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The Acid Rain Problem in Eastern Canada - Case Study Example

The Acid Rain Problem in Eastern Canada

  • Subject: Environmental Studies
  • Type: Case Study
  • Level: Undergraduate
  • Pages: 13 (3250 words)
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Formation of acid rain, environmental issues in canada, acid rain and alkalinity of the lakes in canada, climatic variability in the old testament, acid rain in hamilton ontario, acid deposition on forest, pollution monitoring and control.

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The bittersweet story of how we stopped acid rain

Cary's Gene Likens' discovery of acid rain in 1963, set the collective wheels in motion to raise awareness and isolate the cause of acid rain. Not just in North America, but across the industrialized world.

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acid rain case study canada

  • Acid Rain ,
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Acid rain went from being a pollution disaster to an environmental success story. How did scientists manage to prove that acid rain existed, and find a way to stop it?

A group of kids canoeing in Canada’s Killarney Provincial Park are paddling across a serene and unnaturally turquoise lake. It’s a hot sunny day, and a thirsty boy dips an aluminium cooking pot into the water to refill his fellow canoeist’s canteens. In a momentary lapse of concentration, the pot slips from his grasp. As it sinks underwater beyond reach, what’s incredible is that it’s visible all the way down to the lake floor some 50ft (15.2m) below.

It’s the mid-1980s. One of the kid canoeists is me, and there’s an unfortunate explanation for this water clarity. This lake, near the nickel and copper smelters of the town of Sudbury, Ontario, has been radically altered by acid rain. Almost every living thing in the water – like the tiny algae that would normally block light from reaching the depths – has gone, leaving the water here and in lakes across the region a beautiful but eerily lifeless aquamarine.

Fast forward to 2019 and another set of lakes in a remote corner of north-west Ontario. Biologist Cyndy Desjardins is sipping coffee at breakfast following a nocturnal boat trip at the International Institute for Sustainable Development’s Experimental Lakes Area (IISD-ELA). Smiling but sleepy, she spent much of the night working in nearly pitch-dark conditions, surveying for tiny monster-like creatures: freshwater opossum shrimp called Mysis relicta. Desjardins is part of a team attempting to close the loop on an acid rain experiment that began in the 1970s.

Bitter controversy

At its worst, acid rain stripped forests bare in Europe, wiped lakes clear of life in parts of Canada and the US, and harmed human health and crops in China where the problem persists. Looking back today, there is little argument that the cause was sulphur dioxide and nitrogen oxides emitted by fossil fuel combustion by cars and industrial facilities like smelters and coal-burning utilities. When combined with water and oxygen in the atmosphere, these air pollutants chemically transform into sulphuric and nitric acid. Acidic droplets in clouds then fall as rain, snow or hail.

We know this now. But for a long time, acid rain was a puzzle. In 1963, as part of a long-term ecosystem study that is still ongoing today, Gene Likens collected a sample of rain at the Hubbard Brook Experimental Forest in New Hampshire’s White Mountains. That sample was “about a hundred times more acidic than we thought it should be”, says Likens, now emeritus professor in ecology at the Cary Institute of Ecosystem Studies in Millbrook, New York. His discovery back in 1963, on the heels of work dating back to 1872 and even earlier, set the collective wheels in motion to raise awareness and isolate the cause of acid rain. Not just in North America, but across the industrialised world.

Other crucial evidence that led to action on acid rain – on both sides of the Canada-US border – came from experiments at north-west Ontario’s Experimental Lakes Area (ELA). Its soft-water lakes were far enough from sources of pollution that they had escaped the effects of acid rain, acting as a control.

Unlike many lakes, composition of the healthy ecosystem in the ELA was well documented. That enabled scientists like David Schindler, then an ELA senior scientist and now emeritus professor at the University of Alberta, Canada, to add acid experimentally to one lake and see how the ecosystem responded. ELA scientists would protectively suit up like Darth Vader, make a sulphuric acid solution and use the boat propeller to mix the cocktail across one of the lakes.

Over seven years beginning in 1976, they lowered the pH of one lake, number 223, from 6.8 (close to neutral) to 5.0 (slightly acidic). Lab studies had suggested a pH of 5.0 would not harm fish. But in the lake 223 experiment, long before it reached 5.0, it did. By the time the pH reached 5.6, most of the lake trout’s preferred food – tiny organisms that require calcium to form exoskeletons – had died as acidified waters dissolved their protective coats.

“Lake trout stopped reproducing not because they were toxified by the acid, but because they were starving to death,” says Schindler.

Freshwater microbiologist Carol Kelly arrived at ELA in 1978 just as acid rain experiments got underway. She became curious about a particular puzzle the lake acidification experiments had stumbled on. Her colleagues had carefully calculated the quantity of acid needed to drop lake 223’s pH to 5.0 – a simple calculation a high-school student could do. But out in the lake it became clear that their calculations were way out of whack.

“I had given the crew orders to take the lake down to a given pH and then add enough acid to hold it there,” says Schindler. Part way through the season, the crew reported that they were running out of acid. Acidifying the lake took way more than they thought, says Kelly. “The question became, where is it going?” she says.

Kelly and colleagues set to work to find out, and discovered that alkali-producing microbes were capable of buffering some of the acidity, helping the lake chemistry to recover. That acid could be neutralised by bacteria living in every lake was a controversial finding at the time.

“People didn’t believe it,” Kelly says. But she continued to find out just how much acid microbes could neutralise, travelling elsewhere in Canada, the US and Norway to lakes that had been acidified atmospherically, to test this natural recovery ability. The discovery that acid-neutralising bugs exist in the sediment in lots of lakes, not just at the ELA, suggested that lakes could recover if the pollution causing the acid rain were eliminated.

Doubt and denial

Compelling photographs of starving fish from lake 223, combined with efforts by environmental groups like the Canadian Coalition on Acid Rain, helped persuade policymakers – eventually – to legislate more rigorous air quality standards.

But acid rain research at ELA almost didn’t happen at all. Founded to address the issue of excess nutrients contaminating lakes, work that had already drawn far-reaching conclusions by the early 1970s, Canada’s federal government was poised to pull the plug on the research station. At a presentation to federal fisheries officials, Schindler says that despite considerable evidence from the US, one official accused him of inventing the idea of acid rain just to save the ELA.

Scientists began pinpointing culprits and journalists covered the problem through the 1970s and 1980s, but some people working in industry were doing their best to obfuscate, sow doubt and delay action.

“There were lots of deniers of acid rain,” says Likens. At the time, Likens remembers giving public lectures on the topic. On occasion someone would stand up, rudely interrupt him, and say they didn’t believe in acid rain. “I would often respond by saying, ‘Well, have you ever collected a sample of rain and analysed it?’ They would say ‘No’ and I would say, ‘Well try it some time.’”

Like with climate change, says Likens, there were many big, powerful, wealthy people involved with vested interests. From its discovery in 1963 to passage of the Clean Air Act in 1990, legislative action on acid rain took 27 years.

Over that time, many a cross-border argument erupted. “The first international altercation over acid rain was the US accusing Canada of acidifying lakes in the boundary waters,” says Schindler. The squabble was over a small coal-burning power plant in Atikokan, Ontario, that US representatives claimed was sending acid rain south of the border. Schindler attended a meeting in Minneapolis, Minnesota, along with other Canadian scientists and their US counterparts.

“When all the data were on the table, it was clear that the little bit of sulphur from Atikokan was inconsequential to boundary waters,” Schindler says. At the same meeting, scientists examined net international flows of emissions. It became obvious, says Schindler, that the US, particularly the Ohio Valley and industrial areas of Pennsylvania and New England, were producing more than half the acid rain that collected in Canadian lakes.

The blame game continued, and acid rain “was at one time the number one Canada-US bilateral issue”, said Adèle Hurley in a speech reflecting on decades of work with the Canadian Coalition on Acid Rain, which she co-founded in 1981. The coalition was eventually disbanded following amendments to the US Clean Air Act in November 1990, establishment of the Acid Rain Program, and parallel action on the Canadian side.

Lessons from the lakes

A half-century after those early experiments, lake 223 in the ELA is no longer acidic, the acid-eating microbes having done their job. Lake chemistry has returned to its pre-experimental state. Biological recovery, however, has lagged behind. Freshwater opossum shrimp are found in healthy numbers in untouched control lakes. But in 223, they are still missing. So, Desjardins and others are investigating whether reintroductions of the opossum shrimp – 10,000 painstakingly counted at a time – might jumpstart biological recovery of the ecosystem.

Early signs look positive. Remote operated underwater vehicles searching for evidence of these mini-monsters of the deep have spotted just two Mysis shrimp swimming freely in lakes thus far, but it suggests that all that midnight catching and counting in the dark is not in vain – these tiny missing links in the ecosystem eroded by acid rain may be coming back. 

Broader recovery, in lakes across North America, happened because acid rain was tackled at its source.

Compared with 1990 levels, sulphate ions in the atmosphere have dropped considerably, reduced to almost negligible levels at former hotspots. But the problem has not disappeared altogether. Nitrates from sources like agriculturally emitted ammonia released from fertilisers and livestock feed remain a contributor to nitric acid precipitation. And there is concern that acid rain – from both sulphur and nitrogen – is an increasing problem in Asia.

There are no simple solutions to complex environmental problems. But are there parallels between efforts to curb acid rain and strategies for action on climate change? Schindler does see similarities in the procrastination tactics employed by industry. “Seed enough doubt, and pay for enough political campaigns, and you can delay action,” he says. “That sounds pretty crass but if you look closely, that’s how most environmental problems are addressed, and climate is no exception.”

Despite this, emissions reductions have been a huge success story in tackling acid rain, says Likens. But further reductions, especially on nitrogen oxides, are needed. The current US president is proposing to cut back regulations on emissions. If this happens, says Likens, recovering lakes in places like the Adirondack Mountains in north eastern New York would be particularly vulnerable, their acid-neutralising capacity already weakened.

Tackling acid rain in North America required actions in two neighbouring countries. But for climate change, the challenge is broader and solutions must be global. Nevertheless, the two issues do share similarities. Both, says Hurley, require cutting-edge science, media coverage and finding common ground, building coalitions between opposing parties.

In the fight Hurley helped to lead against acid rain, this meant talking to coal workers at sportsmen’s shows, engaging them in conversations about clean water for fishing salmon, and going for walks in war cemeteries where acidity was ruining the limestone of gravestones.

Though aspects of its legacy remain, solutions to the acid rain problem moved forward, in North America at least, because it became a non-partisan issue. Hurley reflects that “a broad spectrum of people came to believe that it was important to protect natural resources – our forests, our northern lakes and the fish they contain – resources that belong to everyone”.

If anything can be learned from the acid rain story, it’s that the same breadth of support and dismantling of partisanship is necessary for protecting the Earth’s climate.

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COMMENTS

  1. PDF Case Study: Acid Rain

    The problem or issue addressed: Acid Rain Case Study The Canadian Acid Rain Program aims to solve the acid deposition problem in eastern Canada & prevent this problem in western and northern Canada.

  2. Acid rain: A case study in Canada-US relations

    Acid rain: A case study in Canada-US relations More than a political and environmental milestone, the acid rain story is an important case study in Canada-US relations. by Brian Mulroney April 1, 2012 Share . On March 11, 1981, when Ronald Reagan visited Ottawa for the first time as president of the United States, he was greeted by thousands of ...

  3. The bittersweet story of how we stopped acid rain

    The blame game continued, and acid rain "was at one time the number one Canada-US bilateral issue", said Adèle Hurley in a speech reflecting on decades of work with the Canadian Coalition on ...

  4. PDF Acid Rain Case Study # 6

    Acid Rain Case Study # 6 Presented by: Anna Turo and Dara Barker, November 3, 2006 ... Canada.com, Where Perspectives Connect, 'Acid rain damaging a third of China', ... acid rain, posing a major threat to soil and food safety," Sheng said, according to the government- ...

  5. PDF Acid Rain: a Case Study in Canada-us Relations

    Mulroney spoke of the decade-long political struggle for action on acid rain. More than a political and environmental milestone, the acid rain story is an important case study in Canada-US relations. À l'occasion du 21e anniversaire de l'Accord Canada-États-Unis sur la qualité de l'air,

  6. The Acid Rain Problem in Eastern Canada

    The pH value of water in the acid rain can be lower than seven as a result of emission of carbon (IV) oxide, oxides of sulphur and those of nitrogen (Chen, Li & Gao, 2010)....the acid rain that results from sulphur oxides contributes to about 70% of the acid rains in the environment all over the world (Ribeiro, Taffarel, Sampaio, Flores & Silva, 2013)....

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    Large amounts of the acid rain which falls on Canada actually come from the USA. The prevailing north easterly winds blow the acid rain away from the industrial areas of the northeast USA to eastern Canada. Acid rain is a problem in eastern Canada because many of the water and soil systems in this region lack natural alkalinity - such as a lime ...

  8. PDF Surface Water Acidification from Air Pollution: Two Case Studies ...

    The Jialing River and Taihu Lake, located in the three major acid rain zones, were chosen to be the areas for studying surface water acidification. Since acidification results from excessive acid inputs and high acidification sensitivity of the water body, the project focuses on acid gas emissions and the assessment of acidification sensitivity.

  9. PDF 2010-2011 Progress Report on The Canada-wide Acid Rain Strategy for

    The Canada-Wide Acid Rain Strategy for Post-2000 (hereafter called The Strategy) was signed on October 19, 1998, by all 26 Canadian Energy and Environment Ministers to provide a framework for the long-term management of acid rain in Canada. The Strategy was developed in response to the recognition by science and policy communities in

  10. The bittersweet story of how we stopped acid rain

    From its discovery in 1963 to passage of the Clean Air Act in 1990, legislative action on acid rain took 27 years. Over that time, many a cross-border argument erupted. "The first international altercation over acid rain was the US accusing Canada of acidifying lakes in the boundary waters," says Schindler.