620 likes | 732 Views
Chapter 1:. Earth System and Climate system. The Habitable Earth. The earth is the only habitable planet in our solar system. Oceans: 70% of the surface Land: 30% Earth’s climate is favorable to life. In the era of population explosion, climate change is critical to human life.
E N D
Chapter 1: Earth System and Climate system
The Habitable Earth The earth is the only habitable planet in our solar system. Oceans: 70% of the surface Land: 30% Earth’s climate is favorable to life. In the era of population explosion, climate change is critical to human life.
We will discuss: • What are the components of Earth system, especially Earth’s climate system? • How does climate change differ from day-to-day weather? • Climate Classification • What factors drive changes in Earth’s climate? • How does the climate system work?
Earth system composed of 4 interacting parts driven by solar energy: • Atmosphere • Hydrosphere • Solid earth • Biota
Schematic diagram of the Earth system, showing interactions among its four components.
Weather versus Climate Weather The condition of atmosphere at a given time and place • Short-term (and large) fluctuations that arise from internal instabilities of the atmosphere • Occurs as a wide variety of phenomena that we often experience • Effects are immediately felt • Social and economic impacts are great but are usually localized • Governed by non-linear chaotic dynamics; not predictable deterministically beyond a week or two
Low Pressure High Pressure Anti-Cyclonic Turning: divergence leads to downward vertical motions. Cyclonic Turning: Convergence leads to upward vertical motions. Cold Air Warm Air
Impacts of Weather Figure 1.15
Hurricane: Gustav in New Orleans. 2 Million people evacuated (Sep. 1, 2008)
Climate versus Weather Climate • Defined as the average state of the atmosphere over a finite time period and over a geographic region (space). • Can be thought of as the “prevailing” weather, which includes the mean but also the range of variations • The wide range of natural variability associated with daily weather means small climate changes are difficult to detect • Intimate link between weather and climate provides a basis for understanding how weather events might change under a changing climate • Involves atmospheric interactions with other parts of the climate system and external forcing • Climate prediction is complicated by considering the complex interactions between, as well as changes within, all components.
Climate is typically described by the statistics of a set of atmospheric and surface variables, such as temperature, precipitation, wind, humidity, cloudiness, soil moisture, sea surface temperature, and the concentration and thickness of sea ice. • The statistics may be in terms of the long-term average, as well as other measures such as daily minimum temperature, length of the growing season, or frequency of floods. • Although climate and climate change are usually presented in global mean terms, there may be large local and regional departures from these global means. These can either mitigate or exaggerate the impact of climate change in different parts of the world.
Climate is what you expect and weather is what you get. • Climate tells what clothes to buy, but weather tells you what clothes to wear.
Review Questions Which of the following statements relate more to weather (A) and which relate more to climate (B)? 1. The summers in Prince George are cool and dry. 2. It is 30°C right now, partly sunny, and south winds 10 to 20 miles per hour. 3. September 2001 was the 2nd coolest September of record for Prince George International Airport. 4. The pressure now is 29.75 inches and steady, and humidity is 84%.
Review Questions Which of the following statements relate more to weather (A) and which relate more to climate (B)? 1. The summers in Prince George are cool and dry. (B) 2. It is 30°C right now, partly sunny, and south winds 10 to 20 miles per hour. (A) 3. September 2001 was the 2nd coolest September of record for Prince George International Airport. (B) 4. The pressure now is 29.75 inches and steady, and humidity is 84% (A).
A: Tropical moist • Tropical wet (Af) • Tropical moonsoon (Am) • Tropical wet and dry (Aw)
B: Dry Climate • Arid (BW) – the “true desert”: • Semi-arid (BS):
C: Moderate Climate • Humid sybtropical (Cfa): • Marine (Cfb): • Dry-summer subtropical (also referred to as Mediterrannean) (Cs):
D: Continental Climate • humid continental with hot summer (Dfa) • humid continental with cold summer (Dfb) • subplot (Dfc)
E: Polar Climate • Tundra climate • Ice Cap climate
Earth History Earth’s age: 4.55 billion years (Byr) = 4,550,000,000 years = 4.55 × 109 years This course focuses on only recent 10% of its age.
Time Scales of Climate Change Earth’s climate changes all the time, e.g., last 300 Myr, last 3 Myr, last 50,000 yr, and last 1000 yr.
Development of Climate Science 19th century – early 20th century: isolated studies. Middle 20th century – 1980s: rapid development into a mature science. In the past two decades: earth system approach. Multidisciplinary & interdisciplinary. How scientists study climate change: Observations Theory “You produce junk and waste a lot of money” “Your tools are terribly antiquated and imprecise” Climate Modeler Field-Geologist
How scientists study climate changes (1) spend much time to gather and analyze data from the kind of climatic archives. To publish results in peer-reviewed journals. (2) need to explain and interpret results – Hypothesis, theory. (3) Models (4) Charles Darwin: Evolution Plate tectonics It is time to expect a new revolution in knowledge of Earth history.
Components of the Climate System Five major components: air (atmosphere), water (hydrosphere), ice (cryosphere), vegetation (biosphere), and land (lithosphere). Major processes: energy cycle, water cycle, carbon cycle, …
Climate System Components • Atmosphere • Fastest changing and most responsive component • Previously considered the only “changing” component • Ocean • The other fluid component covering ~70% of the surface • Plays a central role through its motions and heat capacity • Interacts with the atmosphere on days to thousands of years • Cryosphere • Includes land snow, sea ice, ice sheets, and mountain glaciers • Largest reservoir of fresh water • High reflectivity and low thermal conductivity • Land and its biomass • Slowly changing extent and position of continents • Faster changing characteristics of lakes, streams, soil moisture • and vegetation • Human interaction • agriculture, urbanization, industry, pollution, etc.
Climate Forcing: can be defined as an imposed perturbation of Earth’s energy balance. (1) natural forcing: luminosity of the sun; volcanic eruption; earth’s orbit (2) Anthropogenic forcing (fossil fuel burning) – greenhouse gases forcing (unit: ) changes in global temperature. Climate Sensitivity
Forcing and Response: A Bunsen Burner Experiment • Three major kinds of climate forcing in nature: • Tectonic processes • Earth-orbital changes • Changes in Sun’s strength • Anthropogenic forcing • Urbanization • Deforestation • Burning fossil fuels • Agriculture Flame is far enough away Response time depends on “materials” or “components”.