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Wednesday, June 27, 2018

Levels of biological organization - YouTube
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Biological organization is the hierarchy of complex biological structures and systems that define life using a reductionistic approach. The traditional hierarchy, as detailed below, extends from atoms to biospheres. The higher levels of this scheme are often referred to as an ecological organization concept, or as the field, hierarchical ecology.

Each level in the hierarchy represents an increase in organizational complexity, with each "object" being primarily composed of the previous level's basic unit. The basic principle behind the organization is the concept of emergence--the properties and functions found at a hierarchical level are not present and irrelevant at the lower levels.

The biological organization of life is a fundamental premise for numerous areas of scientific research, particularly in the medical sciences. Without this necessary degree of organization, it would be much more difficult--and likely impossible--to apply the study of the effects of various physical and chemical phenomena to diseases and physiology (body function). For example, fields such as cognitive and behavioral neuroscience could not exist if the brain was not composed of specific types of cells, and the basic concepts of pharmacology could not exist if it was not known that a change at the cellular level can affect an entire organism. These applications extend into the ecological levels as well. For example, DDT's direct inseciticidal effect occurs at the subcellular level, but affects higher levels up to and including multiple ecosystems. Theoretically, a change in one atom could change the entire biosphere.


Video Biological organisation



Levels

The simple standard biological organization scheme, from the lowest level to the highest level, is as follows:

More complex schemes incorporate many more levels. For example, a molecule can be viewed as a grouping of elements, and an atom can be further divided into subatomic particles (these levels are outside the scope of biological organization). Each level can also be broken down into its own hierarchy, and specific types of these biological objects can have their own hierarchical scheme. For example, genomes can be further subdivided into a hierarchy of genes.

Each level in the hierarchy can be described by its lower levels. For example, the organism may be described at any of its component levels, including the atomic, molecular, cellular, histological (tissue), organ and organ system levels. Furthermore, at every level of the hierarchy, new functions necessary for the control of life appear. These new roles are not functions that the lower level components are capable of and are thus referred to as emergent properties.

Every organism is organised, though not necessarily to the same degree. An organism can not be organised at the histological (tissue) level if it is not composed of tissues in the first place.


Maps Biological organisation



Fundamentals

Empirically, a large proportion of the (complex) biological systems we observe in nature exhibit hierarchic structure. On theoretical grounds we could expect complex systems to be hierarchies in a world in which complexity had to evolve from simplicity. System hierarchies analysis performed in the 1950s, laid the empirical foundations for a field that would be, from 1980's, hierarchical ecology.

The theoretical foundations are summarized by Thermodynamics. When biological systems are modeled as physical systems, in its most general abstraction, they are thermodynamic open systems that exhibit self-organised behavior, and the set/subset relations between dissipative structures can be characterized in an hierarchy.

A simpler and more direct way to explain the fundamentals of the "hierarchical organization of life", was introduced in Ecology by Odum and others as the "Simon's hierarchical principle"; Simon emphasized that hierarchy "emerges almost inevitably through a wide variety of evolutionary processes, for the simple reason that hierarchical structures are stable".

To motivate this deep idea, he offered his "parable" about imaginary watchmakers.


Levels of Organization in Organisms - YouTube
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See also


Großartig Levels Of Structural Organization Anatomy And Physiology ...
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Notes

References

  • Evans, F. C. (1951), "Ecology and urban areal research", Scientific Monthly (73) 
  • Evans, F. C. (1956), "Ecosystem as basic unit in ecology", Science, 123: 1127-8, Bibcode:1956Sci...123.1127E, doi:10.1126/science.123.3208.1127, PMID 17793430 
  • Huggett, R. J. (1999). "Ecosphere, biosphere, or Gaia? What to call the global ecosystem. ECOLOGICAL SOUNDING". Global Ecology and Biogeography. 8 (6): 425-431. doi:10.1046/j.1365-2699.1999.00158.x. ISSN 1466-822X. 
  • Jordan, F.; Jørgensen, S. E. (2012), Models of the Ecological Hierarchy: From Molecules to the Ecosphere, ISBN 9780444593962 
  • Margalef, R. (1975), "External factors and ecosystem stability", Schweizerische Zeitschrift für Hydrologie, 37: 102-117, doi:10.1007/BF02505181 
  • O'Neill, R. V. (1986), A Hierarchical Concept of Ecosystems, ISBN 0691084378 
  • Pavé, Alain (2006), "Biological and Ecological Systems Hierarchical organization", in Pumain, D., Hierarchy in Natural and Social Sciences, New York, New York: Springer-Verlag, ISBN 978-1-4020-4126-6 
  • Postlethwait, John H.; Hopson, Janet L. (2006), Modern Biology, Holt, Rinehart and Winston, ISBN 0-03-065178-6 
  • Pumain, D. (2006), Hierarchy in Natural and Social Sciences, ISBN 978-1-4020-4127-3 
  • Simon, H. A. (1969), "The architecture of complexity", The Sciences of the Artificial, Cambridge, Massachusetts: MIT Press 
  • Solomon, Eldra P.; Berg, Linda R.; Martin, Diana W. (2002), Biology (6th ed.), Brooks/Cole, ISBN 0-534-39175-3, LCCN 2001095366 
  • Wicken, J. S.; Ulanowicz, R. E. (1988), "On quantifying hierarchical connections in ecology", Journal of Social and Biological Systems, 11: 369-377, doi:10.1016/0140-1750(88)90066-8 

Picking apart the role of network organisation in biological ...
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External links

  • Cell physiology (in Human Physiology) at Wikibooks
  • Characteristics of life and the nature of molecules (in General Biology) at Wikibooks
  • organization within the biosphere (in Ecology) at Wikibooks
  • 2011's theoretical/mathematical discussion.

Source of the article : Wikipedia

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