Wood anatomy of Rauvolfioideae (Apocynaceae): a search for meaningful non-DNA characters at the tribal level.

Wood anatomical studies in the economically important Apocynaceae or dogbane family are fragmentary. This study represents a first attempt to unravel the phylogenetic significance and major evolutionary trends in the wood of the family, using existing and new microscopic wood observations within the large subfamily Rauvolfioideae. On the basis of LM and SEM observations of 91 species representing all 10 currently recognized tribes, we found that most of the tribes are characterized by a unique combination of wood characters, such as vessel grouping, vessel element length, fiber type, frequency of uniseriate rays, and fused multiseriate rays. Climbing rauvolfioid taxa can generally be distinguished from erect species by their wider vessels, tendency to form paratracheal axial parenchyma, presence of tracheids, and occurrence of laticifers in rays. With respect to the entire family, there is a general phylogenetic trend toward shorter vessel elements, a higher proportion of vessels in multiples and more vessels per multiple, higher tracheid abundance, more paratracheal parenchyma, and fewer cells per axial parenchyma strand in the more derived Apocynaceae. Most of these evolutionary trends are likely to be triggered by drier environmental conditions and/or shifts from an erect to a climbing habit.

[1]  Brendan Choat,et al.  Structure and function of bordered pits: new discoveries and impacts on whole-plant hydraulic function. , 2008, The New phytologist.

[2]  P. Bruyns,et al.  A revised classification of the Apocynaceae s.l. , 2008, The Botanical Review.

[3]  U. Meve,et al.  ADVANCES IN APOCYNACEAE: THE ENLIGHTENMENT, AN INTRODUCTION1 , 2007 .

[4]  D. Middleton,et al.  PHYLOGENY OF APOCYNOIDEAE AND THE APSA CLADE (APOCYNACEAE S.L.)1 , 2007 .

[5]  S. Jansen,et al.  The role of wood anatomy in phylogeny reconstruction of Ericales , 2007, Cladistics : the international journal of the Willi Hennig Society.

[6]  M. Chase,et al.  A PHYLOGENETIC ANALYSIS OF ALYXIEAE (APOCYNACEAE) BASED ON RBCL, MATK, TRNL INTRON, TRNL-F SPACER SEQUENCES, AND MORPHOLOGICAL CHARACTERS1 , 2007 .

[7]  J. F. Morales Estudios en las Apocynaceae neotropicales XIX: la familia Apocynaceae (Apocynoideae, Rauvolfioideae) en Costa Rica , 2005 .

[8]  S. Jansen,et al.  Relationships within balsaminoid Ericales: a wood anatomical approach. , 2005, American journal of botany.

[9]  M. Rodda,et al.  Apocynaceae , 2019, Flora of Singapore Vol. 13 Gentianales.

[10]  B. Bremer,et al.  The familial and subfamilial relationships ofApocynaceae andAsclepiadaceae evaluated withrbcL data , 1996, Plant Systematics and Evolution.

[11]  M. Endress,et al.  The tribal position of Fockea and Cibirhiza (Apocynaceae: Asclepiadoideae): evidence from pollinium structure and cpDNA sequence data , 2003 .

[12]  M. Källersjö,et al.  Phylogenetics of asterids based on 3 coding and 3 non-coding chloroplast DNA markers and the utility of non-coding DNA at higher taxonomic levels. , 2002, Molecular phylogenetics and evolution.

[13]  B. Bremer,et al.  Classification of apocynaceae s.l. according to a new approach combining Linnaean and phylogenetic taxonomy. , 2002, Systematic biology.

[14]  H. Venter,et al.  Diversity and relationships within the Periplocoideae (Apocynaceae) , 2001 .

[15]  Victor A. Albert,et al.  Phylogenetic relationships within Apocynaceae s.l. based on trnl intron and trnL-F spacer sequences and propagule characters , 2001 .

[16]  S. Nilsson,et al.  Pollen morphology and phylogeny of the Alyxieae (Apocynaceae) , 2001 .

[17]  B. Bremer,et al.  Phylogenetic relationships within the Gentianales based on NDHF and RBCL sequences, with particular reference to the Loganiaceae. , 2000, American journal of botany.

[18]  W. Dickison,et al.  Integrative Plant Anatomy , 2000 .

[19]  K. Sidiyasa Taxonomy, Phylogeny, and Wood anatomy of Alstonia (Apocynaceae) , 1998 .

[20]  S. Danimihardja,et al.  Timber trees : lesser-known timbers , 1998 .

[21]  K. Swarupanandan,et al.  The subfamilial and tribal classification of the family Asclepiadaceae , 1996 .

[22]  M. Chase,et al.  A phylogenetic analysis of Apocynaceae s.str. and some related taxa in Gentianales. A multidisciplinary approach , 1996 .

[23]  P. Baas,et al.  Parallelism and Reversibility in Xylem Evolution a Review , 1996 .

[24]  B. Bremer,et al.  CLADISTICS AND FAMILY LEVEL CLASSIFICATION OF THE GENTIANALES , 1994 .

[25]  E. Boer Timber trees: major commercial timbers. , 1994 .

[26]  F. Schweingruber,et al.  Ecological Trends in the Wood Anatomy of Trees, Shrubs and Climbers from Europe , 1987 .

[27]  D. Hoekman,et al.  Ecological Wood Anatomy of the Woody Southern Californian Flora , 1985 .

[28]  A. Fahn,et al.  Some Ecological Trends in Vessel Characters , 1983 .

[29]  A. C. Plaizier A revision of Adenium Roem. & Schult. and of Diplorhynchus Welw. ex Foc. & Hiern (Apocynaceae) , 1980 .

[30]  S. Carlquist Comparative Wood Anatomy: Systematic, Ecological, and Evolutionary Aspects of Dicotyledon Wood , 1990 .

[31]  H. Dadswell,et al.  The anatomy of the timbers of the south-west Pacific area. II. Apocynaceae and Annonaceae , 1953 .

[32]  F. Markgraf The Systematic Position of the Genus Pycnobotrya , 1947 .

[33]  M. Chattaway,et al.  Fifteen South African High Forest Timber Trees , 1935 .

[34]  I. Bailey,et al.  Size Variation in Tracheary Cells: I. A Comparison between the Secondary Xylems of Vascular Cryptogams, Gymnosperms and Angiosperms , 1918 .