U.S.-Canada Transboundary Water Management

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Case Description
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Geolocation: 49° 0' 0", -96° 0' 0"
Total Population 45 million
Climate Descriptors alpine
Predominent Land Use Descriptors agricultural- cropland and pasture, conservation lands, industrial use, forest land, rangeland, urban, religious/cultural sites
Important Uses of Water Agriculture or Irrigation, Domestic/Urban Supply, Fisheries - wild, Hydropower Generation, Industry - consumptive use, Other Ecological Services, Recreation or Tourism
Water Features: Columbia River Basin, Devil's Lake Basin, The St. Mary and Milk Rivers
Riparians: The United States of America, Canada
Water Projects: Devils Lake Outlet, Canadian Columbia River Inter-Tribal Fisheries Commission
Agreements: The Boundary Waters Treaty (BWT), Columbia River Treaty

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Summary

The United States and Canada share a 5,000 mile border, crossed by over 150 rivers and lakes [1]. The flow of transboundary rivers is surprisingly even, with about half flowing into each country [2]), which creates what would presumably be an ideal environment for excellent transboundary relations. U.S.-Canada Transboundary waters have been managed largely successfully since the signing of the Boundary Waters Treaty of 1909 (BWT). One especially important part of the success of the BWT was the creation of an independent fact-finding organization called the International Joint Commission (IJC). Recent growth in population, economic activity, environmental impacts and land development along both sides of the border have led to rising tensions over shared water resources. Though after more than 100 years the BWT has successfully prevented and resolved many disagreements, unresolved disputes and contentious issues have occurred, and may grow more frequent as economic pressures rise along the border. The Columbia River Agreement and Devil’s Lake Outlet are two particularly clear cases which continue to put strain on the transboundary water relations of the two countries.

Natural, Historic, Economic, Regional, and Political Framework

CAN-US-Boundary-Waters.jpg[3]

Background

The U.S. and Canada share many water resources which cross their shared border, including four out of five great lakes and the St. Lawrence River, making up the world’s largest surface freshwater system and providing 95% of the fresh surface water available in the United States.[4]. Management of these resources became necessary in the late 19th and early 20th centuries, when conflicts began to arise over navigation and use of the water in the great lakes. In 1909, the Boundary Waters Treaty (BWT), a comprehensive treaty governing the management of shared water resources by both countries, was signed. A key part of the BWT was the establishment of the International Joint Commission (IJC), which was created to be a neutral source of information, investigation, and advice for both countries in managing their shared water resources fairly. Interestingly, most attempts at resolution of conflicts in the Great Lakes region have been successful, while those in the prairie region (North Dakota, Montana) have led to unresolved conflicts.[5]

The Problem

The Boundary Waters treaty is unique in the breadth of ecological, political and economic situations it covers. It has generally been successful in solving transboundary water disputes between the U.S. and Canada, but 100 years after its initial signing it is unclear if it can properly address transboundary water issues in a new economic, environmental and political context. In the case of the Devil’s Lake outlet dispute, political sentiment in North Dakota may be responsible for hasty decision-making which led to transboundary water disputes. The potential for new conflicts in all regions of the border is growing as populations and industry grow, bringing with them disagreements over environmental and trade policy. Key issues like the equity of the Columbia River Treaty and the Devil’s Lake Outlet have further contributed to the tension between the two states. [6]


Attempts at Conflict Management

The Boundary Waters Treaty has led to several agreements and treaties between Canada and the U.S., including the Trail Smelter Arbitration (1941), Columbia River Treaty (1961), Great Lakes Water Quality Agreement (1972), and the Great Lakes-St. Lawrence River Basin Water Resources Agreement (2005).


Outcome

Most transboundary agreements between the U.S. and Canada have ended favorably for both countries. Interestingly, most attempts at resolution of conflicts in the Great Lakes region have been successful, while those in the prairie region (North Dakota, Montana) have led to unresolved conflicts.[7] Distrust and tension over decisions like the Columbia River Treaty and Devils Lake Outlet project area a source of continuing irritation to water management relations between the two countries. The possibility for new points of conflict continues to grow.

Issues and Stakeholders

Flood control structures to protect lives and property, but at what environmental cost?

NSPD: Water Quality, Governance, Assets
Stakeholder Types: Federated state/territorial/provincial government, Sovereign state/national/federal government, Non-legislative governmental agency, Environmental interest, Community or organized citizens, Cultural Interest

Devil's Lake Outlet

Issues: Frequent flooding in a basin in North Dakota necessitated the construction of emergency outlets which drain to the Sheyenne River, risking the ecological integrity of downstream biotic communities in Canada. Management solutions have been largely unsuccessful to the present, and flooding continues.

Stakeholders: The town of Devil’s Lake, U.S. Army Corps. of Engineers, The State of Manitoba (Canada), The States Minnesota and North Dakota (U.S.), traditional and commercial fishermen of the Sheyenne and Red rivers, International Joint Commission.

Issues of financial settlements, indigenous community impacts after dams constructed for storage, power, and flood control

NSPD: Governance, Assets, Values and Norms
Stakeholder Types: Federated state/territorial/provincial government, Sovereign state/national/federal government, Industry/Corporate Interest, Community or organized citizens

Issues: Dams were constructed along the Columbia River in both the U.S. and Canada to prevent catastrophic flooding, provide storage, and generate hydroelectric power. Financial settlements for paid by the U.S. to Canada are suspected to have been insufficient, and losses to ecosystems and First Nation peoples were not considered in the treaty, damaging Canada’s trust of U.S. transboundary water policy.

Stakeholders: The United States, Canada, International Joint Commission, States of Montana and Washington (U.S.), State of British Columbia (Canada), the Columbia River Intertribal Fish Commission (CRITFC), the Upper Columbia United Tribes (UCUT), the Columbia River Inter-Tidal Fisheries Commission (CCRIFC).


Analysis, Synthesis, and Insight

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The International Joint Commission as a model mechanism for transboundary water relations


Contributed by: Charles van Rees (last edit: 17 May 2013)




Key Questions

What mechanisms beyond simple allocation can be incorporated into transboundary water agreements to add value and facilitate resolution?

The IJC is a near-perfect example of the type of organization which provides the basis the powerful fact-finding practices that lead to value creation in water negotiation. Not only does the IJC employ expertise and technical knowledge in providing information on a given issue, but it operates in a well-maintained state of political neutrality, and maintains a high degree of legitimacy. It has been suggested by other authors that, in addition to legitimacy, it may in fact need more authority to direct the governments it serves or act on its own accord without waiting for the full consent of both parties.



How do issues of equity and development impact the identification of stakeholders in cases involving hydropower or other revenue generating water infrastructure?

Because hydropower projects require large financial investments, groups that are unable to make financial contributions may be marginalized. This seems to be the case for the Columbia River Treaty, in which the traditional fishing grounds of a large number of Native American tribes were altered and fisheries destroyed to provide protection for cities in the United States and economic opportunities for Canada. Because of this tendency to undervalue stakeholders who are unable to invest in the project itself, it may be necessary for decision-makers to be especially vigilant and sensitive to stakeholder needs when dealing with hydropower projects.



'

"Even with an established binational management organization with significant experience can have difficulty with certain initiatives."
After talks about pollution controlled failed in 1920, more than 50 years went by when the issue was addressed again before creating the Great Lakes Water Quality Agreement in 1972. Both countries had anti-pollution programs domesti- cally, but an international agreement proved complicated to work out even though relations were good between the two States."[8]

The given value was not understood.


What role(s) can hydropower play in a nation's energy strategy?

As in the Columbia River Treaty, hydropower can be a form of added value in addition to other benefits like flood control and drought protection, enabling payments and exchange to occur between countries which may facilitate or fund the construction of projects that might otherwise not be feasible. As recent controversy over the treaty indicates, it is best to consider the effects of engineering projects of the scale of hydroelectric dams on a multitude of stakeholders, because of their far-reaching ecological and hydrological impacts. Hydropower is a powerful tool for a nation’s energy strategy, but one that must be used prudently and with attention to impacts on “outsider” groups like endangered species and indigenous people.

External Links

  • International Joint Commission Website — The official website of the International Joint Commission. Includes lists of all agreements and meeting minutes, also a text version of the Boundary Waters Treaty.
  1. ^ Hall, N.D. 2007. Transboundary Pollution: Harmonizing International and Domestic Law, 40. U. Mich. J.L. Reform. 681, 682.
  2. ^ Lemarquand, D.G. 1986. Preconditions to Cooperation in Canada-United States Boundary Waters, 26. Nat. Resouces K. 221, 223.
  3. ^ Taken from the International Joint Commission Website. (c) International Joint Commission, 2013. http://www.ijc.org/en_/
  4. ^ Great Lakes Commission, 2003. Toward a Water Resources Management Decision Support System for the Great Lakes-St.Lawrence River Basin 9. Available at http://www.glc.org/wateruse/wrmdss/finalreport/pdf/WR-ExSum-2003.pdf.
  5. ^ Heinmiller, B.T. 2008. The Boundary Waters Treat and Canada-U.S. Relations in Abundance and Scarcity. The Wayne Law Review 54:4, 1499-1524.
  6. ^ Schindler, D.W. and A.M. Hurley. 2004. Rising Tensions: Canada/U.S. Cross-Border Water Issues in the 21st Century. Notes for Remarks to the Centre for Global Studies Conference on Canada/U.S. Relations, University of Victoria. November, 2004.
  7. ^ Heinmiller, B.T. 2008. The Boundary Waters Treat and Canada-U.S. Relations in Abundance and Scarcity. The Wayne Law Review 54:4, 1499-1524.
  8. ^ Wolf, A.T. and J.T. Newton. 2009. Appendix C: Case Studies of Transboundary Dispute Resolution. in Managing and Transforming Water Conflicts edited by Jerome Delli Priscoli and Aaron T. Wolf. Cambridge University Press, 169-248. Chapter DOI http://dx.doi.org/10.1017/CBO9780511551536.013



Facts about "U.S.-Canada Transboundary Water Management"RDF feed
AgreementThe Boundary Waters Treaty (BWT) + and Columbia River Treaty +
Climatealpine +
Geolocation49° 0' 0", -96° 0' 0"Latitude: 49
Longitude: -96
+
IssueFlood control structures to protect lives and property, but at what environmental cost? + and Issues of financial settlements, indigenous community impacts after dams constructed for storage, power, and flood control +
Key QuestionWhat mechanisms beyond simple allocation can be incorporated into transboundary water agreements to add value and facilitate resolution? +, How do issues of equity and development impact the identification of stakeholders in cases involving hydropower or other revenue generating water infrastructure? + and What role(s) can hydropower play in a nation's energy strategy? +
Land Useagricultural- cropland and pasture +, conservation lands +, industrial use +, forest land +, rangeland +, urban + and religious/cultural sites +
NSPDWater Quality +, Governance +, Assets + and Values and Norms +
Population45,000,000 million +
RiparianThe United States of America + and Canada +
Stakeholder TypeFederated state/territorial/provincial government +, Sovereign state/national/federal government +, Non-legislative governmental agency +, Environmental interest +, Community or organized citizens +, Cultural Interest + and Industry/Corporate Interest +
Water FeatureColumbia River Basin +, Devil's Lake Basin + and The St. Mary and Milk Rivers +
Water ProjectDevils Lake Outlet + and Canadian Columbia River Inter-Tribal Fisheries Commission +
Water UseAgriculture or Irrigation +, Domestic/Urban Supply +, Fisheries - wild +, Hydropower Generation +, Industry - consumptive use +, Other Ecological Services + and Recreation or Tourism +
Has subobjectThis property is a special property in this wiki.U.S.-Canada Transboundary Water Management +, U.S.-Canada Transboundary Water Management +, U.S.-Canada Transboundary Water Management + and U.S.-Canada Transboundary Water Management +