No more Dendroica?
If you’re connected to the birding grapevine, you’ve probably already heard that the AOU has rearranged the species of Wood-Warblers (Family Parulidae) and that the genera Parula, Wilsonia, and Dendroica are gone, merged into other genera. ((These changes won’t become official until published in the next month or so, but it’s unlikely that the committee will change their mind about it now, and in any case the committee’s decisions on naming don’t change the facts of the research.)) A Q&A with Irby Lovette, author of the studies leading to these changes is at Birding. To see the official proposal presented to the AOU checklist committee click here for a pdf.
Several popular summaries of the changes have been published (for example here). I’m going to view the changes from a different angle, since I think it’s too superficial to focus on the name changes. Dwelling on the changes in genus names is sort of like saying “The Brooklyn Dodgers are changing their name!” when the real news is that they are changing cities! So I’ve created some graphics to help clarify the real news in the AOU changes.
Let’s look first at the chart (at right) to see how the species have been regrouped over the last two years. I’ve left the sequence of species the same as much as possible, to emphasize the regrouping, but… we can expect some big changes in sequence. Only a few species actually move to different genera, but the result is a lot of name changes.
The species formerly called Dendroica are still all together as a group, with a few other species added to the genus. It so happens that one of those new species (American Redstart) was named before the genus Dendroica was named, so it takes priority and the whole genus is now known as Setophaga.
Taxonomically, the big news is that American Redstart, the two Parulas, ((Parula, pronounced PAIR-uh-la, PAHR-yoo-la, pa-ROO-la, PAIR-you-la, PAH-ruh-luh… etc. Northern and Tropical Parula are now moved into Setophaga, but it’s fine for them to retain the common name Parula since they are such a distinctive species pair and the genus Parula has been eliminated. Also, the rules of nomenclature do not require the family name to change even though the genus has been retired, so the family will remain Parulidae.)) and Hooded Warbler are added to the genus formerly known as Dendroica. Other changes are – the genera Vermivora and Seiurus are each split into two genera (this happened in 2010), most of the Oporornis are moved into Geothlypis, the two remaining Wilsonia (after the removal of Hooded) are merged into Cardellina with Red-faced Warbler, and Euthlypis is merged into Basileuterus.
DNA and the family tree
Most or all of these changes reflect a new understanding of relationships based on DNA. Modern techniques can give a detailed picture of “genetic distance” between species, which suggests how long they have been on independent evolutionary paths (or how far back you have to go to find a common ancestor). This can then be used to produce a “family tree” showing which species diverged from each other recently, and which ones branched off from their relatives long ago. Many factors can confuse the picture, and different statistical analyses often produce slightly different “family trees”.
Following the branches on the tree to their root and back to the tips shows how distantly-related species are. Notice, for example, that Hooded Warbler and American Redstart are both on long branches coming from the base of the Dendroica group, and that Black-throated Blue Warbler stands alone among the other former Dendroica. When this tree is converted into a linear list sequence, it will put Hooded Warbler first in the genus Setophaga, followed by American Redstart, but it’s important to understand that this does not mean those species are closely-related. ((When converting the tree to a linear list sequence the convention is to list the earliest offshoots first, and when choosing between two groups to list the smaller group first. Species like Ovenbird are a basal branch from the family tree, and could come at the beginning or end of the list, but since only one species is in the group it is listed first.)) Both are early offshoots from the branch leading to the Dendroica/Setophaga group, not very closely-related to those species or to each other.
The naming of genera
DNA evidence and the resulting “tree” gives us a fairly objective picture of the relationships within the family, but it’s a complex picture of repeated branching. Converting that information into a few simple categories like families and genera is subjective. Even with all of this data, the decision about where to draw the line when lumping and splitting genera is still arbitrary.
A committee member who voted “No” on the current changes wrote: ” ‘What is a genus?’ is a really tough question, but in my mind it is not defined solely by a well supported molecular clade. If we go the route of just choosing molecular clades that we like as genera, we’re doomed to a lot of future nomenclatural instability.”
When the tree shows species like the two Parulas nested within the genus Dendroica, it’s clear enough that they can’t be retained as a separate genus. It’s far less clear when a species or a group of species splits off near the base of a group. In those cases, whether or not to name a separate genus comes down to the committee’s judgment.
The committee decided go against the proposal in one case – to retain Connecticut Warbler by itself in the genus Oporornis while moving all the other former Oporornis into the genus Geothlypis. This makes sense since Connecticut Warbler is an early offshoot of that group and fairly distinctive. The same reasoning could have been applied to some of the early offshoots of the Setophaga group, especially four West Indian species (in two groups, not shown in the tree above) and possibly even to Hooded Warbler and American Redstart.
There are good arguments for having fewer genera (to emphasize groups of species that form clades with a single common ancestor) and conversely I think there are equally good arguments for having more genera (to emphasize distinctive species that are early offshoots of a group). In this round the committee has voted for fewer genera, but this is a debate that, just like the debates over lumping and splitting of species, will probably never end.
What good is it?
Why bother with all of these confusing changes? Personally, I like the reshuffling. It forces me to look at the species in a different way and to find new shared features that group them together. Dendroica has always been a large and diverse genus, now (as Setophaga) it is a little larger and more diverse. The revelations are in the details, so it is worthwhile to study the tree for subgroups within the genus Setophaga.
Interestingly, one single feature that seems to explain most of the groupings is body proportions (at least to my subjective impressions). The parulas are closely-related to Cerulean and Cape May warblers, and all share a relatively dainty and short-tailed appearance (ignoring the early offshoot of this group – Kirtland’s Warbler). The group of Blackpoll, Chestnut-sided, Yellow, Blackburnian, and Bay-breasted are all relatively large warblers, sturdy with long wings and medium-long tails (ignoring the early offshoot of this group – Magnolia Warbler). One of the most surprising results of the DNA studies is that Grace’s and Black-throated Gray Warblers are very closely-related, yet one of their shared features is similar body and tail proportions.
Historically, taxonomists and birders have relied on superficial things like color patterns, bill shapes, songs, etc. to group the species, but these features evolve rapidly, and DNA studies show that they are not always meaningful. We can still group the species that way for field identification purposes, but knowing the true relationships as revealed by DNA will lead to a deeper understanding of the fundamental differences and similarities between species.