Re: Species Selection Redux

From: Perplexed in Peoria (jimmenegay_at_sbcglobal.net)
Date: 03/11/05 

Date: Fri, 11 Mar 2005 01:01:44 -0500 (EST)

"Guy Hoelzer" <hoelzer@unr.edu> wrote in message news:d0qtar$17uv$1@darwin.ediacara.org...
> in article d0on9t$gus$1@darwin.ediacara.org, Perplexed in Peoria at
> jimmenegay@sbcglobal.net wrote on 3/9/05 9:51 PM:
>
> > "Guy Hoelzer" <hoelzer@unr.edu> wrote in message
> > news:d0nbfi$1ci$1@darwin.ediacara.org...
> >> in article d0m6mq$2ndm$1@darwin.ediacara.org, Perplexed in Peoria at
> >> jimmenegay@sbcglobal.net wrote on 3/8/05 10:56 PM:
> >>
> >>> "Tim Tyler" <tim@tt1lock.org> wrote in message
> >>> news:d0kipq$2654$1@darwin.ediacara.org...
> >>>> bryophyta@hotmail.com <bryophyta@hotmail.com> wrote or quoted:
> >>>> Also, it is widely expected that species selection will be a rather weak
> >>>> force - since its effects will often be swamped by individual selection -
> >>>> which will act to destroy some of the variation on which species
> >>>> selection would otherwise act.
> >>
> >> The strength of selection at any level is always determined by the same
> >> factor: the extent of heritable variation in fitness.
> >
> > I agree, but there is a need to be cautious here. In comparing fitnesses
> > at different levels, you need to be sure you are not comparing apples
> > and oranges. The most important thing is to be sure that you are using
> > the same time scale in both cases. You can't naively take fitness to be a
> > growth rate per generation but use organism generations in one case and
> > species generations in another.
>
> While I appreciate the importance of temporal (and spatial) scale
> compatibility in the interaction among processes, I don't think that your
> concern is relevant here. I don't think that the interaction between
> selection manifested at different levels of organization generally depends
> on the relative fitnesses of entities existing at the different scales. For
> example, it is not like a species can be more fit than an individual
> organism, or vice versa. Instead, the strength of selection at any level
> depends on "the extent of heritable variation in fitness" at that level
> alone, and the evolutionary response to selection can (but does not
> necessarily) include a cascade of effects that spill over into systems at
> other scales of organization.
>
> You seem to be focused on situations where selection within systems existing
> at different scales conflict, ...

Yes, I was focused on that. The topic was whether selection at the species
level is "weak", and to address that we have to ask "weak as compared to what?".
Tim's original claim that it is weak was clearly meant to compare the strength
of species selection with that of classical Fisherian individual selection.

In raising the issue of time scales, I did not intend to compare the fitness
of an individual with the fitness of a species. However, to answer the
question of relative strength, we do need to compare the "variation" of the
two, and the only way I know of to quantify variation is to compute a
variance. A variance is not a pure number - it has the "dimensions" of
fitness^2, so to compare variances we need to measure the two kinds of
fitnesses in the same units.

[snip]

> >> The view that forms
> >> of group selection, including species selection, is usually weak implies
> >> that heritable variation in fitness among groups is usually small. That may
> >> be the case, but I think it would be useful to have someone explain why this
> >> situation might be common in today's biosphere, or in general (temporally
> >> speaking) if that is part of the argument.
> >
> > Well, in some sense (regarding group selection at least) this is simply
> > a theorem of analysis-of-variance. The (per capita) variance within
> > the population as a whole is partitionable into within-group and among-groups
> > components. The part is always smaller than the whole.
>
> How does this lead to the conclusion that group selection is usually weak
> compared with selection at the individual level?

It seems self explanatory to me. Heritable variation (variance) in fitness
among groups is always less than or equal to the heritable variation in
fitness among individuals.

> > The entity that evolves is different.
>
> I presume you are referring to the entity that evolves in DIRECT response to
> the selection pressure, as opposed to entities that evolve due to indirect
> correlation with the entity under selection.

Of course. While I agree that ecosystems "evolve", I think that it would
be incorrect to say that they evolve under natural selection. An ecosystem
doesn't have a fitness. Of course, an understanding of NS is certainly
necessary for an understanding of ecosystem evolution.

> > In group selection, as in individual selection,
> > it is the species that evolves.
>
> Who told you this? The network of populations evolves under group
> selection. This may be a metapopulation or a species or any other kind of
> network of populations that might exist (including networks of populations
> involving multiple species!).
>
> > That is, in both cases, the effect is
> > to change the average character of individual organisms within the species.
>
> This is major misconception, IMHO. The average character of individual
> organisms will only evolve (indirectly) as a result of group selection when
> individual level traits are correlated with factors affecting heritable
> variation in fitness among groups. This need not be the case, and I know of
> no reason to think that it would be the norm.

I am referring to models of "group selection" such as the Price model, or the
"trait group" model in which the fitness of a group is equal to the average
of the fitnesses of its members ***by definition***

The source of our disagreement is becoming obvious. You are thinking in terms
of models in which the group (or species) has a fitness of its own which is
distinct from the average fitness of its members.

> >>> It is true that the process of individual selection does tend to reduce
> >>> variation between groups.
> >>
> >> Funny. I would make exactly the opposite argument. I think that selection
> >> at higher levels is better able to reduce the effects of selection at lower
> >> levels than it is for the exertion of control to reach upward. Higher level
> >> phenomena emerge from the activities of their lower level components, so
> >> their existence and their potential as a unit of selection is automatically
> >> promoted by the interests of lower level agents. I see no advantage to
> >> individual organisms in somehow stifling group selection (including species
> >> selection).
> >
> > You seem to have misinterpreted me. I agree with the points you are making
> > about "emergence" and about control hierarchies. I was talking about
> > versions of group selection (such as Price's or D.S.Wilson's) in which
> > there is no "emergence" and in which groups act as pure units of selection
> > rather than as levels of functional organization.
>
> I'm not sure that D.S. Wilson still holds that view, but I think I
> understand your perspective.

After reading "Unto Others" I am quite sure that he does NOT hold that view.
However, his "trait group" model of group selection very definitely does
treat group fitness as an aggregate of the fitnesses of the members.

> I guess I would argue that the functionalist
> viewpoint solves most of these issues.
>
[snip]

> I think it is a big mistake to define a group by the identities of the
> individuals that compose it, as opposed to its functional coherence.
> Otherwise we can be talking about ghosts, which as we all know don't really
> exist. Do you see a problem in simply limiting the purview of group
> selection theory (multilevel selection theory, really) to functional
> entities, without changing any of the conceptual aspect of the theory?

No problem at all. I wish Price and D.S. Wilson had never muddied the
waters by calling their models "group selection" models.

Best of all, our argument over the relative strength of individual and
group selection becomes moot, because the two no longer can oppose each
other. Individual selection acts on individual traits and higher level
selection acts on higher level traits.

Relevant Pages

  • Re: Van Valens MAXIMAND
    ... If the fitness totals are only sub totals ... > biomass of species 2" in order to determine which species is selected ... If species compete then one unit of selection has to be one ...
    (sci.bio.evolution)
  • Re: Van Valens MAXIMAND
    ... >> biomass of species 2" in order to determine which species is ... Unless you can define finite totals you cannot discriminate ... natural selection has become dissolved. ... >> and then define the units of fitness that can be calculated for each ...
    (sci.bio.evolution)
  • Re: Mathematics Is Not a Science
    ... which is the ONLY trait that selection can act on ... > with perfectly additive effects on fitness. ... has ever been documented within nature. ... experiment I proposed to provide a refutation of Darwin's ...
    (sci.bio.evolution)
  • Re: Wynne-Edwards ( was Homosexuality)
    ... > organisms, must ... >> always dependent on another level and is therefore not an independent ... each part type can represent a valid level of selection. ... Darwinian mono-centric theory describes each fitness independent organism as ...
    (sci.bio.evolution)
  • Re: Ernst Mayr: Where Are We (1976)
    ... >> to determine when organism fitness altruism could evolve in nature, ... >> gene fitness been developed allowing a minimally VALID simplified ... selection exist is required to produce a valid theory of same. ... Understanding how gene fitness epistasis can be coded and inherited ...
    (sci.bio.evolution)