The Suitability of Molecular and Morphological Evidence in Reconstructing Plant Phylogeny

Donoghue, Michael J.; Sanderson, Michael J.

doi:10.1007/978-1-4615-3276-7_15

Cited by 176 publications

(124 citation statements)

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“…Although the extent of congruence between morphological and molecular phylogenetic analyses has not been quantified, some researchers anticipated a high level of congruence between molecules and morphology (e.g., Hillis, 1987;Sanderson and Donoghue, 1989;Sytsma, 1990;Donoghue and Sanderson, 1992;Hillis and Wiens, 2000), whereas others were less optimistic or sceptical (e.g., Patterson et al, 1993;Lamboy, 1994;Hedges and Maxon,1996;Sytsma, 1997a, 1997b;Baker et al, 1998). We suspect that the optimism of congruence between morphology and molecules in plants is well placed simply because many taxa long recognized on the basis of morphology have been supported using molecular data and that this is widely appreciated (Hillis, 1987;Sanderson and Donoghue 1989;Sytsma, 1990;Donoghue and Sanderson, 1992;Patterson et al, 1993;Hillis and Wiens, 2000).…”

Section: The Role Of Morphology In Systematicsmentioning

confidence: 99%

“…We suspect that the optimism of congruence between morphology and molecules in plants is well placed simply because many taxa long recognized on the basis of morphology have been supported using molecular data and that this is widely appreciated (Hillis, 1987;Sanderson and Donoghue 1989;Sytsma, 1990;Donoghue and Sanderson, 1992;Patterson et al, 1993;Hillis and Wiens, 2000). Less clear is the extent to which phylogenetic analyses of morphological data have increased our understanding of phylogeny.…”

Section: The Role Of Morphology In Systematicsmentioning

confidence: 99%

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Phylogeny Reconstruction: The Role of Morphology

Scotland¹,

Olmstead²,

Bennett³

2003

Systematic Biology

269

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In this article we explore the paradox of why morphological data are currently utilized less for phylogeny reconstruction than are DNA sequence data, whereas most of what we know about phylogeny stems from classifications founded on morphological data. The crucial difference between the two data sources relates to the number of potentially unambiguous characters available, their ease and speed of discovery, and their suitability for analysis using transformational models. We consider that the increased use of DNA sequence data, relative to morphology, for phylogeny reconstruction is inevitable and well founded, but that a crucial issue remains concerning the role of morphology in phylogeny reconstruction. We present the view that rigorous and critical anatomical studies of fewer morphological characters, in the context of molecular phylogenies, is a more fruitful approach to integrating the strengths of morphological data with those of sequence data. This approach is preferable to compiling larger data matrices of increasingly ambiguous and problematic morphological characters.We argue below that a main constraint of morphologybased phylogenetic inference concerns the limited number of unambiguous characters available for analysis in a transformational framework. This problem of a limited number of unambiguous characters is further compounded by obstacles to accurate homology assessment and character coding, which further reduce the number of characters available for analysis. We discuss and disagree with the view that more morphological data should be used in phylogeny reconstruction. Furthermore, we consider the claim that the greatest strength of morphological data-increased taxon sampling-to be mistaken. In the discussion that follows we use "phylogeny reconstruction" to refer to the computer-based algorithmic analyses routinely conducted in systematics today. NUMBERS OF CHARACTERS Accuracy and SupportHillis (1987) cited the increased number of characters as the greatest advantage of molecular data. Increased numbers of characters have been shown to be crucial in relation to issues of accuracy (Hillis, 1987(Hillis, , 1996(Hillis, , 1998Huelsenbeck and Hillis, 1993;Hillis et al., 1994aHillis et al., , 1994bLamboy, 1994;Cummings et al., 1995;Givnish and Sytsma, 1997b;Rosenberg and Kumar, 2001) and support (Felsenstein, 1985;Sanderson, 1995;Bremer et al., 1999) (Figs. 1a, 1b). Although the number of characters needed for accurate phylogeny reconstruction is difficult to estimate, the number of characters needed in simulation studies to recover accurate trees is an order of magnitude greater than that available from morphology

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Section: The Role Of Morphology In Systematicsmentioning

confidence: 99%

Section: The Role Of Morphology In Systematicsmentioning

confidence: 99%

Phylogeny Reconstruction: The Role of Morphology

Scotland¹,

Olmstead²,

Bennett³

2003

Systematic Biology

269

View full text Add to dashboard Cite

show abstract

“…Regarding the choice of marker used (morphological and/or molecular), there are ongoing disputes (Hills, 1987;Moritz et al, 1990;Donoghue et al, 1992;CIAT Report Information, 1990b). …”

Section: Levels Of Characterization Of Genetic Diversity In P Vulgarmentioning

confidence: 99%

Genetic Diversity of Bulgarian Phaseolus vulgaris L. Germplasm Collection Through Phaseolin and Isozyme Markers

Tomlekova¹

2012

The Molecular Basis of Plant Genetic Diversity

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“…Of course, if morphological characters are used for phylogenetic studies, this also means the necessity of repeated reciprocal illumination (see also Kelly and Stevenson, 2005 ). 'Tree-thinking' has been encouraged in evolutionary studies (O'Hara, 1988 ;Donoghue and Sanderson, 1992 ). Th is is of course also relevant for the focus on structural features, including the construction of morphological matrices for phylogenetic studies.…”

Section: Flowers In Phylogenetic and Evolutionary Studiesmentioning

confidence: 99%

Changing views of flower evolution and new questions

Endress¹

2011

Flowers on the Tree of Life

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The Suitability of Molecular and Morphological Evidence in Reconstructing Plant Phylogeny

Cited by 176 publications

References 100 publications

Phylogeny Reconstruction: The Role of Morphology

Phylogeny Reconstruction: The Role of Morphology

Genetic Diversity of Bulgarian Phaseolus vulgaris L. Germplasm Collection Through Phaseolin and Isozyme Markers

Changing views of flower evolution and new questions

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