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Earth System Science

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Title: Earth System Science


1
Earth System Science
Geog788W Group 1 Fall 2004
Jyoteshwar Nagol Haihong Yang Alina Yohannan
Lars Bromley Justin Goldstein Andrew Johnston
  • It is hard to imagine a more important
    discipline than Earth System Science John
    Lawton in Science magazine, June 15, 2001

2
Earth Systems Science is the study of
  • Interactions between oceans, atmosphere, living
    things, geologic processes, land surface
    dynamics, and human systems.
  • Processes that connect biological, physical, and
    human systems operating near the Earth's surface.
  • How interrelationships between physical and
    biological systems impact each other and lead to
    changes.

3
Earth Systems Science
A prime focus of Earth System Science is the
study of past and future changes in Earth
systems Paleoclimate, Global warming.
Strategies have been developed to address climate
change. (Group 3) Special attention is paid to
how human activities lead to changes in linkages
between systems and the response from humans to
those changes Global Change research. (Group
1) Range of topics dealing with the carbon
cycle, water cycle, food production,
biodiversity, land-use change and its feedbacks
on climate change and variability. ESS studies
many different systems, each defined by its own
sets of characteristics and subsystems. Physical
systems atmospheric chemistry, cryosphere,
hydrosphere, energy transfer. Biological systems
marine life, terrestrial ecosystems,
biogeochemistry. Humans land use, atmospheric
changes. External forces volcanism, sun, solar
system (orbital mechanics, impacts).
4
Geospheres
Atmosphere
Anthroposphere
Biosphere
Hydrosphere
Lithosphere and Pedosphere
5
How is Earth System Science performed?
  • System Science grew from work in biology and
    other fields in the mid- 1900s, applied to Earth
    Science in the 1990s. (Group 1)
  • In ESS simplified models are created to describe
    connections between biological, physical, and
    human systems. Bretherton diagram.(Group 1)
  • The Earth system is a network of self-organizing
    systems connected by flows of gasses, energy,
    nutrients. The global system Gaia. (Group 2)
  • Most ESS research projects are focused on small
    parts of the Earth system.
  • Remote Sensing is a key part of ESS NASAs Earth
    Science program.

6
How is ESS different from other types of science?
  • ESS deals with the relationships between physical
    and biological systems instead of the systems
    themselves.
  • Earth System Science uses holistic rather than
    reductionist approaches.
  • Earth System Science is interdisciplinary,
    including many academic disciplines No single
    discipline can fully address the scope of ESS.

7
Geography and Earth System Science
Earth System Science is inherently spatial. It
uses many scales space (from the particle to
global) and in time. The interdisciplinary
nature of the science and its focus on
connections between systems makes it attractive
to geographers.
Mitchell K. Hobish, Earth Systems Science,
Section 16, Remote Sensing Tutorial
http//rst.gsfc.nasa.gov/Sect16/Sect16_3.html
8
Development of ESS 19th Century
  • John Lawton wrote in Science (2001) ESS is still
    a young and growing field (Science, 292 Issue
    5524, v1965, June 15, 2001).
  • 1802 John Playfair expounds on the life work of
    James Hutton The Principle of Uniformitarianism
    and the radical idea that present is the key to
    the past.
  • 1832 Lyall also builds on Hutton to describe
    earth processes
  • Agassiz et al. 1840 glaciers responsible for
    forming large scale landscapes
  • William Morris Davis describes the Geographical
    Cycle and contributes to geomorphology
  • Source All bullets except the first taken from
    http//geog.queensu.ca/gilbert/Supplementary
    Reading Lecture 201.pdf

9
Development of ESS 20th Century
With an emergence of systems science (or systems
theory) scientists focused more on interactions
between components of systems rather than
single-discipline studies. Advances in nuclear
physics led scientists to more effectively
measure the age of the Earth (http//geog.queensu.
ca/gilbert/Supplementary Reading Lecture
201.pdf) 1980s scientists understand that
humans are altering the physical sphere and thus
try to understand global change as involving
integrated human and physical systems. Beginning
of the use of the term Earth System Science.
(http//www.usra.edu/iai/scotland.html) 1986
Francis P. Bretherton (U. of Wisconsin) developed
the Bretherton Diagram as chair of a committee
which authored a seminal work in the modern ESS
field "Earth System Science A Closer View."
10
The Bretherton Diagram- Complex
Mitchell K. Hobish, Earth Systems Science,
Section 16, Remote Sensing Tutorial
http//rst.gsfc.nasa.gov/Sect16/Sect16_3.html
11
The Bretherton Diagram- Simplified
12
The Bretherton Diagram- Explained
  • The diagram depicts the Earth System and is
    comprised of sub-systems (in turn comprised of
    sub-systems, etc.)
  • Given its roots in system science, the
    sub-systems and their interconnections,
    couplings, and dynamics are equally emphasized -
    when one system acts another reacts, etc.

13
The Bretherton Diagram- Main Components
  • 1) The Physical Climate System
  • 2) Biogeochemical Cycles
  • Within these broad areas are sub-systems
    atmosphere, hydrosphere, lithosphere, and the
    human dimension.
  • Because output from one system is the input into
    another, none of these categories can be
    evaluated in isolation.

Source What is Earth System Science? Donald R.
Johnson, Martin Ruzek, Michael Kalb. Proceedings
of the 1997 International Geoscience and Remote
Sensing Symposium. Singapore, August 4 - 8, 1997.
14
Sub-System Example Ocean Circulation
Source Ocean Modeling. Center for Climate System
Research, University of Tokyo.
15
Bretherton Diagram Temporal Scales
  • Processes throughout the Earth system operate at
    different temporal scales
  • millions/billions of years evolution of solid
    earth structures, atmosphere, etc.
  • hundreds of thousands to millions climate
    oscillations, species distribution, soil
    development, etc.
  • decades to centuries physical climate system
    (weather patterns), some biochemical processes
    like carbon, nitrogen, etc.
  • days/seasons Earth responds to weather, plant
    growth, decay
  • day heating and cooling, catastrophic events
    (volcanoes, earthquakes)
  • Source Global Change and Our Common Future
    Papers from a Forum Commission on Physical
    Sciences, Mathematics, and Applications. National
    Academies Press. 1989.

16
Human Dimension of Global Environmental Change
  • Global Change is concerned with the nature and
    consequences of anthropogenic perturbations in
    the interacting physical, chemical and biological
    and social systems that regulate the environment
    supporting human life and influence the quality
    of that life on planet Earth.
  • Global change research initially focused almost
    solely on the physical and biological sciences,
    but in the last eight to ten years, there has
    been more recognition of the human dimensions and
    the essential role that social science must play
    in resolving global environmental problems.
  • Three problems that have been given greatest
    attention -- climate change, ozone depletion,
    and loss of biodiversity -- are all anthropogenic
    in origin.
  • Planning for social science research on the human
    dimensions of global environmental change began
    in 1986, significantly later than the planning
    for global change research in the natural
    sciences.

17
Human Dimension of Global Environmental Change
  • Human interactions are included in the Bretherton
    diagram, but only as a black box.
  • Understanding of large scale environmental change
    requires an integrated view of how those spheres
    and humans interact mutually within the Earth
    System. Also needs the cooperation between
    natural and social scientists.
  • The research of human interactions on global
    change and sustainability needs the equivalent of
    a Bretherton diagram to visually convey the
    interconnections among diverse cultural,
    economic, political, social, and institutional
    phenomena and to begin to relate these
    theoretically.

18
Social Process Diagram
http//cesimo.ing.ula.ve/GAIA/SPD/spd_image.html
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