This is going to be a different blog post than what you usually read, and it’s also the first one I’ve ever written. I hope you enjoy it!
My name is Ciera Edison and I am currently an undergraduate in the department of Fisheries and Wildlife at Oregon State University. But I’m going to rewind a bit. From a very young age I was obsessed with marine mammals. At eight years old my parents took me to SeaWorld where my future was decided. I knew from the moment I walked into that facility that I wanted a job with marine mammals. When I came back to Washington after that trip, I was a changed kid. I started doing research to see what my impact on the environment was, and wanted to do everything in my power to help minimize it. Over the next ten years, before heading off to college, I spent time volunteering at the Seattle Aquarium, PAWS wildlife rehabilitation center, beach naturalist programs, and multiple beach clean ups. I did anything to get closer to my favorite animals and help spread the word about human impacts. The Fisheries and Wildlife department was the perfect fit for me. The past three years have only solidified my dream, my passion, my desire to become a marine mammal biologist.
Simply taking classes was not enough for me. I became a volunteer mammologist at the Oregon Coast Aquarium and even president of The Fisheries and Wildlife Club. But going into my senior year (WOO!) I wanted to do more. The department offers a Mentor-Mentee program that allows students to work with grad students on their research. Obviously, I have no problem with volunteering my time which is why I contacted ORCAA Lab Ph.D. student Selene Fregosi. I was thrilled to hear back from her that she not only welcomed my help with her data, but was willing to act as my supervisor for research credits.
To assist in her research, I spend about 9 hours a week (usually more) running programs and recording any noises that I hear. Through this data processing my goal is to identify not only the species present in the Catalina Basin, but how often they are there (looking at it hour by hour). My inner child came out when I heard my first blue whale, then humpbacks, and even more when I heard sea lions barking (SEA LIONS, something we were not expecting at all)! Every day when I get done with my work the first thing my friends and family ask is “What did you hear today?!” Since January, I have been like a sponge soaking up everything I can. I have gone through ups and downs this term (my computer loves to crash on me while I’m in the middle of logging data), but overall I have thoroughly enjoyed my time. What more could I ask for!
I am continuing this research through spring term where I will be presenting at RAFWE and writing my first research paper (maybe I can even get it published)! I hope to post again during spring term to share with you guys what I found.
For now, here is a spectrogram of the sea lion vocalizations! When you listen to this, it really sounds like they are barking. Pretty neat stuff!
<img class=”alignnone size-full wp-image-1824″ src=”https://mfournet.files.wordpress.com/2016/08/img_1169.jpg” alt=”IMG_1169″ width=”5184″ height=”3456″ />What is 5 1/2 feet long, weighs 135 pounds, and isn’t an intern? My favorite odontocete: <i>Phocoena phocoena</i>, the harbor porpoise.
Due to their vessel aversion they are slightly hard to study, and their distribution, population structure, and acoustic behavior in the Park is still largely unknown. Harbor porpoise, while not an endangered species, are very susceptible to disturbance from noise. I’m not personally studying the impact of noise on these graceful creatures here in the park, but I am encouraging my team to come up with some creative study ideas.
While deterred by motorized vessels, harbor porpoise don’t appear to be disturbed by kayaks. These lovely animals often swim within meters of us when we survey on the water. Their vocalizations are too high frequency for our hydrophones to pick up, but I can’t help but wonder if they’re echolocating our equipment.
This summer I spent a long time underwater. Not only for work, not just for fun. For debriefing and peace of mind. The last couple of months, swimming has been my way of being with myself and thinking freely about life, cheese, and sperm whales. While performing long dives down to a few meters of depth, I have been thinking about the sperm whales’ amazing ability to dive so deep and for so long.
Even though marine mammals breathe air, just like us, some species are able to keep their breath underwater for longer than two hours and others can go down to 3 Km deep!
How do they do it?
I do not do scuba diving anymore and I am happy that I do not have to tolerate the suffocating, funky smelling, and how-do-I-get–out-of-this wet-suit. I love keeping my eyes wide open where the seawater is clear enough to make the use of mask or goggles unnecessary. This way I feel like a natural part of the mysterious sea world. The indescribable sensation of flying underwater can only be compared with a couple other feelings. Nevertheless, I admit to struggle, like any other human, with a couple of issues.
*Not A Human
Pressure, oxygen and temperature limit my expanding politics while in this wet world.
You have certainly noticed that the deeper you go in the sea the higher the pressure. Specifically, the pressure by the water to any object is called hydrostatic and increases by 14.5 pounds per square inch (psi) (=1 atmosphere) every 10m you dive deeper. You can quickly feel this pressure in your eardrums once you are 3-4 meters deep. Can you even imagine the pressure down at 2000 m?! Let me help you. It is estimated that at that depth the weight of the water becomes as heavy as two baby elephants (~200Kg) balancing on a postage stamp. If you have ever seen the squished styrofoam cups that return from our visits to 1500m with submergence vehicles, now you know what happened to them. It wasn’t exactly an elephant that sat on them but close…
Results from hitchhiking on a CTD.
The decrease of water temperature as I dive down is also a limitation. Luckily, all the cheese consumption I have been persistently investing on has helped me create this fine layer of fat tissue that makes me unbeatable to the cool (Mediterranean) water temperatures for long periods. Fortunately for human life, my fatty layer is thin enough, but unfortunately insufficient for whale depths.
While I move deeper into the darkness of the ocean there are more obstacles to encounter. Despite my healthy lifestyle, I am in need of oxygen less than a minute after I submerge myself. My lungs can only store a certain amount of air (probably a bit less than 5 liters) dependent on my age, physical size (consequently my lung size), and my fitness state. Even though I exercise a lot, I do not smoke, and I am tall, still my lung capacity does not allow me to stay underwater for as long as I desire. Specifically, no more than about 40 seconds. My body requires fuels for my brain and internal organs during a dive to the abyss. Or even, down to 7 meters and back.
Well it is actually not that bad, if you think that we can keep our breath for longer underwater than on air pressure. While submerged in cold water, instinctively decreases our heart rate and metabolism for saving up oxygen. Marine mammals use the same trick. The best example is the Weddell seals; during their deep dives their heart rate decreases down to four beats/minute!
“Haven’t felt my heart for 15 sec. I am worried.”
Whales have managed to succeed on everything that I suck at (besides slack line).
First of all the fat. They have a thick layer of fatty tissue under their skin, called blubber. It functions as the best thermoisolating material. Keeps their body temperature from dropping dramatically when the environmental temperature falls under what they can tolerate. See, fat is good. Go on, have that piece of brie.
Sperm whales and beaked whales do not crack under great pressure, as humans literally, and often metaphorically, do. In contrast, they thrive where the conditions are unbearable for other whale species. They have adapted in the extreme conditions of the deep seas and that pays them off with food. It gives them access to the bathypelagic squid to fill their demanding bellies. It resembles an all-you can-eat buffet where you are the only client.
Any psychological boosting, power phrases, meditation, or confidence injections prove to be useless towards their achievements. What helps them instead, is primarily their flexibility. Their rib cage can fold in to avoid crushing from the high pressure. Both the rib cage and lungs collapse every time the animal dives 2 Km down and then recover when it comes back at the surface. If you thought your routine is tough, now you may reconsider.
It is easy to understand how that works by the following image.
Ouch
In practice though, the sperm whale in action does not show any indications of being collapsed at great depths. Its skin and the whole body look smooth and perfectly well shaped without any evident ruptures or deformations. Yeah, there is proof of that. A lucky NOAA group incidentally captured a sperm whale on camera while sampling with an ROV (Remotely Operated Vehicle) at 600m depth. Check their reactions, surprised indeed.
These deep divers are known to remove the 90% of air from their body, by exhaling it before the dive, to be easier to simply sink down, dealing this way with buoyancy issues. Footage has proven that some marine mammals hardly move while they sink. They gently slide into the water, heads down, without even moving a muscle. You can imagine how much oxygen the muscles would require to move that giant tail…
For the same conserving purpose, marine mammals choose to “unplug” some of their internal organs and functions that are not vital during their long journey to the sea bottom. Who needs digestion, liver and kidneys while hunting…?!
However, they still need oxygen while down deep. They need to move around for chasing that yummy squid and their muscles require oxygen for that. Their well-hidden secret lays in their blood; they have what I call the super blood. They have a higher percentage of red blood cells where oxygen is stored, and a higher blood to body volume ratio that gives them extra storage. On top of that, there is the myoglobin. Ta-ta!
One unusual word for human, a tremendous offer for beaked whales!
Myoglobin, such a mouth filling word, is a protein in the animals’ muscles that stores oxygen and is responsible for making active muscles look red and sometimes even black. For the diving animals, myoglobin is 10 times more concentrated than in human. Too much of this protein could cause health implications to people mainly because of low viscosity, causing clogging and sticking together. A recent scientific discovery showed that in beaked whales, this crazy amount of myoglobin is functioning because it is positively charged. According to the laws of attraction (opposites attract and likes repel) the myoglobin particles manage to keep from sticking with each other and any circulation clogging is avoided.
I would be happy to announce that the sperm whales are the Kings of the Abyss. Yeah, that would give me immense satisfaction. However, beaked whales beat them to that. They get down to almost 3000 meters, about 1000m deeper than the Kings of my Heart do. They win, not only more of that elusive squid, and our admiration, but also the highest levels of myoglobin.
At these great depths, where any kind of light can only be bioluminescence produced by fish or other invertebrates, the sperm and beaked whales use their spectacular biosonars to “see”, making the deep oceans into Operas of Clicks. They are the Divas of the Deep for a reason.
If you want to learn 80 sec more about underwater fireworks (bioluminescence) don’t miss this video.
To return where I started from, I am going to take you for a swim. Not just a usual swim in the clear, turquoise, crystal calm, and safe Aegean Sea. We are going night swimming. The whole sea is dark and the whales cannot even see their own tails; we struggle to see if any swimming suits are on. The water is dark as the night. A starry night. Swimming at a beach on the western part of the island of Lesvos (home of the Department of Marine Sciences of the University of the Aegean), we feel like Divas while playing with the underwater stars. Every little movement causes the water to sparkle, and produces hundreds of tiny shiny tails just like shooting stars. Little planktonic organisms almost invisible to bare eye, produce bioluminescence when excited and make our experience exciting. Truly magical!
The pleasure from working during the summer is certainly underestimated.
You can ask any student from our ORCAA Lab to confirm. Michelle currently sleeps next to breathing/breaching humpbacks in Alaska; Samara was surveying on a grandiose NOAA vessel doing the infamous turtle rodeos; Selene is preparing for a Californian whale tagging survey-cutting edge marine mammal work; Danielle is enjoying the process of fulfilling and submitting a publication after having spent months with cute little singing frogs.
However, I do admit that not everyone’s summer work can be as XXX (exotic, exciting, exquisite) as a marine scientist’s / bioacoustician’s can. Fortunately, the seas and the oceans of the world remain largely unexplored waiting for us to discover during our summer expeditions.
Adventure is clearly, what a scientist is after. In my case, the adventure starts on a boat while on a dolphin/whale quest, looking for marine life, reading the weather and the surface of the sea, translating the animals’ behavior or the sounds they make, getting the right shot of the dorsal fin or the fluke. However, excitement can also be derived while in the lab, from a simple statistical analysis. There is a certain type of agony during the testing of a model and while anticipating different relationships between variables measured and observed, or estimating population sizes.
Part 1
My summer 2015 adventure takes place in the island of Zakynthos, in Greece.
Close to the (Greek) West Coast
Unlike last year, the Ionian Sea has been the setting for my 2015 fieldwork. The Ionian embraces the western part of Greece, is a sea that is shared with Italy, and is home to the group of islands called Eptanisa (=SevenIslands). Corfu, Lefkada, Kefalonia, Zakynthos, Paksoi, Kythira, Ithaki, are the biggest jewels laid on the clear turquoise waters of the Ionian. Green themselves, the islands are covered with luscious pine forests and are a spectacular destination for every yachtsman (or sea-camper) that respects himself.
Zakynthos, where my story sets, is the favorite hatchery for the Mediterranean loggerhead sea turtle. More than 1200 sea turtle nests are found and monitored every summer around the beaches of Laganas Bay. The mother turtles, just like the hordes of tourists, love the long and wide, white fine-sand beaches and lay there their eggs. Since this area is of high ecological importance for this endangered species, the last 16 years, at this corner of the world it was established the National Marine Park of Zakynthos for the conservation of this living “dinosaur” species (sea turtles first appeared 180 million years ago while dinosaurs were still alive).
First fossil of a sea turtle (Archelon ischyros) 4.5 m long, found in N. Dakota, exhibited in the Yale Peabody Museum, Yale University
Oh sea turtles! They have been my very first marine-species-love (first loves never die) and I spent several years working on the conservation of these animals. It has been heart-warming to meet them again.
Besides the sea turtle population status, the Marine Park, the governmental body that manages the protected area, is interested in assessing the status of all marine life within this habitat. Thus, they funded a big study that encompasses the benthic communities, fisheries, megafauna, water quality, shore erosion and the monitoring of all the factors that determine the conservation status of a marine area.
Together with a splendid team from the University of the Aegean and the Department of Marine Science, we designed and implemented a field study to assess the conservation status of the cetacean species encountered within and around the Marine Protected Area (MPA).
Meet the team
The project manager, with whom we designed the fieldwork, is Vasilis Trygonis. Vasilis has a mighty mind and organizing skills that made the project happen against all odds. Vasilis is an engineer that can get into anything and fix everything that requires fixing. Such a pleasure to work with this inspiring mind.
Vasilis
Our skillful captain, Olympos Andreadis, comes from the island of Chios, a place that produces the finest Captains in the world. Olympos flew us on the waves and elegantly drove us close to the dolphins. He would also provid a surprising amount of snacks while at sea!
Captain Olympos
Sevi Kapota, our MSc student, field assistant, and dolphin enthusiast contributed with her bright character and her excellent data entry qualities. On top of her photography abilities.
Sevi and her pretty smile
The captain came with his vessel. We had a small zodiac that typically hosted four people and equipment. By equipment, I mean loads of water and snacks, sunscreens, hats, sunglasses, four different cameras, binos, GPSs, data loggers, and 2 sets of hydrophones.
We spent a week at Zakynthos. The warmest week of history. At least my history.
Our days would start while it was still night. The alarm was going off at 5 am and we were on the boat by 6 am. While the sun was not yet up the sky, burning our skin and dazzling our minds. Besides being cooler, during the early morning hours, the sea tended to be calmer and welcoming to our objectives. We had a natural and obligatory 2 pm threshold at sea. A local northwesterly wind would force us out of the water as soon as the sun was unbearable. Thank you God Poseidon!
For our visual surveys, we split the horizon in two and the visual observers shared a view of 180 degrees. During every dolphin encounter we would record in detail: the group consistency, the number of individuals and species, behavior, group direction and speed, and demographic info.
With Eva, our visual observer guest star. Last day smiles
At the same time we also practiced our auditory ability with the marvelous (and my personal very favorite) technology of dipping hydrophones. We would systematically stop the boat, turn the engines off, throw the hydrophone into the water and listen to the deep blue. Sometimes dolphin voices would reach my ears in forms of whistles and clicks. We often used this method as a trustworthy alarm that what we are seeking is not too far away.
Me on duty
In the meanwhile we were also recording the weather conditions (cloud cover, sea state, wave and swell height, wind speed, glare, etc) once per hour, or every time the weather would change, since it’s a factor that affects our ability to visually detect the animals in certain distances. On top of that, we implemented a fine scale recording of all anthropogenic pressures to the environment such as litter, fisheries and shipping activity, oil or other kind of pollution, and anything that could be a threat to marine life.
In contrast to what people had previously told us we had several sightings and acoustic recordings of big groups of dolphins. Striped dolphins seem to surround the deeper offshore MPA. Also they surrounded our boat dozens of times to show off their acrobatic skills and their radiant elegance. Every sighting was a joy for the eye and the soul and enriched our knowledge for the cetacean presence in that area.
One of our aquatic new friends
Besides the boat surveys we deployed two bottom moored hydrophones in distinct habitats within the MPA. These hydrophones will be continuously recording for a few months and we hope that the acoustic data will give us a better idea of the variability of the dolphins’ presence around the specific locations. Fingers crossed for the equipment to wait for us where we deployed it!
During one of the deployments, while exploring the underwater topography, a loggerhead sea turtle swam with us checking out our interference with her home. She approved of the hydrophone and swam away on her jellyfish-quest!
Part 2
Now the fieldwork is paused, until probably September, and I am stranded at the island of Serifos visiting my family and rethinking heat waves. I am finding the best office I could ever have without walls suffocating me. Sand on my feet, sea in my eyes, and deafening cicadas filling my ears. The ultimate inspiration for my research, my work and my professional motivations.
Summer office
One does not come to the sea for niceness. One comes for life.
Between traveling to Alaska with Michelle and wrapping up spring term, this summer snuck up on me. A week after turning in my statistics final (yay!) I was on a plane headed to Boston. After a happy and relaxing weekend spent reuniting with friends on Cape Cod, I headed to Newport, RI (so many Newports!) to board the NOAA ship Henry Bigelow for an exciting stint chasing turtles by day and recording whales by night. Of course, the best-laid plans do not always work out and while all of the other typical delays seem to be under control (the boat works and the crew is healthy), the weird weather saga of southern New England continues and multi-state tornado warnings are keeping us alongside a little bit longer.
The NOAA ship Henry B. Bigelow!
The first reason we are headed out on the Bigelow is to tag sea turtles. Chief scientist, Dr. Heather Haas, and her colleagues are interested in finding out how accurate visual surveys are in tracking numbers of sea turtles. To find out, we the science crew will work together to find as many sea turtles as we can and bring them aboard to get outfitted with satellite tags. Hopefully, the tags will give us information about how much time sea turtles spend at the surface (versus at below it) and that information can be used to better approximate population sizes. But that isn’t really why I am onboard.
I am here as a passive acoustics monitor, operating the Northeast Fisheries Science Center acoustic group’s towed array. Our towed array is a series of 6 mid-frequency and 2 high-frequency hydrophones wired together and suspended in an oil filled watertight tube that we drag behind the boat to listen to marine mammals in real-time. Becuase there are multiple components in the array we can use it to record and localize animals as we travel along a track line. If you want to know more about hydrophone arrays, Michelle Weirathmueller has an excellent write-up on her blog, The Waveform Diary. Check it out here: Hydrophone arrays, FTW!
Our array set-up ready for deployment. The array is coiled on the wooden spool and tow cable is on the net reel.
On this cruise, my friend Annamaria and I will be working with the array at night when it is too dark to search for turtles. We are hoping to record beaked and sperm whales. Since we did not leave the dock today, we were lucky to have a stable platform to get set-up. Becuase a lot of electronics are required for us to an acoustic signal from an animal onto our computer screen, we usually spend the first day at sea troubleshooting…
One of my first projects of the day was to figure out why one of the two hydrophones I was trying to listen to wasn’t working correctly. As usual, the solution is to re-think our wiring set-up. Here I am looking for the connector I need.I was having trouble finding the right part so I decided to take a break and eat some candy dinosaurs. On the left monitor, you can see that the top half of the screen is blank…not what I wanted to see. Luckily I was eventually able to find the part I needed to fix the problem.
Thankfully we worked out a lot of technological kinks today and hopefully the weather will clear up and we will be on our way to find the turtles and whales tomorrow morning!
Modeling my survival suit during safety drills this afternoon.
(What marine mammals have to do with gas exploration and how can you help?)
Biking is cool for so many reasons.
Besides all the personal benefits, mainly related to health advantages and financial savings, there is also an immense ecological value to it. Since bikes run on fat (of the person that rides them) instead of oil, it has zero emissions of CO2 to the atmosphere, hence reduces one’s carbon footprint to the planet. In addition, it directly diminishes the road kills and helps save the animals. Interestingly, the choice of being on two wheels than four it does not only protect the four-legged friends of ours but also the no-legged, big brained, wet and mysterious marine friends of ours: the whales! Feel free to find this slightly overstretched but bear with me and I will unfold this connection for you.
Biking works without consuming fossil fuels and for this reason it can affect procedures and the market of oil and gas operations. In contrast to what some people believe, our everyday choices and behaviors can actually change/save the world.
You are more influential than you think
If you care, you can actively contribute to fossil fuel consumption and affect the correspondent impacts. Besides the joy of biking, this is the focus of this post: you save money on fuel and save the earth from having its intestines removed.
Oil makes the world go round
It has been estimated that about 130 billion tons of crude oil have been extracted from the ground since commercial drilling began (1870). According to the Institute of Mechanical Engineers, there are still 1.3 trillion barrels (1 barrel~160 liters) of oil reserve left in the world’s major fields (Saudi Arabia, Iraq, The United Arab Emirates, Kuwait, Iran) which at present rates of consumption should last about 40 years. Humanity has managed to use in just about 150 years a resource that took probably up to millions of years to form! About half of this amount has been consumed in the last 25 years.
Wait a minute, how old are you. Hmmm, did you do it?
Needless to say that the oil deposits are not distributed homogeneously around the world. Also remember that are not consumed equally by everyone either. The world’s 2/3 of the remaining oil deposits are, as you correctly guessed, in the Middle East. The United States has only 4% of the world reserves but consumes over 25% of the oil consumed worldwide and ends up importing more than half of its supplies.
At this point exactly, I am being antsy for political comments and discussion, but since this is not the appropriate platform, I will limit myself to let you think about the sacrifices that a person (usually without realizing) or a government (always consciously but trying to mask it) are willing to make to get access to the oily wells.
#1 (and the only one discussed here) sacrifice: the ecosystem
The carbon emissions by burning petroleum is contributing to the greenhouse effect that affects our climate that in turn has gone bonkers. Intense and extreme weather conditions seem to occur and new historic records of high or low temperatures are being broken almost every year in many parts of the world, including Alaska and the East Coast of United States correspondingly.
Our greed for black gold has taken the geoscientists and the oil companies to the oceans. In the USA, Alaska has been the target for oil exploration, where a vicious circle is taking place. Since the industrialization and the burning potato of climate change occurred, the ice is melting with higher rates, the glaciers’ volume decreases, and land or part of the ocean that before were inaccessible are now exposed. What an opportunity has risen! We can now drill for more oil to burn, emit more CO2 and enhance the rapid ice melting.
Do we want to ride this carousel?
In addition to the oil industry horror that took place in Alaska and the Gulf of Mexico before, the most current USA oil hunt has now taken oil companies to the Atlantic. I will explain more about this in a bit.
It is clear that the Exxon Valdez oil spill in Alaska (1989) and the Deepwater Horizon explosion in the Gulf of Mexico (2010) were accidents during the extraction and the transportation of the oil. The impacts were obvious to everyone with dramatic images of black seas, tarred beaches, sea birds covered in thick oil, and dead baby dolphins stranded on the coasts that blackened everyone’s heart.
Before even the pumping of oil from the Earth’s guts begins, other risks for the environment are underlying that are not obvious to everyone and are hard to identify.
The oil is buried deep below the ground and the ocean floor. How do you find something so well hidden? The geoscientists’ secret weapon is called airgun and it is exactly what its name says: a gun that shoots air.
Are the guns of air innocent as they sound?
The seismic airguns used for oil and gas exploration are NOT the same as the ones that we add soap and water and make bubbles filled with air, wouldn’t that be nice? Instead, they blast compressed air, waves of energy, in to the ocean floor to use the echo and take an image of what it is beneath it. Each layer within the Earth reflects a portion of the wave’s energy back and allows the rest to refract through. These reflected energy waves are recorded and their differences in arriving time can tell us about the different materials in the ground where the sound has different speed. The general principle is based on the technique of echolocation that bats, dolphins and sperm whales use. They send waves of sound that bounce off objects, go back to their ears and give an acoustic picture that can be as high definition and detailed as an x-ray.
For the seismic exploration as is called, hydrophones are used as the ears that listen and record the echo of the sound. Similar hydrophones to what I use to listen and record the voices of the whales.
Boats tow large arrays of airguns that shoot energy waves strong enough to penetrate the sea bottom and travel miles into it. These airguns can be so loud that resemble dynamite explosions, are repeated about every 10 seconds for whole days and often periods of months.
How to take underground “photographs”
Now imagine yourself living in a town that is bombed all day every day for months.
A deaf whale is a dead whale
The oceans are “worlds of sound” and marine mammals count on sound and their acoustic as well as vocal abilities to communicate with each other, find mates, locate food and navigate. Can you imagine the impact of these explosions to their lives?
Depending on their proximity to the operating airguns, whales can be physically harmed, deafened, or can alter their behavior, leave the area and move miles away to avoid the noise or temporarily lose their ability to hear. This intense noise can mask acoustic signals that come from other animals and hence interfere with adult breeding calls, or degrade anti-predator responses. Mothers and calves use sound to communicate underwater hence such loud noise can increase the risk of calves being separated from their mothers with lethal effects. The sounds from the airguns are loud enough to disrupt activities of blue and other endangered marine mammal species essential to foraging and reproduction over vast ocean areas. Over time, airgun noise can cause chronic behavioral and physiological stress, just like intense noise pollution can cause to people, that can suppress reproduction and increase mortality and morbidity. Not good.
Make a change
Currently, there has been a reaction to the USA federal government for having released a map with the areas where oil companies want to look (hear) for oil. Regulations for surveying in the Atlantic were finalized last summer, while this January a proposed plan for offshore drilling was released. It is a humongous area on the East coast and includes the habitat for a variety of marine mammals, including the 500 remaining critically endangered Northern Right Whales. Thanks Obama!
Even if seismic can mask the voices of whales they cannot shut down our voices.
Do you want to help?
You can be part of the social media campaign designed at getting out the facts about seismic exploration and urge the Obama administration to reverse the decision to allow seismic surveys for oil and gas in the Atlantic.
For more info you can read here the letter to the Bureau of Ocean Energy Management expressing concern over the introduction of seismic oil and gas exploration along the U.S. mid-Atlantic and south Atlantic coasts (sent on 3/5/2015.) and here the letter to President Obama urging him to wait on new science before permitting the use of seismic airguns in the Atlantic Ocean (sent on 2/20/2014.)
Here is what you could do to be part of this:
Print out the sign and fill in your name and affiliation/position.
Take a picture of yourself holding the sign. It reads:
“Seismic airgun exploration for oil and gas puts marine life at risk of serious harm.”
It is not just USA being thirsty for oil though. I am recently working on the Environmental Baseline Study for two locations in the Ionian Sea in Greece that got approved for oil exploration and drilling. Ionian Sea is a significant habitat for eight marine mammal species with critically endangered, endangered and vulnerable species among them. The sperm whale, monk seal, common dolphins, bottlenose dolphins and beaked whales are intensively using this area and are particularly sensitive to noise. My responsibility at this point is to make sure that the current presence of these species is carefully recorded before the exploration and operations start so that potential impacts can be evaluated after that.
The same time I have been working on the Strategic Environmental Impact Assessment for the construction of offshore wind farm in 11 locations in Greece. Alternative and renewable energy resources are certainly the direction we should globally be looking towards. However, it is interesting to know that potential negative impacts can also occur to marine organisms during their construction and operation. For this reason, the mitigation measures are of great importance and I expect them to be taken into account.
One more reason that we love biking is that it is quite as a squirrel. Imagine how much more peaceful this world would be with more bikes and less cars. This paradise exists in the micro-cosmos of OSU campus. We are lucky people the Corvallis people. If it can happen here, it can happen everywhere.
Soundbites is a weekly (biweekly, mostly) feature of the coolest, newest bioacoustics, soundscape, and acoustic research, in bite-size form. Plus other cool stuff having to do with sound.
Bioacoustics helps find what may be a new beaked whale species: this one was hard to miss this week, as it was all over the pop press news as well. Here’s the original article. Passive acoustic monitoring in the Antarctic found echolocation and communication signals that were beaked-whale-esque, but unlike species seen before this. It might be a new species!
Cicadas and birds partition acoustic space in the tropics: I think the acoustic niche hypothesis is really neat, and it’s cool to see it in practice. Bird species and cicadas in the tropics vocalize at similar frequencies, so birds avoided calling when cicadas were calling. If they did call during cicada song, birds changed their frequency to avoid overlap.
Fun link of the week: Michelle had an awesome post last week about paleo-bioacoustics (what a field name!), so continuing in that theme, let’s talk about terror birds. Have you guys seen a terror bird skull before? Terrifying. This new research suggests that they had low voices and were better at perceiving low-frequency sounds. This means we’re one step closer to my dream, knowing what dinosaurs actually sounded like…
Soundbites is a weekly (less often when Danielle is doing fieldwork) feature of the coolest, newest bioacoustics, soundscape, and acoustic research, in bite-size form. Plus other cool stuff having to do with sound. No April Foolin’ here, just cool research (because Danielle hates April Fools. Seriously.).
Grasshoppers have trouble localizing mates in noisy conditions: another tale in the continuing story of how noise screws up mating for lots of different taxa. Grasshoppers can locate mates by sound very well in quiet conditions, but it takes more time and energy to do it in noisy conditions.
Using passive acoustic monitoring to document sperm whale predation on fishing grounds works: I saw this as a talk at last year’s Acoustical Society of America meeting, and it was just as cool then. Collaboration with fishermen is allowing researchers to document sperm whale depredation, all using passive acoustic monitoring. This also allows them to easily test new deterrent methods.
Fun link of the week: you guys. Look at this weird-sounding bird I found for you. This bird is so weird. I heard it described as the red-alert sound from Star Trek and I agree. (also, look, I finally figured out how to embed YouTube videos!)
Soundbites is a weekly (less often when Danielle is doing fieldwork) feature of the coolest, newest bioacoustics, soundscape, and acoustic research, in bite-size form. Plus other cool stuff having to do with sound.
Primate vocal divergence and speciation:a cool study on tamarins in South America documenting how vocal divergence might lead to reproductive isolation in two subspecies, meaning that they might actually end up being different species altogether.
Fun link of the week: this has basically nothing to do with acoustics, except it’s a song on an acoustic guitar. But yesterday was St. Patrick’s Day, so I thought I’d give you a biologist’s take on the holiday.
First, let me apologize for being a little late with this post. I generally post the second Friday of every month; It’s Tuesday. One of the reasons I’m late is because I flew back to my hometown in Birmingham, Alabama as an invited teacher at the N.E. Miles Jewish Day School. I had the privilege of running three lessons on whale communication for students ranging from kindergarten to eighth grade. Admittedly they kept me on my toes! Spending time with children is exciting and inspiring.
We did a number of activities to demonstrate how marine mammals use sound to communicate. Students were given a small shaker containing one of four materials (hazelnuts, tacks, aduki beans, or rice) and they had to use their ears alone to find their “pods”. We had fin whales, humpback whales, killer whales, and beluga whales. Each pod was then given a ribbon the length of their whale to stretch out across the activity room. Even I was impressed with how big a fin whale really is.
For the older groups we talked about the relationship between size and pitch (frequency), learned how to read spectrograms, and I introduced the concept of masking and noise pollution by playing a series of whale calls and adding vessel noise. For the kindergartners and first graders, however, it seemed more appropriate to introduce the concept of sound in the ocean with a story. I re-purposed a true story about a killer whale from Puget Sound named Springer who was separated from, and later reunited with her pod. In real life recordings were made of Springer’s vocalizations to help identify which pod she belonged to. In the story below, Springer uses her family whistle to try and re-connect, and she meets a number of other whales along the way. On each page I was able to play recordings of the animals in the pictures, so my young students could hear the actual voices of the animals. Enjoy!
This is Springer. She is a killer whale calf. She was named Springer because she is a very active calf and springs about in the water.
Springer, like all killer whales, lives with her mother and relatives. All of the killer whales in her pod make similar sounds called whistles. Can you whistle like a killer whale? We-ooo.
One day, Springer was seperated from her family. She went into the ocean to find them. The first animal she met was a fin whale. She whistled “we-ooo”. The fin whale sang back “oomp-oomp”. “That’s not my family’s whistle”, Springer thought, and she said goodbye.
The next animal she met was a sperm whale. She whistled “we-ooo”. The sperm whale clicked back “tick-tick-buzzz”. “That’s not my family’s whistle”, Springer thought, and she said goodbye.
The next animals she met were a pod of beluga whales. She whistled “we-ooo”. The beluga whales chirped back “we-eer”. “That’s not my family’s whistle”, Springer thought, and she said goodbye.
The next animal she met was a humpback whale. She whistled “we-ooo”. The humpback purred back “purrr”. “That’s not my family’s whistle”, Springer thought, and she said goodbye.
With all of the songs, clicks, chirps, and purrs the ocean was a very noisy place! If only one of those noises was her family’s whistle! Then, far in the distance Springer heard someone call “we-ooo”.
Springer swam as fast as she could and there was her family. Springer knew she had found them because as soon as she got close her mother whale called out “we-ooo”. “We-ooo”, Springer responded, and she has stayed with her family ever since.
