Year: 2011 Page 20 of 42

Polychrus gutturosus flashing its stuff. Photo from http://www.bijagual.org/images_reptiles/reptiles_image_links/pages/polychrus_guttorosus_3_JPG.htm

One interesting implication of the recent finding that Anolis and Polychrus are not closely related concerns the evolution of the dewlap. The two genera were long thought to be close relatives in part because they both possess what appear to be similar dewlaps. The new phylogeny indicates that these structures are not indicative of common ancestry, but rather that the two clades have convergently evolved very similar structures.

Dewlap-like structures have, in fact, evolved repeatedly in iguanian lizards (the clade that contains iguanids [in the old, broad sense], agamids, and chameleons). Some of these dewlaps are different from that of anoles—such as the flap of iguanas and the triangular dewlap of Draco—but the dewlaps of the agamid genera Sitana and Otocryptis are dead ringers for those of anoles. In fact, one might argue that Sitana out-anoles anoles with its regal fan pictured below.

Sitana ponticeriana. Photo by Niranjan Sant from Lizards in an Evolutionary Tree

Stills from Anole Fight Along the Rio Bani!

By Rich Glor

On August 13, 2011

In Notes from the Field

These stills are of an anole fight we saw yesterday along the Rio Bani. This fight happened on a rock between two male Anolis distichus ravitergum. On the left, the two males are facing off. In the middle, one male is charging and biting the other. On the right, the two are tumbling down the boulder. Shea Lambert recorded the video and plans to post a version with slow-motion and music sometime soon; it should be epic.

The Anole Genome: Coming Soon To A Newstand Near You

By Jonathan Losos

On August 12, 2011

In Anoles and Anolologists in the News

Paper accepted, proofs corrected.

Next, the movie adaptation. But who will play Green Anole?

More On New Dactyloa Phylogeny

By Jonathan Losos

On August 11, 2011

In New Research

Barely even kissing cousins: A. aequatorialis on the left and A. fitchi (photo thanks to Chris Funk) on the right.

The new Castañeda and de Queiroz phylogeny of Dactyloa is an important advance in our understanding of anole phylogenetics. Prior to this paper, relationships among clades within Dactyloa had been little studied; indeed, the monophyly of Dactyloa was in question, with a viable alternative being that Dactyloa is a paraphyletic group from which the rest of Anolis sprang. Not only have Castañeda and de Queiroz convincingly laid this possibility to rest, but they have identified five strongly supported clades. As the previous AA post on this paper noted, these clades are geographically coherent, revealing five geographically distinct theaters of Dactyloa diversification.

The paper has important implications in several other respects:

1. Size evolution: Dactyloa is known for its giant anoles (officially defined by Lazell as an anole exceeding 100 mm in snout-vent length). Almost all giant Dactyloa belong to the latifrons clade, all members of which, save one, are giants.

2. Convergence: In a number of cases, species that were thought to be closely-related were found to occur in different clades. The most amazing of these are A. aequatorialis and A. fitchi (pictured above), so similar in appearance and ecology that they were thought to be sister taxa that replaced each other on opposite sides of the Andes. However, it turns out that they are not at all closely related and belong in different clades.

3. Evolutionary divergence: an underexplored aspect is the extent of evolutionary diversification within clades of Dactyloa. Though much remains to be learned, it is clear that diversification has been quite extensive, as a number of the clades contain an ecomorphological array of species. The Western clade, for example, contains species such as festae, peraccae, chloris, aequatorialis, and gemmosus, which are very distinct from each other morphologically and utilize different parts of the structural habitat. Collecting the necessary morphological, ecological and behavioral data to trace the pattern of Dactyloa radiation will be an exciting challenge in the coming years!

In sum, this paper importantly advances our understanding of anole evolution. If now we could only crack that Norops nut!

Find the Anole: Phenacosaurus Edition

By Melissa Aja

On August 9, 2011

In Anole Annals Trivia

Phenacosaurus orcesi, Ecuador

Here is a shot recently taken during our first “Day in the Life of a Phenacosaur” video recording. We tracked this subadult male from 6 am to 6 pm!

Crossing the Rio Bani in Search of Anolis distichus

By Rich Glor

On August 9, 2011

In Notes from the Field

In the Dominican Republic, there are few anole hunting localities more famous than the Recodo Road, a road running along the Rio Bani just west of Bani (you can get some background on this locality from several previous blog posts 1, 2, 3). Anthony Geneva, Shea Lambert, and I arrived here on Sunday to continue our studies of speciation in the distichus species group. One feature of this road familiar to anyone who’s visited are the river crossings that are necessitated by the absence of bridges. With a 4×4, these crossings are a piece of cake when the water is low, but completely impossible when the water is high. After a recent tropical storm, both of the two required crossings are on the verge of uncrossability. We made it through the first one (see photos above), but have decided to hold off on attempting the second until the river settles a bit more. Note the beautiful Kapok (Ceiba) tree at the first crossing, which is one of the oldest and most beautiful native trees in the region (it’s also from a genus with rather remarkable transatlantic dispersal capabilities [Dick et al. 2007]). More soon on the lizards we’re seeing so far!

Chance, Fate, The Existence of God…and Anoles

By Jonathan Losos

On August 8, 2011

In Anoles and Anolologists in the News

Unidentified anole by Miguel Landestoy from the Philadelphia Inquirer. Who can name that species (not Miguel!)?

Faye Flam’s Planet of the Apes column in today’s Philadelphia Inquirer is entitled “Is Life Inevitably or Chance? Lizards May Tell.” Turns out that anoles may hold the answer to some of life’s most profound questions.

New Phylogeny for the Dactyloa Clade of Anolis

By Rich Glor

On August 7, 2011

In New Research

Phylogenetic tree from Castañeda & de Queiroz's concatenated dataset (left), instability of relationships among five major clades resulting from analyses of mtDNA (top center) and nDNA (bottom center), Anolis (Phenacosaurus) heterderma from Juan Salvador Mendoza's Flickr (http://www.flickr.com/photos/ecoterror/page6/) (top right), and geographic distributions for major clades identified by Castañeda and de Queiroz (bottom right).

A few days ago, I discussed a paper that proposes assignment of anoles to a new family called Dactyloidae. Today, I want to call attention to another new paper about anole systematics and taxonomy that involves a clade beginning with ‘dactyl’: the Dactyloa clade of Anolis. The Dactyloa clade includes around 80 species of anoles found across southern Central America, northern South America, and the southern Lesser Antilles. Although most anole biologist believe that its best to continue recognizing the species in this clade as members of a unified Anolis, the Dactyloa clade does seem to represent one of the few genera proposed by Guyer and Savage that is largely monophyletic (albeit with the addition of species previously assigned to Phenacosaurus).

In a paper published in Molecular Phylogenetic and Evolution, Castañeda and de Queiroz generate new phylogenetic trees for this group based on DNA sequence data from three loci (two mitochondrial and one nuclear) sampled across 40 of 82 previously recognized species, two new species, and 12 outgroup taxa. Castañeda and de Queiroz’s analyses of concatenated and individual gene datasets using GARLI and MrBayes recover support for five well-supported and geographically cohesive clades within Dactyloa. Three of these clades closely match groups defined based on previously morphological and biogeographic analyses: Phenacosaurus, the roquet series, and the latifrons series. Two of the clades identified by Castañeda and de Queiroz were not diagnosed by previous morphological analyses, but do make sense biogeographically: one of these clades occurs across the eastern cordillera of the Colombian Andes and the Venezuelan Andes (the “eastern” clade of Dactyloa) and the second can be found across the western and central cordilleras of the Colombian Andes, the western slope of the Equadorian Andies and the Pacific lowlands of Panama, Colombia, and Ecuador (the “western” clade of Dactyloa). The monophyly of two clades previously identified by morphological analyses – the aequatorialis and punctatus series – is strongly rejected by the new molecular data, reaffirming problems that have long plagued taxonomic studies of mainland anoles based on morphological data. Relationships among the five well-supported and geographically-cohesive clades identified by Castañeda and de Queiroz are poorly supported and unstable among analyses, seemingly due to short basal branches. Although their results clearly indicate the need for taxonomic revision of Dactyloa, Castañeda and de Queiroz reasonably suggest that any such revisions should await more comprehensive species-level sampling is available.

The Principle of Unsympathetic Magic Strikes (Yet) Again II

By Jonathan Losos

On August 6, 2011

In Natural History Observations

Phenacosaurus orcesi. Photo by Melissa Woolley.

As I prepared for our current trip to Ecuador to study the natural history of Phenacosaurus orcesi, I feared that we would not find any lizards. After all, until recently, the species was known from only two specimens. What if we simply couldn’t find them?

These fears were assuaged when I reviewed the literature—scant as it is—on phenacosaur ecology. In the most comprehensive study, Miyata found 77 P. heterodermus individuals in blackberry bushes in five afternoons of observations at a site near Bogota. On seeing the previous AA post, Vic Hutchison also recalled finding P. heterodermus in blackberry bushes in Colombia. George Gorman mentioned to me that he collected phenacs in a suburb of Bogota in the summer on 1968, and he recalls that “it was a like Lesser Antillean experience…rather than a ‘mainland’ experience, in that the lizards were abundant, easily collected, and on fenceposts and hedges.” In addition, the original description of P. vanzolinii states that “the local people say that the ‘camaleon o camaleon’ is common in the fields of maize.”

From all of this information, I formed the hypothesis that finding phenacs would be easy, that we’d be awash with data and would finish so early that we could go traipsing off elsewhere in Ecuador. In other words, I set myself up for the Principle of Unsympathetic Magic to rear its ugly head, and it did so with a vengeance.