From aceska@telus.net  Tue Oct 25 08:01:25 2005
From: aceska@telus.net (aceska@telus.net)
Date: Tue, 25 Oct 2005 00:01:25 -0700
Subject: [BEN-L]BEN # 351
Message-ID: <1130223685.435dd8455197f@webmail.telus.net>

                                                   
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BBBBB    EEEEE    NN N N             BOTANICAL
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No. 351                              October 25, 2005

aceska@telus.net                     Victoria, B.C.
-----------------------------------------------------------
 Dr. A. Ceska, P.O.Box 8546, Victoria, B.C. Canada V8W 3S2
-----------------------------------------------------------

GEORGE WAYNE DOUGLAS (1938-2005) - BIBLIOGRAPHY
Compiled by Jenifer L. Penny [Jenifer.Penny@gov.bc.ca]

Earlier this year, on February 10, 2005, George W. Douglas died.
A BEN article in March commemorated George W. Douglas for his
contributions to botany in British Columbia (BEN no. 344, March
14th, 2005), but did not include a complete list of George's
publications. The list of George's publications is a lengthy one
and it is now available at
http://www.ou.edu/cas/botany-micro/ben/suppl/351/gwdouglas.html

George W. Douglas was indeed a prolific author. He started
publishing in the early 1970's upon completion of his M.Sc. and
Ph.D. theses on subalpine and alpine plant communities. In the
1970's alone he produced 29 publications for journals and papers
for government. In the 1980's he kept up his momentum and
continued to produce many articles and government documents. He
also edited and contributed to an attractive and informative
coffee table book on Kluane Park, Yukon called _Kluane, Pinnacle
of the Yukon_ (Theberge and Douglas Eds. 1980). His work in the
Yukon also resulted in _Rare Vascular Plants of the Yukon_
(Douglas et al. 1981). He was a co-author of _Rare Vascular
Plants of British Columbia_. His taxonomic passion was the
Asteraceae family that resulted in _The sunflower family
(Asteraceae) of British Columbia,_ published by the Royal
British Columbia Museum. Unfortunately, only the first two
volumes of this three-volume work were published. In addition,
in the 1970's and 80's he also made several contributions to the
flora of Washington.

In the 1990's, however, his focus shifted, and he began to spend
more time documenting the flora of British Columbia with special
attention to the rare plants. In the 1990's, he started his work
with the Conservation Data Centre (CDC) as the Program Botanist.
During this time, he completed the 4-volume _Vascular Plants of
British Columbia_ and started to work on the 8-volume
_Illustrated Flora of British Columbia_. From the mid-1990's he
authored or co-authored no less than 36 species status reports,
more than any other contributor of reports to the Committee on
the Status of Endangered Wildlife in Canada species assessment
team. In the production of the status reports, he gave many of
us the opportunity to get some experience with writing and
submitting articles for publication, not to mention learning a
lot about a single species biology, distribution and status in
British Columbia. He was also involved in the following field
guides in the 1990's: _Plants of Northern British Columbia_
(MacKinnon et al. [eds.] 1992), _Plants of the Southern Interior
of British Columbia_ (Parish et al. [eds.] 1996), and the
second, expanded edition of the _Mountain Plants of the Pacific
Northwest_ (Taylor and Douglas 1995). In total, he contributed
around 45 publications during the decade which greatly enhanced
our knowledge of vascular plants in British Columbia and the
Pacific Northwest.

In the new millennium, George retired from the CDC and started
consulting. In his new capacity as a consultant to government,
he became active in many projects producing many reports. In the
last two years, he worked on numerous status reports, four
recovery strategies for species at risk and one multi-species
recovery strategy. Sadly, his life and work were cut short by a
terminal illness. He has, however, left us a truly inspiring
legacy of getting the work done and making it accessible. His
contributions are used often by many in British Columbia and
beyond.


_TRISETUM_ (POACEAE) IN BRITISH COLUMBIA
From: Jeff M. Saarela, Dept. of Botany and UBC Botanical Garden
   and Centre for Plant Research, University of British
   Columbia, Vancouver, BC, Canada
   [jsaarela@interchange.ubc.ca]

_Trisetum_ Pers. is a genus of about 70 species of grasses
distributed in temperate regions of Europe, Asia, America,
Australia and New Zealand (Finot et al. 2004). There are 40
species and several infraspecific taxa in North, South, and
Central America (Finot et al. 2003, 2005). In North America
north of Mexico, six native and two introduced species are
recognized (Finot et al. 2005). In the Illustrated Flora of
British Columbia (Douglas et al. 2001), three species were
accepted; _T. wolfii_ Vasey, _T. spicatum_ (L.) K. Richt, and
_T. canescens_ Buckl. (including _T. cernuum_ Trin.). _Trisetum_
is distinguished from other grass genera in British Columbia by
the combination of the following characters: small spikelets
with 2 or 3 florets, glumes 2-9 mm long, and awns that are
attached on the upper third of the lemma (Douglas et al. 2001).

_Trisetum wolfii_ (Wolf's trisetum) is sometimes treated in a
segregate genus, _Graphephorum_ Desv., characterized by entire
lemma apices (vs. bidentate in _Trisetum_ s.str.), paleas
tightly enclosed by the margins of the lemmas (vs. paleas not
tightly enclosed by the margins of the lemmas in _Trisetum_
s.str.), and awns that are reduced to an apical mucro (e.g.,
Finot et al. 2005), but most authors include it in _Trisetum_
(e.g., Douglas et al. 2001). According to the _Rare Native
Plants of British Columbia_ (Douglas et al. 2002), _T. wolfii_
is known from only three locations in British Columbia; one in
the interior of the province, and two near the British Columbia/
Alberta border in southeastern British Columbia.

_Trisetum spicatum_ (spike trisetum) is a cosmopolitan and
morphologically variable species that is distributed widely
across British Columbia. Within _T. spicatum_ several
intraspecific taxa have been described, but they are difficult
to distinguish from one another due to considerable overlap in
the characters (Finot et al. 2005).

_Trisetum canescens_ (tall trisetum) and _T. cernuum_ (nodding
trisetum) are morphologically similar taxa distributed in
western North America. _Trisetum canescens_ is distributed from
central British Columbia to California, while _T. cernuum_ is
distributed from Alaska to California (Rumely, in press). The
taxa have been separated based on several morphological
characteristics, including the morphology of the panicle, the
degree of pubescence of the leaf blades, and the length of the
lower glumes. _Trisetum canescens_ is characterized by narrow
panicles with spikelets to the base of the lower branches; leaf
blades that are pubescent, scarcely or densely pilose, or
occasionally glabrous; and lower glumes that range in length
from 3-5 mm. _Trisetum cernuum_ is characterized by more open
panicles, with the lower branches usually naked on the lower
third; leaf blades that are glabrous; and lower glumes that
range in length from 0.75-3 mm. Most authors have recognized
these taxa as distinct entities at the specific level (e.g.,
Louis-Marie 1928-29; Hitchcock 1950; Wilken 1993; Rumely in
press), but some have recognized them as varieties (e.g., Beal
1896) or subspecies (e.g., Finot et al. 2005). In British
Columbia, the taxa have been variously recognized as species,
subspecies, and varieties. In the _Illustrated Flora of British
Columbia_, Douglas et al. (2001) lump them and recognize only
one taxon (_T. canescens_), with no mention of intraspecific
variability. If only one taxon is recognized, the name _T.
cernuum_, published in 1830, has priority over the name _T.
canescens_, published in 1862. In _Grasses of the Columbia Basin
of British Columbia_, Stewart and Hebda (2000) treat these taxa
as varieties (_T. cernuum_ var. _canescens_ (Buck.) Beal and _T.
cernuum _ var. _cernuum _). Calder and Taylor (1965, 1968), in
the _Flora of the Queen Charlotte Islands_, treat these taxa as
subspecies (_T. cernuum_ Trin. subsp. _cernuum_ and _T. cernuum_
Trin. subsp. _canescens_ (Buck.) Calder & R. L. Taylor).

While annotating grasses in the UBC herbarium I was able to
study morphological variability within the _T. cernuum_ /_T.
canescens_ complex in British Columbia. Based on examination of
over 125 specimens, I was able to easily assign most individuals
to one of the two taxa using the characteristics mentioned
above, but some intermediate specimens (i.e., with combinations
of characters not assignable to either taxon) were encountered.
For example, _Mueller-Dombois 118-6_ (UBC) and _Biel 773_ (UBC)
have open panicles and naked lower branches (typical of _T.
cernuum_ s.s.), but have lower glumes up to 4 mm (typical of _T.
canescens_). Calder and Taylor (1968) noted this overlap in
glume length in British Columbia material, and the ranges of
variation in this character also overlap in the morphological
descriptions provided by Finot et al. (2005). Characterizing
panicle morphology in some specimens can also be subjective. The
occasional overlap of glume length and somewhat variable panicle
morphology do not support recognition of these taxa as distinct
species, but the differences merit intraspecific recognition,
since many individuals can confidently be assigned to one of the
morphological groups. A recent revision of _Trisetum_ (Finot et
al. 2005) recognizes these taxa as subspecies in North America,
and I follow this treatment here. To facilitate recognition of
these intraspecific taxa, I present a revised taxonomic key to
_Trisetum_ in British Columbia. Complete synonymies and
morphological descriptions for the taxa can be found in Finot et
al. (2005).

_Trisetum flavescens_ (L.) Beauv. (yellow oatgrass) is a species
native to Europe, west Asia, and north Africa (Rumely, in
press). It has been introduced into North America as a forage
grass, but is not common. A collection of this species from
Saanichton, Vancouver Island (Foster s.n. in 1939) is present in
the UBC herbarium. The sheet was annotated _verosimiliter
cultum_ (most likely cultivated) by Bernard Boivin in 1969-70.
It is possible that additional collections of this species from
British Columbia will be found in herbaria.

Another species, _T. orthochaetum_ Hitchc., thought to be a
hybrid between _T. wolfii_ and _T. cernuum_, was originally
known only from the type specimen, collected in 1908 in
northwestern Montana at Lolo Hot Springs in Missoula county near
the Montana/ Idaho border. The species was rediscovered at this
location in 1986 (Shelly 1987). Collections of this species made
in 1994 were recently reported from Glacier National Park in
Glacier Co., along the southwest side of Swiftcurrent Lake
(Lesica 1998), near the Montana/Alberta border. _Trisetum
orthochaetum_ is distinguished from _T. cernuum_ by its shorter,
nearly straight awns (Finot et al. 2005). It is possible that
focused searches in southeastern British Columbia or
southwestern Alberta (Waterton Lakes National Park) might also
discover this species in Canada, but to date no collections have
been made in Alberta or British Columbia.

Taxonomic Key to _Trisetum_ in British Columbia

[adapted from Finot et al. (2005), Douglas et al. (2001), and
   Rumely (in press)]


1. Lemma awnless or with awns rarely exceeding the lemmas
   ................................................  _T. wolfii_

1. Lemmas awned, the awns far exceeding the lemmas.

   2. Panicles contracted and spikelike; upper glumes not much
      longer than lower glumes ..................  _T. spicatum_

   2. Panicles open, erect or lax; upper glumes much longer than
      lower glumes.

      3. Ovary and caryopsis glabrous near the apex; upper
         glumes equal to or longer than the lowest florets
         ......................................  _T. flavescens_

      3. Ovary and caryopsis hairy near the apex; upper glumes
         shorter than the lowest florets.

         4. Awns 3.5-4 mm long, straight, shorter than the
            lemma; apex of the lemma shortly bidentate; first
            glumes 4-6 mm long, never rudimentary
            .................................  _T. orthochaetum_

         4. Awns 6-16 mm long, geniculate, one to three times as
            long as the lemma; apex of the lemma ending in two
            setae, 0.5-1.5 mm long; first glumes 0.5-5 mm long,
            sometimes rudimentary

            5. Panicles few-flowered, open; lower branches
               usually naked on the lower third; leaf blades
               glabrous, lower glumes 0.75-3 mm long
               ..................  _T. cernuum_ subsp. _cernuum_

            5. Panicles densely flowered, narrow; branches
               closely appressed, the lower ones usually with
               spikelets to the base; leaf blades pubescent,
               sparsely to densely pilose, or glabrous; lower
               glumes 3-5 mm long
               ................  _T. cernuum_ subsp. _canescens_

Acknowledgements

This work was supported by a research assistant position funded
by the UBC Department of Botany. I thank Cindy Sayre for
assistance in the UBC herbarium, and Sean Graham and Adolf Ceska
for comments that improved the manuscript.

References

Beal, W. J. 1896. _Grasses of North America Vol. II_. H. Holt &
   Co., New York.
Calder, J.A., and R. L. Taylor. 1965. New taxa and nomenclatural
   changes with respect to the flora of the Queen Charlotte
   Islands, British Columbia. _Canadian Journal of Botany_ 43:
   1387-1400.
Calder, J. A., and R. L. Taylor. 1968. _Flora of the Queen
   Charlotte Islands. Part 1, Systematics of Vascular Plants_.
   Canada Department of Agriculture Monograph No. 4, Part 1.
Douglas, G. W., D. Meidinger, and J. Pojar (editors). 2001.
   _Illustrated Flora of British Columbia. Volume 7:
   Monocotyledons (Orchidaceae through Zosteraceae)_.
Douglas, G. W., D. Meidinger, and J. L. Penny. 2002. _Rare
   Native Vascular Plants of British Columbia._ 2nd edition.
   Ministry of Forests, British Columbia.
Finot, V. L. 2003. _Trisetum_. In: Soreng, R. J., P. M.
   Peterson, G. Davidse, E. J.Judziewicz, F. O. Zuloaga, T. S.
   Filgueiras, and O. Morrone. 2003. Catalogue of New World
   Grasses (Poaceae): IV. Subfamily Pooideae. _Contributions
   from the U.S. National Herbarium_ 48: 659-676.
Finot, V. L., P. M. Peterson, R. J. Soreng, F. O. Zuloaga. 2004.
   A revision of _Trisetum_, _Peyritschia_, and _Sphenopholis_
   (Poaceae: Pooideae: Aveninae) in Mexico and Central America.
   _Annals of the Missouri Botanical Garden_ 91: 1-30.
Finot, V. L., P. M. Peterson, R. J. Soreng, and F. O. Zuloaga.
   2005. A revision of _Trisetum_ and _Graphephorum_ (Poaceae:
   Pooideae: Aveninae) in North America north of Mexico. _Sida_
   21: 1419-1453.
Hitchcock, A. S. 1950. _Manual of the grasses of the United
   States._ U. S. Department of Agriculture, Misc. Publ. No.
   200, Washington.
Lesica, P. 1998. Noteworthy collections: _Trisetum
   orthochaetum_. _Madrono_ 45: 330.
Louise-Marie, P. 1928, 1929. The genus _Trisetum_ in America.
   _Rhodora_ 30: 209-223, 237-235.
Rumely, J. H. In press. _Trisetum_. In: Barkworth, M. E., K. M.
   Capels, S. Long, M. B. Piep (eds.). _Magnoliophyta:
   Commelinidae_ (in part): _Poaceae_, part 1. _Flora of North
   America North of Mexico_, volume 24. Oxford University Press,
   New York. Manual on the web:
   http://herbarium.usu.edu/webmanual/default.htm
Shelly, J. S. 1987. Rediscovery and preliminary studies of
   _Trisetum orthochaetum_,Missoula Co., Montana. _Proceedings
   of the Montana Academy of Science_ 47: 3-4.
Stewart, H., and R. J. Hebda. 2000. _Grasses of the Columbia
   Basin of British Columbia._ Royal British Columbia Museum,
   Victoria.
Wilken, D. H. _Trisetum_. Pp. 1300. In: J. C. Hickman (ed.).
   _The Jepson manual: higher plants of California_. University
   of California Press, Berkeley.


MOSSES OF BADEN-WUERTTEMBERG SERIES NOW COMPLETE
From: Toby Spribille [tspribi@uni-goettingen.de]

Nebel, Martin & Georg Philippi [eds.] 2005. _Die Moose Baden-
   Wrttembergs. Band 3: Spezieller Teil (Bryophyta:
   Sphagnopsida, Marchantiophyta, Anthocerotophyta)._ Ulmer
   Verlag, Stuttgart. 487 p. ISBN 3-8001-3278-8 [hardcover].
   Price: Eur 49.90

Another masterpiece of photography and graphic design is this
third and final volume on the bryophytes of the southwest German
state of Baden-Wrttemberg. The moss tomes are themselves part
of a larger, monumental series, which could summarily be styled
the Biodiversity of Baden-Wrttemberg; it has already provided
us with a work on lichens (in 2 volumes, by V. Wirth),
macrofungi (in 4 volumes, by G.J. Krieglsteiner), vascular
plants (in eight volumes, by O. Sebald et al.), lepidoptera (in
no fewer than 10 volumes, by G. Ebert) as well as bees, beetles,
birds, dragonflies, grasshoppers and mammals, oh my! All are
spectacularly well illustrated with colour photography of the
finer sort and raster dot maps of the occurrence, historical and
current, of the organisms under study, within Baden-Wrttemberg.
All are also useful far beyond their rather small study area.

The present volume covers the genus _Sphagnum_, hepatics and
hornworts of BW, totalling 223 species. The majority of species
are depicted with colour photographs. An account is provided of
the morphology, ecology, general distribution, distribution in
BW, and conservation status of each species. Original keys
accompany each genus. The accounts for individual genera were
written by different experts on those groups; a total of seven
authors, including the editors, were involved in preparing the
present volume. A 35-page bibliography opens the way into
further studies and provides background to the authors'
insights.

At Eur 49.90 a good buy, and a must-have on the shelf of any
serious bryologist, particularly those working on central
European bryophytes.


NEW BOOK: OUTBREEDING MECHANISMS IN FLOWERING PLANTS
From: Fred R. Ganders, Dept. of Botany, Univ. of British
   Columbia, Vancouver, B. C. V6T 1Z4
   [ganders@interchange.ubc.ca]

Leach, C., and O. Mayo. 2005. _Outbreeding Mechanisms in
   Flowering Plants, An Evolutionary Perspective from Darwin
   onwards._ Berlin and Stuttgart, J. Cramer. viii+147 p. ISBN
   3-443-50029-3 [soft cover] Price: Euro 24.00
   Available from: order@schweizerbart.de

Two-thirds of this book is about self-incompatibility systems,
their genetics, evolution, and molecular biology. It provides a
concise summary of modern knowledge and hypotheses. In the 52
pages about homomorphic self-incompatibility, Darwin is cited
six times, five of them irrelevant or tangential, in a feeble
attempt to link him with a phenomenon which he identified but
did not really study per se.

Two-thirds of the rest of this book is about inbreeding
depression, and the population genetics of inbreeding
depression. There is a nice summary of Darwin's studies of
inbreeding, and a six sentence summary of current evidence. It
then plunges into population genetics more advanced than 98% of
university biology graduates would ever have seen. But you can
ignore the math and read the text.

Two-thirds of the rest of this book equals seven pages about
pollination. Included are a very brief summary of Darwin's and
modern work on pollination biology. There is a small, apparently
random, sample of other topics such as how far pollen is
transported and the inverse correlation between inbreeding and
flower size. Not mentioned are any of the fairly numerous
studies correlating selfing rate and heterozygosity with
dichogamy, stigma-anther separation, and flower color.

The remaining four pages define the four -oecies: dioecy,
monoecy, gynodioecy, and androdioecy. There is a five sentence
summary on their maintenance and evolution, and a two page
discussion of whether there is a correlation of floral
dimorphism with polyploidy. Enantiostyly gets six sentences, the
last one being, "As Darwin did not consider these systems, we
shall examine them no further". Gynodioecy (populations composed
of hermaphrodites and females) only gets two sentences, and
Darwin (1877) did a lot of work on it. Furthermore, there is a
lot of theoretical work on the population genetics of inbreeding
depression and evolution in gynodioecious plants, as well as
experimental studies in greenhouse and nature, e. g.,
Charlesworth (1981), Schultz and Ganders (1996). There has been
similar work done on dioecy. The genetics of dioecy in plants is
not mentioned except to state that sex chromosomes are rare. The
multiple sex chromosomes in polyploid _Rumex_ and bizarre sex
chromosomes of mistletoes are not mentioned. One would have
thought that this work integrating genetics, inbreeding
depression, evolution, and testing Darwin's hypotheses would
have fit in this book perfectly. It deserved mention more than
enantiostyly did.

The book is written in the same style as my review, so it is not
an entertaining read. The text is compressed, declarative, short
on discussion and examples.

The title and subtitle on the front cover, _Outbreeding
Mechanisms in Flowering Plants, An Evolutionary Perspective from
Darwin onwards_, sound comprehensive and general. On the back
cover the truth is told, "The envisaged readership encompasses
academics, research students (from the end of the first degree
upwards) and research workers in the plant sciences". The book
is not meant to be very accessible to general readers. In their
introduction Leach and Mayo state, "In our book, we aim to
describe the present state of understanding of the effects of
inbreeding, and of the genetics of the outcrossing mechanisms
that Darwin (1877) studied, together with related mechanisms
that he could not investigate without statistics or Mendelian
genetics or molecular biology". My disappointment with the book
is that they do not fulfill their aim. There is too much that is
missing. If the book had been called "Self-incompatibility and
inbreeding depression" the gaps would not have been so glaring.
The attempt to use Darwin as a unifying feature of the book also
fails because so much of the book is about self-incompatibility,
and so much of Darwin's work on other outbreeding mechanisms is
omitted. The book seems to me to be a text for a graduate course
on the authors' two favorite subjects.

There is a nine page appendix listing species Darwin considered
in his two most relevant books (Darwin 1876, 1877), and giving a
more recent reference in most cases. _Erythroxylum_ and
_Amsinckia spectabilis_ are omitted, among others, and
_Pulmonaria_ is mistakenly called tristylous. The point of this
appendix is not clear, unless it is to prove that Darwin studied
a lot of plants. The references given are usually not the most
recent, or comprehensive, or significant.

My last complaint concerns a subject that has bothered me for
more than 30 years, the confusion of self-incompatibility with
interspecific uncrossability, also called interspecific
reproductive isolation, interspecific incompatibility (which may
be at the root of the confusion), or incongruity. Hogenboom
(1975) pointed out the differences, and coined the term
incongruity for interspecific failure to cross, to try to
clarify that these phenomena were not the same. De Nettancourt
(1977) rejected Hogenboom's arguments. As I pointed out in my
review of de Nettancourt's book (Ganders 1978), the only
evidence that self- incompatibilty genes are involved in
interspecific reproductive isolation comes from the special case
where self-compatible species are closely related to and most
likely derived from self- incompatible species. Crosses with the
self-compatible species as the pollen parent fail while the
reciprocal cross succeeds. Everyone agrees that in this case the
self-incompatibilty genes may be involved. (Other
interpretations are also possible, however. The self-compatible
species usually have smaller flowers with shorter styles, so
their pollen may not be able to grow through the longer styles
of their self-incompatible relatives.) It is not at all obvious,
however, that there is any connection between this phenomenon
and the failure of crosses between different species of closely
related, self-compatible annuals. And in many cases, closely
related perennials do cross successfully no matter what their
incompatibility behavior is. Failure of more distantly related
species (in different genera or families)to cross successfully
was viewed by Darwin as a byproduct of evolutionary divergence
which may affect any aspect of the relationship between pistil
and pollen. There still isn't any good evidence that self-
incompatibilty genes are involved in this kind of interspecific
reproductive isolation. This was Hogenboom's view and my view
and the view of most plant biosystematist-evolutionists. It
seems not to be the view of many incompatibility system
geneticists, who seem either to not distinguish these different
cases, or are wedded to the belief that self-incompatibilty
really must be responsible for interspecific reproductive
isolation, despite the lack of evidence. Leach and Mayo
repeatedly confuse them, although on page 28 (not in the
incompatibility chapter) they do admit that "floral traits
important in reproductive isolation do not appear to have been
considered likely to involve self-sterility".

The best part of this book is the modern discussion of what is
known about self-incompatibility. What is now known bears little
relationship to what was hypothesized almost three decades ago
(de Nettancourt 1977). Although current understanding of self-
incompatibility is still very incomplete, the contrast is
striking. However, this book assumes the reader has a good
background in the subject. It is not easy material, and it is
not presented in an introductory way.

References

Charlesworth, D. 1981. A further study of the problem of the
   maintenance of females in gynodioecious species. _Heredity_
   46: 27-39.
Darwin, C. 1876. _The effects of cross and self fertilisation in
   the vegetable kingdom._ London, John Murray.
Darwin, C. 1877. _The different forms of flowers on plants of
   the same species._ London, John Murray.
De Nettancourt, D. 1977. _Incompatibility in angiosperms._
   Berlin, Heidelberg, New York, Springer-Verlag.
Ganders, F. R. 1978. Review of _Incompatibility in Angiosperms_
   by D. de Nettancourt. _Science_ 199: 147.
Hogenboom, N. G. 1975. Incompatibility and incongruity: two
   different mechanisms for the non-functioning of intimate
   partner relationships. _Proc. Roy. Soc. London, series B_
   188: 361-375.
Schultz, S. T., and F. R. Ganders. 1996. Evolution of
   unisexuality in the Hawaiian flora: A test of
   microevolutionary theory. _Evolution_ 50: 842-855.
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