Saturday, September 28, 2013

Historical Lessons: The Pribilof Seal Commission and the Proposal to Protect Antarctic Waters

I know what you're going to say: we're all getting tired of know-it-all historians swaggering around talking about how you could have "learned something" and "not made the same mistakes" if you had just studied your history. "Just like last time" we have been known to say in our condescending way before running along to read more old musty letters that will probably give us an even more Cassandra-esque precision into guessing the future. We are snarky snarky bastards.

Okay, we're not actually that bad. Historians in general tend to be pretty quiet about making direct links and saying things like "nothing changes"- probably because we love the idea of subtle change. No situation is exactly the same, but I think we can learn something from examining history.

I've been thinking about this recently as I've read about the difficulties in establishing a major antarctic conservation zone. If you're unfamiliar with what has occurred, here it goes:

In July 2013, the Commission for the Conservation of Antarctic Living Marine Resources (CCALMR)- established in 1982 to safeguard Antarctic marine life- called a meeting between 24 nations and the European Union to try to designate one of the largest Marine Protected Areas (MPA) in the Antarctic Ocean. One area encompassing a portion of the Ross Sea, proposed by the United States and New Zealand, would cover 600,000 square miles; another in East Antarctica proposed by France, Australia, and the European Union would cover another 600,000. It would, if passed, have doubled the amount of MPAs in the world and been the largest protected ocean region in the world.

But it didn't pass.

There were some reservations before the meeting in July- America and New Zealand had already scaled back their proposal, which had originally included all of the Ross Sea. That area is especially important in these negotiations because it contains the fishing grounds for the Chilean Sea Bass (a very yummy, very non-sustainable ocean resource that can sell for upwards of 35$ a pound).  As I've previously discussed on the blog, protecting marine fish stocks is very difficult because those suckers just swim everywhere and they don't really recognize man made borders. So, you can only protect those sea bass if they stick to the area you can get protected, and people who want to harvest these fish know it just as well as people who want to protect them.

And they aren't the only valuable resource in the Southern Ocean. Krill harvesting for animal feed and the Omega-3 fish oil dietary supplement market is on the rise. (I know all about this market as I'm a currently pregnant lady and those doctors push Omega-3 fish oils on you like, well, a pusher. Little did I know that those little pills could be filled with Southern Ocean krill!) With the warming oceans and the increase in krill fishing, scientists are in a race against time to establish baselines for a sustainable krill catch- first, they have to know a heck of a lot more about krill in general.

So when the meeting happened, things went south- and not in a good, let's-save-the-Southern-Ocean way. But in a Russia-and-the-Ukraine-are-questioning-the-legality-of-MPAs-to-try-to-block this-measure- kind of way. It's pretty clear that the CCAMLR has the legal standing, if they can get an accord, to establish MPAs. So why would Russia and the Ukraine try to block the MPAs?  The larger issues for Russia were the size of the proposed area and the fact that a ban on fishing and harvesting within that region would be indefinite. And a big thing, they suggested their wasn't enough scientific evidence to make all of these waters protected indefinitely. We don't know much about baselines when it comes to these organisms, and a lot of what we know is rough data and guess work. One of the reasons that protection would be a good idea is that it would actually allow researchers the chance to study the area intensively without worrying about harvesting. Who is to say what over harvesting krill and sea bass looks like?  Right now the data is rough at best and that could change if scientists get down there and find that stocks of krill are fine. But if they find that, it doesn't mean you can go harvest because now it is an MPA- I think you can see that this would be a problem- if there is a way to harvest krill sustainably in this area but we only discover that after we've blocked the region from fishing, we've cut off a huge supply of food from a lot of people. (also, there might be oil under the Southern Sea and we wouldn't want to leave that alone now would we) So. No. Go.

America and New Zealand have revised their proposal for a meeting next month in Hobart, Australia. The new proposal will start at 40% the second proposed size of the original, which was already smaller than the United States initially wanted (the entire Ross Sea) and this concession has angered many conservationists. But, we'll have to see what happens.

So, what about this situation reminds me of the past?

The situation in the Southern Sea reminds me a bit of another marine area with highly valued resources contested in the late 19th and early 20th century: The Pribilof Seal Islands in Alaska.



The United States purchased the Seal Islands from Russia in 1867, and by 1868 enterprising Americans (like their Russian counterparts before them) rushed to the islands to take advantage of a valuable resource that was considerably easier to mine than gold: the northern fur seal.

I think we're pretty familiar with what happens when people find a resource and harvest it unchecked: the fur seal almost went extinct twice. The incursion of Japanese, Russian, and English independent sealers nearly caused an outbreak of war over the territory.   In other words, things got pretty hairy up north; but instead of allowing extinction, the concerned governments decided to try to scientifically figure out a baseline population that would make it possible to sustain a seal herd and allow a robust sealing season.

The United States Fish Commission set up a seal commission to investigate how many seals still lived in the herd, their breeding cycles and behaviors, statistics and birth records for each year, and any other data that might help figure out what a normal and sustainable herd of these animals might entail. Of course, they started gathering this data at an all time low of the population, so a lot of information gathered was historical in nature. Charles Townsend, then an investigator for the Bureau, was in charge of gathering as much historical data as possible about the fur seal herd, and he was incredibly interested in solving the mystery of how many fur seals had existed on the islands before they were decimated by humans.

He turned to some amazing sources of information. Townsend asked diplomats in Russia, Japan, Canada, and England to gain access to as many sealing vessel logbooks as they could and send him the numbers of seals taken for each season. This wasn't easy work for the diplomats and there were major gaps in the records, especially because there were so many independent sealing vessels that had made clandestine runs into the seal islands.

But some information trickled in, including data from England for the years 1894 and 1895.

Wildlife Conservation Society Archives Charles Townsend Files


 You can see that sealing was on the rise, even as the number of seals were falling. The data trickling in from England, Japan, and Russia suggested that as the Alaskan rookeries became more cut off by American intervention, pelagic sealing (catching seals in deeper waters as they hunted) was on the rise.

Townsend and the Commission wanted more accurate data about breeding habits and sex ratios and the impact of taking male versus female seals on the herd, but this data was somewhat difficult to come by. A request for a count of fur skins by sex was met with consternation: how does one tell the sex of a fur seal after death? Townsend claimed it was rather easy to tell the difference (nipples!) and sent along a particularly helpful circular outlining where one might look to find the answer, but in the end the data was still patchy.

Wildlife Conservation Society Archives Charles Townsend Files 
In the end, Townsend and his boss David Starr Jordan collected sealing data for the years 1894-1896 from historical records, and tried to reconstruct the size of the herd, including the distribution of males and females, in order to set limits on sealing without cutting off the resource completely. 

Many aspects of the seal herd and its behaviors remained contested. One particularly interesting question involved accidental infanticide. Some scientists claimed that it was important to thin the herd of seals, because if the population became too large, females were known to accidentally roll over onto their cubs and smother them to death (a fear I seriously am having). Eye witness accounts claimed they had seen accidental deaths occur in highly populated areas, and this suggested to some in the Commission that it would be healthiest to maintain a smaller number of seals in a given area to allow all individuals a chance at growing to adulthood. But other scientists claimed that these eye witness accounts were unreliable and that, if such deaths occurred, they were uncommon and a negligible loss compared to the losses suffered from over harvesting.

Fur sealing was a big industry, and the fight over the right to harvest seals was a huge international issue. The Pribilof Islands were not the only fur seal rookeries in the world, Russia, Japan, and Canada all had locations where seals were present and they looked into their rookeries during the same period- I have not been in those archives but I hope someone will write a book someday on the seal convention of 1911 because they would definitely have a reader here!
The Pribilof Commission started gathering data and working on American harvesting issues as early as 1898, but an international Convention was not signed between Russia, the United Kingdom, Japan, and the United States until 1911. That convention basically banned pelagic sealing and made it illegal for ports to take in illegally caught seal skins for processing (seal skin processing was just as big a business as the sealing itself). Each government agreed to patrol their own herds and waters for poachers and to cooperate internationally to prevent pelagic sealing. It's an involved convention and if you feel like reading it, go here. It's clearly written and very interesting. 

You might still be wondering though, what does this have to do with current issues in Antarctic waters? 

I think one of my concerns is that, in an effort to build MPAs, conservationists might be demonizing the industries that have grown up around the "blue economy". Is it wrong that certain companies want to harvest krill in the Southern Ocean- not necessarily. There is nothing inherently wrong about finding a natural resource and utilizing it. Of course, we would hope with the proper data and international agreements that people would follow the rules and only harvest in a sustainable way- but the very act of wanting to harvest does not make you a demon. Yes, Russia is a pain in the butt, but they aren't the only country that wants to harvest krill, and I'm sure they aren't the only country that is interested in oil under the Ross Sea. They are just a country that isn't afraid to say it- and that might be a good thing in the long run. 

A lesson we might learn from the Pribilof Commission and the eventual Convention is a lesson in time and the scientific process. Understanding the ocean, its inhabitants, its resources, and how we can sustain harvesting without harming will take more time, and scientific effort, than merely setting up zones where no one can harvest. Focus should be on international data collecting and sharing in these areas, and long term scientific studies that can give us more information about the ecosystem and organisms involved. If we rely on scientific data to make claims about sustainability, it is important that we admit when more data is needed. And that takes so much time. 

Yes, this is a dangerous statement. Global warming and new fishing technologies and methods mean that time is definitely not on our side. The ability to decimate an ecosystem is enhanced by a shifting climate and the ability to take larger and larger catches through updated tools- but there has to be something scientists can do to gather international data that would serve everyone's interest. 

What does not help is setting up a dichotomy between industrial/commercial fishing interests and the scientific and environmental communities. The oceans have long been a valuable resource for humans of all nations- Americans overfish their own waters and have failed time and again to set sustainable baselines for catches- because industry and culture have trumped scientific data. We should recognize in Russia's concerns what we can see in ourselves- not pretend we are perfect scientific stewards of the sea. 

The science of the sea is intimately entwined with feeding people on land and to pretend otherwise is to set up a harmful dichotomy that disallows conversation. Both Russia and the US (and all 24 countries and the EU gathered at these meetings) want one thing in the end- to not die on a wasted planet full of nothing but boiling oceans and toxic air. Work your way up from there and they'd like to figure out how to feed the world, by land or ocean, without turning those resources into boiling and toxic places.  As we saw with the Pribilof Seals, once the US shut down the islands to outside sealers, these sealers got very good as sitting outside the protected zone and picking off seals in deeper international waters. This bears a striking resemblance to the ability to catch krill and sea bass outside the Ross Sea. If we concentrate too heavily on preserving area, instead of sustainable catches based on data that each nation will want to enforce, are we really doing anything that will help sustain these organisms- or are we just shutting down future conversations about actually protecting these resources? 

International cooperation is the key to saving the Antarctic Conservation areas, not condemnation. 

Wednesday, September 4, 2013

Salvaging Historical Ocean Data; the role of the archive in current scientific debates

I've just finished Callum Roberts' 2012 book The Ocean of Life and it has me thinking about how useful historical data can be to modern debates about ecology and climate change. My husband bought me the book to read during my plane ride to Manchester, UK to attend the International Congress for the History of Science, Technology and Medicine (ICHSTM) last month and it, combined with a talk I saw while at the conference (which I will discuss later), lead to this blog post.

Roberts is a professor of Marine Conservation at York University and he has a fairly simple message:

"We find it hard to believe...descriptions of extraordinary past abundance because it has been so long sing such scenes were commonplace. It is a human trait to give greater weight to personal experience than to others' descriptions. The result...is an intergenerational shift in the way we perceive the world. Science is particularly susceptible to these shifting baselines, as scientists work at the forefront of knowledge and are always in hot pursuit of the latest ideas." (48)

It seems simple to say that humans have a hard time believing things we can't see with our own eyes. I've talked a lot on this blog about the difficulty of reintroducing "native" species because the people who have to deal with the reintroduction don't imagine them as "natural" to that landscape- they've never co-existed with them in the past. But it is something else to say scientists have a hard time dealing with these historical issues. It makes sense- scientists are totally humans. But what does it mean to deal with an "intergenerational shift in the way we perceive the world" in science?

Roberts suggests that this limited ability to visualize the past landscape leads ecologists and environmentalists to underestimate the amount of change in an ecosystem over time. If you can't even imagine what it used to be like, or that it was different, how can you predict the changes that might occur?

One way to do this is to use historical archives to establish baselines so that we can see the change. Roberts points to two bodies of work, that of Loren McClenachan (a professor at Cobly College in Maine) and Ruth Thurstan (one of his graduate students at York). Both of these scientists use different forms of archival data to establish change over time in a given ecosystem. McClenachan utilizes a variety of archival sources, including historical photographs of game fishing in the Florida Keys, to ascertain the downward shift in size of game fishes caught in the Florida Keys from the 50s to the present.

"Documenting Loss of Large Trophy Fish from the Florida Keys with Historical Photographs" Conservation Biology 23:3 (2009)

Thurstan utilized previously forgotten government fishing data from the 1880s to the present to analyze the decline in catches.

 From "The effects of 118 years of industrial fishing on on UK bottom trawl fisheries" by Thurstan, Simon Brockington, and Collum Roberts in Nature Communications 1:15 (May 2010).

Both of these papers are exceedingly interesting for what they tell us about the overall decline of fish stocks, but they are also examples of how scientists have extracted useful information from data gathered for a completely different purpose. The photos of game fishes were not taken to later be used for scientific purposes, and a scientists could not necessarily use just any picture as scientific data. McClenachan used photos taken on two separate boats by the same professional photographer, and each photo displayed the largest catches each day.  In essence, the author had to make sure that the photographs represented something important, and that they were taken in a consistent manner.

Thurstan ran into a different problem: fishing technology has changed greatly since the 1880s. So, how do you compare information gathered in the late 19th century with information gathered today? Thurstan looks at different "units of fishing power" and measures the size of stocks based on "landings per unit of fishing power".

Both scientists found useful data, but not in ready use form (or the form that many scientists are used to working with); the historical information wasn't necessarily ready-use, but it was useful.

This brings me to the paper I saw in Manchester. While I was at the conference, I was lucky enough to catch Marcel Wernand speaking about his recent paper with Hedrick van der Woerd and Winfried Gieskes entitled "Trends in Ocean Colour and Chlorophyll Concentration from 1889 to 2000, Worldwide" published in June 2013.

Wernand and his colleagues start with the understanding that ocean color correlates to specific conditions, i.e. a green color corresponds to a higher content of chlorophyll blooms. Most recently, scientists have used data about ocean color collected from satellites, but Wernand et al wanted to look at a longer data set to ascertain plankton bloom changes over a greater period of time. But, how to access data about ocean color before satellites existed?

The authors turned to something called the Forel-Ule scale. This tool has been included on board ships from the 1880s onward, and is fairly simple to operate.


Above, you see there are 21 different colors of water in the tool. Anyone on a ship- from the naturalist to the captain to a sailor- could enter Forel-Ule data each day during a sea voyage. And, it turns out, they did. The authors used digitized oceanographic and meteorological databases archived by NOAA-NODC totally 220,440 FU observations between 1907 and 1999. Before 1907, they turned to other historical information from major voyages and came up with 221,110 FU observations with which to work.

Unlike recent papers that suggest that plankton blooms have decreased worldwide recently, using these data sets Wernand et al found that plankton blooms have shifted throughout the world's oceans since 1889, but they have not experienced a blanket decline.

All three of these papers utilized a different form of historical data to assess the current status of the world's oceans, and archival data continues to be useful. NOAA has three ongoing historical ecology projects looking at the history of Stelweggen Banks and cod fisheries in Massachusetts, the Florida Keys coral reef project, and the Monterey Bay National Marine Sanctuary project. Theses projects pair historians and scientists together to sift through archival data and examine the relevance of that data to modern understandings of ongoing ocean change. Pretty cool.

When I'm in the archives, I consistently run into large data sets- something that isn't necessarily helpful to me but could be helpful to scientists interested in catches and data from a particular area. In the Smithsonian archives, there are log books that contain hourly information on tides, ocean color, temperature, location, and fish catches. All are meticulously kept and just waiting for someone to take a look. And even though I get bummed that what I thought might be a useful journal (for me) turns out to be thousands and thousands of tiny entries about water temperature and color, in the long run, it's great to know that that data can be mined for useful information.

And, it makes it all the more important that we recognize that archives and historical data are not useless- they need to be preserved not only for historians but for the establishment of baseline ecological and environmental data.

Callum Roberts laments society's short memories of our surroundings- He suggests we scoff at the musings of our parents and grandparents when they states that our environment has changed over time; we understand only our limited personal experiences. But, this doesn't mean we can't access and quantify those memories at which we sometimes scoff. Historical ecologists and climatologists working with archival data have found multiple ways to access and quantify these memories, including photographs, statistics, and consistent tool use over time.