Gaia hypothesis: Difference between revisions
CSV import |
CSV import |
||
| Line 36: | Line 36: | ||
{{environment-stub}} | {{environment-stub}} | ||
<gallery> | |||
File:The_Earth_seen_from_Apollo_17.jpg|The Earth seen from Apollo 17 | |||
File:All_palaeotemps.png|Paleotemperature variations over time | |||
File:StandardDaisyWorldRun2color.gif|Daisyworld model simulation | |||
File:Vostok_420ky_4curves_insolation.jpg|Vostok ice core data | |||
File:NASA-Apollo8-Dec24-Earthrise.jpg|Earthrise from Apollo 8 | |||
File:James_Lovelock_in_2005.jpg|James Lovelock in 2005 | |||
File:Lynn_Margulis.jpg|Lynn Margulis | |||
</gallery> | |||
Latest revision as of 11:15, 18 February 2025
Gaia Hypothesis
The Gaia Hypothesis, also known as Gaia Theory or Gaia Principle, proposes that organisms interact with their inorganic surroundings on Earth to form a synergistic and self-regulating, complex system that helps to maintain and perpetuate the conditions for life on the planet. The hypothesis was formulated by James Lovelock, a British scientist, and co-developed by Lynn Margulis, an American biologist, in the 1970s. It is named after Gaia, the ancient Greek goddess of the Earth.
Overview[edit]
The Gaia Hypothesis suggests that the Earth's biological systems and its abiotic components are closely integrated to form a single and self-regulating complex system, maintaining the conditions for life. This implies that the Earth itself can be viewed as a living entity, with the capacity to regulate critical environmental variables (such as climate and chemical composition of the atmosphere) to sustain life.
Development[edit]
The development of the Gaia Hypothesis was influenced by Lovelock's work with NASA on methods to detect life on Mars. Observing that Earth's atmosphere was in a highly improbable and chemically steady state, Lovelock theorized that this state was maintained by and for the biosphere. Lynn Margulis contributed significantly to the hypothesis with her work on the role of microorganisms in environmental processes, including the production and maintenance of oxygen in the atmosphere.
Components[edit]
The Gaia Hypothesis encompasses several key ideas:
- The Earth's living organisms and their inorganic surroundings have evolved together as a single living system that greatly affects the Earth's biochemical cycles.
- Life significantly alters the Earth's environment for the betterment of life, creating a homeostasis that supports life.
- Gaian regulation mechanisms include the carbon cycle, the sulfur cycle, and the nitrogen cycle, among others.
Criticism and Support[edit]
The Gaia Hypothesis has been both criticized and supported within the scientific community. Critics argue that it is teleological and lacks empirical support, suggesting that it does not conform to the principles of natural selection. Supporters, however, see it as a useful heuristic that highlights the interconnectedness of the Earth's systems.
Impact[edit]
The Gaia Hypothesis has had a profound impact on the fields of biology, earth science, and environmental science, encouraging interdisciplinary research into how the Earth's biosphere and abiotic components interact. It has also influenced environmental movements, contributing to a holistic view of Earth's environment.
See Also[edit]
References[edit]
<references/>
This article is a environment-related stub. You can help WikiMD by expanding it!
-
The Earth seen from Apollo 17 -
Paleotemperature variations over time -
Daisyworld model simulation -
Vostok ice core data -
Earthrise from Apollo 8 -
James Lovelock in 2005 -
Lynn Margulis
