| 金缕梅类科的系统发育分析 |
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| 引用本文: | 路安民,李建强,徐克学.金缕梅类科的系统发育分析[J].中国科学院研究生院学报,1991,29(6):481-493. |
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| 作者姓名: | 路安民 李建强 徐克学 |
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| 摘 要: | 本文运用分支分类的方法对金缕梅类进行了系统发育的分析。金缕梅类作为单元发生群包括下
列19科:昆栏树科、水青树科、连香树科、领春木科、杜仲科、金缕梅科、悬铃木科、交让木科、假槲树科、双颊果科、折扇叶科、黄杨科、西蒙得木科、木麻黄科、山毛榉科、桦木科、杨梅科、马尾树科和胡桃科。木兰科在分析中被选择作为外群类。在对大量性状进行评估之后,选择了32对性状作为建立数据矩阵的基本资料。性状极化主要以外类群比较、化石证据和通行的形态演化规律为依据。首次引入了不合谐数的概念来检测性状极化结果的正确程度,并对少数不合谐数较大的性状的极性进行了调整。采用最大同步法、最小平行进化法和综合分析法进行运算,按照最简约的原则,选出演化长度最短的谱系分支图,作为本文讨论的基础,并在此基础上,探讨了金缕梅类科的系统关系。
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| 关 键 词: | 金缕梅类 系统发育 谱系分支分析 |
A Phylogenetic Analysis of Families in the Hamamelidae |
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| Lu An-Ming,Li Jian-Qiang,Xu Ke-Xue.A Phylogenetic Analysis of Families in the Hamamelidae[J].Journal of the Graduate School of the Chinese Academy of Sciences,1991,29(6):481-493. |
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| Authors: | Lu An-Ming Li Jian-Qiang Xu Ke-Xue |
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| Abstract: | A cladistic analysis of the families in the Hamamelidae is made in the present pa-
per. As a monophyletic group, the subclass Hamamelidae includes 19 families, namely, the
Trochodendraceae, Tetracentraceae, Cercidiphyllaceae, Eupteleaceae, Eucommiaceae,
Hamamelidaceae (incl. Rhodoleiaceae and Altingiaceae), Platanaceae, Daphniphyllaceae,
Balanopaceae, Didymelaceae, Myrothamnaceae, Buxaceae, Simmondsiaceae, Casuarinaceae,
Fagaceae (incl. Nothofagaceae), Betulaceae, Myricaceae, Rhoipteleaceae and Juglandaceae.
The Magnoliaceae was selected for outgroup comparison after careful consideration.
Thirty-two informative character states were used in this study. Three principles, namely,
outgroup comparison, fossil evidence and generally accepted viewpoints of morphological
evolution, were used for polarization of the characters. An incompatible number concept was
first introduced to evaluate the reliable degree of polarization of the characters and, by this
method, the polarization of the three character states was corrected.
A data matrix was constructed by the 19 ingroup families and 32 character states. The
data matrix was analysed with the Minimal Parallel Evolutionary Method, Maximal Same
Step Method (Xu 1989), and Synthetic Method. Three cladograms were constructed and a
parsimonious cladogram (Length= 131)was used as the base for discussing the systematic re-
lationships of families in the Hamamelidae.
According to the cladogram, the earlist group differented in the subclass Hamamelidae
consists of two vesselless wood families, the Trochodendraceae and Tetracentraceae. This re-
sult supports the concept proposed by Takhtajan (1987)and Cronquist (1981, 1988)that the
Trochodendrales is probably a primitive taxon in the Hamamelidae.
As in a clade group, the Cercidiphyllaceae, Eucommiaceae, Balanopaceae and
Didymelaceae originated apparently later than the Trochodendrales. The Cercidiphyllaceae
diverged earlier in this group, which implies that this family and the Trochodendrales form a
primitive group in the subclass. The Cercidiphyllaceae is either placed in Hamamelidales
(Cronquist 1981, Thorne 1983), or treated as an independent order (Takhtajan 1987).This
analysis suggests that the Cercidiphyllaceae is a relatively isolated taxon, far from the
Hamamelidaceae but close to the Trochodendrales in relation. The Eucommiaceae and
Didymelaceae are both isolated families and considered as two distinct orders (Takhtajan
1987, Cronquist 1981, 1988).The Balanopaceae is included in the Fagales (Cronquist 1981,
1988) or Pittosporales (Thorne 1983), or treated as a distinct order Balanopales (Takhtajan
1987 ).Obviously the Balanopaceae and Eucommiaceae are not closely related because of the
sole synapomorphy (placentation).In fact these four families are more or less isolated taxa
and it is probably more reasonable to treat them as independent orders.
Cronquist ( 1981, 1988) places the Eupteleaceae, Platanaceae and Myrothamnaceae in
the Hamamelidales, while Takhtajan (1987)puts Hamamelidaceae and Platanaceae into the
Hamamelidales and treats the Eupteleaceae and Myrothamnaceae as two independent
monofamilial orders. These three families are grouped by more synapomorphies (palmate-
veined, serrate or lobate leaves, deciduous and anemophilous plants)which may indicate their
close phylogenetical affinity.
A core group of the Hamamelidae includes ten families, among which the Hama-
melidaceae originated earlier than the others, so that it is a relatively primitive family.
The Betulaceae, Fagaceae and Myricaceae differentiated later than the Hamamelidaceae.
The former two are very closely related, and thus thought to be two neighbouring orders by
Takhtajan (1987)or included in the Fagales by Cronquist (1981, 1988)and Thorne (1983).
The Myricaceae and Fagaceae are connected in the cladogram by only a single
synapomorphy (endosperm absent), and therefore the close relationship does not exist be-
tween them.
The Buxaceae, Simmondsiaceae and Daphniphyllaceae form an advanced group, in
which they are weakly linked with each other by only one synapomorphy (pollen
grains<25μm). The Daphniphyllaceae is closely related to the Simmondsiaceae, but the
Buxaceae is rather isolated.
The Rhoipteleaceae and Juglandaceae share a number of synapomorphies (axile
placentation, endosperm absent, embryo larger, fruit indehiscent) , forming a highly
specialized group. The opinion that the Juglandales is composed of the Juglandaceae and
Rhoipteleaceae(Cronquist 1981; 1988, Lu et Zhang 1990)is confirmed by this analysis. A
contrary point of view, which treated them as two distinct orders by Takhtajan (1987), appar-
ently could not be accepted.
The Casuarinaceae was regarded as the primitive angiosperm (Engler 1893), but in fact
it is a highly reduced and specialized group. It is united with Rhoipteleaceae and Juglandaceae
by four synapomorphies, i. e. placentation type, endosperm absent, embryo large and fruit
indehiscent. However, the family presents six autapomorphies, and thus the position of the
Casuarinaceae as an advanced family is confirmed by this analysis.
Finally a strict consensus tree, which represents the phylogenetic relationships of thefamilies in the Hamamelidae, was given as a result of the analysis. |
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| Keywords: | Hamamelidae Phylogeny Cladistic analysis |
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