Change the linear sequence of the furnarioid families
Proposal
(481) to South American Classification Committee
[Note from Remsen: this proposal passed the
North American Classification Committee (11 to 0) and is posted here with the
permission of the author, with a couple of minor modifications by Remsen to
tailor it for SACC area]:
The current sequence of furnarioid families in the SACC
classification is:
Furnariidae
Sclerurinae
Furnariinae
Dendrocolaptinae
Thamnophilidae
Formicariidae
Grallariidae
Conopophagidae
Rhinocryptidae
Melanopareiidae
This sequence, although modified to reflect the recent
division of the antbirds into three families (Thamnophilidae, Formicariidae,
and Grallariidae), is in other respects a holdover from the pre-genetic era of
systematics. Sibley and Ahlquist
(1990), for example, found that the typical antbirds were not closely related
to the ground antbirds, but instead were sister to the rest of the furnarioid
families. Although separation of
the thamnophilids is now reflected in the AOU classification, the position of
the Thamnophilidae as sister to the other furnarioids is not. In part this is because relationships
among the furnarioid groups have been difficult to resolve. For example, a study of suboscine
relationships based on DNA sequence data (Chesser 2004) found that the
Thamnophilidae and Conopophagidae were sisters and that this clade, rather than
the Thamnophilidae alone, was sister to the rest of the furnarioids. In fact, none of the relationships
within furnarioids found by Sibley and Ahlquist (1990) were recovered in this
sequencing study. Nevertheless,
particular findings, such as the distinctiveness of the Thamnophilidae relative
to the Furnariidae, Formicariidae, Grallariidae, and Rhinocryptidae, have been
common to these and most other recent studies of furnarioid relationships
(e.g., Irestedt et al. 2002).
The most comprehensive genetic study of furnarioids to date
(Moyle et al. 2009) indicated that the following sequence best reflects their
evolutionary relationships:
Thamnophilidae
Melanopareiidae
Conopophagidae
Grallariidae
Rhinocryptidae
Formicariidae
Scleruridae
Dendrocolaptidae
Furnariidae
Support for the clade containing the final six families is
very high (1.00 posterior prob., 95% ML bootstrap, 93% MP bootstrap). There is relatively weak support within
this clade for a sister relationship between the Grallariidae and Rhinocryptidae
(0.93/75/68), but somewhat stronger support for the sister relationship between
the Formicariidae and Scleruridae/ Dendrocolaptidae/ Furnariidae
(1.00/84/77). The relationships
among the Thamnophilidae, the Conopophagidae, and the extralimital Melanopareiidae
are largely unresolved, but these families are clearly positioned outside of
the six-family clade mentioned above.
The best ML tree indicates that the Thamnophilidae is sister to the
remaining furnarioids (as in Sibley and Ahlquist 1990) and that the
Melanopareiidae and Conopophagidae are successive sisters to the clade
consisting of the final six families listed above (Grallariidae through
Furnariidae).
I recommend that we adopt the sequence of Moyle et al (2009)
while maintaining our current family and subfamily rankings. Support for the phylogenetic tree that
underpins this linear sequence is not uniformly strong, but the sequence of
families should be relatively robust and is the best information currently
available and likely to be available in the near future. Adoption of this proposal would result
in the following linear sequence:
Thamnophilidae
Melanopareiidae
Conopophagidae
Grallariidae
Rhinocryptidae
Formicariidae
Furnariidae
Sclerurinae
Dendrocolaptinae
Furnariinae
If there is support in the committee for elevating the furnariid
sub-families to family rank (as in Moyle et al. 2009), this could also be
entertained.
References
Chesser,
R. T. 2004. Molecular systematics of New World suboscine birds. Molecular Phylogenetics and Evolution
32: 11-24.
Irestedt,
M., J. Fjeldså, U. S. Johansson, and P. G. P. Ericson. 2002. Systematic relations and biogeography of the tracheophone
suboscines (Aves: Passeriformes). Molecular
Phylogenetics and Evolution 23: 499-512.
Moyle, R.
G., R. T. Chesser, R. T. Brumfield, J. G. Tello, D. J. Marchese, and J.
Cracraft. 2009. Phylogeny and phylogenetic classification of the antbirds,
ovenbirds, woodcreepers, and allies (Aves: Passeriformes: Furnariides). Cladistics 25: 386-405.
Sibley, C.
G., and J. E. Ahlquist. 1990. Phylogeny and Classification of Birds. Yale Univ.
Press, New Haven, CT.
Terry
Chesser
12 May 2011
Comments from Stiles: “YES, seems to be the most reasonable approach; perhaps from conservatism, I prefer to recognize three subfamilies of Furnariidae rather than splitting them into three families.”
Comments from Robbins: “YES. I have no strong feelings one way or the other regarding subfamily vs. family for the sclerurids, dendrocolaptids, and furnariids.”
Comments from Nores: “YES. This seems to be a reasonable
approach, and I agree with Moyle et al. to recognize three families: Furnariidae, Scleruridae, and
Dendrocolaptidae instead of subfamilies, especially because I see
Dendrocolaptidae as quite different from Furnariidae.”
Comments from Cadena: “YES. I agree with the proposed linear sequence and for the sake of stability I would prefer to retain subfamily rank for the three clades of Furnariidae. As with proposal 480, I find it curious that NACC has decided on this issue before SACC considering that the vast majority of the taxa involved are South American.”
Comments from Pacheco:
“YES. Pessoalmente, considero
um pouco mais informativo tratar os vários grupos
de Furnariídos no ranking de família.”
Comments from Zimmer:
“YES. The proposed sequence is one that makes sense based
on recent analyses, while retaining the subfamily status of the various furnariid
groups, which I would also favor.”
Comments from Pérez-Emán: “YES.
Current evidence supports the proposed linear sequence. I would rather keep
current subfamily ranks instead of three separate families within Furnariidae
as such decision deserves a comparative analyses of different types of
evidence, not only within Furnariidae but also among Furnariides.”
Comments from Remsen: “YES,
with the exception that there is no reason to flip-flop current sequence by
placing Dendrocolaptinae in front of Furnariinae -- they are sister taxa.”