The Earth System ch1
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Transcript of The Earth System ch1
The Earth System
The Blue Planet: Chapter 1
Outline
• Earth System Science
• Systems
• Earth System Reservoirs
• Dynamic Interactions Among Reservoirs
• How Science Works
Earth System Science
• Earth system science is the new holisitic approach to studying the Earth as a whole system of many interacting parts– The ocean -Soils– The atmosphere -Plants– The continents -Animals– Lakes and rivers
Earth System Science
• Requires observations of Earth at various scales
• The quintessential tool for making these observations is remote sensing with satellites
• Geographic Information Systems provide ways for scientists to store and analyze vast amounts of data
Earth System Science
Outline
• Earth System Science
• Systems
• Earth System Reservoirs
• Dynamic Interactions Among Reservoirs
• How Science Works
Systems
• A system is any portion of the universe that can be isolated from the rest for the purpose of observing and measuring changes
• By observing and measuring changes, systems can be used to study complex problems
Systems
Systems
• A model is a representation of something, typically a simplification of a complex original
• We can build models of processes, which can represent some of Earth’s systems
Systems
Systems
• A box model is a simple graphical representation of a system
• It can show essential features– The processes and rates by which matter
or energy enters and leaves the system– The processes and rates by which matter
or energy moves within the system– The amount of matter or energy in the
system and its distribution
Systems
Systems
• A key to understanding the Earth system is to measure how volumes and exchanges of materials and energy between Earth’s reservoirs change over time
• The challenge is to determine why the changes happen, and how quickly
Systems• The amount and of energy or matter that is
transferred is called flux• The places where energy or matter is stored are
called reservoirs– If the flux into a reservoir is greater than the flux out,
that reservoir is a sink– If the flux into a reservoir is less than the flux out, that
reservoir is a source
• The length of time energy or matter spends in a reservoir is its residence time, when this time is so great that matter is isolated for very long periods, it is called sequestration
Systems
• Earth comprises four vast reservoirs with constant flows of energy and matter among them– The atmosphere– The hydrosphere– The biosphere– The geosphere
• As a whole, Earth is essentially a closed system
Systems
Systems
• Two important implications of Earth being a closed system are
1. The amount of matter in a closed system is fixed and finite
2. If changes are made in one part of a closed system, the results of those changes eventually will affect other parts of the system
Outline
• Earth System Science
• Systems
• Earth System Reservoirs
• Dynamic Interactions Among Reservoirs
• How Science Works
Earth System Reservoirs
• The place where Earth’s four reservoirs interact most intensively is a narrow zone called the life zone
• Conditions favorable for life are created by interactions between the lithosphere, hydrosphere and atmosphere, and modified by the biosphere
Earth System Reservoirs
Earth System Reservoirs
• The Geosphere– Is the solid earth– Composed mainly of rock and regolith– Where energy that comes into the Earth
system from outside sources meets energy that comes from within the planet
– Energy sources combine and compete to build up and wear down the materials of Earth’s surface
Earth System Reservoirs
• The Hydrosphere– The totality of Earth’s water– Includes oceans, lakes, streams,
underground water, and all snow and ice– The perennially frozen parts of the
hydrosphere are collectively the cryosphere– The hydrosphere and the atmosphere store,
purify, and continually redistribute water
Earth System Reservoirs
• The Atmosphere– The mixture of gases that surrounds Earth
– Predominantly Ni, O2, Ar, CO2, and H2O
– In the context of the planet it is a very very thin layer, but it protects life from damaging solar radiation, is the reservoir for oxygen and carbon dioxide
– It is the outer boundary of the Earth system
Earth System Reservoirs
Earth System Reservoirs
• The Biosphere– Includes all of Earth’s organisms and
matter that has not yet decomposed– The biosphere greatly affects every other
of Earth’s systems• Photosynthesis• Oxygen as a highly reactive gas
Earth System Reservoirs
• The Anthroposphere– The “human sphere”– Comprises people, their interests, and their
impacts on the Earth system– The part of the natural system that has
been modified by humans– Includes the technosphere, specifically to
technology, machines, and the built environment
Outline
• Earth System Science
• Systems
• Earth System Reservoirs
• Dynamic Interactions Among Reservoirs
• How Science Works
Dynamic Interactions Among Reservoirs
• Because energy flows freely into and out of systems, all systems respond to inputs and, as a result, have outputs
• A special kind of response, feedback, occurs when the output of the system also serves as an input– Negative feedback: the system’s response is
in the opposite direction of initial input• Often self-limiting or self-regulating
Dynamic Interactions Among Reservoirs
• Positive feedback: an increase in output leads to a further increase in output– Vicious cycle– Destabilizing
Dynamic Interactions Among Reservoirs
Dynamic Interactions Among Reservoirs
• The constant movement of material from one reservoir to another is called a cycle
• Natural cycles are not simple, and exist in a state of dynamic equilibrium
• There are many important Earth cycles
Dynamic Interactions Among Reservoirs
• The Hydrologic Cycle
• The Energy Cycle
• The Rock Cycle
• The Tectonic Cycle
• Biogeochemical Cycles
Dynamic Interactions Among Reservoirs
Dynamic Interactions Among Reservoirs
• Humans involve or affect natural cycles• Significant changes are now taking
place in many Earth reservoirs, as a result, many are changing in unexpected ways
• Scientists have coined a term to describe changes produced in the Earth system as a result of human activities: global change
Dynamic Interactions Among Reservoirs
Outline
• Earth System Science
• Systems
• Earth System Reservoirs
• Dynamic Interactions Among Reservoirs
• How Science Works
How Science Works
• Earth system science, like all other forms of science, advances by application of the scientific method
• The scientific method is based on observations and the systematic collection of evidence that can be seen and tested by anyone with resources
How Science Works
How Science Works
• Scientists start with an observation and seek to acquire evidence about it through measurement and experimentation
• Scientists try to explain their observations by developing a hypothesis
• Once a hypothesis has been examined and found to make successful predictions and withstand numerous tests, it may become a theory
• Eventually, a theory or group of theories whose applicability has been decisively demonstrated, may become a law or a principle
How Science Works
How Science Works
• The fact that nothing is absolutely certain in nature is not problematic for scientists, but can be difficult for non-scientists to comprehend fully
• It is important to understand that uncertainty does not imply a lack of scientific knowledge or understanding