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The Minnesota Legislature passed a law during the 2013 session banning the use and sale of coal tar-based sealants, also commonly called sealcoats, throughout Minnesota. (See [https://www.revisor.mn.gov/data/revisor/law/2013/0/2013-137.pdf Chapter 137, Article 2. Clean Water Fund, Section 17], page 30.) The new law and statewide ban go into effect January 1, 2014.
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{{alert|The Minnesota Legislature passed a law during the 2013 session banning the use and sale of coal tar-based sealants, also commonly called sealcoats, throughout Minnesota. (See [https://www.revisor.mn.gov/data/revisor/law/2013/0/2013-137.pdf Chapter 137, Article 2. Clean Water Fund, Section 17], page 30.) The new law and statewide ban go into effect January 1, 2014.|alert-info}}
  
While coal tar-based sealants may be applied until the end of 2013 (except in Minnesota cities that have already banned it; see the list below), the Minnesota Pollution Control Agency (MPCA) urges local governments, pavement owners, and providers to consider using safer alternatives immediately. To learn more about preferred alternatives, see http://www.pca.state.mn.us/ahx9qrk or contact Al Innes of the MPCA (alister.innes@state.mn.us, 651-757-2547).
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While coal tar-based sealants may be applied until the end of 2013 (except in Minnesota cities that have already banned it; see the list below), the Minnesota Pollution Control Agency (MPCA) urges local governments, pavement owners, and providers to consider using safer alternatives immediately.
  
 
Since the mid-1900s, sealcoats with coal tar have been widely used on asphalt pavements to protect them and to keep them looking “new” or uniformly black. It has also been used in settings where vehicle gas and oil spills and drippings are expected.
 
Since the mid-1900s, sealcoats with coal tar have been widely used on asphalt pavements to protect them and to keep them looking “new” or uniformly black. It has also been used in settings where vehicle gas and oil spills and drippings are expected.
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Depending on the condition of pavement, it may be replaced with concrete, stone, or [[Permeable pavement|permeable pavers]]. If years more life are expected, it may be preserved by alternative sealcoats. The most common replacement is asphalt-based, which when properly applied performs as well or better than coal tar, at similar cost.
 
Depending on the condition of pavement, it may be replaced with concrete, stone, or [[Permeable pavement|permeable pavers]]. If years more life are expected, it may be preserved by alternative sealcoats. The most common replacement is asphalt-based, which when properly applied performs as well or better than coal tar, at similar cost.
  
Because MPCA, USGS, and other U.S. research has traced over 50 percent of PAH sediment contamination to coal tar sealcoats, the 2009 Minnesota legislature passed a [https://www.revisor.mn.gov/bin/bldbill.php?bill=ccrhf1231.html&session=ls86 law] prohibiting State agencies from purchasing coal tar sealcoat products and encouraged cities to pass ordinances banning coal tar sealcoat in order to be eligible for state grants to help pay for pond cleanout. Twenty-eight [http://www.pca.state.mn.us/index.php/view-document.html?gid=16180 Minnesota cities] passed such bans, and city and watershed organization concern was a driver behind enactment of the statewide ban in 2013.
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Because MPCA, USGS, and other U.S. research has traced over 50 percent of PAH sediment contamination to coal tar sealcoats, the 2009 Minnesota legislature passed a [https://www.revisor.mn.gov/bin/bldbill.php?bill=ccrhf1231.html&session=ls86 law] prohibiting State agencies from purchasing coal tar sealcoat products and encouraged cities to pass ordinances banning coal tar sealcoat in order to be eligible for state grants to help pay for pond cleanout. Twenty-nine Minnesota cities passed such bans, and city and watershed organization concern was a driver behind enactment of the statewide ban in 2013.
  
 
Cities with dozens or hundreds of stormwater basins will incur huge costs in cleaning out, transporting, and disposing of sediments in order to maintain storage capacity and pollutant capture. Total cost per cubic yard of highly PAH-contaminated sediment can range from $65 to $100 per yard, and a modest clean-out will involve 2500 to 5000 cubic yards of sediment.
 
Cities with dozens or hundreds of stormwater basins will incur huge costs in cleaning out, transporting, and disposing of sediments in order to maintain storage capacity and pollutant capture. Total cost per cubic yard of highly PAH-contaminated sediment can range from $65 to $100 per yard, and a modest clean-out will involve 2500 to 5000 cubic yards of sediment.
  
In 2012 and 2013 prior to a statewide ban, MPCA encouraged voluntary coal tar sealcoat phase-out and supported cities in developing and implementing local bans. Under a U.S. EPA Great Lakes Restoration Initiative grant, MPCA is pushing successful coal voluntary tar phase-out tools out to other Great Lakes area states and provinces.
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In 2012 and 2013 prior to a statewide ban, MPCA encouraged voluntary coal tar sealcoat phase-out and supported cities in developing and implementing local bans. Under a U.S. EPA Great Lakes Restoration Initiative grant, MPCA is pushing successful voluntary coal tar phase-out tools out to other Great Lakes area states and provinces.
  
MPCA’s coal tar web pages provide resources using alternatives or supporting others in their community in doing so. Stormwater professionals and active local stakeholders can play individual and collective roles in this education and phase-out promotion, and it can be readily integrated into other stormwater management education initiatives that communities may already have in place.
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MPCA’s coal tar web pages provide resources for using alternatives or supporting others in the community in doing so. Stormwater professionals and active local stakeholders can play individual and collective roles in this education and phase-out promotion, and it can be readily integrated into other stormwater management education initiatives that communities may already have in place.
  
 
==Cities where coal tar-based sealcoat bans are already in effect==
 
==Cities where coal tar-based sealcoat bans are already in effect==
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'''<font size=3><font color="DC143C">To stay current on additions to these sites, sign up for [http://public.govdelivery.com/accounts/MNPCA/subscriber/new?topic_id=MNPCA_151 email updates]</font color></font size>'''
 
'''<font size=3><font color="DC143C">To stay current on additions to these sites, sign up for [http://public.govdelivery.com/accounts/MNPCA/subscriber/new?topic_id=MNPCA_151 email updates]</font color></font size>'''
  
 
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[[Category:Level 2 - Technical and specific topic information/Miscellaneous technical information]]
 
 
 
 
While coal tar-based sealants may be applied until the end of 2013 (except in Minnesota cities that have already banned it; see the list below), the Minnesota Pollution Control Agency (MPCA) urges local governments, pavement owners, and providers to consider using safer alternatives immediately. To learn more about preferred alternatives, see http://www.pca.state.mn.us/ahx9qrk or contact Al Innes of the MPCA (alister.innes@state.mn.us, 651-757-2547).
 
 
 
 
 
Since the mid-1900s, sealcoats with coal tar have been widely used on asphalt pavements to protect them and to keep them looking “new” or uniformly black. It has also been used in settings where vehicle gas and oil spills and drippings are expected.
 
 
 
A byproduct of coal processing, the coal tar pitch used in sealcoat is a known carcinogen and contains high levels - up to 50,000 parts per million (ppm), or 5 percent - of polycyclic aromatic hydrocarbons (PAHs). Some of these PAHs are reasonably anticipated human carcinogens, and pre-natal and early childhood developmental impacts are being studied.
 
 
 
Exposure to the PAHs in coal tar sealcoat can occur through inhalation of fumes or dust or direct contact with the liquid or dried product. Dried coal tar sealcoat wears away over time into PAH-laden dust that is washed by rainwater into streams, lakes and stormwater ponds, harming aquatic life and concentrating in sediments.
 
 
 
Depending on the condition of pavement, it may be replaced with concrete, stone, or [[Permeable pavement|permeable pavers]]. If years more life are expected, it may be preserved by alternative sealcoats. The most common replacement is asphalt-based, which when properly applied performs as well or better than coal tar, at similar cost.
 
 
 
Because MPCA, USGS, and other U.S. research has traced over 50 percent of PAH sediment contamination to coal tar sealcoats, the 2009 Minnesota legislature passed a [https://www.revisor.mn.gov/bin/bldbill.php?bill=ccrhf1231.html&session=ls86 law] prohibiting State agencies from purchasing coal tar sealcoat products and encouraged cities to pass ordinances banning coal tar sealcoat in order to be eligible for state grants to help pay for pond cleanout. Twenty-eight [http://www.pca.state.mn.us/index.php/view-document.html?gid=16180 Minnesota cities] passed such bans, and city and watershed organization concern was a driver behind enactment of the statewide ban in 2013.
 
 
 
Cities with dozens or hundreds of stormwater basins will incur huge costs in cleaning out, transporting, and disposing of sediments in order to maintain storage capacity and pollutant capture. Total cost per cubic yard of highly PAH-contaminated sediment can range from $65 to $100 per yard, and a modest clean-out will involve 2500 to 5000 cubic yards of sediment.
 
 
 
In 2012 and 2013 prior to a statewide ban, MPCA encouraged voluntary coal tar sealcoat phase-out and supported cities in developing and implementing local bans. Under a U.S. EPA Great Lakes Restoration Initiative grant, MPCA is pushing successful coal voluntary tar phase-out tools out to other Great Lakes area states and provinces.
 
 
 
MPCA’s coal tar web pages provide resources using alternatives or supporting others in their community in doing so. Stormwater professionals and active local stakeholders can play individual and collective roles in this education and phase-out promotion, and it can be readily integrated into other stormwater management education initiatives that communities may already have in place.
 
 
 
==Cities where coal tar-based sealcoat bans are already in effect==
 
*Albertville
 
*Buffalo
 
*Cannon Falls
 
*Centerville
 
*Circle Pines
 
*Eden Prairie
 
*Edina
 
*Elk River
 
*Falcon Heights
 
*Golden Valley
 
*Hutchinson
 
*Inver Grove Heights
 
*Little Canada
 
*Maplewood
 
*Medina
 
*Minneapolis
 
*Newport
 
*New Hope
 
*Oakdale
 
*Prior Lake
 
*Rosemount
 
*Roseville
 
*Shoreview
 
*Shorewood
 
*Vadnais Heights
 
*Waconia
 
*West St. Paul
 
*White Bear Lake
 
*Woodland
 
==Additional resources==
 
* [http://www.pca.state.mn.us/ahx9qrk Interactive map] or list of contractors who have pledged not to apply coal tar sealcoat
 
* [http://www.pca.state.mn.us/ckkfkud Guidance] on choice and best application practices for alternatives to coal tar
 
*[http://www.pca.state.mn.us/ktqha7e Information] on coal tar-related activities in MPCA’s Stormwater regulatory program – including guidance for municipalities on cleaning up contaminated sediment
 
*[http://www.pca.state.mn.us/index.php/view-document.html?gid=16180 Information] on government and private sector actions to phase-out coal tar sealcoat
 
 
 
 
 
'''<font size=3><font color="DC143C">To stay current on additions to these sites, sign up for [http://public.govdelivery.com/accounts/MNPCA/subscriber/new?topic_id=MNPCA_151 email updates]</font color></font size>'''
 

Latest revision as of 14:48, 6 January 2023

Information: The Minnesota Legislature passed a law during the 2013 session banning the use and sale of coal tar-based sealants, also commonly called sealcoats, throughout Minnesota. (See Chapter 137, Article 2. Clean Water Fund, Section 17, page 30.) The new law and statewide ban go into effect January 1, 2014.

While coal tar-based sealants may be applied until the end of 2013 (except in Minnesota cities that have already banned it; see the list below), the Minnesota Pollution Control Agency (MPCA) urges local governments, pavement owners, and providers to consider using safer alternatives immediately.

Since the mid-1900s, sealcoats with coal tar have been widely used on asphalt pavements to protect them and to keep them looking “new” or uniformly black. It has also been used in settings where vehicle gas and oil spills and drippings are expected.

A byproduct of coal processing, the coal tar pitch used in sealcoat is a known carcinogen and contains high levels - up to 50,000 parts per million (ppm), or 5 percent - of polycyclic aromatic hydrocarbons (PAHs). Some of these PAHs are reasonably anticipated human carcinogens, and pre-natal and early childhood developmental impacts are being studied.

Exposure to the PAHs in coal tar sealcoat can occur through inhalation of fumes or dust or direct contact with the liquid or dried product. Dried coal tar sealcoat wears away over time into PAH-laden dust that is washed by rainwater into streams, lakes and stormwater ponds, harming aquatic life and concentrating in sediments.

Depending on the condition of pavement, it may be replaced with concrete, stone, or permeable pavers. If years more life are expected, it may be preserved by alternative sealcoats. The most common replacement is asphalt-based, which when properly applied performs as well or better than coal tar, at similar cost.

Because MPCA, USGS, and other U.S. research has traced over 50 percent of PAH sediment contamination to coal tar sealcoats, the 2009 Minnesota legislature passed a law prohibiting State agencies from purchasing coal tar sealcoat products and encouraged cities to pass ordinances banning coal tar sealcoat in order to be eligible for state grants to help pay for pond cleanout. Twenty-nine Minnesota cities passed such bans, and city and watershed organization concern was a driver behind enactment of the statewide ban in 2013.

Cities with dozens or hundreds of stormwater basins will incur huge costs in cleaning out, transporting, and disposing of sediments in order to maintain storage capacity and pollutant capture. Total cost per cubic yard of highly PAH-contaminated sediment can range from $65 to $100 per yard, and a modest clean-out will involve 2500 to 5000 cubic yards of sediment.

In 2012 and 2013 prior to a statewide ban, MPCA encouraged voluntary coal tar sealcoat phase-out and supported cities in developing and implementing local bans. Under a U.S. EPA Great Lakes Restoration Initiative grant, MPCA is pushing successful voluntary coal tar phase-out tools out to other Great Lakes area states and provinces.

MPCA’s coal tar web pages provide resources for using alternatives or supporting others in the community in doing so. Stormwater professionals and active local stakeholders can play individual and collective roles in this education and phase-out promotion, and it can be readily integrated into other stormwater management education initiatives that communities may already have in place.

Cities where coal tar-based sealcoat bans are already in effect

  • Albertville
  • Buffalo
  • Cannon Falls
  • Centerville
  • Circle Pines
  • Eden Prairie
  • Edina
  • Elk River
  • Falcon Heights
  • Golden Valley
  • Hutchinson
  • Inver Grove Heights
  • Little Canada
  • Maplewood
  • Medina
  • Minneapolis
  • Newport
  • New Hope
  • Oakdale
  • Prior Lake
  • Rosemount
  • Roseville
  • Shoreview
  • Shorewood
  • Vadnais Heights
  • Waconia
  • West St. Paul
  • White Bear Lake
  • Woodland

Additional resources

  • Interactive map or list of contractors who have pledged not to apply coal tar sealcoat
  • Guidance on choice and best application practices for alternatives to coal tar
  • Information on coal tar-related activities in MPCA’s Stormwater regulatory program – including guidance for municipalities on cleaning up contaminated sediment
  • Information on government and private sector actions to phase-out coal tar sealcoat


To stay current on additions to these sites, sign up for email updates

This page was last edited on 6 January 2023, at 14:48.