Hiatus (sad face)

I was recently accepted to an internship working on giant kangaroo rats in the Carrizo Plain. I have only just arrived at the site and can't tell you how excited I am to begin work.

However, like all good things, it comes with a cost. There is little internet access here, and probably less free time. I do not believe I can feasibly do a post everyweek, and so, with a heavy heart, I am putting The Everyday Animal on a hiatus until further notice.

However, I will try and keep everyone up to date on my field work through my other blog: For Science Sake. I encourage you all to visit it to see what ecology field work is like.

I greatly enjoy these posts, and sincerly hope tto continue them in the future. This field work will be 2-4 months, but once I am back in the modern world I hope to continue giving out great animal info.

Thank you so much to everyone who has been a supporter and reader of this blog! This is not the end, I promise, just a break.

The Darker Side of Cute: Domestic Rabbits

Baby Bunny!!
Photo source: The Pix Host

Whether or not you are spending this weekend searching for colorful eggs hidden by an enormous bunny (what?) there is no denying that rabbits have become one of the largest symbols of spring. And why not? They are cute, fluffy, domesticated, and during spring they reproduce like... well, like rabbits.

The rabbits that you are probably picturing now have been domesticated since the days of cavemen, but not always for their companionship.

The European Rabbit (Oryctolagus cuniculus) has become the variety of domestic breeds that we know today. White with brown splashes, or a granitic gray with big black eyes, or all black with just a tip of white on the nose; bunnies are known for being adorable. But when they were first domesticated, it wasn't for ooos and awws. It was for their meat.

Rabbits were first kept by people in large numbers during the Roman Empire. The Romans kept rabbits as a source of food, helping to transport the rabbits throughout Europe as the empire grew [1].

But the actual domestication of rabbits took place in France behind monastery walls. French monks lived in seclusion but needed a source of meat that could be easily kept within the monastery. Better yet, a food that they could eat during lent.

In 600 A.D. Pope Gregory I declared unborn or newly born rabbits, laurices, to be officially classified as "fish." Although the reasoning behind the declaration was probably more about giving the monks a break than actual taxonomic logic, it did allow the holy-men to consume, keep, and breed the rabbits, since fish was allowed during the days of lent. While never fish, through breeding and selecting for desirable traits, the monks did become officially domesticate the European rabbit [2].

By the 16th century rabbits had spread throughout Europe. Distinct breeds were developed and described, and they were becoming more popular for their fur and adorable attributes, rather than just their meat [3].

From the European continent, rabbits began traveling the world. Often sailors would release colonies of them onto islands to ensure that there would be a large food supply available for future voyages. Today the European Rabbit can be found throughout the world except for Asia and Antarctica.

Of course many islands do not have native rabbits, hares, or even mammals for that matter. The introduction of this glutinous, greedy, and lusting little bunny has destroyed ecosystems world-wide. One of the most dramatic examples is the invasion of rabbits into Australia.

In 1859 Thomas Austin released 24 European Rabbits onto Australia near Victoria [4]. Today there may be 200-300 million rabbits throughout the small continent [5]. On a diet of plenty and with no natural predators, the they multiplied. 

Rabbits are natural diggers. They make their burrows underground and will move a considerable amount of dirt to do so. With a small population, digging might not be a problem, but with hundreds of millions of rabbits digging up Australia they have caused major erosion and created an ecological nightmare. It is estimated that 1/8 of all native Australian mammals are in trouble because of the rabbit invasion [5].

By the begging of the 20th century Australia's ecology and agriculture were in trouble. Shooting and trapping were not enough to curb the rabbit population, so to stop their spread the government tried something a bit more grandiose. In 1907, the government finished building the world's longest continuous fence. At over 1100 miles, the fence separates the entire western side of the continent. A second fence was also built, stretching just over 700 miles farther west of the original. But fences break, and rabbits dig, and despite the enormity of the project it was eventually deemed a failure. The rabbits continued their invasion.

Finally, in the 1950s a more drastic approach was attempted. The myxoma virus, endemic to South America, is carried by mosquitoes from host to host and is lethal to almost 100 % of those that catch it. But, with a catch, it only affects rabbits. So in 1950 mosquitoes carrying the myxoma virus were released.

The impact was huge. 90-99% of the rabbits throughout Australia were wiped away in a sea of disease. But 1-10% remained, and they remained because most had a genetic immunity to the disease. So, spreading their immunity throughout the new population, the rabbits procreated and their numbers rebounded with force. Today myxoma is only 40% effective, not enough to keep the numbers in check. Since the failure of the myxoma virus, other diseases have been tried with similar failures [6]. The rabbits continue to invade Australia, having thwarted everything people have thrown at them. It is an ecological war that the rabbits seem to have won.

So a reminder as you are biting off the ear on a chocolate bunny this holiday (or after, when they are so much cheaper), munching on rabbits has a long tradition, and gave us the furry friends we have today. Just don't take your chocolate bunny to Australia.

Week off. Sorry.

I am taking a week for travel. But don't worry, I've got some awesome science info for you in the form of one of my favorite nature documentaries.

I highly encourage you all to watch this PBS documentary on sexual selection. Enjoy!

What Females Want and Males Will Do

I male peacock's version of dinner and drinks
source: Wikipedia

Our Dependent Guest: The Housefly

The Common Housefly
Photo from How Stuff Works

Spring is here! And with it comes cute baby bunnies and chicks, a wide array of beautiful flowers, and of course, houseflies.

They are not the most appealing animals to emerge this time of year, but they are just about everywhere. A single female housefly can lay up to 900 eggs in her lifetime [1]. And where to lay those eggs but in a delicious, moist pile of manure, giving her baby larva something to snack on when they hatch. Sound disgusting? Fascinating? You don't know the half of it yet.

Houseflies probably first evolved in the Africa, later hitching a ride with us to all the corners of the world [2]. In fact, houseflies are surprisingly dependent on us. They eat our food, use our animals' waste as a nursery and use our structures to take shelter so that they can make it through cold winters, ready to emerge when the weather warms up [3]. And emerge they do. Undoubtedly you will begin to see them land on your wall, ceilings, and food.

But the housefly has one big disadvantage when it comes to eating solid food: they have nothing to chew with. In fact it is physically impossible for a housefly to eat solid food. But they are able to get around this problem by liquefying our otherwise solid meals. With a straw-like mouth piece called a proboscis the housefly will drink up any liquid food that it can. When the food is to tough though, it will use tiny hairs at the end of its proboscis to scrape off some food particles. Then, the fly will vomit. It vomits digestive juices onto the food, dissolving them into a liquid and slurping it all back up [1]. Gross? Maybe, but it is exactly what we do, only we do it inside our bodies, chewing food into particles and dissolving them in our stomachs. Really we and the housefly have a very similar process, but our's takes place inside our bodies, and their's, out.

Sorry Mr. Larson, but you got this one wrong.
picture from pbase.com

But while we might use a new straw for every Slurpee, flies do not have that convenience when it comes to their proboscis. Inevitably some old food gets stuck in the tube, only to be vomited back out again, mixing with what was going to be your delicious dinner. Not all of it gets slurped back up again, leaving you with a glop of partially digested food and fly vomit. And thus, flies have gained a not-undeserved reputation as dirty, disease-spreading pests.

They are almost the perfect animal for spreading disease. They lay eggs in wet organic matter like dung, or compost or trash, picking up potentially deadly diseases like typhoid fever, salmonella, dysentery, even anthrax [4]. They then land on your food, or you, delivering diseases to your front door.

But simply carrying such diseases wouldn't be so bad if they weren't so hard to kill. After all we can't all be the Karate Kid. But what makes swatting a fly so difficult?

Flies are extremely well adapted to sensing motion of any kind, and are great at aerial maneuvers. The eyes of the housefly are extremely complex. If you have ever seen a picture of a "fly's eye view" with a thousand of the same picture seen in every widow, forget that. Seeing the same image over and over and over and over again makes very little evolutionary sense. In reality, each lens on a fly's eye acts like a one of ours. You can think of a fly having not two eyes, but up to 12,000 that are arranged in two semi-circle bundles [1].

A (probably) more accurate picture of a fly's view
Photo from flickr

This creates an image for the fly that severely lacks resolution, but is exceptional at sensing movement.

But the housefly doesn't stop with the eyes. It's body is covered with tiny hairs, known as tarsi, that are extremely sensitive to air movement. They can feel the air being pushed by that flyswatter coming at them, and they can get out of the way fast [1].

And once in the air they have a myriad of tricks they can perform. Tight turns, zigzags and loop-de-loops all help a fly get out of the way in a fast and unpredictable manner. These tricks are due to two extra wings that the fly has just below it's large main ones, and the ability to process information at astounding speeds. While its main wings beat furiously (up to 20,000 times per minute) [5]  two small wings, called haltere, are stabilizing the fly in mid air and the fly is taking in, processing information, and reacting to it in a few hundred milliseconds. They react in literally the blink of an eye [6].

And they need those reaction times. Birds, lizards, spiders, insects and swatters are a constant threat. So before you pick up that bug spray, just remember that these amazing animals live in world that is dangerous enough as it is. Just, maybe don't let them land on your food.

More Than A Bird Brain: The Crow

The American Crow
Photo from All About Birds

The crow doesn't seem all that impressive on the surface. Sporting an all-black coloration, the American Crow stands at only 44 cm (17.5 in) [1] and even has a dry, raspy caw that is neither pretty nor seems to draw much attention.

In pop-culture they are portrayed as either trash-birds or harbingers of death and disaster. Just think of the last zombie movie you saw.

But under their glossy black coat, crows are not only impressive, but mystifying. They are some of the smartest birds on the planet (one species may be THE smartest bird) and they are social animals that work and even raise families together. In other words, we share some traits in common.

Crows form closely-knit family groups. They are monogamous, faithful to their spouse, and even the crow-children stay close to the home. Many will forgo an opportunity to try to start a family of their own in order to help raise their brothers or sisters [2]. And their social personalities are not limited to their household. Crows stick together in large groups to forage for food. These groups can be big. Very big. A single flock of crows, known as a murder (pop-culture strikes again) can include well over a million individual birds, sometimes up to two million [3].

These impressive gatherings can usually be found around human settlements. American Crows are notorious for their ability to thrive in the conditions we create. Like humans, crows enjoy open landscapes with a few trees and perches, making our parks, cities and towns perfect ideal. Our commonalities with crows may go all the way back to a time when both species were foragers.

Crows played an important role in early human culture throughout the world. Thriving on carrion, crows could be found feeding on the recently deceased, linking them in many people's mind to the afterlife and religion. But crows feeding habits connected them to us in more ways than one. Humans are social, and group hunters, and crows undoubtedly grew close to us, knowing we could provide them with delicious scraps [4].

That kind of adaptability is what crows are famous for. Crows are incredibly smart, and American Crows is particularly talented in at least one respect: face recognition.

In a 2006 study, researchers the University of Washington captured crows, tagging them for later identification, all while wearing a mask. Recording the response of those crows later, they found that they reacted very little to researchers without the mask, but became aggressive when the researchers had the mask on, sometimes even diving at the researchers. The same response even came when different people wore the mask, indicating that it was indeed the face that they recognized [5]. What they also found was that crows that weren't originally caught responded in the same way. Crows could spread that knowledge through their avian society telling each other which humans were dangerous [4].

But they can indicate more than just warnings to each other. After walnut trees were planted in Japan, Japanese Crows began to take the hard-to-crack shells and place them behind the tires of parked cars or in the street. The cars would drive over them, Crrack, and crows would pick up their nutty profit.

This technique did not pop-up randomly either. It began in one small area of the city, with maybe one or two crows, and was gradually recorded father and farther out. a wave of knowledge from crow-to-crow spreading throughout Tokyo [4].

But arguably the most famous of all crow species is not from America, or Japan, but New Caledonia, a small tropical island off the coast of eastern Australia. The New Caledonian Crow might not be an everyday animal, but I would be remiss if  I didn't talk about them in a crow post.

An amazing feat by a New Caledonian Crow.
Photo from BBC

The New Caledonian Crow is possibly the smartest bird in the world, and maybe one of the smartest animals period. To get at tasty insects, the bird picked up a useful skill: it has learned to use tools. More than that, they have learned to create tools.

The crows can pick up sticks and sharpen them or bend them to solve the problem as they see fit. In a famous behavioral study from Oxford, New Caledonian Crows had to lift up a weight with a handle from the bottom of a long tube, and were given only long, thin, straight wires to do it with. The crows, upon discovering that straight wires could not help them, bent the wire into a hook, and hooked and lifted the weight [6]. Such cognitive abilities are unique among birds and are much greater than many primates, and even better than some human children.

More recent studies indicate that the New Caledonian Crows may even have knowledge or ideas of things that they cannot see, much as we do about microbes, atoms, and even gods [7].

Where ever they are located, crows around the world are social, highly intelligent and perhaps deserving of more respect than people give them. But they are still hunted in large numbers, and although some species such as the American Crow is doing well, others like the Northwest Crow and the Hawaiian Crow may have already gone extinct.

So the next time you see a crow in the street, or in the park, or nibbling on some trash, don't be so quick to dismiss it. Stop, give a thought to it's complexity, its resourcefulness, and its adaptability, and then be on your way.


For more on crows, crow studies, and the amazing-ness that is crows, here are some great videos:

• New Caledonian Crow making tools: http://www.youtube.com/watch?v=TtmLVP0HvDg
• New Caledonian Crows reasoning on what they can't see: http://www.youtube.com/watch?v=ZnqUAsyOTv4
• Crow Documentary: http://www.pbs.org/wnet/nature/episodes/a-murder-of-crows/full-episode/5977/
• Talk on the intelligence of crows and ravens: http://www.youtube.com/watch?v=ptx1rBE1IL8

Note: because I have linked my sources in the post itself I will no longer be posting them separately afterwords as well. Similarly because I have posted links to the pictures used I will no longer be posting that separately. If you have thoughts on this or you would like to see these sources added back to the bottom of every post, please leave a comment below.

What's the Difference: Crows and Ravens

A crow and a raven, respectively.
photo by Gerrett Lau

You see a black bird flying overhead in the middle of a crowded street. Is it a raven? A crow? How can you tell? Should you care? Absolutely. Crows and ravens may seem like ordinary birds but they are anything but. To those in the know, they are clever, mischievousness, successful and frighteningly intelligent animals.

But your confusion is understandable, after all they are both sleek black birds that you see everywhere and they are very closely related; both belong to the genus Corvus. Many species of Corvus exist throughout the U.S. but on the west coast you are probably most familiar with: The American Crow (Corvus brachyrhynchos) and the common raven (Corvus corax) [1][2].

The American Crow is a highly sociable bird and can form enormous flocks (lovingly known as "murders") that can include over a million individuals. The American Crow is significantly smaller than the common raven but, not to be outdone, it uses its larger numbers for success in both breeding and hunting.

Crows are monogamous but often form large family groups where older offspring help parents take care of the new chicks; sometimes staying with the parents for many years. 15 birds to a nest is not uncommon [3][4]. Each individual helps provide food and care for the family, and they work as a team to acquire food. Teams of cunning crows have been known to distract predators while another crow sneaks in from behind to steal the predator's hard-earned meal [5]. This is all to say that if the black bird you see is one just one in a flock, you can be fairly certain it is a crow.

Ravens on the other-hand live a more solitary life. They can form mating pairs, but it is rare to see more than two together [5]. But like crows the ravens can work together to get prey and are extremely clever at finding food, but their size is less of a factor. Common ravens are the largest of all American corvids, and its one of the primary ways they can be distinguished. Ravens also prefer woodlands, open-landscapes, and mountainous areas to cities and towns. Ravens are not uncommon in urban areas, but they do not seem to have the affinity for human settlement that crows do [6].

But like everything in nature, exceptions are all to common. Common ravens can occasionally be seen in large flocks in the cities, and crows can be seen all alone in the forest. When you are unsure, beaks and tails are tell-tail signs (see what I did there?). Ravens sport a wedge-shaped tail and a longer, heftier beak. They also sport distinctive neck plumage when they call. This is opposed to the squarer tail and smaller, rounder beak of the American Crow [7][8]. Still unsure? Look for it's flight pattern. If it is performing acrobatic tricks, its probably a raven.

While crows flap almost continuously in flight, ravens are known to glide for long periods and take this time to show off mid-air stunts. famous for their aerial acrobatics, a raven was even recorded flying upside down for more than half a mile. Quick dives up and down, somersaults, and even dropping and catching objects in mid-flight are common sights if you pay attention when ravens fly by [5].

Their calls are also distinctive, and fitting to their body-type. The smaller American Crow's calls are higher pitched, and you can often hear many of them together. Their calls are probably the most familiar to you, the traditional caw-caw [9]. Common ravens have a deeper, harsher voice, and often can be heard alone [10]. But before you identify them on sound alone, you should know that both crows and ravens produce a variety of sounds and are notorious imitators; even mimicking human speech.

Up until now I have been hesitant about writing a crow or raven post. Not because their isn't enough to say about them, but because there is an intimidating amount. Intelligence on par or over some primates, these birds are extraordinary, and now that you know the difference you can look forward much more extensive posts on them coming soon. In the mean time let me know what animals you want know the difference between and keep up with animal facts and science news on my Twitter: @everydayanimal.

More information on the differences between crows and ravens:
http://birdnote.org/show/ravens-and-crows-who-who
http://www.youtube.com/watch?v=guBwMUAWAJI
http://www.allaboutbirds.org/page.aspx?pid=2501



Sources:
[1] http://www.allaboutbirds.org/guide/American_Crow/lifehistory
[2] http://www.allaboutbirds.org/guide/common_raven/id
[3] http://www.birdweb.org/birdweb/bird/american_crow
[4] http://www.news.cornell.edu/chronicle/97/4.10.97/crow.html
[5] http://www.allaboutbirds.org/guide/common_raven/lifehistory#at_nesting
[6] http://www.birdweb.org/birdweb/bird/common_raven
[7] http://animals.nationalgeographic.com/animals/birding/common-raven/
[8] http://animals.nationalgeographic.com/animals/birding/american-crow/
[9] http://www.allaboutbirds.org/guide/American_Crow/sounds
[10] http://www.allaboutbirds.org/guide/common_raven/sounds

Photo by Garrett Lau from:
http://birdnote.org/show/ravens-and-crows-who-who

Adorable Arachnids: The Jumping Spider

Adorable jumping spider.
picture by Kenneth Gilpin at lookingcloser.net

Alright, maybe you're not a spider person. But looking into the big eyes of jumping spider, I find it difficult not to coo. This adorable spider has big eyes, a fuzzy body, comes in a unbelievable variety of forms and colors, and is quite the performer to boot.

But lets start with those big glassy eyes. All eight of them. 

The two big ones in front that give jumping spiders their signature look are unique. They give the jumping spider incredibly resolution, beyond the ability of all other spiders and insects, and even as good as some vertebrates [1]. But such accurate vision comes at the cost of a debilitatingly narrow view. The other six eyes give a much wider view, but bad resolution, a poor substitute for catching prey that is just out of the peripheries.

Many vertebrates have a similar problem which they have usually solved by simply moving their eyeballs, but a jumping spiders' lenses are attached directly to the body, they can't move around. So they have evolved one better, moving the retina itself. Like a camera filming through a window, the retina moves inside the lens. This gives the jumping spider peculiar, color changing eyes; when the retina, the darkest part of the eye, is looking away from you, you can almost see through the lens, making it look colorful. And when the eye is completely black, the spider is looking right back at you [2].

That vision is especially important for the jumping spiders' signature hunting method: jumping. They are able to jump up to 40x their own length, an ability that would let me jump well over 200 feet (is Spider-Man starting to make a bit more sense now?) [3]. Unlike many other spiders, jumping spiders don't spin webs to catch prey, but actively stalk them on the ground instead [4].

The stalking techniques are incredibly complex. Jumping spiders often do not use a straight line to get to their prey as you might expect, but rather circle around, approaching it from a different angle. The problem is that such a rout can take the prey out of sight, and for many invertebrate hunters, that means out of mind [4]. But jumping spiders seem to go far beyond that, able to choose the best path even when it means they may never see their meal again until they get right-on-top of it [5].

Just some of the bright displays that these spiders exhibit.
photo from www.bio.sdsu.edu/pub/spiders/NewFiles/framespg.html

There is more to a jumping spider than just his aggressive side, they are also famed romantics. Male jumping spiders come in a wide variety of bright colors for attracting mates. The peacocks of the arachnid world, jumping spiders come in an astonishing variety of turquoise, maroons, yellows and oranges. The unique coloration can be used to brightly display, or in some cases, deceive [4].

Some species have evolved to become incredible mimics of insects such as ants, beetles and wasps. These disguises help protect them from birds, and other searching predators. Disguises can work both ways however, and some insects have evolved to look like jumping spiders, causing the other-wise hunting spider to back off [4].

No that is not an ant.
photo by Wayne Maddison
Used form the Tree of Life Web Project

But female jumping spiders seem to be particularly picky, and it takes more than just bright colors and disguises to woo them. So males, colors flaring, become tiny flamingo dancers, showing females a variety of dancing moves to show off their prowess. And their dancing repertoire is considerable, including running jumps, body sways and all kinds of leg movements [4]. And to take it one step further, the dance is choreographed to a song all their own.

Jumping spiders may not have ears, but, like Beethoven, they make and hear music by feeling vibrations. Using their abdomen, the males grind away, creating a series of impressive beats while they are dancing. They then put the two separate actions together, making quite the show, all in the name of spider love [1]. 



Sources:

[1] http://www.youtube.com/watch?v=sMa9FdNM5io
[2] http://www.tolweb.org/accessory/Jumping_Spider_Vision?acc_id=1946
[3] http://www.everythingabout.net/articles/biology/animals/arthropods/arachnids/spiders/jumping_spider/
[4] http://www.peckhamia.com/hosted/Richman%20Jackson%201992%20A%20review%20of%20the%20ethology%20of%20jumping%20spiders.pdf
[5] http://www.sciencedirect.com/science/article/pii/S0003347296903723

There is also sooo much more I wasn't able to cover so please check out:

• http://www.tolweb.org/tree?group=Salticidae
• http://www.bio.sdsu.edu/pub/spiders/CaHabro.htm

Photo sources: 

• http://lookingcloser.net/
• www.bio.sdsu.edu/pub/spiders/NewFiles/framespg.html
• http://www.tolweb.org/accessory/Salticids_in_Disguise?acc_id=63

Rattlesnake Feeding

The rattlesnake at my work was recently fed, and I was lucky enough to film it. It's not very good quality and I apologize. My voice is the last one making the obvious statement: "I didn't realize it happened that quick!"

Striker the rattlesnake is one of the many animals cared for at Sacramento Splash. As a baby he was taken from the wild and used as a classroom pet (never handled by the children, obviously). Because he has been in an enclosure and around people his whole life he cannot be released. He was donated to Splash last November after the teacher had retired.

But Striker is more than your ordinary rattlesnake, he's famous. You can watch the CBS spot on him here.

I am now a twitterer... tweeter... I am on Twitter

Hello everyday animal followers, I am increasingly realizing that there is way more information about these animals than I can fit into a single post. So I have created a twitter account to talk about what I couldn't fit into the post, updates and news on upcoming posts, and information on biological discoveries that might reach far beyond what you see every day. So come and follow me, and let me know what you think.

Follow my Twitter: twitter.com/everydayanimal

The Bard's Bird: The European Starling

European Starling

A species is invasive when it is introduced to an area or ecosystem where it did not exist before, and it's introduction causes significant harm to the new ecosystem, or to the local human population. And the European starling is most certainly invasive.

Unlike many invasive and alien species, the origins of the European starling's invasion can be pinpointed down to the date, location, and man responsible. New York City in the 19^th century saw the creation of the American Acclimatization Society (AAC), a group dedicated to the transportation and introduction of European species to North America. The effects of invasive species were not known or fully understood at the time, and acclimatization societies were not uncommon. Many conversationalists and naturalists at the time even supported such societies.

Already having had some notable success introducing European species to New York, such as the house finch, the then head of the AAC, Eugene Schieffelin, set out to introduce every bird that was mentioned in the works of Shakespeare to America. A list of more than 600 species.

Though largely unsuccessful, Schieffelin's introduction of 100 starlings from 1890-1891 became infamous. The European starling's numbers now number more than 200 million and their range stretches across the continent from New York to California, and from Alaska to Mexico. All due to one passage from Henry the IV:

“The king forbade my tongue to speak of Mortimer. But I will find him when he is asleep, and in his ear I’ll holler ‘Mortimer!’ Nay I’ll have a starling shall be taught to speak nothing but Mortimer, and give it to him to keep his anger still in motion.”

The passage refers to the starling's remarkable ability to mimic the songs of other birds, and an individual may be able to produce up to 60 distinct mimics. In addition to their mimicry, starlings are incredibly aggressive towards other birds, often driving away native species that are significantly larger than themselves such as wood ducks and northern flickers. Surprisingly however, this small, bullying bird may not be as damaging as it seems. Though out completing several species, such as the eastern bluebird, a recent study found that many North American birds remain unaffected by this invader.

In fact, the starling's impact on humans may be more severe than its impact on native ecosystems. With an appetite for crops, and able to eat a third of their body weight a day, starlings may cause up to $800 million in agricultural damage every year. They are also known as one of the biggest avian concerns to airplanes.

6% of all bird-airplane strikes are associated with starlings or blackbirds (which often flock together) and in 1960 a Lockheed Electra aircraft taking off from Boston International Airport hit a flock of starlings just seconds after take-off. The engines shut down and the plane crashed into the harbor below, killing 62 people on board.

Although they may be a pest to many, the starlings seem to be here to stay. The U.S. government has spent millions of dollars and many years at failed attempts to control or eradicate starling populations. Poison, artificial hawks, and even blasting starling alarm calls from the roof of the White House has done little to slow starling growth. With such failures, it is little surprise that the European Starling is one of only three species of bird that is not protected by the U.S. government. But with a growing population and flocks that can reach over 100,000 individuals, protection isn't something they need.

Sources:

http://www.news.cornell.edu/releases/jan99/species_costs.html

http://ec.europa.eu/environment/nature/invasivealien/docs/1_EN_resume_impact_assesment_part1_v3.pdf

http://www.nytimes.com/1990/09/01/opinion/100-years-of-the-starling.html?src=pm

https://www.scientificamerican.com/article.cfm?id=call-of-the-reviled

http://query.nytimes.com/mem/archive-free/pdf?res=F50912F73B5B137B93C7A8178AD95F438784F9

http://evolutionarythought.wordpress.com/2011/06/08/a-natural-history-lesson-starlings-and-shakespeare/

http://lib.colostate.edu/research/agnic/starlings.html

http://wdfw.wa.gov/living/starlings.html

http://www.allaboutbirds.org/guide/European_Starling/lifehistory

http://bna.birds.cornell.edu/bna/species/048/articles/introduction

http://www.wbu.com/education/starlings.html

http://www.starlingtalk.com/european_starling.htm

http://aviation-safety.net/database/record.php?id=19601004-0

http://icwdm.org/handbook/birds/EuropeanStarlings.asp

The photo above is from: 

http://evolutionarythought.wordpress.com/2011/06/08/a-natural-history-lesson-starlings-and-shakespeare/

Invasion of the Grey Squirrel

Grey squirrels may seem a dime-a-dozen, but some may be rarer than you think.

The all-to-common eastern grey squirrel

Until recently there were only two species of tree squirrel in California: the Douglas squirrel and the western grey squirrel. Then, at the beginning of the 20th century, the eastern grey squirrel and the fox squirrel were introduced and their populations quickly boomed.

 This boom has come at the expense of the native species. The eastern grey squirrel in particular has a remarkable ability to thrive in urban environments. Any grey squirrel you may have seen in a city, a park, or just around the neighborhood, it was assuredly an eastern grey. Western grey squirrels on the other hand, appear to be the introverts of the tree squirrels. They stay away from cities, towns and almost all kinds of human habitation and stick to California's forests. Because of this, they are quickly losing habit to development where eastern grays, fox squirrels, and humans can thrive.

California is not alone in the eastern grey's invasion. The squirrel was introduced to England in the late 19th century and has since run amok throughout the British Isles. From England they have even managed to invade a peninsula of South Africa.

In England the eastern grey squirrel is considered more than just a pest. Rapidly reproducing and severely out-competing the UK's native red squirrel, drastic steps are being taken to cull the rodent and stop it's spread. Among the most drastic of these steps are attempts to make squirrels into a desirable delicacy.

The idea is to get big-name-chefs, such as Jamie Oliver, to endorse eating grey squirrels in England, and some chefs, like Jimmy Doherty, are even jumping on board. Doherty recently suggesting barbecue squirrel as a summer treat. England's government is also pursuing more straightforward methods, such as a massive cull throughout all of England using poisoned bait.

The unfortunately shy western grey squirrel

In California the damage from the eastern grey squirrels may not be as severe yet, but is certainly becoming concerning. While not yet endangered, the western grey squirrel is listed as threatened in Washington and it's populations continue to decline throughout the west coast.

So the next time you see a squirrel in the park or on the street remember that you are looking at more than a cute, furry, arboreal rodent; you are looking at an invader. And a damn good one too.




Sources:

http://instructional1.calstatela.edu/amuchli/squirrelform.htm
http://home.intekom.com/ecotravel/Guides/Wildlife/Vertebrates/Mammals/Smaller/Grey_Squirrel.htm
http://www.dnr.state.oh.us/tabid/6646/Default.aspx
http://extension.oregonstate.edu/catalog/pdf/ec/ec1572.pdf
http://news.bbc.co.uk/2/hi/uk_news/politics/4835690.stm
http://www.treehugger.com/culture/eat-the-enemy-invasive-squirrel-introduced-as-ethical-food-in-uk-butcher-shops.html
http://www.telegraph.co.uk/foodanddrink/9438410/Jimmy-Doherty-Jamie-Olivers-mate-says-barbecue-grey-squirrel-this-summer.html

Both photos were taken from: http://wdfw.wa.gov/conservation/gray_squirrel/

The Infamous Flea

Adult Cat Flea

The flea has long had a bad reputation. But, unlike many other "pests" I have talked about, the reputation of the flea is arguably deserved.

A common parasite throughout the world,  fleas feed on the blood of their victims; the vast majority of which are mammals, though several species are also known to feed on birds. But they started out feeding on reptiles.

Survivors since the Jurassic, ancestral "giant fleas," probably didn't feed on the small mammals of the time, but rather on warm-blooded, feathered dinosaurs. Only later did they begin to find our ancient ancestors appealing and develop a taste for mammal blood.

And they have been a burden for mammals ever since. As many parasites are, fleas are vectors (transmitters) of diseases like tapeworms and most famously, the bubonic plague. In Europe during the 14th century, the plague, or "black death," devastated the continent's population. Estimates range from one-third, to half of all of Europe died at the hands of the the plague bacteria: Yersinia pestis; A parasite transmitted to Europe by fleas riding on rats from Asia.

A wingless insect, the flea gets around and from hosts to host with its impressive jumping ability. Like Superman, before his writers gave him the cheap ability to fly, fleas can jump over 150 times their own body height. For a 6 foot tall male, that would be equivalent to jumping 900 feet high; almost enough to jump over two Great Pyramids of Giza stacked on top of each other.

There are thousands of different species of flea throughout the world, but the most commonly encountered in North America is the cat flea: Ctenocephalides felis. Despite its name, the cat flea common on both cats and dogs. The good news about this species is that they like your pets, Not you. The cat flea cannot subsist on human blood alone, or at least not without some effort. Given enough time on a human host, an adult may be able to produce viable eggs, but this is rare to say the least.

The bad news is that just because they can't survive on you, doesn't seem to stop them from trying. Humans will often get bit when young fleas leap onto them from the person's pet or carpet. Seasoned adults seem to stick to one host for their entire life, so be warned: If you are getting bit, it means they are multiplying.

Flea larva are identifiable as small, white, hairy worms. Though the eggs are laid on the host pet, they are usually shaken off onto the ground or carpet. Then they hatch. The small white larva luckily do not feed on the blood of unsuspecting victims like their parents, but instead on carpeting or fallen organic material. Soon enough the larva wrap themselves into a cocoon, and wait. And wait. And wait.

Once the larva are fully formed, fleas can go for months without feeding. In their cocoons, fleas can sense the vibrations of an approaching victim, or can  just the carbon dioxide animals breath out, and they time their emergence accordingly. Inexperienced and hungry, the newly emerged fleas will leap for the first warm-blooded creature they sense. Though they will ultimately decide that your feline or canine companions make for better meals, many people suffer from the initial attack. This leaping from the carpet to the host leads to the ankle-bites that many people experience. If bitten, a flea bite should be fairly identifiable. Red, itchy and swollen, the pattern of bites often comes in groupings of three; the disturbing, but aptly named "breakfast, lunch, and dinner configuration."

Sources:
http://www.nature.com/nature/journal/v483/n7388/full/nature10839.html
http://news.bbc.co.uk/2/hi/health/1576875.stm
http://www.abc.net.au/science/articles/2008/01/29/2149185.htm
http://science.howstuffworks.com/zoology/insects-arachnids/flea.htm
http://www.pestworldforkids.org/fleas.html
http://www.ipm.ucdavis.edu/PMG/PESTNOTES/pn7419.html
http://extension.entm.purdue.edu/publichealth/insects/flea.html
http://www.jstor.org/discover/10.2307/2845085?uid=3739560&uid=2&uid=4&uid=3739256&sid=21101615905371
http://delusion.ucdavis.edu/fleas.html

Photo by Ralph Williams at Purdue University.
Photo Source: http://extension.entm.purdue.edu/publichealth/insects/flea.html