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Palaeodiversity 3, Supplement: 3–9; Stuttgart 30 December 2010.                                                                                                                            3



                                  WILLI HENNIG, the cautious revolutioniser1
                                                                             MICHAEL SCHMITT

                                                               Abstract
             WILLI HENNIG is frequently associated with the so-called cladistic revolution. However, he did neither feel nor
        behave as a demolitionist. He was the first born son of a railroad worker and a former maidservant. During all his
        life, he appeared rather shy than strong when talking publicly. Even in his writings, he claimed only in a modest way
        to have invented a new method of systematics.
             In the present contribution, I present a short description of HENNIG’s contribution to modern phylogenetics, with
        emphasis on those aspects that were new at the time of their introduction. Also, I try to explain the psychological
        basis of his scientific innovations by referring to FRANK SULLOWAY’s model on the influence of birth order on the de-
        velopment of the human personality. This model provides a satisfying psychological explanation of WILLI HENNIG’s
        revolutionary role in the history of systematics.
             K e y w o r d s : History of phylogenetics, cladistics, birth order.

                                                   Zusammenfassung
            Mit dem Namen WILL HENNIGs wird häufig die Vorstellung einer cladistischen Revolution verbunden. Er hatte
        jedoch keineswegs die Persönlichkeit eines Umstürzlers. Er war der erstgeborene Sohn eines Eisenbahn-Arbeiters
        und einer ehemaligen Magd. Sein ganzes Leben lang erschien er eher schüchtern als durchsetzungskräftig, wenn er
        vor einer größeren Gruppe von Menschen zu sprechen hatte. Sogar in seinen Veröffentlichungen erhob er nur in zu-
        rückhaltender Weise den Anspruch, eine neue systematische Methode entwickelt zu haben.
            Im vorliegenden Beitrag gehe ich der Frage nach, was wirklich neu an HENNIGs Methode war, und ich versu-
        che die Persönlichkeitsmerkmale zu benennen, die Voraussetzungen für seine wissenschaftlichen Neurungen wa-
        ren. Dabei beziehe ich mich auf FRANK SULLOWAYs Modell des Einflusses des Geburtsrangs auf die Entwicklung der
        menschlichen Persönlichkeit. Dieses Modell liefert eine befriedigende Erklärung für die revolutionäre Rolle WILLI
        HENNIGs in der Geschichte der Systematik: Als erstgeborenes Kind war er zwar wenig prädestiniert zu einem „Re-
        volutionär“ zu werden, sein hohes Alter beim Tod seiner Eltern und seine Schüchternheit sind jedoch Faktoren, die
        ihn eher „offen für Neuerungen“ werden ließen.

                                                                                  Contents
        1.   Introduction .............................................................................................................................................................3
        2.   HENNIG’s family and childhood ...............................................................................................................................4
        3.   Scientific education .................................................................................................................................................4
        4.   Phylogenetic systematics.........................................................................................................................................6
        5.   HENNIG as a revolutioniser .......................................................................................................................................7
        6.   References ...............................................................................................................................................................9



                             1. Introduction                                                      whereas the data on WILLI HENNIG’s further personal de-
                                                                                                  velopment and career were originally published in SCHLEE
    Quite frequently, the method coined by WILLI HEN-                                             (1978) and SCHMITT (2001, 2003).
NIG for the reconstruction of phylogenetic relationships is
termed a “revolution”, the “Hennigian revolution” (e. g.                                                                      Acknowledgements
DUPUIS 1990; MISHLER 2000; WHEELER 2008). Here, I pur-                                                I cordially thank GABRIELE UHL (Greifswald, Germany) for
sue two questions: first, who was the man who accom-                                               carefully reading and improving my manuscript and FRANK J.
plished this revolution, and second, what does “revolu-                                           SULLOWAY (Berkeley, USA) for providing me with copies of some
tion” mean here?                                                                                  of the illustrations in his book “Born to Rebel”.
    All information on WILLI HENNIG’s family background
and childhood is taken from VOGEL & XYLANDER (1999),



1
   Contribution to the WILLI-HENNIG-Symposium on Phylogenetics and Evolution, University of Hohenheim, 29 September –
2 October 2009.
4                                               PALAEODIVERSITY 3, SUPPLEMENT, 2010


            2. HENNIG’s family and childhood

    When EMIL HANS WILLI HENNIG (Fig. 1) was born on
April 20, 1913, in Dürrhennersdorf near Löbau in Saxo-
ny (Upper Lusatia), the circumstances seemed not just fa-
vourable for the development of a newborn into a renowned
scientist who is said to have caused a revolution. He was




                                                                   Fig. 2. The HENNIG family in 1923. From left: RUDOLF, EMIL,
                                                                   HERBERT, EMMA, WILLI (Courtesy of WILLI HENNIG Archive,
                                                                   Görlitz – W. R. XYLANDER).



                                                                   HENNIG was a difficult character, nervous and unstable,
                                                                   whereas EMIL HENNIG had a calming influence on the fam-
                                                                   ily life. In his spare time, he relaxed at basket-weaving
                                                                   (Fig. 4). VOGEL & XYLANDER (1998) speculate that not all
                                                                   family moves were due to the father’s profession but might
                                                                   in part have been driven by the mother’s restlessness.
                                                                       EMMA HENNIG aimed in a very ambitious manner at pro-
                                                                   viding her sons an excellent education and school training,
                                                                   obviously an attempt to compensate for her illegitimate
                                                                   birth. Already during WILLI’s primary school years, EMMA
                                                                   organised private lessons in French and mathematics. The
                                                                   teacher was a retired military physician (Oberstabsarzt =
                                                                   chief staff surgeon) who not only taught the mentioned
                                                                   subjects to WILLI but also animated him to collect insects
                                                                   and to build up a herbarium.
                                                                       From Easter, 1927 to 1932 WILLI HENNIG attended a
                                                                   boarding school (Reformrealgymnasium der Landes-
                                                                   schule) in Klotzsche near Dresden. He lived in the house
Fig. 1. WILLI HENNIG, ca. 1950 (courtesy of IRMA HENNIG).          of his science teacher, M. ROST, who brought him into con-
                                                                   tact with WILHELM MEISE (22.11.1901–24.08.2001, Fig. 5),
                                                                   curator of the non-insect animals at the State Museum of
the firstborn son of K ARL ERNST EMIL HENNIG (28.08.1873–           Zoology in Dresden.
28.12.1947), a railroad worker, and MARIE EMMA, née
GROSS (12.06.1885–03.08.1965), who earned some money
as a housemaid and later as a worker in a factory. She was                            3. Scientific education
the illegitimate child of a maidservant, which meant to her
a social stigma from which she suffered all her life. Two              HENNIG worked at the museum as a volunteer already
younger sons were born on 05.03.1915 (FRITZ RUDOLF, died           during his gymnasium times and was trained by WILHELM
24.11.1990) and 24.04.1917 (K ARL HERBERT, missing since           MEISE in taxonomy and morphology. Three scientific pub-
January, 1943, near Stalingrad) (Fig. 2). WILLI entered pri-       lications on “flying” reptiles (in the colubrid snake genera
mary school of Dürrhennersdorf Easter 1919, but had to             Dendrophis and Chrysopelea and the agamid lizard genus
change school twice within three years because the HEN-            Draco), two of them co-authored by MEISE and HENNIG,
NIG family had to move several times during these years            were the outcome of this successful supervision. Even be-
(Fig. 3). According to reports of contemporaries, EMMA             fore HENNIG entered the Leipzig University, he met FRITZ
SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER                                       5




Fig. 3. WILLI HENNIG (circle) on the occasion of his confirmation on 10.04.1927 in Oppach (Courtesy of WILLI HENNIG Archive, Görlitz
– W. R. XYLANDER).




Fig. 4. EMIL HENNIG, basket weaving (Courtesy of WILLI HENNIG
Archive, Görlitz – W. R. XYLANDER).




Fig. 5. WILHELM MEISE, ca. 1935 (Courtesy of WILHELM MEISE).
6                                             PALAEODIVERSITY 3, SUPPLEMENT, 2010


VAN   EMDEN (13.10.1898–02.09.1958, Fig. 6), the keeper
of insects at the Dresden Museum. VAN EMDEN inspired
HENNIG to focus on Diptera, so that he published anoth-
er five papers on flies before receiving his PhD on April
15, 1936. His doctoral thesis – under the supervision of the
famous investigator of animal symbioses PAUL BUCHNER
(12.04.1886–19.10.1978) – treated the copulatory appara-
tus of the Diptera Cyclorrhapha.
    Due to the racist Nazi laws, FRITZ VAN EMDEN was ex-
pelled from the Museum on 30.09.1933. His successor be-
came K LAUS GÜNTHER (07.10.1909–01.08.1975, Fig. 7) from
Berlin to whom HENNIG soon established a very close re-
lationship. One can fairly state that in the 1970s GÜNTHER
was HENNIG’s closest friend. Although there is little writ-
ten evidence, it is highly probable that the two of them
discussed on HENNIG’s growing scientific ideas already
during the Dresden times. From the correspondence ac-
cessible at the State Museum of Natural History of Stutt-
gart and the documents kept by the family it is clear that
K LAUS GÜNTHER had a considerable influence on WILLI
HENNIG’s reasoning and philosophy (SCHMITT 1996). WILLI
HENNIG died on November 5, 1976, in his home in Lud-
wigsburg-Pflugfelden from a sudden heart attack.




                                                                 Fig. 7. KLAUS GÜNTHER, ca. 1929 (Courtesy of WALTRAUT GÜNTHER).




                                                                                    4. Phylogenetic systematics

                                                                     Already as early as 1936, WILLI HENNIG had begun
                                                                 to deviate from conventional systematics and discussed
                                                                 some aspects (HENNIG 1936) which later became essential
                                                                 for his method: “relationship” should be defined in terms
                                                                 of phylogenetic, i. e. genealogic, relations, and only new-
                                                                 ly acquired characters are adequate arguments in favour of
                                                                 closer relationship. Later, when he wrote his fundamental
                                                                 work (HENNIG 1950), he insisted that only a concept of ge-
                                                                 nealogical relationship can provide a sound basis for a con-
                                                                 sistent classification, in contrast to “similarity”. This strict
                                                                 definition of “relationship” was the first important step to-
                                                                 wards the so-called “Hennigian revolution”. The next step
                                                                 was a concise concept of “monophyly”. This term stems
                                                                 from ERNST HAECKEL’s (16.02.1834–09.08.1919) “mono-
                                                                 phyletic trees”, but HAECKEL (1866) left some ambiguity
                                                                 as to the exact meaning of “monophyletic”: of course, he
                                                                 intended to indicate that a group of organisms stems from
                                                                 a single root, i. e. from a common ancestor. But he left it
Fig. 6. FRITZ VAN EMDEN (from HENNIG 1960).                      open whether or not there are implications other than this.
SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER                                   7

    HENNIG emphasised that the concept of monophyly can         blages of species had to be excluded, which was strong-
only lead to unambiguous phylogenetic hypotheses if it is       ly opposed by ERNST MAYR and his followers who hold the
restricted to such groups which comprise all descendants        opinion that a classification should reflect more than just
of a stem species and only these. On that concept he based      the sequence of cladogenetic events. Otherwise the infor-
the central claim of his approach that only a strictly phyl-    mation content of the cladogram and the system (or classi-
ogenetic system allows for unambiguous and testable hy-         fication) would be identical and thus redundant. They in-
potheses on relationship. Such a system must only contain       sist that in certain cases overall similarity (caused by a
monophyletic taxa as defined by him, and single species          high amount of plesiomorph resemblances) is biological-
(which cannot be monophyletic by definition, since a sin-        ly more relevant than monophyly based only on few char-
gle species is not “all descendants of a stem species”). The    acters.
aim of phylogenetic systematics then is to hypothesize that         (2) His view that a species goes “extinct” or rather ter-
two taxa are the exclusive descendants of an ancestor spe-      minates as soon as it splits into two (or more) descend-
cies (stem species). The immediate offspring of a stem          ants. To HENNIG, this was an unavoidable consequence of
species were called “sister groups”.                            the accepted circumstance that all descendants keep ex-
    A major achievement of HENNIG’s approach was the            actly the same type of relationship to their ancestor, so the
elaboration of a method to detect monophyletic taxa and         stem species “survives” in all its offspring equally. There-
consequently substantiate hypotheses on monophyly.              fore, he insisted that “species” are delimited in time only
From his initial finding that ancient (primitive) charac-        by splitting or extinction events.
ters cannot prove closer relationship but only more recent-         (3) Some opponents minded that there is no justification
ly acquired ones, he reached the concept of “apomorphy”,        for the obligatorily dichotomous branching pattern which
meaning transformed in relation to the original state. For      is regularly seen in the graphical representation of the hy-
the – relatively – unchanged (primitive) condition HENNIG       potheses on phylogenetic relationships (cladograms). They
coined the term “plesiomorph”. In practice, to justify a hy-    stated that polytomies could not be excluded since in na-
pothesis on a sister group-relationship between two taxa,       ture species could have split into more than two branches.
at least one putative evolutionary novelty (“autapomor-         However, HENNIG had nowhere claimed that species could
phy”) of their stem species must be found.                      only bifurcate. It is simply a methodological postulation to
    As clear as this procedure sounds in principal, as ob-      aim at revealing dichotomous fissions, because only they
scure remained HENNIG’s empirical criteria or rather ar-        can be proved by shared derived characters. Any polyto-
guments for assessing the direction of evolutionary trans-      my can be composed of several undetected dichotomies,
formation (“Lesrichtung”, “character polarity”). Also he        but a proved dichotomy can hardly be anything else.
was not quite clear on the conceptual relationship between          These arguments have been extensively published,
“apomorphy” and “homology”. Only in publications af-            summaries can be found in HULL (1988) and SCHMITT
ter 1950 he partially clarified some of the open questions.      (2001).
But it was not before 1981 that a convincing method for
assessing character polarity was published (WILEY 1981;
WATROUS & WHEELER 1981; cf. SCHMITT 2003).                                     5. HENNIG as a revolutioniser
    During the 15 years following 1950, HENNIG’s ideas
were only poorly appreciated by the scientific communi-              Wikipedia defines a revolution as “a fundamen-
ty. A main obstacle was certainly the fact that HENNIG had      tal change in power or organizational structures that
published them only in German (cf. HULL 1988: 130 ff.),         takes place in a relatively short period of time” (checked
but even in Germany the new method was only reluctant-          25.03.2010). If what HENNIG presented caused indeed a rev-
ly adopted. As pointed out elsewhere (SCHMITT 1996, 2001),      olution, then a “fundamental change” should be recognis-
HENNIG’s sophisticated and sometimes cumbersome prose           able. Of course it is always a matter of taste what one ac-
prevented a wider audience, but also that his “Grundzüge        cepts as “fundamental”. But just that there was and still is
…” were published by a publisher hardly known and not ex-       such a long and fervid argument about HENNIG’s systemat-
perienced in science (but more in laws), and the fact that he   ics shows that there must be a fundamental disagreement
was an entomologist who was only little perceived outside       between his approach and some earlier schools of science.
the entomological community. Things changed dramat-             When checking the methods and outcomes of traditional
ically after the publication of “Phylogenetic Systematics”      systematics and comparing them to the analyses done un-
in 1966. HENNIG’s method was immediately accepted by a          der the new paradigm, it becomes evident that there are
considerable number of systematists but also hotly debated      indeed differences that could induce a feeling in tradi-
by others (see HULL 1988: 130 ff.). Central conflicts were       tional systematists of being threatened by the new style.
    (1) HENNIG’s claim that classification had to be based on    HENNIG introduced the necessity to systematics to make
a phylogenetic analysis and all non-monophyletic assem-         clear statements in the form “A is more closely related to B
8                                                 PALAEODIVERSITY 3, SUPPLEMENT, 2010


than either is to C” rather than put a taxon somewhere “in           while a “more conforming and traditional” attitude would
between” others or allegedly solve a taxonomic problem               be a hindrance (Fig. 8). As all contemporaries witness,
by opening a separate Linnean unit for a taxon in question.          HENNIG was not at all a “rebel” personality. He was un-
Moreover, he elaborated a method which required explicit             confident, especially when confronted with an audience
presentation of supporting evidence rather than statements           of more than three people, he did not write or behave de-
based purely on intuition or inexplicable experience. For            manding, he did not try to convince someone in personal
the first time a method was at hand that made phylogenet-             encounters. Instead, he reiterated what he saw as improve-
ics a scientific enterprise comparable to the branches of             ments of systematic in quite a number of taxonomic pub-
investigation which fall into POPPER’s concept of science            lications. In letters, he stated that his new method could
(although there is still an ongoing debate on the question           only be propagated through examples, given by experi-
whether or not this applies to cladistics, i. e. the contempo-       enced taxonomists. With very few exceptions (1965, 1966,
rary version of Hennigian phylogenetic systematics, see,             1971, 1974), he did not address a general scientific read-
e. g., R IEPPEL 2007; K LUGE 2009). Thus, one can firmly ac-          ership outside entomology. Obviously, he had planned to
cept the expansion of the Hennigian method of systemat-              publish a textbook of phylogenetic systematics, the intro-
ics (“cladistics” for that matter) as a scientific revolution.        duction of which was published posthumously (1984) by
    Then, the question might stand to reason if WILLI HEN-           WILLI HENNIG’s eldest son WOLFGANG.
NIG as a person was a revolutionary. This means, did he
intentionally threaten the taxonomic establishment of his
days? To consider this possibility I find it useful to follow
FRANK J. SULLOWAY’s approach of estimating human per-
sonality. In 1996, he published his comprehensive analysis
of more than 6000 biographies with respect to the factors
that make a person a “rebel”, i. e. someone who is open
to innovations and prone to transcend traditional limits.
SULLOWAY found that of all factors taken into the metic-
ulous statistical analysis only one explained consistently
and significantly the probability of someone to become a
“rebel”: birth order. His study revealed clearly that later-
borns are definitely more receptive to scientific innova-
tions than firstborns, while firstborns tend to be more con-
forming and traditional.
    WILLI HENNIG was the firstborn of three sons. Accord-
ing to SULLOWAY (1996), we would not expect him to pur-
posefully revolutionise a branch of science, since for that
“receptiveness for innovations” would be a prerequisite,             Fig. 9. Receptivity for innovations in relation to birth order, loss
                                                                     of parents, and social class (from SULLOWAY 1996; circle: WILLI
                                                                     HENNIG).


                                                                         How, then, could it be that HENNIG did not end as an ex-
                                                                     tremely specialised – however highly respected – taxono-
                                                                     mist but became known as the founder of a fundamentally
                                                                     new scientific school? SULLOWAY’s analyses revealed some
                                                                     interesting interactions of birth order and other biograph-
                                                                     ic and social parameters. He found that firstborns of low-
                                                                     er social classes were nearly as open to innovations as lat-
                                                                     erborns of all classes if they were older than 21 when their
                                                                     parents died. This is exactly the case with WILLI HENNIG
                                                                     (Fig. 9). He was 24 when his father died, and 52 when he
                                                                     lost his mother. Thus, this factor could clearly compensate
                                                                     for his status as firstborn.
                                                                         SULLOWAY found an additional influence that contrib-
                                                                     utes to the receptiveness to innovations of firstborns: shy-
Fig. 8. Receptivity for innovations in relation to birth order and   ness, which interacts in a non-additive manner with birth
sibsize (from SULLOWAY 1996; circle: WILLI HENNIG).                  order. He could demonstrate that the receptiveness of lat-
SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER                                            9

                                                                      HENNIG, W. (1950): Grundzüge einer Theorie der phylogeneti-
                                                                          schen Systematik. 370 pp.; Berlin (Deutscher Zentralverlag).
                                                                      HENNIG, W. (1960): F. I. VAN EMDEN †. – Zoologischer Anzeiger,
                                                                          Supplement, 23 (Verhandlungen der Deutschen Zoologi-
                                                                          schen Gesellschaft 1959): 528–529.
                                                                      HENNIG, W. (1965): Phylogenetic systematics. – Annual Review
                                                                          of Entomology, 10: 97–116.
                                                                      HENNIG, W. (1966): Phylogenetic Systematics. IV + 263 pp.; Ur-
                                                                          bana (University of Illinois Press).
                                                                      HENNIG, W. (1971): Zur Situation der biologischen Systematik.
                                                                          – In: SIEWING, R. (ed.): Methoden der Phylogenetik. Sympo-
                                                                          sion vom 12. bis 13. Februar 1970. – Erlanger Forschungen,
                                                                          Reihe B: Naturwissenschaften, 4: 7–15.
                                                                      HENNIG, W. (1974): Kritische Bemerkungen zur Frage “Cladistic
                                                                          analysis or cladistic classification ?”. – Zeitschrift für zoolo-
                                                                          gische Systematik und Evolutionsforschung, 12: 279–294.
                                                                      HENNIG, W. (1984): Aufgaben und Probleme stammesgeschicht-
                                                                          licher Forschung. 65 pp.; Berlin und Hamburg (Paul Parey).
                                                                      HULL, D. L. (1988): Science as a Process. XIII + 586 pp.; Chica-
                                                                          go, London (University of Chicago Press).
Fig. 10. Receptivity for scientific innovations in relation to birth
                                                                      K LUGE, A. G. (2009): Explanation and falsification in phyloge-
order and shyness (from SULLOWAY 1996; circle: WILLI HENNIG).             netic inference: Exercise in Popperian philosophy. – Acta bi-
                                                                          otheoretica, 57: 171–186.
                                                                      MISHLER, B. D. (2000): Deep phylogenetic relationships among
erborns for scientific innovations was the higher the less                 “plants” and their implications for classification. – Taxon,
shy they were, whereas shy firstborns are as open for in-                  49: 661–683.
                                                                      R IEPPEL, O. (2007): The metaphysics of HENNIG’s phylogenetic
novations as shy laterborns and lose receptiveness for in-                systematics: substance, events and laws of nature. – System-
novations when they lose shyness. WILLI HENNIG was de-                    atics and Biodiversity, 5: 345–360.
finitively a shy person (Fig. 10). He regularly avoided                SCHLEE, D. (1978): In Memoriam WILLI HENNIG 1913–1976. Eine
occasions where he had to talk to several people he was                   biographische Skizze. – Entomologica Germanica, 4: 377–391.
not familiar with (let aside publicly). HULL (1988: 132) de-          SCHMITT, M. (1996): K LAUS GÜNTHERs Bedeutung für die Phylo-
                                                                          genetische Systematik. – Sitzungsberichte der Gesellschaft
scribed him as “very shy and self-effacing”, which is in                  Naturforschender Freunde zu Berlin, neue Folge, 35: 13–25.
complete concordance with all reports I received from nu-             SCHMITT, M. (2001): WILLI HENNIG (1913–1976). – In: JAHN, I. &
merous interview partners (see SCHMITT 2001).                             SCHMITT, M. (eds.): DARWIN & Co., eine Geschichte der Biologie
    Consequently, it is most probably exactly his shyness                 in Portraits. Vol. 2: 316–343, 541–546; München (C. H. Beck).
and modesty that made WILLI HENNIG – although a first-                 SCHMITT, M. (2003): WILLI HENNIG and the rise of cladistics. – In:
                                                                          LEGAKIS, A., SFENTHOURAKIS, S., POLYMENI, R. & THESSALOU-
born – a scientific “rebel”.                                               LEGAKI, M. (eds.): The New Panorama of Animal Evolution
                                                                          (Proc. 18th Int. Congr. Zoology): 369–379; Sofia, Moscow
                                                                          (Pensoft).
                          6. References                               SULLOWAY, F. J. (1996): Born to Rebel: Birth Order, Family Dy-
                                                                          namics, and Creative Lives. 654 pp.; New York (Pantheon).
DUPUIS, C. (1990): HENNIG, EMIL HANS WILLI. – In: HOLMES, F. L.       VOGEL, J. & XYLANDER, W. E. R. (1999): WILLI HENNIG – Ein Ober-
   (ed.): Dictionary of Scientific Biography, Vol. 17, Supple-             lausitzer Naturforscher mit Weltgeltung. – Berichte der Natur-
   ment 2: 407–410; New York (Charles Scribner’s Sons).                   forschenden Gesellschaft der Oberlausitz, 7/8: 145–155.
HAECKEL, E. (1866): Generelle Morphologie der Organismen.             WATROUS, L. E. & WHEELER, Q. D. (1981): The out-group com-
   Vol. 1: XXXII + 574 pp., Vol. 2: CLX + 462 pp.; Berlin                 parison method of character analysis. – Systematic Zoolo-
   (Georg Reimer).                                                        gy, 30: 1–11.
HENNIG, W. (1936): Beziehungen zwischen geographischer Ver-           WHEELER, Q. D. (2008): Undisciplined thinking: morphology and
   breitung und systematischer Gliederung bei einigen Dipte-              HENNIG’s unfinished revolution. – Systematic Entomology,
   renfamilien: ein Beitrag zum Problem der Gliederung sys-               33: 2–7.
   tematischer Kategorien höherer Ordnung. – Zoologischer             WILEY, E. O. (1981): Phylogenetics. The Theory and Practice of Phy-
   Anzeiger, 116: 161–175.                                                logenetic Systematics. XV + 439 pp.; New York etc. (Wiley).



Address of the author:
MICHAEL SCHMITT, Ernst-Moritz-Arndt-Universität, Allgemeine und Systematische Zoologie, Anklamer Str. 20, 17489 Greifswald,
Germany
E-mail: michael.schmitt@uni-greifswald.de


Manuscript received: 15 April 2010, accepted: 15 June 2010.

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Supplement schmitt

  • 1. Palaeodiversity 3, Supplement: 3–9; Stuttgart 30 December 2010. 3 WILLI HENNIG, the cautious revolutioniser1 MICHAEL SCHMITT Abstract WILLI HENNIG is frequently associated with the so-called cladistic revolution. However, he did neither feel nor behave as a demolitionist. He was the first born son of a railroad worker and a former maidservant. During all his life, he appeared rather shy than strong when talking publicly. Even in his writings, he claimed only in a modest way to have invented a new method of systematics. In the present contribution, I present a short description of HENNIG’s contribution to modern phylogenetics, with emphasis on those aspects that were new at the time of their introduction. Also, I try to explain the psychological basis of his scientific innovations by referring to FRANK SULLOWAY’s model on the influence of birth order on the de- velopment of the human personality. This model provides a satisfying psychological explanation of WILLI HENNIG’s revolutionary role in the history of systematics. K e y w o r d s : History of phylogenetics, cladistics, birth order. Zusammenfassung Mit dem Namen WILL HENNIGs wird häufig die Vorstellung einer cladistischen Revolution verbunden. Er hatte jedoch keineswegs die Persönlichkeit eines Umstürzlers. Er war der erstgeborene Sohn eines Eisenbahn-Arbeiters und einer ehemaligen Magd. Sein ganzes Leben lang erschien er eher schüchtern als durchsetzungskräftig, wenn er vor einer größeren Gruppe von Menschen zu sprechen hatte. Sogar in seinen Veröffentlichungen erhob er nur in zu- rückhaltender Weise den Anspruch, eine neue systematische Methode entwickelt zu haben. Im vorliegenden Beitrag gehe ich der Frage nach, was wirklich neu an HENNIGs Methode war, und ich versu- che die Persönlichkeitsmerkmale zu benennen, die Voraussetzungen für seine wissenschaftlichen Neurungen wa- ren. Dabei beziehe ich mich auf FRANK SULLOWAYs Modell des Einflusses des Geburtsrangs auf die Entwicklung der menschlichen Persönlichkeit. Dieses Modell liefert eine befriedigende Erklärung für die revolutionäre Rolle WILLI HENNIGs in der Geschichte der Systematik: Als erstgeborenes Kind war er zwar wenig prädestiniert zu einem „Re- volutionär“ zu werden, sein hohes Alter beim Tod seiner Eltern und seine Schüchternheit sind jedoch Faktoren, die ihn eher „offen für Neuerungen“ werden ließen. Contents 1. Introduction .............................................................................................................................................................3 2. HENNIG’s family and childhood ...............................................................................................................................4 3. Scientific education .................................................................................................................................................4 4. Phylogenetic systematics.........................................................................................................................................6 5. HENNIG as a revolutioniser .......................................................................................................................................7 6. References ...............................................................................................................................................................9 1. Introduction whereas the data on WILLI HENNIG’s further personal de- velopment and career were originally published in SCHLEE Quite frequently, the method coined by WILLI HEN- (1978) and SCHMITT (2001, 2003). NIG for the reconstruction of phylogenetic relationships is termed a “revolution”, the “Hennigian revolution” (e. g. Acknowledgements DUPUIS 1990; MISHLER 2000; WHEELER 2008). Here, I pur- I cordially thank GABRIELE UHL (Greifswald, Germany) for sue two questions: first, who was the man who accom- carefully reading and improving my manuscript and FRANK J. plished this revolution, and second, what does “revolu- SULLOWAY (Berkeley, USA) for providing me with copies of some tion” mean here? of the illustrations in his book “Born to Rebel”. All information on WILLI HENNIG’s family background and childhood is taken from VOGEL & XYLANDER (1999), 1 Contribution to the WILLI-HENNIG-Symposium on Phylogenetics and Evolution, University of Hohenheim, 29 September – 2 October 2009.
  • 2. 4 PALAEODIVERSITY 3, SUPPLEMENT, 2010 2. HENNIG’s family and childhood When EMIL HANS WILLI HENNIG (Fig. 1) was born on April 20, 1913, in Dürrhennersdorf near Löbau in Saxo- ny (Upper Lusatia), the circumstances seemed not just fa- vourable for the development of a newborn into a renowned scientist who is said to have caused a revolution. He was Fig. 2. The HENNIG family in 1923. From left: RUDOLF, EMIL, HERBERT, EMMA, WILLI (Courtesy of WILLI HENNIG Archive, Görlitz – W. R. XYLANDER). HENNIG was a difficult character, nervous and unstable, whereas EMIL HENNIG had a calming influence on the fam- ily life. In his spare time, he relaxed at basket-weaving (Fig. 4). VOGEL & XYLANDER (1998) speculate that not all family moves were due to the father’s profession but might in part have been driven by the mother’s restlessness. EMMA HENNIG aimed in a very ambitious manner at pro- viding her sons an excellent education and school training, obviously an attempt to compensate for her illegitimate birth. Already during WILLI’s primary school years, EMMA organised private lessons in French and mathematics. The teacher was a retired military physician (Oberstabsarzt = chief staff surgeon) who not only taught the mentioned subjects to WILLI but also animated him to collect insects and to build up a herbarium. From Easter, 1927 to 1932 WILLI HENNIG attended a boarding school (Reformrealgymnasium der Landes- schule) in Klotzsche near Dresden. He lived in the house Fig. 1. WILLI HENNIG, ca. 1950 (courtesy of IRMA HENNIG). of his science teacher, M. ROST, who brought him into con- tact with WILHELM MEISE (22.11.1901–24.08.2001, Fig. 5), curator of the non-insect animals at the State Museum of the firstborn son of K ARL ERNST EMIL HENNIG (28.08.1873– Zoology in Dresden. 28.12.1947), a railroad worker, and MARIE EMMA, née GROSS (12.06.1885–03.08.1965), who earned some money as a housemaid and later as a worker in a factory. She was 3. Scientific education the illegitimate child of a maidservant, which meant to her a social stigma from which she suffered all her life. Two HENNIG worked at the museum as a volunteer already younger sons were born on 05.03.1915 (FRITZ RUDOLF, died during his gymnasium times and was trained by WILHELM 24.11.1990) and 24.04.1917 (K ARL HERBERT, missing since MEISE in taxonomy and morphology. Three scientific pub- January, 1943, near Stalingrad) (Fig. 2). WILLI entered pri- lications on “flying” reptiles (in the colubrid snake genera mary school of Dürrhennersdorf Easter 1919, but had to Dendrophis and Chrysopelea and the agamid lizard genus change school twice within three years because the HEN- Draco), two of them co-authored by MEISE and HENNIG, NIG family had to move several times during these years were the outcome of this successful supervision. Even be- (Fig. 3). According to reports of contemporaries, EMMA fore HENNIG entered the Leipzig University, he met FRITZ
  • 3. SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER 5 Fig. 3. WILLI HENNIG (circle) on the occasion of his confirmation on 10.04.1927 in Oppach (Courtesy of WILLI HENNIG Archive, Görlitz – W. R. XYLANDER). Fig. 4. EMIL HENNIG, basket weaving (Courtesy of WILLI HENNIG Archive, Görlitz – W. R. XYLANDER). Fig. 5. WILHELM MEISE, ca. 1935 (Courtesy of WILHELM MEISE).
  • 4. 6 PALAEODIVERSITY 3, SUPPLEMENT, 2010 VAN EMDEN (13.10.1898–02.09.1958, Fig. 6), the keeper of insects at the Dresden Museum. VAN EMDEN inspired HENNIG to focus on Diptera, so that he published anoth- er five papers on flies before receiving his PhD on April 15, 1936. His doctoral thesis – under the supervision of the famous investigator of animal symbioses PAUL BUCHNER (12.04.1886–19.10.1978) – treated the copulatory appara- tus of the Diptera Cyclorrhapha. Due to the racist Nazi laws, FRITZ VAN EMDEN was ex- pelled from the Museum on 30.09.1933. His successor be- came K LAUS GÜNTHER (07.10.1909–01.08.1975, Fig. 7) from Berlin to whom HENNIG soon established a very close re- lationship. One can fairly state that in the 1970s GÜNTHER was HENNIG’s closest friend. Although there is little writ- ten evidence, it is highly probable that the two of them discussed on HENNIG’s growing scientific ideas already during the Dresden times. From the correspondence ac- cessible at the State Museum of Natural History of Stutt- gart and the documents kept by the family it is clear that K LAUS GÜNTHER had a considerable influence on WILLI HENNIG’s reasoning and philosophy (SCHMITT 1996). WILLI HENNIG died on November 5, 1976, in his home in Lud- wigsburg-Pflugfelden from a sudden heart attack. Fig. 7. KLAUS GÜNTHER, ca. 1929 (Courtesy of WALTRAUT GÜNTHER). 4. Phylogenetic systematics Already as early as 1936, WILLI HENNIG had begun to deviate from conventional systematics and discussed some aspects (HENNIG 1936) which later became essential for his method: “relationship” should be defined in terms of phylogenetic, i. e. genealogic, relations, and only new- ly acquired characters are adequate arguments in favour of closer relationship. Later, when he wrote his fundamental work (HENNIG 1950), he insisted that only a concept of ge- nealogical relationship can provide a sound basis for a con- sistent classification, in contrast to “similarity”. This strict definition of “relationship” was the first important step to- wards the so-called “Hennigian revolution”. The next step was a concise concept of “monophyly”. This term stems from ERNST HAECKEL’s (16.02.1834–09.08.1919) “mono- phyletic trees”, but HAECKEL (1866) left some ambiguity as to the exact meaning of “monophyletic”: of course, he intended to indicate that a group of organisms stems from a single root, i. e. from a common ancestor. But he left it Fig. 6. FRITZ VAN EMDEN (from HENNIG 1960). open whether or not there are implications other than this.
  • 5. SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER 7 HENNIG emphasised that the concept of monophyly can blages of species had to be excluded, which was strong- only lead to unambiguous phylogenetic hypotheses if it is ly opposed by ERNST MAYR and his followers who hold the restricted to such groups which comprise all descendants opinion that a classification should reflect more than just of a stem species and only these. On that concept he based the sequence of cladogenetic events. Otherwise the infor- the central claim of his approach that only a strictly phyl- mation content of the cladogram and the system (or classi- ogenetic system allows for unambiguous and testable hy- fication) would be identical and thus redundant. They in- potheses on relationship. Such a system must only contain sist that in certain cases overall similarity (caused by a monophyletic taxa as defined by him, and single species high amount of plesiomorph resemblances) is biological- (which cannot be monophyletic by definition, since a sin- ly more relevant than monophyly based only on few char- gle species is not “all descendants of a stem species”). The acters. aim of phylogenetic systematics then is to hypothesize that (2) His view that a species goes “extinct” or rather ter- two taxa are the exclusive descendants of an ancestor spe- minates as soon as it splits into two (or more) descend- cies (stem species). The immediate offspring of a stem ants. To HENNIG, this was an unavoidable consequence of species were called “sister groups”. the accepted circumstance that all descendants keep ex- A major achievement of HENNIG’s approach was the actly the same type of relationship to their ancestor, so the elaboration of a method to detect monophyletic taxa and stem species “survives” in all its offspring equally. There- consequently substantiate hypotheses on monophyly. fore, he insisted that “species” are delimited in time only From his initial finding that ancient (primitive) charac- by splitting or extinction events. ters cannot prove closer relationship but only more recent- (3) Some opponents minded that there is no justification ly acquired ones, he reached the concept of “apomorphy”, for the obligatorily dichotomous branching pattern which meaning transformed in relation to the original state. For is regularly seen in the graphical representation of the hy- the – relatively – unchanged (primitive) condition HENNIG potheses on phylogenetic relationships (cladograms). They coined the term “plesiomorph”. In practice, to justify a hy- stated that polytomies could not be excluded since in na- pothesis on a sister group-relationship between two taxa, ture species could have split into more than two branches. at least one putative evolutionary novelty (“autapomor- However, HENNIG had nowhere claimed that species could phy”) of their stem species must be found. only bifurcate. It is simply a methodological postulation to As clear as this procedure sounds in principal, as ob- aim at revealing dichotomous fissions, because only they scure remained HENNIG’s empirical criteria or rather ar- can be proved by shared derived characters. Any polyto- guments for assessing the direction of evolutionary trans- my can be composed of several undetected dichotomies, formation (“Lesrichtung”, “character polarity”). Also he but a proved dichotomy can hardly be anything else. was not quite clear on the conceptual relationship between These arguments have been extensively published, “apomorphy” and “homology”. Only in publications af- summaries can be found in HULL (1988) and SCHMITT ter 1950 he partially clarified some of the open questions. (2001). But it was not before 1981 that a convincing method for assessing character polarity was published (WILEY 1981; WATROUS & WHEELER 1981; cf. SCHMITT 2003). 5. HENNIG as a revolutioniser During the 15 years following 1950, HENNIG’s ideas were only poorly appreciated by the scientific communi- Wikipedia defines a revolution as “a fundamen- ty. A main obstacle was certainly the fact that HENNIG had tal change in power or organizational structures that published them only in German (cf. HULL 1988: 130 ff.), takes place in a relatively short period of time” (checked but even in Germany the new method was only reluctant- 25.03.2010). If what HENNIG presented caused indeed a rev- ly adopted. As pointed out elsewhere (SCHMITT 1996, 2001), olution, then a “fundamental change” should be recognis- HENNIG’s sophisticated and sometimes cumbersome prose able. Of course it is always a matter of taste what one ac- prevented a wider audience, but also that his “Grundzüge cepts as “fundamental”. But just that there was and still is …” were published by a publisher hardly known and not ex- such a long and fervid argument about HENNIG’s systemat- perienced in science (but more in laws), and the fact that he ics shows that there must be a fundamental disagreement was an entomologist who was only little perceived outside between his approach and some earlier schools of science. the entomological community. Things changed dramat- When checking the methods and outcomes of traditional ically after the publication of “Phylogenetic Systematics” systematics and comparing them to the analyses done un- in 1966. HENNIG’s method was immediately accepted by a der the new paradigm, it becomes evident that there are considerable number of systematists but also hotly debated indeed differences that could induce a feeling in tradi- by others (see HULL 1988: 130 ff.). Central conflicts were tional systematists of being threatened by the new style. (1) HENNIG’s claim that classification had to be based on HENNIG introduced the necessity to systematics to make a phylogenetic analysis and all non-monophyletic assem- clear statements in the form “A is more closely related to B
  • 6. 8 PALAEODIVERSITY 3, SUPPLEMENT, 2010 than either is to C” rather than put a taxon somewhere “in while a “more conforming and traditional” attitude would between” others or allegedly solve a taxonomic problem be a hindrance (Fig. 8). As all contemporaries witness, by opening a separate Linnean unit for a taxon in question. HENNIG was not at all a “rebel” personality. He was un- Moreover, he elaborated a method which required explicit confident, especially when confronted with an audience presentation of supporting evidence rather than statements of more than three people, he did not write or behave de- based purely on intuition or inexplicable experience. For manding, he did not try to convince someone in personal the first time a method was at hand that made phylogenet- encounters. Instead, he reiterated what he saw as improve- ics a scientific enterprise comparable to the branches of ments of systematic in quite a number of taxonomic pub- investigation which fall into POPPER’s concept of science lications. In letters, he stated that his new method could (although there is still an ongoing debate on the question only be propagated through examples, given by experi- whether or not this applies to cladistics, i. e. the contempo- enced taxonomists. With very few exceptions (1965, 1966, rary version of Hennigian phylogenetic systematics, see, 1971, 1974), he did not address a general scientific read- e. g., R IEPPEL 2007; K LUGE 2009). Thus, one can firmly ac- ership outside entomology. Obviously, he had planned to cept the expansion of the Hennigian method of systemat- publish a textbook of phylogenetic systematics, the intro- ics (“cladistics” for that matter) as a scientific revolution. duction of which was published posthumously (1984) by Then, the question might stand to reason if WILLI HEN- WILLI HENNIG’s eldest son WOLFGANG. NIG as a person was a revolutionary. This means, did he intentionally threaten the taxonomic establishment of his days? To consider this possibility I find it useful to follow FRANK J. SULLOWAY’s approach of estimating human per- sonality. In 1996, he published his comprehensive analysis of more than 6000 biographies with respect to the factors that make a person a “rebel”, i. e. someone who is open to innovations and prone to transcend traditional limits. SULLOWAY found that of all factors taken into the metic- ulous statistical analysis only one explained consistently and significantly the probability of someone to become a “rebel”: birth order. His study revealed clearly that later- borns are definitely more receptive to scientific innova- tions than firstborns, while firstborns tend to be more con- forming and traditional. WILLI HENNIG was the firstborn of three sons. Accord- ing to SULLOWAY (1996), we would not expect him to pur- posefully revolutionise a branch of science, since for that “receptiveness for innovations” would be a prerequisite, Fig. 9. Receptivity for innovations in relation to birth order, loss of parents, and social class (from SULLOWAY 1996; circle: WILLI HENNIG). How, then, could it be that HENNIG did not end as an ex- tremely specialised – however highly respected – taxono- mist but became known as the founder of a fundamentally new scientific school? SULLOWAY’s analyses revealed some interesting interactions of birth order and other biograph- ic and social parameters. He found that firstborns of low- er social classes were nearly as open to innovations as lat- erborns of all classes if they were older than 21 when their parents died. This is exactly the case with WILLI HENNIG (Fig. 9). He was 24 when his father died, and 52 when he lost his mother. Thus, this factor could clearly compensate for his status as firstborn. SULLOWAY found an additional influence that contrib- utes to the receptiveness to innovations of firstborns: shy- Fig. 8. Receptivity for innovations in relation to birth order and ness, which interacts in a non-additive manner with birth sibsize (from SULLOWAY 1996; circle: WILLI HENNIG). order. He could demonstrate that the receptiveness of lat-
  • 7. SCHMITT, WILLI HENNIG, THE CAUTIOUS REVOLUTIONISER 9 HENNIG, W. (1950): Grundzüge einer Theorie der phylogeneti- schen Systematik. 370 pp.; Berlin (Deutscher Zentralverlag). HENNIG, W. (1960): F. I. VAN EMDEN †. – Zoologischer Anzeiger, Supplement, 23 (Verhandlungen der Deutschen Zoologi- schen Gesellschaft 1959): 528–529. HENNIG, W. (1965): Phylogenetic systematics. – Annual Review of Entomology, 10: 97–116. HENNIG, W. (1966): Phylogenetic Systematics. IV + 263 pp.; Ur- bana (University of Illinois Press). HENNIG, W. (1971): Zur Situation der biologischen Systematik. – In: SIEWING, R. (ed.): Methoden der Phylogenetik. Sympo- sion vom 12. bis 13. Februar 1970. – Erlanger Forschungen, Reihe B: Naturwissenschaften, 4: 7–15. HENNIG, W. (1974): Kritische Bemerkungen zur Frage “Cladistic analysis or cladistic classification ?”. – Zeitschrift für zoolo- gische Systematik und Evolutionsforschung, 12: 279–294. HENNIG, W. (1984): Aufgaben und Probleme stammesgeschicht- licher Forschung. 65 pp.; Berlin und Hamburg (Paul Parey). HULL, D. L. (1988): Science as a Process. XIII + 586 pp.; Chica- go, London (University of Chicago Press). Fig. 10. Receptivity for scientific innovations in relation to birth K LUGE, A. G. (2009): Explanation and falsification in phyloge- order and shyness (from SULLOWAY 1996; circle: WILLI HENNIG). netic inference: Exercise in Popperian philosophy. – Acta bi- otheoretica, 57: 171–186. MISHLER, B. D. (2000): Deep phylogenetic relationships among erborns for scientific innovations was the higher the less “plants” and their implications for classification. – Taxon, shy they were, whereas shy firstborns are as open for in- 49: 661–683. R IEPPEL, O. (2007): The metaphysics of HENNIG’s phylogenetic novations as shy laterborns and lose receptiveness for in- systematics: substance, events and laws of nature. – System- novations when they lose shyness. WILLI HENNIG was de- atics and Biodiversity, 5: 345–360. finitively a shy person (Fig. 10). He regularly avoided SCHLEE, D. (1978): In Memoriam WILLI HENNIG 1913–1976. Eine occasions where he had to talk to several people he was biographische Skizze. – Entomologica Germanica, 4: 377–391. not familiar with (let aside publicly). HULL (1988: 132) de- SCHMITT, M. (1996): K LAUS GÜNTHERs Bedeutung für die Phylo- genetische Systematik. – Sitzungsberichte der Gesellschaft scribed him as “very shy and self-effacing”, which is in Naturforschender Freunde zu Berlin, neue Folge, 35: 13–25. complete concordance with all reports I received from nu- SCHMITT, M. (2001): WILLI HENNIG (1913–1976). – In: JAHN, I. & merous interview partners (see SCHMITT 2001). SCHMITT, M. (eds.): DARWIN & Co., eine Geschichte der Biologie Consequently, it is most probably exactly his shyness in Portraits. Vol. 2: 316–343, 541–546; München (C. H. Beck). and modesty that made WILLI HENNIG – although a first- SCHMITT, M. (2003): WILLI HENNIG and the rise of cladistics. – In: LEGAKIS, A., SFENTHOURAKIS, S., POLYMENI, R. & THESSALOU- born – a scientific “rebel”. LEGAKI, M. (eds.): The New Panorama of Animal Evolution (Proc. 18th Int. Congr. Zoology): 369–379; Sofia, Moscow (Pensoft). 6. References SULLOWAY, F. J. (1996): Born to Rebel: Birth Order, Family Dy- namics, and Creative Lives. 654 pp.; New York (Pantheon). DUPUIS, C. (1990): HENNIG, EMIL HANS WILLI. – In: HOLMES, F. L. VOGEL, J. & XYLANDER, W. E. R. (1999): WILLI HENNIG – Ein Ober- (ed.): Dictionary of Scientific Biography, Vol. 17, Supple- lausitzer Naturforscher mit Weltgeltung. – Berichte der Natur- ment 2: 407–410; New York (Charles Scribner’s Sons). forschenden Gesellschaft der Oberlausitz, 7/8: 145–155. HAECKEL, E. (1866): Generelle Morphologie der Organismen. WATROUS, L. E. & WHEELER, Q. D. (1981): The out-group com- Vol. 1: XXXII + 574 pp., Vol. 2: CLX + 462 pp.; Berlin parison method of character analysis. – Systematic Zoolo- (Georg Reimer). gy, 30: 1–11. HENNIG, W. (1936): Beziehungen zwischen geographischer Ver- WHEELER, Q. D. (2008): Undisciplined thinking: morphology and breitung und systematischer Gliederung bei einigen Dipte- HENNIG’s unfinished revolution. – Systematic Entomology, renfamilien: ein Beitrag zum Problem der Gliederung sys- 33: 2–7. tematischer Kategorien höherer Ordnung. – Zoologischer WILEY, E. O. (1981): Phylogenetics. The Theory and Practice of Phy- Anzeiger, 116: 161–175. logenetic Systematics. XV + 439 pp.; New York etc. (Wiley). Address of the author: MICHAEL SCHMITT, Ernst-Moritz-Arndt-Universität, Allgemeine und Systematische Zoologie, Anklamer Str. 20, 17489 Greifswald, Germany E-mail: michael.schmitt@uni-greifswald.de Manuscript received: 15 April 2010, accepted: 15 June 2010.