Arboreal COMMUNISM ?

From: Ian Goddard (igoddard@erols.com)
Date: Tue Oct 07 1997 - 03:20:13 MDT


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        ARBOREAL COMMUNISM ? N O T

        (c) 1997 Ian Williams Goddard

        SCIENCE NEWS [1] recently reported a study
        purported to have found an example in nature
        of organisms practicing the communist ethic
        "from each according to ability, to each
        according to need." This alleged communist
        conspiracy includes the Paper birch [2],
        the Douglas fir [3], and several fungi [4].

        SN proclaims that this study "challenges
        the current ecosystem models, which assume
        that plants constantly compete with one
        another for resources." That extrapolation
        is, however, not supported by the evidence.

        WHAT THE STUDY SHOWS

        The study found that carbon dioxide (CO2)
        in the form of sugar is distributed from
        the roots of trees in the sun with the most
        CO2 to the roots of trees in the shade with
        the least CO2. This egalitarian transfer is
        performed by a network of subterranean fungi.
        The result is a more equitable distribution
        of CO2 than would otherwise exist in the
        arboreal community. As SN states:

           The [research] team showed that
           some trees give their neighbors
           carbon that they have captured
           from the atmosphere. An under-
           ground network of fungi collabo-
           rates in transporting the goods.
           ... The network envelops the
           roots of both types of trees.

           The scientists discovered that
           shade [ or need ] enhances a
           tree's ability to receive [CO2].

        Irrespective of this fungi-facilitated sub-
        sidy, the trees have a symbiotic relation
        (mutualistic symbioses) with the fungi in
        which the trees give the fungi CO2 in ex-
        change for nitrogen (N) and phosphorus (P),
        which the fungi liberate from the soil.[5]
        It is after this tree-fungus exchange that
        the fungi will then transfer some of their
        earned CO2 to trees in need of CO2.

        This process of redistribution subsidizes
        CO2-starved trees that are shaded under the
        canopy of larger trees that take up all the
        direct sun. The researchers found, however,
        that as a rule, birch trees tend to experi-
        ence a net loss while firs enjoy a profit.

        WHO SUBSIDIZES WHO?

        With the SN report entitled "Communism In
        Trees Goes Underground," the presentation
        of the study by SN promotes confusion by
        suggesting that this egalitarian distribu-
        tion can be attributed to the trees them-
        selves, when in fact it can only be attrib-
        uted to actions of the "middle men fungi."
        Statements like these cause this confusion:

           Although plants don't plot to
           overthrow capitalist regimes,
           their actions demonstrate a
           clear communist bent. ...
 
           ... trees give their neighbors
           carbon... Birches subsidized firs...

        Let's think for a moment: if you gave the
        baker $5 for bread and then the baker gave
        $2 to the poor, it would be erroneous to
        say that you subsidized the poor. Yet that's
        just what SN is saying by suggesting that
        because Tree 1 (T1) gave fungus (F) CO2 in
        exchange for N and P, and then F gave Tree
        2 (T2) some of that CO2, therefore T1 has
        subsidized T2 -- a false conclusion.
        
                  exchange subsidy
                     | |
          (TREE 1) <---> (FUNGUS) ---> (TREE 2)

        T1 gave x to F in exchange for y, therefore
        T1 subsidized neither F nor T2. F, not T1,
        subsidizes T2. Because T1 does not subsidize
        T2, the extrapolation presented by SN that
        this study "challenges the current ecosystem
        models, which assume that plants constantly
        compete with one another for resources" is
        simply NOT supported by the evidence.

        (It should be noted that while fungi are
        members of the kingdom Fungi, which is a
        division of the kingdom Plantae, fungi are
        not plants; so to claim that the plants
        in the study subsidize each other is false.
        Mutualistic symbioses -- not an example of
        the communist ethic -- between plants and
        fungi is already well-established. [5])

        The fact is that the evidence presented in
        the study indicates only self-interest on
        the part of all the organisms in the study.

        NAKED SELF-INTEREST RULES

        The only possible instance of a subsidy
        and thus of "communism" to be found in the
        study is the "gift" of CO2 by the fungi to
        trees in need of CO2. In this way it could
        be said that the fungi act like Robin Hood
        -- taking from the rich to give to the poor.
        But what's in it for the fungi?

        The answer seems obvious to me: I suspect
        that the fungi feed weaker trees that grow
        in the shade beneath larger sun-drenched
        trees because this subsidy ensures that
        trees will shade the ground more constantly
        than they would without the subsidy, thereby
        maintaining the dark, damp, and cool condi-
        tions that the fungi need to survive.

        If, due to lack of CO2, smaller trees did
        not exist under the dark canopy of large
        trees, then when those large trees died --
        particularly if many died suddenly -- the
        ground would be exposed to more sunlight
        than if a new crop of smaller replacement
        trees were always waiting under the canopy
        to quickly fill the vacated space. Maintain-
        ing such an "assembly line" of trees en-
        sures the constant shade the fungi need.

        Maintaining a constant rotation of trees also
        ensures a continuous supply of falling dead
        trees, which the fungi consume. Which is what
        one of the researchers suggested, hypothesiz-
        ing that by feeding the weak, the fungus may
        be "planning for its next meal." [1]

        Through exchange with Tree 1 (T1), Fungus (F)
        subsidizes Tree 2 (T2). When T1 dies, T2 is
        ready to take the place of T1. F then subsid-
        izes T3 via exchange with T2 in preparation
        for the death of T2, and so forth... sustain-
        ing a continuous life-support system for F:

          (TREE 1) <---> (FUNGUS) ----> (TREE 2)
         (T1 dies) ----> (FUNGUS) <---> (TREE 2)
          (TREE 3) <---- (FUNGUS) <---> (TREE 2)
          (TREE 3) <---> (FUNGUS) <---- (T2 dies)
          (TREE 3) <---> (FUNGUS) ----> (TREE 4). . .

        (The fungi may feed firs more than birches
        because firs provide not only more darkness,
        but, being evergreens, provide it more con-
        stantly. The fungi might support a species,
        such as the birch, that provides less of
        what it needs simply because if the fungi
        supported only one species of tree and a
        disease wiped out all of that tree, the
        fungi would have no trees and no shade.)

        It stands to reason, based upon the evidence,
        that the system of egalitarian CO2 distribu-
        tion maintained by the fungi exists only to
        sustain a continuos life-support system for
        the fungi. There is no reason to believe
        that the fungus or any organism in the study
        acts out of selfless "communist" altruism.

        IN CONCLUSION

        Rather than fulfilling the romantic role
        of a Robin Hood, the evidence suggests that
        the fungi act like a farmer who maintains
        an egalitarian distribution of resources
        to his crops, such that if one field grows
        more slowly, he gives it more water and
        fertilizer from the common supply than he
        gives to crops growing more quickly. In
        this most likely scenario, the "gift" that
        the fungi give to the weaker trees is no-
        thing but an act of naked self-interest,
        not altruism, on the part of the fungi.

        While the fungi do take from the rich and
        give to the poor -- most likely out of self-
        interest -- the study uncovers no evidence
        of selfless subsidy, no evidence of altruism,
        and therefore no evidence of arboreal com-
        munism. Furthermore, the SN extrapolation
        that the study "challenges the current eco-
        system models, which assume that plants
        constantly compete with one another for
        resources," is not supported by the evi-
        dence in the study. Apart from my disagree-
        ment with the SN extrapolations, I still
        think SN is an excellent publication.

        _________________________________________
        [1] SCIENCE NEWS: Communism In Trees Goes
        Underground. E. Strauss. Vol. 152, 8/9/97.
        http://www.sciencenews.org/sn_arc97/8_9_97/fob2.htm

        The study, which doesn't make the extrapo-
        lation that SN makes, was published in:
        NATURE: Net Transfer of Carbon Between
        Ectomycorrhizal Tree Species In The Field.
        S. W. Simard, Vol. 388, August 7, 1997.
        http://www.nature.com/
        
        [2] Paper birch (Betula papyrifera)
        http://www.streetside.com/plants/floridata/ref/b/betula_p.htm
        http://www.mpelectric.com/treebook/fact18.html

        [3] Douglas Fir (Pseudotsuga menziesii)
        http://www.cof.orst.edu/cof/teach/for241/con/dfgen.html
        http://www.isc.tamu.edu/FLORA/imaxxpin.htm

        [4] About the fungi varieties in the study,
        the study states that "Seven ectomycorrhizal
        morphotypes were common between B. papyrifera
        and P. menziesii, covering over 90% of their
        root tips..." NATURE (8/7/97) page 580.

        [5] Plant<->fungi mutualistic symbioses
        is known as mycorrhizae. For more info:
        http://users.caribnet.net/~lec/types.html

        The type of mycorrhizae occurring in the
        study is Vesicular-arbuscular mycorrhizae:
        http://users.caribnet.net/~lec/vaminfo.html
 

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