Swamp Stomp

Volume 18 Issue 32

Forty-five years ago, Stephen Kress had a goal: restore Atlantic puffins to the Gulf of Maine. While many believed that nature should be left to “take its course,” Kress devoted his life to making this goal a reality. Through the creation of the National Audubon Society’s Project Puffin, Kress was able to restore more than 1000 nesting pairs to three Maine islands and earn the title, “The Puffin Man.”

Island stewards, also called “Puffineers,” are the backbone of Project Puffin. These interns live on Eastern Egg Rock, one of the Maine islands where puffins have been restored. During the breeding season, they record details on the puffins and their behaviors. The island stewards live minimally during the 10 weeks from June to August in tents, with food and water brought to the island every two weeks. Their work has been critical to not only re-establishing Atlantic puffins to their former nesting places but also in providing data on climate change. The warming Gulf of Maine, which has warmed faster than any place on Earth except for an area northeast of Japan, has caused a change in the diets of puffins. For instance, haddock was never part of puffins’ diets prior to 2010. But in 2017, haddock made up 14% of puffin chicks’ diets on Seal Rock and 6% of their diets on Eastern Egg Rock. The warmer water has caused fish like haddock to move from their more southern environments to northern environments like the Gulf of Maine. Not only does this affect the diets of puffins, but it affects the prior and current ecosystems of the haddock. More haddock in the Gulf of Maine means more competition for the fish that already live there, which could be a serious problem for these fish populations. Moreover, the data that has been amassed over four decades on this by these island stewards is instrumental in understanding the effects of climate change.

Project Puffin is so much more than data, however, to the interns that work on Eastern Egg Rock. Project Puffin has not only given Atlantic puffin populations a second chance, but it has also opened up opportunities that have shaped the lives of the interns involved. Kevin Bell helped bring puffins from Newfoundland to Eastern Egg Rock in 1975, and today he is the CEO of Chicago’s Lincoln Park Zoo. Nicole Faber, who has been working on Eastern Egg Rock for three summers says, “It’s incredible to live at the pace of another species. We’re following the birds and what they do. It’s not something you normally do in life. There are so many things we are shut off from, but we have to respond to the birds. It’s a good thing. You have to be OK sitting with yourself in your own brain.”

In more ways than one, Project Puffin is a story of success. Stephen Kress reinvented the future of the Atlantic puffin whilst furthering the passion so many have for protecting our planet.

Sources:

Fleming, Deirdre. “Atlantic puffin colony soars again, but only with the help of some humans.” Portland Press Herald. Portland Press Herald. July 22, 2018. Web. August 1, 2018.

“Project Puffin Story.” Audubon. Audubon Project Puffin. N.d. Web. August 1, 2018.

 

Swamp Stomp

WM

Volume 18 Issue 31

Many people in the United States believe that hydraulic fracturing, better known as “fracking” is a relatively new technique used to help extract oil and gas trapped in layers far below the Earth’s surface. For the most part, they are correct. Modern fracking used in combination with horizontal drilling was only introduced in the 1990’s and with great success. But the history of fracking has a much longer and richer history that can trace its roots back to the 1860’s and the Civil War.

Back in 1862, Lt. Col. Edward A. L. Roberts, a Lieutenant Colonel of the 28th New Jersey Volunteers, had the idea of opening underground oil-bearing cracks and crevices by the introduction of explosives. He eventually received one of many patents on a device he called the “exploding torpedo”. In his process, a long, thin, iron tube packed with black powder was lowered into a borehole. It was then back-filled with water to concentrate the explosive force downwards and detonated. Production in some wells improved by more than 1200%!

Through the years this technique continued to be successfully used and improved upon with further increases in production. Then in 1947, the first use of hydraulic fracturing, the introduction of pressurized fluids, was demonstrated in an oil field in Kansas, where 1000 gallons of napalm were injected into a limestone formation. There was little increase in production at the time, but this modest beginning led to further work with different materials and techniques and within a decade, 30% increases in oil production and 90% increases in natural gas production were common.

Then, in the 1980’s, companies began experimenting with combining the fracturing process with horizontal drilling techniques and by the 90’s modern fracking began to thrive. Previously unproductive wells were now producing and new formations, up until now, mostly inaccessible, began to produce in abundance. Some of the more notable formations are the great Bakken oil shale fields of the northern US and Canada and the Marcellus and Utica formations in the East. The USGS estimated the recoverable oil in the Bakken to be 3 to 4 billion barrels and possibly up to 7.4 billion barrels of yet to be discovered oil and more than 6.7 trillion cubic feet of natural gas. In the east, a new report by the Colorado School of Mines’ Potential Gas Committee (PGC) finds the Atlantic region — which includes the Marcellus and Utica shales — has the most promising natural gas potential in the country at more than 1,047 trillion cubic feet!

So, why do we need “Re-fracking”? Re-fracking is the practice of returning to older shale oil and gas wells that had been fracked in the recent past to capitalize on newer, more effective extraction technology. Re-fracking can be effective on especially tight deposits – where the shale produces low yields – to expand their productivity and extend their life. Wells sunk as little as three years ago and fracked until yields fell too low to be worthwhile are now being re-fracked. With wells costing many millions of dollars to drill and complete, it makes sense to return to see if new technology can extend their life. Most re-fracking success has been with vertical wells but an increasing number of horizontal wells show great promise. According to an analysis by the Los Alamos National Laboratory, on average just 13% of the gas from any given US shale is recovered. The potential for re-stimulating existing wells is therefore huge.

It is believed that over 90% of existing wells have undergone some form of fracking. Though there are health and safety concerns involving fracking, it is hard to argue with the results. Because of fracking, the United States has moved from a net oil-importing country, back to a net oil-exporting country. A recent concern, at least for natural gas, is that overproduction has lowered the price of natural gas to historical lows. While good for the consumer, it is not necessarily good for the producers who have had to cap off existing new wells due to oversupply (along with the inadequate infrastructure to get the gas where it is needed most.) The fact that fracking is now such an efficient process has allowed companies to continue to make money despite the abundance of natural gas in the marketplace.

There is no doubt that fracking and re-fracking are tremendous tools that will continue to benefit our country and the companies that produce our oil and gas. At least for the present, we can’t do without them. Let us hope that in our effort to become energy independent that we are mindful of the negative effects of this technology as well, and not sacrifice the health and safety of our nation’s people or our beautiful country from which we harvest these products. Do you think the pros of fracking out way the cons? Please comment below.

Sources:

https://web.archive.org/web/20121114205741/http://www.spe.org/jpt/print/archives/2010/12/10Hydraulic.pdf Hydraulic Fracturing, History of an Enduring Technology, By Carl T. Montgomery and Michael B Smith, 2010
https://aoghs.org/technology/hydraulic-fracturing/ Shooters – A “Fracking” History, By Bruce and Kris Wells, 2016, updated in 2017

https://www.businessinsider.com/the-history-of-fracking-2015-4 The origin of fracking actually dates back to the Civil War, By John Manfreda, OilPrice.com 2015

https://www.fool.com/investing/general/2015/08/24/refracking-could-be-huge-if-oil-stays-lower-for-lo.aspx, Refracking Could Be Huge If Oil Stays Lower for Longer, By Matthew DiLallo, 2015

https://physicstoday.scitation.org/doi/full/10.1063/PT.3.3761 Refracturing may not be all it’s cracked up to be, By David Kramer, November 2017

https://www.forbes.com/sites/judeclemente/2017/09/24/why-u-s-natural-gas-prices-will-remain-low/#2775e2ed3783 Why U.S. Natural Gas Prices Will Remain Low, By Jude Clemente, 2017

https://www.energyindepth.org/infrastructure-key-marcellus-utica-shales-realizing-enormous-potential/ Infrastructure Key to Marcellus and Utica Shales Realizing Enormous Potential, By Jackie Stewart 2017

Swamp Stomp

Volume 18 Issue 29

The banning of plastic straws has been a topic discussed frequently in environmental circles. As of July 1st, this became not just a topic for discussion, but a reality for Seattle, Washington, which is now the largest city in the United States that has banned the use of plastic straws. This may seem like a simple act, but it has had major effects on companies and people around the country, for better and for worse.

The ban on plastic straws may be a major win for the environment. Zoos around the country have been encouraging visitors to say no to straws, and some have even had bans on straws for years. This comes from the realization that plastic straws are a major contributor to the enormous amount of waste that finds its way our oceans. One study found that 8.3 billions of plastic straws have made their way to beaches around the world. Another study found that plastic straws make up 7 percent of America’s total plastic waste. By eliminating plastic straws from the trash we create, we really are doing the environment a great favor. However, this ban is not as simple as it sounds.

Restaurant chains such as Starbucks and McDonalds have promised their customers that plastic straws will no longer exist in their stores in the coming years. While this is great news for the environment, as these stores serve billions of customers, this is terrible news for people with disabilities. Many people have disabilities such that their jaws are not strong enough to drink without a straw, perhaps they cannot lift their heads the right way to drink without a straw, or they have are unable to use their hands to hold a cup in any way. Taking away straws takes away their ability to drink anything at all. Some supporters of banning plastic straws have considered this and suggested that these people may be able to use metal or paper straws instead of plastic straws. While this is a solution for some, others need the flexibility of a plastic straw. Dianne Laurine, a Seattle resident who has cerebral palsy, admits that plastic straws were truly life-changing. Her caretaker, Bill Reeves, states that before plastic straws there were rubber straws and these, “ended up being disgusting, and hard to clean.”

So, what is the solution? Should we ban plastic straws to save the oceans from tons of waste at the expense of a portion of our population? Or should we just ignore this topic altogether in order to reduce the burden on people with disabilities? The key to the solution may be to at least limit their use whenever possible. Banning plastic straws completely may not be the solution, but encouraging those who can, to skip using straws may help. Plastic straws are an easy piece of trash to remove if you are able to drink without one, which is why this movement has become so popular. However, there are many other plastic items that could also be removed from the trash we accumulate. Plastic bottle caps, for instance, account for 17% of America’s plastic trash, 10% more than plastic straws. By skipping drinks that come in plastic bottles, an even greater amount of trash can be reduced. Darby Hoover, a senior resource specialist for the Natural Resources Defense Council, states, “The key is breaking habits. Is something a habit because you truly need it or because you got used to doing it that way?” For some, plastic straws may simply a wasteful habit that can be changed and benefit our environment at the same time.

Sources:

Gibbens, Sarah. “A Brief History of How Plastic Straws Took Over the World.” National Geographic. National Geographic. July 6, 2018. Web. July 11, 2018.

Godoy, Maria, and Danovich, Tove. “Why People with Disabilities Want the Ban on Plastic Straws to Be More Flexible.” NPR. NPR. July 11, 2018. Web. July 11, 2018.

Swamp Stomp

Volume 18, Issue 27

Happy Independence Day | 2018

Swamp Stomp

Volume 18, Issue 25

The extinction of the dinosaurs has been a mystery that has gripped the attention of people of all ages, from children with plastic dinosaur figurines to adults eagerly awaiting the release of the next Jurassic Park film. Recently, scientists have uncovered some clues that may help lead to obtaining the full story of how the dinosaurs went extinct, but these clues lie in a much more familiar animal than dinosaurs: birds.

Birds trace their ancestry all the way back to the dinosaurs. Many, including chickens, can trace their ancestry to a specific species of dinosaur, Archaeopteryx. Scientists have now begun to classify birds as being related to either ancient ground-dwelling or tree-dwelling species. They also discovered that the tree-dwelling birds, discovered via fossils, all became extinct due to the asteroid that killed the other dinosaurs 66 million years ago. In other words, all the birds that we see outside today, from cardinals to penguins, can be traced back to only ancient ground-dwelling birds. What does this tell us about the mass-extinction event that killed the dinosaurs? It also killed all the trees!

This deforestation is further confirmed by the species of ferns that exist today. Paleobotanist Antoine Bercovici of the Smithsonian National Museum of Natural History in Washington, DC studied the spores and pollen of ferns found in rock layers that formed in the years after the asteroid impact. He discovered that all these ferns could be traced back to only two species of ferns. This indicated that there was a mass extinction of ferns species, resulting in rapid recolonizing by the two surviving species of ferns. Bercovici says this is seen today as well “when ferns recolonize lava flows in Hawaii or landslides after volcanic eruptions.”

This new evidence may seem small, but it is another piece in the giant puzzle that is the extinction of the dinosaurs. Scientists may now know why tree-dwelling birds living in the Cretaceous period died after the asteroid hit, but they still cannot explain why certain species of ground-dwelling ancient birds also died in this event. Scientists are excited to continue piecing together the evidence that will one day, completely answer the question, “What really happened when the dinosaurs went extinct?”

Sources:

Pickrell, John. “How did Dino-Era Birds Survive the Asteroid Apocalypse?” National Geographic. National Geographic. May 24, 2018. Web. May 30, 2018.