Monday, August 30, 2010

Shorebird Banding

To avoid picture overload in the cannon netting post, I’ve decided to put a bunch of pictures of banding godwits and Whimbrels in a separate post. Enjoy!

A series of godwit flags prior to putting them out on birds. We used up all of these flags in a single catch, and then some. Prior to each catch, we always made sure we had at least 200 flags ready, just in case it was a big catch.

The first thing that we do after we've caught a bird is put the standard aluminum band on their right leg.

The next step is to attach the color band and the alpha flag. The flag goes on the left leg of the bird. In these photos, a godwit (top) and a Whimbrel (bottom) get their respective flags. The flags are glued shut to make sure they don't fall off the birds.

The next thing we check for on birds is we measure their wing length, and also age birds based on their plumage and molt. In these pictures, we are checking the wing molt of an adult godwit (top) and a juvenile Whimbrel (bottom).

Bill length and total head length are also measured with calipers, in addition to the length of their tarsus (leg). These measurements can help to sex birds (females have longer bills than males). The final measurement that we take from birds is their mass. Mass can also help us to sex the birds, as females are again heavier than males.

While we mostly caught our target species while netting, we caught a few gulls with one capture. In one particular netting, we caught a Franklin's Gull (above) and a Brown-hooded Gull (bottom). The Brown-hooded Gull is a first year bird, and does not have a complete brown hood.

Monday, August 23, 2010

New Wood-Warbler Taxonomy

ResearchBlogging.orgThe July issue of The Auk contained the AOU North American Checklist Committee's 51st supplement to the AOU checklist (pdf), a variety of splits and changes to taxonomy at the genus level and higher. Sibley handily summarizes the name changes to North American species, and Michael Retter reviews the whole supplement, and I'm sure it has been plastered elsewhere on the blogosphere by now so I am not going into a full review here (plus, I blogged about one of the splits two years ago - everyone else is late to the party). Instead, I'm breaking my long self-imposed blog exile to talk about warblers. Actually, mostly about warbler names.

The 51st supplement makes two changes to genera in New World wood-warblers (Parulidae): the waterthrushes are split from the Ovenbird (Seiurus) and placed in a new genus, Parkesia, and most of the genus Vermivora is split and removed into a new genus, Oreothlypis . These changes are based on results that have been in the phylogenetic literature for some years now, but have not resulted in comprehensive taxonomic updates. While Klein et al. (2004) presented a phylogeny for the family and documented many problems with generic limits, they did not present many taxonomic solutions and their sampling of the diversity of Central and South American Parulids was very slim. In general, while there have been several papers addressing phylogeny in the overall family (Klein et al 2004, Lovette and Hochachka 2006) and in certain groups (Dendroica: Lovette and Bermingham 1999; Myioborus - Perez-Eman 2005; Geothylpis and Oporornis - Escalante et al. 2009), a comprehesive phylogeny of the group with solid sampling of species (there are over 110 in the whole family) and a complete update of Parulid taxonomy has been lacking ... (drumroll)... until now.

Lovette et al. (2010) present a comprehensive picture of the evolution of the wood-warblers, sampling all but three species and addressing the phylogenetic analyses with a good array of loci and methods. Their main result is a phylogenetic hypothesis for comparative studies and a proposal for complete revision to generic boundaries. I just want to step through the warbler tree and possible taxonomic disagreements as a guide for when taxonomic authorities eventually get to addressing them.

Phylogeny of the Parulidae (Fig. 5 from Lovette et al. 2010) with proposed taxonomic changes. You'll definitely want to click to enlarge and read

Parulidae is a large family with ~110 species concentrated in several large genera, but the early branches of the tree are composed of 7 different species-poor lineages. The first branch in the tree is in all analyses the Ovenbird (Seiurus aurocapillus) - the dull, chunky warbler of forest floors in the Eastern US. Other lineages represent monotypic genera, the odds and sods of the Parulidae that have been recognized as distinct - the Worm-eating Warbler (Helmitheros vermivorus), Black-and-White Warbler (Mniotilta varia), Prothonotary Warbler (Protonotaria citrea), and Swainson's Warbler (Limnothlypis swainsonii). The final two lineages in this group represent some of the generic reassignments already made by the AOU. The Northern (noveboracensis) and Louisiana (motacilla) are moved from the genus Seiurus, which they shared with the Ovenbird (a relationship that never made sense to me, given how different they are in plumage and habits), to their own genus, Parkesia (created for them by Sangster 2008). Three species of Vermivora - Bachman's (bachmanii), Blue-winged (pinus, now cyanoptera), and Golden-winged (chrysoptera), are found to not be closely related to the remaining members of the genus. These lineages are all found in Eastern North America, but represent a variety of plumage and ecological specializations. The exact relationships among them change depending on analyses (except the placement of Ovenbird at the base of the tree), but it is clear that they are all old and distinct, and I don't foresee anyone attempting to lump some of these monotypic genera.

Worm-eating Warbler (Helmitheros vermivorous) from Wikipedia

The remaining members of what was Vermivora - Tennessee (peregrina), Orange-crowned (celata), Colima (crissalis), Lucy's (luciae), Virginia's (virginiae), and Nashville (ruficapilla) - get their own branch of the warbler tree. These ex-Vermivora are a pretty cohesive and closely related group - they are all North American, either greenish (northern and eastern species) or grayish (southwestern species), most with an orange or rufous crown patch and yellowish vent. However, they share their branch with two oddballs - Crescent-chested Warbler (superciliosa) and Flame-throated Warbler (gutturalis), formerly in the genus Parula. Both of those are Central American species with plumage very similar to that of Northern and Tropical Parulas, Crescent-chested especially - check this photo out - but Flame-throated is a bit more distinctive and I'm not surprised it is not related to other Parulas.

The ex-Parula group is pretty closely related, the ex-Vermivora group is pretty closely related and the two groups are each others closest relatives on the big warbler tree, but already opinions differ on how to assign new genus names. Sangster (2008b) saw this result in earlier phylogenetic literature and took the step of naming each group separately - Crestent-chested and Flame-throated Warblers get the resurrected genus name Oreothlypis, and the ex-Vermivora get a newly created genus name Leiothlypis. Lovette et al. (2010) decided to give a genus name to the whole group, meaning Leiothlypis gets subsumed by Oreothlypis as the name for the group. The AOU voted the same way in the 51st supplement, merging all eight taxa into Oreothlypis, with many of the voters citing one genus as marginally better than two, even though it is totally arbitrary. I personally think keeping Leiothlypis and Oreothlypis as separate makes more sense, given their distinctiveness from each other, but both options are valid.

Lucy's Warbler (Oreothlypis luciae) from Wikipedia

The next branch in the warbler tree contains the yellowthroats (Geothlypis), species found throughout the New World united by black masks and another feature you might never guess from their name, the gray or black hooded North American warblers in the genus Oporornis, and an unusual, little-known, likely extinct species endemic to St. Lucia in the Lesser Antilles - Semper's Warbler (Leucopeza semperi). However, generic limits are all mixed up in this group, necessitating change. There is a tight-knit little group of closely-related yellowthroats, including the widespread Common (trichas) and the similar Belding's, Bahama, Altamira, and Hooded, and the slightly more distantly related Olive-crowned and Black-polled. Their closest relative is not, however, other yellowthroats but instead Kentucky Warbler (Oporornis formosus), which with its black mask and yellow underparts looks more like a yellowthroat than the other Oporornis anyway. The two gray-hooded species, Mourning and MacGillivray's, are closest relatives (and a hybrid zone has recently been described in Canada), but instead of being closest to the other gray-hooded species, Connecticut, they are related to two more unusual yellowthroats - Masked (aequinoctialis, which may actually be a species complex) and Gray-crowned (poliocephala). The two final species in this group are old, distinct genetic lineages - Connecticut (agilis) and Semper's Warbler. Escalante et al. (2009) and Lovette et al. (2010) both choose, because of how mixed up the traditional genus limits are, that it makes most sense to contain this whole group within one genus - Geothlypis has priority. An alternative treatment has already been made by John Boyd's TiF Checklist - he retains Leucopeza, allows Connecticut to retain the genus Oporornis, and leaves the rest as Geothlypis. I also tend to prefer retaining Leucopeza for the very distinctive Semper's Warbler, but Connecticut isn't all that different from others and I'm not sure it should get its own genus. I guess I'm undecided on this point.

Gray-crowned Yellowthroat (Geothlypis poliocephala) from Wikipedia

Masked Yellowthroat (Geothlypis aequinoctialis) from Wikipedia

The remaining warblers - fully two-thirds of the diversity of the family - form two broad groups. One contains almost all the remaining North American species, mainly the bright colorful migratory species in Dendroica that are what most come to mind when wood-warblers are mentioned. The other contains almost all warbler diversity in Central and South America in several distinct genera.

The North American Dendroica radiation of warblers is pretty amazing - they are the eye candy of the family. They underwent an early burst of speciation that declined through time, likely as ecological niches were filled. They have diversified to the extreme in plumage (and to a degree in song as well), so much so that virtually no plumage characters unite them, but they have not diversified much morphologically. This may constrain them ecologically, but they also adapt by behaviorally partitioning their ecological niches - the subject of some classic ecological studies. Check out this poster on the North American members of the group. Lovette et al. (2010) confirm earlier phylogenetic studies that Dendroica represents one big cohesive group. However, taxonomic changes come from other species found nested within the genus. The American Redstart (in the monotypic genus Setophaga), the two remaining Parula - American (americana) and Tropical (pitiayumi) - and the Hooded Warbler (Wilsonia citrina) are all firmly embedded within Dendroica. The strange Whistling Warbler (Catharopeza bishopi) - seen here - from St. Vincent in the Lesser Antilles is also closely related to this radiation, but represents the earliest branch. Lovette et al. (2010) choose to rename the whole group into one genus - Setophaga has priority, unfortunately removing the name Dendroica associated with much of the literature on the group. I agree with this move, except perhaps on lumping Catharopeza in with the rest. I like minimizing taxonomic changes necessary, and the position of Catharopeza as the oldest branch does not mandate that it be lumped in with the rest of the group. It is pretty unique in plumage, but on the other hand, few species in Dendroica look alike - it is their heterogeneity that unites them. John Boyd has taken an alternative approach to the taxonomy, choosing to preserve all of the other genera that were found lumped within Dendroica. This necessitates making some odd changes - three West Indian Dendroica (Arrow-headed (pharetra), Plumbeous (plumbea), and Elfin Woods (angelae)) would require their own new genus to be described, and Kirtland's (kirtlandii), Cape May (tigrina) and Cerulean (cerulea) would need to be lumped into Parula to preserve that genus. I completely disagree with this approach - it creates much more taxonomic change than the alternative, it relies on the exact branching pattern of species within the overall group which is likely to change depending upon the analysis, and I see no real distinctiveness to these genera - especially the bizarre new Parula.

Cerulean Warbler (Setophaga cerulea) from Wikipedia

Blackburnian Warbler (Setophaga fusca) from Wikipedia

Most warbler diversity in the Neotropics falls within a large genus, Basileuterus. While containing almost as many species as the newly expanded Setophaga, plumage in this genus is much more conservative, consisting most often of yellow underparts, green or grayish upperparts, and striping on the face. Lovette et al. (2010) find that Basileuterus is actually two distinct groups occupying different portions of the tree, and it needs to be split into two genera. One group is primarily South American species, and also includes embedded within it two species often given their own genus Phaeothlypis - River Warbler (rivularis) and Buff-rumped Warbler (fulvicauda). Phaeothlypis is merged into this genus and the South American group is given the resurrected genus name Myiothlypis. The other clade of Basileuterus retains that genus name and consists mostly of Central American species with a few closely related South American forms. In with the new reduced Basileuterus clade is the Fan-tailed Warbler, often split as its own genus Euthlypis lachrymosa. It represents the earliest branch in Basileuterus, and like Catharopeza could continue to be recognized because taxonomic change is not abolutely necessary, but Lovette et al. (2010) include it in Basileuterus.

Black-crested Warbler (Myiothlypis nigrocristatus) from Wikipedia

Pirre Warbler (Basileuterus ignotus) from Wikipedia

Buff-rumped Warbler (Myiothlypis fulvicauda) from Wikipedia
The final two Neotropical lineages are related to Myiothlypis. One lineage is the redstarts/whitestarts in the genus Myioborus. This is actually the only large genus in the Parulidae not affected by taxonomic changes. The other lineage contains a motley assortment - Canada Warbler (Wilsonia canadensis), Wilson's Warbler (Wilsonia pusilla), Red-faced Warbler (Cardellina rubrifrons), and the two reddish warblers in Ergaticus: Red (ruber) and Pink-faced (versicolor). A close relationship between Cardellina and Ergaticus is hardly surprising: these species are some of the only warblers to utilize bright reds in their plumage, and they are all restricted to Mexico and adjacent areas. The inclusion of two Wilsonia species here is bizarre - the genus never made any sense to me, but I expected them all to be thrown in with Dendroica. Instead, it looks like two species from the broad Neotropical radiation of warblers have reinvaded North America, become migrants, and are perhaps as similar to some Dendroica in plumage as they are to Neotropical species. As weird as this group appears, Lovette et al. (2010) lump Ergaticus, Cardellina, and the two Wilsonia into one genus - Cardellina has priority. The alternative, retaining Ergaticus, would necessitate the creation of two new monotypic genera for Wilson's and Canada Warblers - not really a very desirable solution.

Wilson's Warbler (Cardellina pusilla) from Wikipedia

Red Warbler (Cardellina ruber) from Wikipedia

Collared Whitestart (Myioborus torquatus) from Wikipedia

Well, that about covers Parulidae - or at least, a guide to the potentially confusing and contentious upcoming taxonomic changes in the group. I haven't even covered many problems with species limits in the group, or any of the interesting aspects of warbler biology that the phylogeny can be used to study. Maybe someday. To close, here is a summary of genera in the taxonomy of Parulidae proposed by Lovette et al. 2010:

Seiurus
Helmitheros
Parkesia (incl. some Seiurus)
Vermivora
Mniotilta
Protonotaria
Limnothlypis
Oreothlypis (incl. some Vermivora, some Parula)
Geothlypis (incl. Oporornis, Leucopeza)
Setophaga (incl. some Wilsonia, Dendroica, Catharopeza, some Parula)
Myiothlypis (incl. Phaeothlypis, some Basileuterus)
Basileuterus (incl. Euthlypis)
Cardellina (incl. some Wilsonia, Ergaticus)
Myioborus

References

Escalante P, Marquez-Valdelamar L, de la Torre P, Laclette JP, and J Klicka (2009) Evolutionary history of a prominent North American warbler clade: the Oporornis-Geothlypis complex. Molecular Phylogenetics and Evolution 53:668-678

Klein NK, KJ Burns, SJ Hackett, and CS Griffiths (2004) Molecular phylogenetic relationships among the wood warblers (Parulidae) and historical biogeography in the Caribbean basin. Journal of Caribbean Ornithology 17, 3-17

Lovette IJ and E Bermingham (1999) Explosive speciation in the New World Dendroica warblers. Proc R Soc Lond B 266:1629-1636

Lovette IJ and WM Hochachka (2006) Simultaneous effects of phylogenetic niche conservatism and competition on avian community structure. Ecology 87(7):S14-S28

Lovette, I., Pérez-Emán, J., Sullivan, J., Banks, R., Fiorentino, I., Córdoba-Córdoba, S., Echeverry-Galvis, M., Barker, F., Burns, K., & Klicka, J. (2010). A comprehensive multilocus phylogeny for the wood-warblers and a revised classification of the Parulidae (Aves) Molecular Phylogenetics and Evolution DOI: 10.1016/j.ympev.2010.07.018

Perez-Eman JL (2005) Molecular phylogenetics and biogeography of the Neotropical redstarts (Myioborus; Aves, Parulinae). Molecular Phylogenetics and Evolution 37:511-528


Sangster G (2008a) A new genus for the waterthrushes (Parulidae). Bulletin of the British Ornithological Club 128:212-215.

Sangster G (2008b) A revision of Vermivora (Parulidae) with the description of a new genus. Bulletin of the British Ornithological Club 128:207-211.

Saturday, August 21, 2010

Diabolical Shorebird Chick Quiz

*Spoiler Alert!!! Answers are now posted below in comments section*

Inspired by the Diabolical Quiz series on 10,000 Birds, I have created a Diabolical Shorebird Chick Quiz, using photos I took of all the various shorebird chicks I found this season in Churchill, MB. Also included in this quiz are a few non-shorebird chicks. A final hint... some chicks are repeats, so some species will be used more than once... Answers will follow shortly... good luck!

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Wednesday, August 4, 2010

The Hudsonian Godwits of Churchill

After all of the posts about Churchill that I've written, I realized that I've written very little about the bird that has taken me here for the past two summers: the Hudsonian Godwit, Limosa haemastica. The Hudsonian Godwit is a mid to large sized shorebird, and is a well known long-distance migrant. The godwits' breeding distribution is still not entirely understood, but is known to be found in isolated pockets across the sub-arctic and arctic of Canada and Alaska. They typically breed in fens, bogs, and marshes with abundant sedge cover as well as a few trees (such as Larch, Larix laricina and spruces, Picea sp.) and shrubs (in Churchill, mostly Dwarf Birch, Betula glandulosa). Hudsonian Godwits are particularly famous for their long-distance migration, which takes the birds from Churchill first to staging grounds around James Bay. From there, many godwits make a direct flight from James Bay south to South America, perhaps stopping off for a day or two somewhere in the Amazon before finally making it to the southern coast of Argentina and Tierra del Fuego. Godwits that breed in Alaska winter mostly on the island of Chiloe. On the northward journey, godwits again make very long flights, some flying all the way from Argentina to Texas and Nebraska before stopping.

In Churchill, godwits typically return to the area sometime between May 20 and May 25, however there can be variation in this depending on local conditions. For example, the first godwits in 2009 did not show up until June 3, and even then were restricted to a limited number of locations due to snow conditions. In a typical year, after the birds arrive, males usually spend almost a week establishing territories and displaying. Its during this period when we start walking through the breeding grounds, looking for returning birds from previous years, and getting an idea of where territories are so we know where to look for nests.

Upon arrival, godwits will hang around, perhaps going to areas where they will later breed. In these pictures, a female Hudsonian Godwit is loafing around the Fen with a Short-billed Dowitcher

In addition to inspecting the breeding grounds, godwits also spend a lot of time feeding when they first arrive. Often they will feed in areas close to their future territories. This male, feeding in a roadside pool, later nested about 300 meters away in the marsh.

During the first week or so after arrival, male godwits spend a lot of time displaying and setting up territories. This male, banded 2 years ago is seen here displaying in the top of a tree. The display flight of godwits consist of a slow, "butterfly-like" flight over their territories, calling consistently "god-wit, god-wit, god-wit."

Beginning sometime during the first week of June, godwits will begin nesting. During the summer of 2008, the first nest was found June 5, while this year, the first nest was found June 8. In any particular year, most nesting is fairly synchronous, and within about a week, most birds that are nesting will be on eggs. Incubation of eggs does not begin full time until a full clutch (usually of 4) is laid, although males will incubate sporadically even when two eggs are laid. Males incubate for the entire day after the last egg is laid, while females feed. After that first day, males and females share incubation tasks, with females typically incubating during the day, and males incubating at night (although there is considerable variation in this schedule).

A Hudsonian Godwit nest with a full clutch of 4 eggs. While 4 eggs is the maximum clutch size, and also the most typical, complete clutches of 3, and occasionally 2 eggs are also laid. If a godwit renests after losing the eggs to a predator, the replacement clutch is more frequently smaller.

Female Hudsonian Godwit incubating eggs. Godwits are very reluctant to flush from their nest, which can make nests particularly difficult to find. Their cryptic coloration allows them to hide incredibly well among the sedges.

Female godwit sitting very tight on her nest.

After about 17 or so days of incubation, the eggs begin to get star cracks, which are the first signs of hatching. The appearance of star cracks usually indicate that the eggs are within 3 or 4 days of hatch. The day before hatch, the chicks begin to pip the eggs, making small holes in the wider end of the egg. Hatching of all the eggs occurs on the same day, although there can be several hours delay between the first and last chick hatching. Oftentimes, the first chicks to hatch will disperse from the nest site by the time the last chick hatches. During this entire period, both adults stay very close to the nest, and incubating birds sit very tight on the nest, and are very reluctant to flush from the nest. Since chicks leave the nest only a couple of hours after hatch, it is very important for us to get to the nest at hatch if we want to band all the chicks. Otherwise, it can be very, very difficult to find all of the chicks of a brood once they have dispersed.

A godwit nest that is getting very close to hatching. If you look closely, all the eggs have fine "star-cracks" around the wide end of the egg.

A detail of "star-cracks" on an egg.

A godwit chick in the final stages of hatching. This particular chick hatched right in front of us while we were banding his siblings, which had already hatched. It was quite incredible.

Recently hatched godwit chick, this bird is still not completely dry.

Hudsonian Godwit chick that is less than one day old. It's difficult to see, but this chick has a tiny radio transmitter on his back, which we use to track them as they grow. This allows us to determine what habitats they use to feed in, how far they wander, and also check survival.

When chicks are very young, the parent godwits are very aggressive. This pair was constantly attacking us and yelling at us while we were banding their newly hatched chicks. Notice the white flags on the legs of each of these birds, as well as a plastic color band beneath the flag. The orange color band on the male indicates that he was first banded in 2009, while the blue color band indicates this female was banded this year. Also note the brightness of this female, compared with the female pictured in the first 2 pictures of the post.

Male Hudsonian Godwit brooding his recently hatched chicks while we finish banding the last of the brood.

After hatch, chicks and adults wander very far from the original territory. Just three days after hatching, we tracked one family over 2 kilometers from the original nest site. Parents stay with the chicks until they can fly, which is about 24 days after hatching. Females may leave before the chicks are fledged, but males stay with the chicks. Parents will defend their chicks vigorously against predators, and will brood them for the first several days after hatching, but do not feed them.

A godwit chick that is about 2 weeks old. Notice the wing feathers which are in pin, and the back feathers which have come in on this bird.

A 3-week old godwit chick. Notice the wing feathers are growing in nicely, and have already started breaking out of their sheaths. This is likely the latest age that we can capture godwit chicks, since after this they run too fast.

A 3-week old godwit chick running away from us after we banded it. In another 5 days, this godwit chick will be able to fly. At 26 days after hatching, godwit chicks are able to fledge. It is at this point when the adults leave the chicks.

After fledging at about 26 days after hatch, godwit chicks are completely on their own. Adult birds leave the chicks once they have fledged. Adults will continue to the staging grounds around James Bay, and the chicks will remain around Churchill for a little while longer before continuing to James Bay. If all goes well, 2 years from now, we will see "EC" return to Churchill. Young birds will spend their first "summer" on the non-breeding grounds in South America.

To see pictures of Hudsonian Godwits on their winter grounds in South America, see my posts from Chile, where I was able to see and catch some godwits.