| 浅评当今植物系统学中争论的三个问题——并系类群、谱系法规和系统发育种概念 |
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| 引用本文: | 汤彦承,路安民.浅评当今植物系统学中争论的三个问题——并系类群、谱系法规和系统发育种概念[J].中国科学院研究生院学报,2005,1(5):403-419. |
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| 作者姓名: | 汤彦承 路安民 |
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| 作者单位: | (中国科学院植物研究所系统和进化植物学重点实验室 北京 100093) |
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| 摘 要: | 一般来讲,进化学派承认分支学派对系统学的研究作出了有意义的贡献,如应用分支分析方法重建系统发育,应用共有衍征确定分类群之间的分支关系以及应用外类群方法来判断性状的极性等,都对系统学的方法有所改进。但分支学派的致命缺点是拒绝接受并系类群。我们属于进化学派,认为并系类群是可以接受的。例如,根据分子资料分析,Zabelia属可以包括于Abelia属内。Zabelia属不但在花粉上和Abelia属不同,可能由于它占有了新的生态位,获得了新的特征,如叶柄基部膨大两两联合,并宿存以保护腋芽。有理由认为它们应独立成属,并不由于Zabelia属从Abelia属分出而使后者成为一个并系类群而把它们合并。分支学派的一些学者认为生物名称作为交流的工具和生物信息储存系统应有明晰的、唯一的和稳定的特性。但具等级的林奈命名系统并不具有这些特性来命名分支和种。最后,PhyloCode被提出。PhyloCode对分支的命名方法有3种,即分支结点定义、分支基干定义和衍征定义。我们认为林奈命名系统作为传媒系统在生物学界的应用已近250年,若要废弃它而采用PhyloCode,必然会在命名方面引起一片混乱。但我们并不是说PhyloCode的拥护者所提出的建议一无是处,我们建议他们宜继续进行研究。由于应用生物学种概念于植物界产生了许多问题,因此多为植物系统学家所抛弃。分支学派的兴起,推动了系统发育种概念的提出。该概念基于3个特征,即自征、区别特征和基本排它,因此分别命名为自征种概念、特征种概念和谱系种概念。事实上,目前大多数植物系统学家仍然应用着形态–地理学种概念,但我们在划分种时,必须有尽可能多的资料,特别是要将传粉、繁育系统、分子系统学资料和形态学资料结合起来。
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| 关 键 词: | 并系类群 谱系法规 系统发育种概念 |
Paraphyletic group, PhyloCode and phylogenetic species—the current debate and a preliminary commentary |
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| TANG Yan-Cheng,LU An-Ming.Paraphyletic group, PhyloCode and phylogenetic species—the current debate and a preliminary commentary[J].Journal of the Graduate School of the Chinese Academy of Sciences,2005,1(5):403-419. |
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| Authors: | TANG Yan-Cheng LU An-Ming |
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| Institution: | (Laboratory of Systematic and Evolutionary Botany, Institute of Botany, the Chinese Academy of Sciences, Beijing 100093, China) |
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| Abstract: | In this essay, three currently hotly debated issues in biological systematics, i.e., the paraphyletic group, the PhyloCode, and the phylogenetic species concept, have been briefly reviewed. (1) It is widely acknowledged that cladistics has made some positive contributions to the study of systematics. In particular, the employment of outgroup analysis for assessing character polarities, the application of synapomorphies to the inference of relationships between taxa, and the use of cladistic methods for reconstructing phylogeny, have all greatly facilitated the improvement of systematic approaches. A fatal flaw in cladistics is its refusal to accept paraphyletic groups. Frankly, we are adherents and practitioners of phyletics, and hence consider paraphyletic groups to be acceptable. For example, an AFLP analysis has shown that Zabelia (Caprifoliaceae) can be included in Abelia, but the members in Zabelia differ from those in Abelia not only in pollen morphology, but also in having persistent petioles dilated and connate at base, thus enclosing axillary buds, characters of adaptive significance obtained possibly when Zabelia members entered a new ecological niche, so we consider that they are better treated as two independent genera, though indeed such a treatment makes Abelia paraphyletic. (2) Some cladists pointed out that as the tool for communication and the system for information storage and retrieval, biological nomenclature is required to be unambiguous, unique and stable. They criticise the Linnaean rank-based system of nomenclature for failing to satisfy such requirements for the naming of clades and species. To address this problem, the PhyloCode is proposed in recent years, in which three definitions for clade naming are given, i.e., the node-based, the stem-based, and the apomorphy-based. We are of the opinion that since the Linnaean binominal system of botanical nomenclature has existed for nearly 250 years, the rejection of this system and the adoption of the PhyloCode would create a state of chaos in botanical nomenclature. This does not mean that there exist no merits in the proposals made by the PhyloCode supporters. We suggest that further studies should be conducted for its practical application. (3) It has been well known that there are many problems with the application of the biological species concept in plants, and thus at the present time the majority of plant systematists actually seldom use this concept in their practical work. The rapid development of cladistic approach has motivated the proposal of the phylogenetic species concept. This species concept is established based on three criteria, i.e., the autamorphy, the diagnosability and the basal exclusivity, hence the autamorphy species concept, the diagnosability species concept, and the genealogical concept are created respectively. Nevertheless, the morpho-geographical species concept is still predominantly adopted in plant systematics. When using this species concept, however, we should also take into account the data from other sources, particularly those from pollination biology, breeding system and molecular systematics. |
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| Keywords: | paraphyletic group PhyloCode phylogenetic species concept |
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