

Essentials to Life A description of factors that have allowed complex life to evolve on Earth as noted in Rare Earth: Why Complex Life is Uncommon in the.
Goals for this section 1.EXPLAIN the feedback mechanism believed to have maintained Earth's average temperature within the range of liquid water over 100s.

Goals for this section 1.EXPLAIN the feedback mechanism believed to have maintained Earth's average temperature within the range of liquid water over 100s.
Change in the Biosphere. Changes in the Lithosphere 3.1 About 4.6 Billion years Humans have been around for about 100,000 years.

Change in the Biosphere. Changes in the Lithosphere 3.1 About 4.6 Billion years Humans have been around for about 100,000 years.
1 Atmospheric Radiation – Lecture 11 PHY2505 - Lecture 20 Comparative atmospheres: Mars, Earth & Venus.

1 Atmospheric Radiation – Lecture 11 PHY Lecture 20 Comparative atmospheres: Mars, Earth & Venus.
Chapter 7e Earth is a living planet. 7.5 Earth as a Living Planet Our Goals for Learning What unique features on Earth are important for human life? How.

Chapter 7e Earth is a living planet. 7.5 Earth as a Living Planet Our Goals for Learning What unique features on Earth are important for human life? How.
The Atmosphere. Did you know we are on our 3 atmosphere on Earth? Earth’s original atmosphere was probably just hydrogen and helium, because these were.

The Atmosphere. Did you know we are on our 3 atmosphere on Earth? Earth’s original atmosphere was probably just hydrogen and helium, because these were.

Similar presentations

Ads by Google