Macroevolution
Macroevolution refers to large-scale evolution. For some, this means the origin of species. For others, it means the large-scale changes seen in the fossil record.
- "Major changes in structure and ways of life over.. tens of millions of years". R.L. Carroll.[1]
- "A large evolutionary pattern... events that result in the origin of a new higher taxon". Dictionary of Genetics.[2]
- "All macroevolutionary processes take place in populations and in the genotypes of individuals, and are thus simultaneously microevolutionary processes". Mayr.[3]
- "A vague term for the evolution of great phenotypic changes, usually great enough to [put] the lineage into a distinct genus or higher taxon". Futuyma.[4]
- "Evolution on the grand scale". Ridley.[5]
It is a term of convenience: for most biologists it does not suggest any change in the process of evolution.[4][6] For a few palaeontologists, some things they see in the fossil record cannot be explained just by the gradualist evolutionary synthesis.[7] They are in the minority. There are some interesting discussions by other palaeontologists.[8]
Some biologists use the term for evolution in already separated gene pools.[9] For them, macroevolutionary studies focus on change that occurs at or above the level of species. Again, this is a minority position. Most biologist would not call evolution at the species level "macroevolution".
Microevolution,[10] on the other hand, refers to smaller evolutionary changes within species or populations. During microevolution changes in allele frequencies definitely do occur. Some biologists, Richard Dawkins in particular, have suggested that the gene is the object of selection.[11][12] This was always challenged by Ernst Mayr "The individual is the entity which survives or not, which reproduces or not, and which reproduces successfully or not".[13] Changes in gene frequency in populations is a by-product of what happens to individuals.
Relation of macroevolution to microevolution
Paleontology, evolutionary developmental biology, and sequence analysis contribute much evidence for the patterns and processes that can be classified as macroevolution. An example of macroevolution is the appearance of feathers during the evolution of birds from one group of dinosaurs.
Within the modern evolutionary synthesis school of thought, macroevolution is thought of as the compounded effects of microevolution. Thus, the distinction between micro- and macroevolution is not a fundamental one – the only difference between them is of time and scale.[14][15]
Some creationists have also adopted the term 'macroevolution' to describe the form of evolution they reject. They may accept that evolutionary change is possible within species (microevolution), but deny that one species can evolve into another (macroevolution).[9] These arguments are rejected by biologists, who hold that there is ample evidence that macroevolution has occurred in the past.[16]
Research topics
Some examples of subjects whose study falls within the realm of macroevolution:
- The debate between punctuated equilibrium and gradualism
- Speciation and extinction rates
- Mass extinctions
- Adaptive radiations such as the Cambrian Explosion
- Changes in biodiversity through time
- The role of development in shaping evolution, particularly such topics as heterochrony and developmental plasticity
- Genomic evolution, like horizontal gene transfer, genome fusions in endosymbioses, and adaptive changes in genome size
Origin of the term
Russian entomologist Yuri Filipchenko (or Philipchenko, depending on the transliteration) first coined the terms 'macroevolution' and 'microevolution' in 1927 in his German language work, Variabilität und Variatio.[16]
Since then, their meanings have been revised several times and fallen into disfavour with many, who prefer to speak of biological evolution as one process.[16]
Criticisms of macroevolution
Evolution as a whole is strongly supported by many kinds of evidence.[16]
The issue for biologists is whether there is any sense in having the special term macroevolution.[17] The answer is yes for a few biologists who proposed one or more evolutionary mechanisms which worked above the species level. The ideas of punctuated equilibrium and species selection were suggested, but in each case most biologists felt they could be explained by the usual small-scale changes. This explains why 'macroevolution' is perhaps a term biologists do not need to use.
When discussing the topic, creationists use "strategically elastic" definitions of micro- and macroevolution.[9] Macroevolution, by their definition, cannot be attained. Any observed evolutionary change is described by them as being "just microevolution".[9]
The debate between biologists continues, with some biologists stating that there is significant evidence that other factors have acted during macroevolution,[18] and others maintaining that macroevolution can still be fully explained by the mechanisms of microevolution.[19]
Macroevolution Media
The metabolic enzyme galactokinase can be converted to a transcription factor (in yeast) by just a 2 amino-acid insertion.
Limbloss in lizards can be observed in the genus Lerista which shows many intermediary steps with increasing loss of digits and toes. The species shown here, Lerista cinerea, has no digits and only 1 toe left.
The European Common Lizard (Zootoca vivipara) consists of populations that are egg-laying or live-bearing, demonstrating that this dramatic difference can even evolve within a species.
References
- ↑ Carroll R.L. 1997. Patterns and processes of vertebrate evolution. Cambridge University Press. p9 & 362 ISBN 052147809X
- ↑ King, Robert C; Stansfield W.D. and Mulligan P.K. 2006. A dictionary of genetics. 7th ed, Oxford University Press. p260 ISBN 0195307615
- ↑ Mayr, Ernst 2000. What evolution is. Weidenfeld & Nicolson, London. p190 ISBN 0297607413
- ↑ 4.0 4.1 Futuyma D.J. 1998. Evolutionary biology. 3rd ed, Sinauer, Sunderland, Massachusetts.
- ↑ Ridley M. 2004. Evolution. 2nd ed, Blackwell. Chapter 21, p669.
- ↑ Rensch B. 1959. Evolution above the species level. Columbia University Press.
- ↑ Stanley S.M. 1979. Evolution: patterns and processes. Freeman, San Francisco. p3, table 7.1, p183.
- ↑ Smith A.B. 1994. Systematics and the fossil record: documenting evolutionary patterns. Blackwell, Oxford.
- ↑ 9.0 9.1 9.2 9.3 Matzke, Nicholas J. and Paul R. Gross 2006. Analyzing critical analysis: the fallback antievolutionist strategy. In Eugenie Scott and Glenn Branch, Not in our classrooms: why intelligent design is wrong for our schools, Beacon Press, Boston ISBN 0807032786
- ↑ Dobzhansky, Theodosius (1951). Genetics and the origin of species. New York, Columbia Univ. Press, 3rd ed. LC QH366 .D6. p12
- ↑ Williams G.C. 1966. Adaptation and natural selection. Princeton University Press.
- ↑ Dawkins R. 1976. The selfish gene. Oxford University Press.
- ↑ Mayr, Ernst 1997. The objects of selection. PNAS 94 2091-2094 The objects of selection Archived 2007-03-11 at the Wayback Machine.
- ↑ Simpson G.G. 1944. Tempo and mode in evolution. Columbia, N.Y.
- ↑ Simpson G.G. 1953. The major features of evolution. Columbia, N.Y.
- ↑ 16.0 16.1 16.2 16.3 Macroevolution: its definition, philosophy and history
- ↑ Bowler P.J. 2003. Evolution: the history of an idea, 3rd ed, revised and expanded. University of California Press. ISBN 978-0520236936.
- ↑ Erwin, Douglas H. (2000). "Macroevolution is more than repeated rounds of microevolution". Evolution & Development. 2 (2): 78–84. doi:10.1046/j.1525-142x.2000.00045.x. PMID 11258393. S2CID 20487059.
- ↑ Carroll, Sean B. (2001). "The big picture" (PDF). Nature. 409 (6821): 669. doi:10.1038/35055637. PMID 11217840. S2CID 4342508. Archived from the original (PDF) on 2011-08-14. Retrieved 2011-03-26.
Other websites
- Introduction to macroevolution on the Understanding Evolution website
- Macroevolution as an independent discipline: Macroevolution in the 21st century
- Macroevolution as the common descent of all life: "29+ evidences for macroevolution"