The Short Answer: According to Avibase, the one duck that is occasionally seen in parts of coastal Antarctica is the yellow-billed pintail (Anas georgica). This was confirmed for me by Dr. Peter Convey with the British Antarctic Survey who added that “There are no breeding ducks on the Antarctic mainland (continent or Antarctic Peninsula and offshore archipelagoes).”

So it sounds like the yellow-billed pintail is your mystery duck. It occasionally vacations in Antarctica, but doesn’t stay long enough to breed.

The yellow-billed pintail is one of the most common ducks in South America and is found over most of the western and southern parts of the continent, excluding the Amazon and other rainforest areas. There is also a well-known subspecies, the South Georgia pintail (Anas georgica georgica), which is found primarily on South Georgia, one of the southernmost islands that is not considered to be part of the Antarctic continent. On South Georgia, the ducks are primarily nocturnal and eat shrimp, amphipods, other crustaceans, snails and other invertebrates, as well as marine algae. The nocturnal feeding habits may be an adaptation to predation by the Antarctic skua (Stercorarius antarcticus), a large seabird which catches adult ducks on the fly during daylight hours.

January being summer in the Southern Hemisphere, we are currently in the breeding season for the yellow-billed pintail. The population on South Georgia typically lays five eggs, with two or three clutches possible in a season. In the 19^th century, the South Georgia pintail was hunted by the crews of whaling vessels, and these days, they suffer from predation by introduced rats, but the population seems stable.

More Information:

Sharing South Georgia Island with the South Georgia pintail is the speckled teal (Anas flavirostris). Other far southern islands that have ducks include the Falklands (also called the Malvinas) off the coast of Argentina and Macquarie Island south of Australia and New Zealand. Like South Georgia Island, the Falklands have both speckled teals and yellow-billed pintails as well as several other duck and goose species. Macquarie Island has Pacific black ducks (Anas superciliosa) grey teal (Anas gibberifrons) and non-native mallards (Anas platyrhynchos). None of these other species are known to visit Antarctica, however.

Sources:

Janet Kear (2005). Ducks, Geese and Swans, Oxford University Press.

McCracken, K.G. and Wilson, R.E. (2011). Gene flow and hybridization between numerically imbalanced populations of two duck species in the Falkland Islands. PLos ONE, 6(8).

Catalogue of Australian Antarctic and Subantarctic Metadata: http://gcmd.nasa.gov/KeywordSearch/Metadata.do?Portal=amd_au&KeywordPath=[Keyword%3D%27MACQUARIE+ISLAND%27]&NumericId=20602&MetadataView=Full&MetadataType=0&lbnode=mdlb3, accessed on January 20, 2012.

Tom | Animals, Questions and Answers, Uncategorized | 01 23rd, 2012 | Click to Leave a Comment »

A draft version of the post about Ducks in Antarctica slipped through my grasp and was posted to the site a couple of days ago and went out on the RSS feed before I was finished fact checking and editing. If you read that post, you might want to reread the new version, as there were a couple of corrections.  Sorry about that.  Tom

Tom | Uncategorized | 01 23rd, 2012 | Click to Leave a Comment »

The Question: We found this large spider in our auto repair shop today. He caused quite an exciting afternoon, that’s for sure. Can you please help us identify him? Submitted by: Michelle , Virginia, USA

The Short Answer: First, before we can talk about this spider, we’ll have to refer to it as “she” because Eric Eaton at Spiders.us (also Spider Identification on Facebook) identified this as a female crevice weaver (Kukulcania hibernalis), also known as the southern house spider. The male crevice spider is considerably thinner and has somewhat longer legs. In addition to having different body shapes, males and females of this species have different lifestyles as well. The female crevice spider makes webs in cracks and crevices, in accordance with the species’ name. The male crevice weaver however, is a wanderer who hunts for prey without making a web.

Not a Brown Recluse: In addition to being so different in lifestyle from the female crevice weaver, the male crevice weaver has another distinction in that he is one of the spiders most frequently mistaken for the notorious brown recluse (Loxosceles recluse). If you compare the picture above with this picture of a brown recluse below, you can see the similarities. Richard Vetter, a spider researcher at the University of California, Riverside, is on a one man mission to reduce mis-identification of brown recluse spiders by doctors and emergency crews. For example, it’s not uncommon for doctors in the northern parts of the United States to identify the cause of a rash or infection as a brown recluse bite even though the northern limit of the spiders’ range is about the middle of Iowa. Dr. Vetter’s range map shows that the brown recluse and other members of the Loxosceles genus (also dangerous) are only found in southern and western parts of the United States. Yet “official” reports of brown recluse bites come from all over the country.

Vetter has even had bite victims vehemently insist he must be wrong in his identification of a spider photo because “the doctor said it was definitely a brown recluse,” even though, unlike Vetter, very few doctors are trained to identify spiders.

One problem is that the general rule that people use to identify brown recluses is not that helpful. Everyone knows to look for the hourglass shape for a black widow, and most people know to watch for a violin shape for a brown recluse. While most brown recluse spiders do show a clear violin-like shape on the cephalothorax (the large body segment that includes the eyes), many other spiders show indistinct coloration on the cephalothorax that could be mistaken for a violin. So in the end, the violin shape is not a definitive field mark.

Vetter suggests that the surest way to identify a brown recluse is to look deep into its eyes. As shown in the picture to the left, all members of the Loxosceles genus have six eyes, in three pairs arranged in an arc, whereas almost all other spiders have eight eyes, variously arranged. If you see a spider in your yard, you might not want to get close enough to check its eye pattern, making Vetter’s advice not very useful. But Vetter’s goal is to reduce misdiagnosis of skin conditions in doctor’s offices. If a patient shows a doctor a dead spider and says “I think I was bitten by a brown recluse,” it’s simple enough to put the spider under a magnifying glass to check the eye pattern. This is important because misidentifying the cause of the rash as a brown recluse may cause the doctor to ignore other possibilities such as bacterial infections.

On his website, http://spiders.ucr.edu/recluseid.html, Vetter gives the following guide to identifying a brown recluse:

• - Six eyes arranged in pairs, with one pair in front and a pair on either side.
• -A dark violin shape on the cephalothorax.
• -Uniformly light-colored legs – no stripes, no bands
• -Uniformly colored abdomen which can vary from cream to dark brown depending on what the spider has eaten, however, it will never have two colors of pigment at the same time.
• -No spines on the legs, only fine hairs
• -Recluses are about a centimeter (3/8 inch) in body length
• -Recluses make small retreat webs behind objects, never out in the open.

So thanks to Michelle for sending in the lovely female crevice weaver. Living in Richmond, she is well out of the range of the brown recluse, so she can rest easy. For people who live within the brown recluse’s range, if you think you’ve been bitten by a brown recluse, don’t take your doctor’s word for it. Snap a picture and post it at Spider.us or one of the other sites that will identify spiders. You’ll get a quick answer. Generally, it’s more likely to be a male crevice weaver or some other imitation recluse than the real thing.

Sources: Vetter, R S. (2009). Arachnids misidentified as brown recluse spiders by medical personnel and other authorities in North America. Toxicon, 54(4), 545-547.

Tom | Animals, Questions and Answers, Uncategorized | 11 22nd, 2011 | Click to Leave a Comment »

The Short Answer: They probably would be fine where they are, but I don’t think it will hurt to move them. Of course, the milkweed on the other side of the driveway, which might not be verdant for long, probably would have a different opinion. 

Tom | Animals, Questions and Answers, Uncategorized | 11 21st, 2011 | 2 Comments »

The Question: I want to go to Mexico to see the monarch butterflies. What is the time of year for them to hatch into butterflies? Submitted by: Sheila, USA

The Short Answer: According to our friends at the Texas Butterfly Ranch, a blog dedicated to monarch butterflies (Danaus plexippus), officials at the Monarch sanctuary at El Rosario in Mexico have announced that the sanctuary will open to tourists for this season on November 12, 2011. As I write this in mid October, monarchs have begun to show up in Mexico and in the next few weeks millions will arrive at a few specific forest groves, where they will settle down to hibernate in large trees (primarily the Sacred fir, Abies religiosa, also known as Oyamel tree) until March and April when they will begin stirring to head north.

So if you want to see monarchs hibernating in Mexico, you should plan to make your trip between mid-November and mid-March.

More Information: You also asked what time of year they hatch into butterflies. Monarchs in North America have one of the most amazing yearly cycles of any creature on earth. There are two largely separate populations, one east of the Rockies and one to the west. Monarchs to the west of the Rockies spend the winter in a couple of locations in southern California. The more famous monarchs of the east migrate to the Mariposa Monarca Biosphere Reserve in central Mexico. After resting from mid-November to mid-March, the butterflies become active and begin mating before setting off north for the United States.

By the end of April, females have begun laying eggs on various species of milkweed plants in southern U.S. states. When those eggs hatch into caterpillars, they feed on milkweed and eventually form a chrysalis and then metamorphose into butterflies. Those butterflies then set out north, traveling throughout the United States, laying eggs which hatch into caterpillars that eventually turn into butterflies that take yet another hopscotch north. As many as four generations can take place in a single year, with the result that the final generation of monarchs can extend into southern Canada.

Most monarchs hatch, grow, breed, and die in the United States or Canada. It is only the final generation of each year that stores up energy to make the long flight back to Mexico, which can be over 4,000 km (2,500 miles).

So the answer to your question is that they hatch from April to September. Charles, an AskaNaturalist.com reader from Kansas, recently reported that chrysalises on his deck metamorphosed in late September. His butterflies (one is shown here) will probably arrive in Mexico soon, along with tens of millions of other monarchs. Pretty soon they’ll all be waiting for you to visit them at Mariposa Monarca Biosphere Reserve. Let us know how it goes. Bring back pictures!

For those readers who can’t get to Mexico to see the monarchs with Sheila, here are a few videos:

1. This one gives a really good impression of how many monarchs show up in Mexico. I’m not sure, but I believe that background hiss is actually the noise made by thousands of butterfly wings – http://www.youtube.com/watch?v=x0m_rK_WpjQ&feature=related
2. This one is a condensed version of a NOVA program on monarchs – http://www.youtube.com/watch?v=WdfIuVcwcQs&NR=1
3. This one is geared towards kids – http://www.youtube.com/watch?v=MWT51807cyM

This site has great information on monarchs, including a map that shows where the migration is right now: http://www.learner.org/jnorth/monarch/

Tom | Animals, Questions and Answers, Uncategorized | 10 21st, 2011 | 1 Comment »