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A controversial concept in Biology "Group Selection", has caused confusion and conflict amongst scientists since the since the mid 1990s. The more general realm of study is termed the "unit of selection" discussion.

Definition

A simple working definition for "group selection" (edit/discuss this!) is:

"Selection for traits that would be beneficial to a population of units at the expense of an individual unit possessing the trait" (here)

Question

"What examples of group-selection are there?"

To add more structure, perhaps answers would consider the following details:

  • Organism/Species in question
  • Unit that experiences cost in fitness
  • Group that experiences benefit in fitness
  • Group-selected trait
  • Explanation

Forward Example (trait whose presence benefits the group)

  • Organism: Homo sapiens, Humans
  • Unit: Cells and their genes
  • Group: Collection of all cells in one individual Human body
  • Group-selected trait: anti-cancer traits, e.g. apoptosis (programmed cell death) via p53 ("guardian angel" gene that "kills" cancerous cells)
  • Explanation: Apoptosis is costly to the perspective of a cell, since it kills the cell and its genes. This enables the individual as a whole to live for long enough to mate and yeild offspring. Fitness of cells relative to other cells in the body is reduced, but fitness of the genome as a whole of that individual is increased relative to other individuals of that population -as a result of cancer-directed apoptosis.

Reverse Example (trait whose absence benefits the group)

  • Organism: Cervus elaphus, Red Deer
  • Unit: Individual red deer and their genomes
  • Group: Isolated population of red deer and the population gene pool
  • Group-selected trait: Lethal potential of antlers (e.g. sharp single antler instead of two blunt antlers).
  • Explanation: Consider a one-antlered stag, whose single antler is imbued with a jagged edge and is the product of a point mutation in his genome. During a rut he is able to win against other males as his antler inflicts potentially fatal injuries. This allows him to mate many females and have many offspring - however this leaves the population at risk of becoming extinct since the mating season would either have too few males to form a rut, or due to deleterious inbreeding defects in the next generation.

Links

Of course do not feel restrained in your answers by the above suggestions - the point is to discuss the topic and learn!

hello_there_andy
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    possible duplicate: http://biology.stackexchange.com/questions/10970/empirical-evidence-for-species-selection – Remi.b Nov 28 '13 at 08:38
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    no.. species selection is entirely different. See: http://en.wikipedia.org/wiki/Unit_of_selection – hello_there_andy Nov 28 '13 at 11:38
  • I might had better not to write "possible duplicate". Sorry about that. I am not quite sure of how these processes differ. So I asked this question before trying to answer yours. – Remi.b Nov 28 '13 at 11:46
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    For your question, would you accept examples where the group is the organism and the lower unit is the gene? You might be interested by the book genes in conflict by R. Triver and Burt. You might be interested by this post as well. – Remi.b Nov 28 '13 at 11:49
  • ah no problem, species selection I hear is even more controversial than group-selection. Which is confusing since the more higher taxonomic form "clade selection" is deemed less controversial! Clade seletion is where multiple different species have traits selected that help each other - which occurs in symbiosis, e.g. Mycorrhiza. I truely cannot think of a species selecting example. – hello_there_andy Nov 28 '13 at 11:53
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    @Remi.b I do accept that as an example. In fact the other author of that book, Prof. Burt is my research supervisor!! – hello_there_andy Nov 28 '13 at 11:54
  • And do you accept as suggest in this article that kin selection and group selection are the same process? If yes, ants would be an example of group selection. Note: I deleted my question on the difference of meaning between species and group selection! – Remi.b Nov 28 '13 at 11:58
  • Considering that you are working in this field I think it's silly of me to ask but....Have u read the selfish gene ? – user4058 Nov 29 '13 at 10:05
  • @user4058 not a silly question. I have to say I have only read 1/5th of it. To tie that book into the discussion, I propose a conjecture: "All genes are selfish, some genes depend a group's survival to be more selfish". I hope we both have similar definitions of the word selfish. – hello_there_andy Nov 29 '13 at 13:12
  • @hello_there_andy How do you define clade selection in relation to species selection, since you seem to imply that they deal with different things? After all, a species is a clade. I see the concepts as largely interchangeable terms (often along with lineage selection), and they are often used this way. All terms deal with selection for emergent traits at levels above the individual level. Also see Jablonky 2008 which use the terms broad-sense and narrow-sense species selection. – fileunderwater Nov 30 '13 at 18:20
  • Could you define what you mean by "forward" and "reverse"? Do you mean that these examples support or reject the model? FWIW, I think your example of multicellular organisms is kin selection, which should be viewed as being separate from group selection (otherwise, group selection is just a confusing way to say kin selection). Do you mean to include kin selection in your group definition? For group selection, I would look to symbionts. – adam.r Dec 01 '13 at 19:21
  • Yes sorry about using jargon like that, 'Forward' means it is an observed example whose presence implies that trait is positively selected (i.e. natural selection acts to preserve and encourage the emergence of that trait), 'Reverse' means the absence of such a trait (lethal horns in Red Deer) implies there is a "negative selection pressure" for that trait (i.e. natural selection seems to repel the persistence of such traits) – hello_there_andy Dec 01 '13 at 20:19

2 Answers2

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Let's start with your definition.

"Selection for traits that would be beneficial to a population of units at the expense of an individual unit possessing the trait"

This is not a good definition of group selection. In reality, selection can act on groups regardless of the direction of selection at the individual level. This definition sounds to me (your link is directing me to somewhere unpleasant) like one that has been set up in order to study whether group selection can act as an explanatory principle for the evolution of individual-level altruism, which is an altogether different question than the title of your post (the two questions are often conflated for historical reasons).

To expand the debate, I will introduce two formal definitions of group selection both of which are defined by alternative forms of Price's equation (See Okasha's book Evolution and the levels of selection for a thorough analysis).

Interdemic group selection

Interdemic selection occurs when selection acts on both groups and individuals within groups separately. That is, both groups and individuals within those groups must be units of selection in their own right. We must be able to assign fitness to both levels of selection some way, and track the offspring produced at each level. In this form of group selection, group fitness corresponds to the ability of a group to survive and produce more groups of a similar kind, and individual fitness corresponds to the ability of an individual within a group to survive and produce more individuals of a similar kind within that group. A good example is selection on multicelullar organisms and selection on cells within those organisms. If there are greater than two levels of selection, interdemic selection is commonly referred to as multi-level selection 2 (MLS2) (see Okasha).

'The extinction of some groups and the ``reproduction'' of others are essential features of evolution by group selection. If groups are the units of selection, then they must have the properties of variation, multiplication, and heredity required if natural selection is to operate on them.' Maynard Smith

Intrademic group selection

Intrademic selection occurs strictly among individuals within a meta-population. That is, individuals are the only units of selection we study. The groups in which individuals reside are seen as part of the structure of the environment in which individuals live. In this form of group selection, individual fitness corresponds to the ability of an individual to survive and produce more individuals of a similar kind, given that they reside in a particular group. A good example of this perspective on group selection is selection cells of the quasi-multicellular organism Dictyostelium. Cells of this species are units of selection in their own right that occasionally group together into bodies that may also act as units of selection. If there are greater than two levels of selection, intrademic selection is commonly referred to as multi-level selection 1 (MLS1) (see Okasha).

'A way of looking at this is that the [intrademic] group selection approach looks at the evolution of individual characters in a group structured population, whereas the [interademic] group selection approach looks at the evolution of group characters.' West et al

Equivalence

It is worth pointing out that there is currently equivocation in the field about whether these two selective processes are different perspectives on the same underlying biology or distinct causal processes.

Another important point to note is that it is the intrademic form of group selection that leads to the conclusion that kin selection and group selection are really just different perspectives on the same selective process. This has been shown mathematically by Queller.

There is not yet a conclusive proof either way showing that interdemic group selection and kin selection are equivalent or not. Some evolutionary theorists feel that they are, while many feel that they are not.

Group selection versus group adaptation

It is also important to point out the distinction between the process of selection acting on groups (which most evolutionary theorists accept - I mean, it definitely does happen!), and whether or not this selection gives rise to group adaptations (which evolutionary theorists are equivocal about). Some argue that all adaptation can be explained from selection acting on lower-level units (right down to the gene, remember Dawkins?), whereas others think there may be nested levels of causality that cannot be reduced in this way.

Empirical research

There are many examples of laboratory and field based studies of group selection. Too many to list here. In a response to a theoretical paper by Gardner, a history of empirical research on group selection was given by Goodnight. The original paper, its response, and its counter response are worth a read to understand some of the different perspectives on the debates. In particular, two different perspectives on the evolutionary dynamics of cancer are presented that nicely illustrate the differences between MLS1 and MLS2 thinking.

Michael Andrew Bentley
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This article claims to be a new level of evidence for group selection. Its a little early to tell at this point whether the critics will be moved. They have not been in the past!

sorry if this is a bit short - its late, but i'll try to come back and do more later..

shigeta
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