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The Falcon Public Monitoring Project

Part of the Falcon Public EIA Project

In March of 2019, two and a half years after Shell Pipeline Co. announced plans for the Falcon Ethane Pipeline System, the imported pipes arrived at the Port of Philadelphia. As tree clearing and construction begins, we share frustration with residents that the project is underway while many of our concerns remain unaddressed.

Between 2010 and 2018, over 280 pipeline incidents were reported in Ohio, West Virginia, and Pennsylvania (the three states the Falcon crosses). Of those incidents, 70 were fires and/or explosions. As regulatory agencies and operators fail to protect the public, communities are taking the reins.

Residents of southwest PA gather along the Falcon route

Environmental organizations are training the public to spot construction violations and appealing inadequate pipeline permits. Impacted residents are running for office, testifying in court, and even spending time in prison to protect their communities.

These grassroots efforts are contributing to a shift in public perception about the safety and need of pipelines. In some cases, including with the Northeast Energy Direct Pipeline and the Constitution Pipeline, organizing efforts are helping stop projects before they begin.

We invite all residents along the Falcon route to get involved in ongoing efforts to monitor construction. Below, you’ll find a guide to reporting violations as well as high-risk areas along the Falcon route that require close monitoring.

Be a citizen watchdog

Taking photos of pipeline development and recording your observations is a great way to monitor impacts. One tool to use while monitoring is the FracTracker mobile app (search “FracTracker” in the App Store or Google Play to download for free). The app allows the public to submit geolocated photos and descriptions of development, such as pipelines and wells, and concerns, such as spills and noise pollution. These reports help FracTracker crowdsource data and alert us to concerns that need follow up action. The app also contains a map of wells, pipelines, and compressor stations, including the Falcon pipeline route for reference in the field.

Click on the images below to view app reports of Falcon construction.

Documenting violations

During the construction phase, incidents often occur when companies cause erosion of the ground and release sediment, equipment, or discharge into waterways. Mountain Watershed Association and Clean Air Council have provided the following information on the process of looking for and documenting violations.

Step 1) Document baseline conditions. Documenting the pre-construction status of an area is crucial for understanding how it’s been impacted down the road. Document baseline conditions by taking photos, videos, and notes at different sites, and include the location and date on these materials (the Fractracker app does this for you automatically). Observing sites at different times and in different weather (such as during or after a storm) will give you the best data.

Step 2) Know what to look for. Below are images and descriptions of common construction violations.

Filtration Failure

Drilling fluid spill

For more violations, checkout Pipeline CSI’s list of Top Ten Observable Non-Compliance Issues.

3) File a Report. File an official complaint to your state environmental regulatory agency.

Your concerns can be sent to regulatory agencies using the following contact information:

4) Contact support organizations. There are several organizations ready to take action once violations have been confirmed. For confirmed violations in Beaver County, PA, contact Alex Bomstein, at the Clean Air Council (215-567-4004 x118) and for confirmed violations in Allegheny or Washington Counties, PA, contact Melissa Marshall at the Mountain Watershed Association (724-455-4200 x7#). For violations in Ohio or West Virginia, reach out to FracTracker (412-802-0273).

Reports made on the FracTracker App are shared with any app user and the FracTracker team, who look through the reports and contact users for any required follow up. App reports can also be submitted to regulatory agencies electronically. Simply visit the web version of the app, click on your report, and copy the URL (web address) of your report. Then “paste” it into the body of an email or online complaint form. The receiver will see the exact location, date, and any notes or photos you included in the report.

Where should you be monitoring?

Monitoring efforts must be limited to publicly accessible land. In general, areas that are most at-risk for environmental impact include stream and wetland crossings, steep slopes (particularly those near water crossings), flood-prone zones, and areas where storm water runoff will reach waterways. View a map of the Falcon’s water crossings here, and continue reading for more vulnerable locations to monitor.

The information below identifies high-risk areas along the pipeline route where monitoring efforts are extra necessary due to their impacts on drinking water, wetlands, undermined areas, and vulnerable species.

Drinking Water

We found 240 private water wells within 1/4 mile of the Falcon.

While all of these wells should be assessed for their level of risk with pipeline construction, the subset of wells nearest to horizontal directional drilling (HDD) sites deserve particular attention. HDD is a way of constructing a pipeline that doesn’t involve digging a trench. Instead, a directional drilling machine is used to drill horizontally underground and the pipe is pulled through.

While an HDD is designed to avoid surface impacts, if rushed or poorly executed, it can damage surface water, groundwater, and private property. The Mariner East 2 pipeline construction left several families without water after construction crews punctured an aquifer at an HDD site.

Shell’s data highlights 24 wells that are within 1,000 feet of a proposed HDD site.

We’ve isolated the groundwater wells and HDDs in a standalone map for closer inspection below. The 24 most at-risk wells are circled in blue.

View Map Fullscreen | How FracTracker Maps Work

Testing your groundwater quality before construction begins is crucial for determining impacts later on. Two upcoming workshops in Washington County, PA and another in Beaver County, PA will discuss how to protect your water and property.

The Falcon’s HDD locations offer disturbing similarities to what caused the Mariner East pipeline spills. Many of Sunoco’s failures were due to inadequately conducted (or absent) geophysical surveys that failed to identify shallow groundwater tables, which then led to drilling mud entering streams and groundwater.

Figure 1 below shows Greene Township, Beaver County, just south of Hookstown, where the “water table depth” is shown. The groundwater at this HDD site averages 20ft on its western side and only 8ft deep on the eastern side.

Figure 1. Water table depth in Greene Township

Water Reservoirs

The Falcon also crosses the headwaters of two drinking water reservoirs: the Tappan Reservoir in Harrison County, OH (Figure 2) and the Ambridge Reservoir in Beaver County, PA (Figure 3).  The Falcon will also cross the raw water line leading out of the Ambridge Reservoir.

The Ambridge Reservoir supplies water to five townships in Beaver County (Ambridge, Baden, Economy, Harmony, and New Sewickley) and four townships in Allegheny County (Leet, Leetsdale, Bell Acres & Edgeworth). The Tappan Reservoir is the primary drinking water source for residents in Scio.

Figure 2. Tappan Reservoir and the Falcon route in Harrison County, Ohio

Figure 3. Ambridge Reservoir and the Falcon route in Beaver County, Pennsylvania

Wetlands

Wetlands that drain into Raccoon Creek in Beaver County, PA will be particularly vulnerable in 2 locations. The first is in Potter Township, off of Raccoon Creek Rd just south of Frankfort Rd, where the Falcon will run along a wooded ridge populated by half a dozen perennial and intermittent streams that lead directly to a wetland, seen in Figure 4. Complicating erosion control further, Shell’s survey data shows that this ridge is susceptible to landslides. This area is also characterized by the USGS as having a “high hazard” area for soil erosion.

Figure 4. Wetlands and streams in Potter Township, PA

The other wetland area of concern along Raccoon Creek is found in Independence Township at the Beaver County Conservation District (Figure 5). Here, the Falcon will go under the Creek using HDD (highlighted in bright green). Nevertheless, the workspace needed to execute the crossing is within the designated wetland itself. An additional 15 acres of wetland lie only 300ft east of the crossing but are not accounted for in Shell’s data. This unidentified wetland is called Independence Marsh, considered the crown jewel of the Independence Conservancy’s watershed stewardship program.

Figure 5. Wetlands and Raccoon Creek in Independence Township, PA

Subsurface concerns

Shell’s analysis shows that 16.8 miles of the Falcon pipeline travel through land that historically has or currently contains coal mines. Our analysis using the same dataset suggests the figure is closer to 20 miles. Construction through undermined areas poses a risk for ground and surface water contamination and subsidence. 

Of these 20 miles of undermined pipeline, 5.6 miles run through active coal mines and are located in Cadiz Township, OH (Harrison Mining Co. Nelms Mine, seen in Figure 6); Ross Township, OH (Rosebud Mining Co. Deep Mine 10); and in Greene Township, PA (Rosebud Mining Co. Beaver Valley Mine). 

Figure 6. Coal mines and are located in Cadiz Township, OH

For a complete map of mined areas, click here.

More than 25 of the Falcon’s 97 pipeline miles will be laid within karst landscapes, including 9 HDD sites. Karst is characterized by soluble rocks such as limestone prone to sinkholes and underground caves. A cluster of these are located in Allegheny and Washington counties, PA, with extensive historical surface mining operations.

The combination of karst and coal mines along Potato Garden Run, in Figure 7, make this portion of the pipeline route particularly risky. At this HDD site, the Falcon will cross a coal waste site identified in the permits as “Imperial Land Coal Slurry” along with a large wetland.

Figure 7. Coal mines in Imperial, Pennsylvania

Vulnerable species

Southern Redbelly Dace

The Southern Redbelly Dace, a threatened species, is especially vulnerable to physical and chemical (turbidity, temperature) changes to their environment. PA Fish and Boat Commission explicitly notes in their correspondence with Shell that “we are concerned about potential impacts to the fish, eggs and the hatching fry from any in-stream work.” Of note is that these sites of concern are located in designated “High Quality/Cold Water Fishes” streams of the Service Creek watershed (Figure 8). PFBC stated that that no in-stream work in these locations should be done between May 1 and July 31.

Figure 8. “High Quality/Cold Water Fishes” streams identified as habitat for the Southern Redbelly Dace

Northern Harriers & Short-Eared Owls

Portions of the Falcon’s workspace are located near 6 areas with known occurrences of Short-eared Owls (PA endangered species) and Northern Harriers (PA threatened species). Pennsylvania Game Commission requested a study of these areas to identify breeding and nesting locations, which were executed from April-July 2016 within a 1,000-foot buffer of the pipeline’s workspace (limited to land cover areas consisting of meadows and pasture). One Short-eared Owl observation and 67 Northern Harrier observations were recorded during the study. PGC’s determined that, “based on the unusually high number of observations at these locations” work should not be done in these areas during harrier breeding season, April 15 through August 31.

Figure 9. Surveyed areas for Short-eared Owls (PA endangered species) and Northern Harriers (PA threatened species)

Bald Eagles

A known Bald Eagle nest is located in Beaver County. Two potential “alternate nests” are located where the Falcon crosses the Ohio River. National Bald Eagle Management Guidelines bar habitat disturbances that may interfere with the ability of eagles to breed, nest, roost, and forage. The 1 active nest in close proximity to the Falcon, called the Montgomery Dam Nest, is located just west of the pipeline’s terminus at Shell’s ethane cracker facility.

U.S. Fish and Wildlife Service requested that Shell only implement setback buffers for the one active nest at Montgomery Dam (Figure 10). These include no tree clearing within 330 feet, no visible disturbances with 660 feet, and no excessive noise with 1,000 feet of an active nest. Furthermore, Shell must avoid all activities within 660ft of the nest from January 1st to July 31st that may disturb the eagles, including but not limited to “construction, excavation, use of heavy equipment, use of loud equipment or machinery, vegetation clearing, earth disturbance, planting, and landscaping.

Figure 10. Bald Eagle nest in Potter Township, Pennsylvania

Bats

The Falcon is located within the range of federally protected Indiana Bats and Northern Long-eared Bats in Pennsylvania and West Virginia. In pre-construction surveys, 17 Northern Long-eared Bats were found at 13 of the survey sites, but no Indiana Bats were captured.

A total of 9 Northern Long-eared Bat roost trees were located, with the nearest roost tree located 318 feet from the pipeline’s workspace. Figure 11 below shows a cluster of roost trees in Raccoon Township, PA. For a map of all the roost trees, click here. The U.S. Fish and Wildlife Service stated that “Due to the presence of several Northern Long-eared Bat roost trees within the vicinity of the project footprint (although outside of the 150-foot buffer), we recommend the following voluntary conservation measure: No tree removal between June 1 and July 31.”

The Pennsylvania Game Commission noted in early correspondences that Silver-haired Bats may be in the region (a PA species of special concern). PGC did not require a further study for the species, but did request a more restrictive conservation of no tree clearing between April 1 and October 31.

Figure 11. Northern long-eared bat roost trees in Raccoon Township, Pennsylvania

For more information on the wildlife impacts of the Falcon Pipeline, click here.

***

To continue reading about this pipeline, visit the Falcon Public EIA Project. 

By documenting the impacts of the Falcon Pipeline, you’re contributing to a growing body of work that shows the risks of fossil fuel pipelines. Not only does this evidence protect drinking water and vulnerable species, it serves as evidence against an inherently dangerous project that will contribute to climate change and the global plastics crisis.

We hope you’re inspired to take action and add your voice to a growing team in the region committed to safer and healthier environments. Thank YOU for your dedication to the cause!

By Erica Jackson, Community Outreach and Communications Specialist, FracTracker Alliance.

Portions of this article were adapted from previous posts in the Falcon Public EIA Project, written by Kirk Jalbert.

Frac sand mine in Wisconsin

Living on the Front Lines with Silica Sand Mines

Guest blog by Christine Yellowthunder, an environmental activist, tree farmer, and poet

Most people living in Wisconsin, Minnesota and Iowa have increased their knowledge over the past six years regarding the fracking destruction occurring across the country.  The horror of fracking damages to life and land remain in the minds of most people who live near the massive land destruction from silica sand mining for what the unconventional oil and gas industry lovingly calls “proppant”.

Very often, we in the Midwest wonder if the rest of the country knows that this specialized form of silica sand mining destroys our rolling hills, woodlands, and water sources in order for silica sand to feed the fracking industry’s insatiable proppant demand.

Those of us who live in the direct path of this unhealthy silica sand mining need to make our stories known.

Bridge Creek Town, Wisconsin

The quiet abundance of life on an 80-acre tree farm in Wisconsin, fed by natural springs and wetlands, has nurtured every dream this prairie-raised transplant could conceive in the last 30 years. Six years of vigilance and rational debate has led to loss on every front when addressing the local government’s permitting of silica sand mines and its health and safety impacts on the community.

The largest sand mine in Bridge Creek Town lies one mile north of our tree farm. Two years ago, 40 acres of trees were culled for the installation of high intensity power lines to feed anticipated silica sand mine expansion under the legal provision of “Right-of-Way.” That document was signed by a previous land owner in 1948. No specific amount of land was specified on the original right-of-way, thus allowing significant legal destruction and permanent loss against the farm.

However, from a tree farm owner’s perspective, we have seen the variety and number of wildlife species increase at our farm over the past six years – likely because these species view our farm as an oasis, or what ecologists call a refugium, in an otherwise altered mixed-use landscape. The maximum capacity of the tree farm as a wildlife sanctuary is unknown. The adjacent silica Hi-Crush sand mine depletes the hillsides and woodlots in its path.

Frac Sand Mine, Eau Claire County, WI

Frac sand mine in Eau Claire County, WI

Hi-Crush Partners LP’s frac sand mine

The weekly blasting away of the hillsides sends shock waves – shaking homes and outbuildings weekly, along with our nerves. Visible cracks appear in the walls of buildings, and private wells are monitored for collapse and contamination.  The sand mine only guarantees repair to property lying within a half-mile of the mine. The mine blasts the land near Amish schools and has had a noticeable effect on the psyche of countless farm animals. The invisible silica is breathed by every living thing much to the mine’s denial, with deadly silicosis appearing up to 15 years after initial exposure. Our community is left to wonder who will manifest the health effects first. Blasting unearths arsenic, lead, and other contaminants into private wells and into the remaining soil.

There has been no successful reclamation of the land after it is mined, with most residents wondering what the actual point is of developing a reclamation plan is if timely implementation and stringent reclamation metrics are not enforced.  All useful topsoil has been stripped away and is dead with the land only able to support sedge grasses and very few of them at best. No farming on this mined land can occur even though these mining companies promise farm owners that when they are done mining, soil productivity will meet or exceed pre-mining conditions and much milder slopes than the pre-mining bluffs that contained the silica sand. Needless to say, land values of homes, farms, and property decrease as the mines creeps closer.

Explore photos of Hi-Crush Partner’s frac sand mine:

The people of Bridge Creek

Bridge Creek, as well as many other towns, have been easy picking for the mines. Many towns are unzoned, having little industry, a meager tax base, and a huge land area for a very sparse population.  The unemployment and underemployment rates are quite high. Many residents in Bridge Creek farm, including a very large population of Amish who own a checkerboard of land used for farming and saw mills. Most of these Amish families arrived here from Canada and bought farms when the mid 80’s drought put small farms up for sale. The Amish community seldom votes, and their strong religious beliefs prevent them from taking a stand on any political issues.

Video of contaminated well water an Amish farm in Augusta, WI near frac sand mining

Scroll to the end of the article to explore more impacts to the Amish community

The original residents of this land, the Ho-Chunk people, are few in number and wish to protect their home lands that they had purchased back from the government. 

Furthermore, a significant number of artists live in this community and have chosen to keep their homes and studios in anonymity. Thus, it is very difficult to amass any unity among this diverse population to stand up to the local government. Many long-time residents have the attitude that you can’t stop “progress.” I wonder if they know that this kind of progress kills the future?

Broken promises made by the mining company for jobs and huge payments to the initial land sellers have divided families and the community. Even though the mining boom was sold as a job provider, few locals are employed by the mines. There is little faith that the local government will provide for the safety and well being of its residents.  Presentation of research, facts regarding aquifer endangerment and silica sand health risks, and proposals written in detail outlining potential protective ordinances have cost citizens, including myself, enormous amounts of time and money. The government responses remain the same. The sand mines have been allowed to continue destruction of the natural resources to no one’s benefit except for the enormous profits lining the coffers of the mining corporations.

Resistance sign reading "No Frac Sand Mining" in the August area of Wisconsin

Today, after six years of continuous silica sand mining moving ever closer, I can no longer fight logically and linearly to eliminate the greed, injustice, and usurped power head on. I fight land destruction as a different warrior.

I choose to protect this land and wood by nurturing its existence through planting more native trees, educating others to the wisdom and wonder of nature, by photo journaling the struggle for its survival and documenting this land’s story so that future citizens will know the truth. Moreover, I will continue to spread the message loud and long: stopping the silica sand mining will stop fracking.

These efforts may be the best that I can manage with a grieving heart. A fierce spirit will continue to share this story and those of others living in the Midwest where the silica sand laden hills roll under the top soil of our lives.


Christine Yellowthunder is an environmental activist of Lakota heritage and is also a tree farmer and poet. She lives on her farm with her husband Ralph Yellowthunder, a Ho-Chunk elder and Vietnam combat veteran.

The Amish community in Bridge Creek:

Listen below to in interview of an Amish farmer and clock maker who lives adjacent to the Hi-Crush mine, by Ted Auch, FracTracker’s Great Lakes Program Coordinator, and local resident, Mary Ann O’Donahue:

 

Photos of the property and workshop:


Feature image: Frac sand mining in Wisconsin. Photo by Ted Auch, FracTracker Alliance, with aerial assistance from LightHawk.

LPA Pipeline protest - Crosshairs feature

In the Crosshairs

The Origins & Work of Lebanon Pipeline Awareness, Inc. in Lebanon County, PA
by Michael Schroeder, Lebanon Pipeline Awareness, Inc.
LPA Logo

Nestled in a mostly agricultural region blessed with some of the most fertile, non-irrigated farmland in the world, Lebanon County, Pennsylvania sits square in the crosshairs of a Pipeline Revolution – smack-dab in between the Marcellus Shale fracking zones in northern and western PA and the processing and export facilities of the Eastern seaboard. This Pipeline Revolution began in earnest more than four years ago, in spring 2014, when Williams/Transco announced plans to build a 200-mile, 42-inch diameter, high-pressure (1,480 p.s.i.) underground natural gas pipeline with the Orwellian-sounding name “Atlantic Sunrise” as a shortcut to whisk fracked natural gas to points south – mainly Cove Point just south of Baltimore – for export. See map below for more context.

That’s the north-south axis of the crosshairs. East-west, for starters, is the 8-inch diameter, cast-iron Mariner East pipeline, which has traversed the state since the late 1930s, carrying gasoline from the Philadelphia region to the Pittsburgh area. Also around spring 2014, Mariner East’s owner-operator, Sunoco Logistics, announced its Mariner East expansion project: to stop carrying gasoline, reverse the flow, and start streaming natural gas liquids (NGLs – mainly propane, ethane, and butane) from the fracking zones of western PA to the Marcus Hook export facility outside Philadelphia. Also planned were several new larger-volume pipelines to be laid in the same easement – Mariner East 2 and 2X – along with their corresponding pump stations.

The two major transmission pipeline projects cross on private land atop a forested hill in Lebanon County’s South Londonderry Township – making “in the crosshairs” an apt metaphor for where we stand in relation to the Pipeline Revolution.

In response to Williams/Transco’s announcement in spring 2014, activists in neighboring Lancaster County organized the grassroots citizens’ group Lancaster Against Pipelines. We soon followed suit, holding our first organizing meeting in April in humble surroundings, an artist’s loft in downtown Lebanon. After a democratic vote,we called ourselves Lebanon Against Pipelines and began meeting bi-weekly with a core group of 8-10 people.

LPA Organizing Meeting - Crosshairs

Initial organizing meeting of Lebanon Against Pipelines (soon changed to Lebanon Pipeline Awareness), downtown Lebanon, April 2014

By summer 2014, we adopted what we felt was a more positive and publicly acceptable name in our strongly conservative county, one more in keeping with our core mission of raising public awareness about the immensely destructive power of fracking and pipelines: Lebanon Pipeline Awareness.

Making Plans

Over the next year, a core leadership emerged. With the pro-bono help of a local attorney, we became a 501c(3) non-profit corporation with officers and a board of directors, making it possible to apply for much-needed grants after our meager, mostly self-funded beginnings.

Realizing the importance of strength in numbers, from the outset we reached out to collaborate with other groups. We’ve had many key allies in this fight, especially our sister organization, Concerned Citizens of Lebanon County (CCLC). Focused on Sunoco’s Mariner East projects, CCLC has focused mainly on the judicial system to challenge the absurd notion that this project merits status as a “public utility” – most notably by pursuing civil action against Sunoco for not obtaining the proper permits before building its new pump station in West Cornwall Township.

Bringing About Change

How have we worked to raise public awareness? In most every way we can think of, given our limited resources.

We still lack a website, but we have developed and curated a highly active Facebook presence (with nearly 800 “likes” at present). We’ve designed, printed, and distributed widely an attractive tri-fold brochure and our own eye-catching logo. We’ve set up tables at most every available community event (National Night Out in Campbelltown; Historic Old Annville Day; the Lebanon County Fair; and others). We’ve organized protests and demonstrations, often in tandem with Lancaster Against Pipelines and other allied groups. We have sponsored film screenings, public safety forums, speakers from allied organizations, and informational meetings for local landowners and other concerned citizens.

Public protest by LPA

Public protest with Lancaster Against Pipelines, Annville town square, December 2015

We’ve attended local municipal meetings to encourage local authorities to pass resolutions opposing the pipelines traversing their municipalities – in two cases successfully. We’ve filed dozens of Right-To-Know requests, developing a rich archive of construction violations and disseminating our findings publicly. We’ve brought our concerns to the county commissioners’ meetings, prompting them to write letters of concern to state and federal officials and add an informational “pipelines” tab to their website. We have developed a robust presence in local media outlets – issuing press releases and writing letters to the editor and op-ed pieces, and inviting reporters to the events we sponsor – including local newspapers (like the Lebanon Daily News), regional digital media platforms (like NPR’s StateImpact), local TV and radio stations, and more. We’ve even hosted a few tours for national photographers and reporters.

Working with Others

In our interactions with local governmental authorities, we consistently act respectfully and courteously and try hard not to blindside anyone. Before attending a public meeting, we’ll send a courtesy note to the relevant authority, detailing our concerns and summarizing what we’ll be saying and asking for. When speaking at public meetings, we’re civil, crisp, and respectful – though, when necessary, we have engaged in peaceful acts of public protest (like duct-taping our mouths shut when prevented from speaking at a township meeting because we’re not township residents).

We’ve also met with all of our state representatives, either in individual meetings or during town hall-style meetings with constituents. We’ve expressed our concerns to members of Governor Tom Wolf’s staff, his Pipeline Infrastructure Task Force and other Department of Environmental Protection officials, the Susquehanna River Basin Commission, the Federal Energy Regulatory Commission, and other public bodies.

Innovative Pipeline Monitoring Program

Pipeline monitor badge

Citizen pipeline monitoring badge

More recently, with pipeline construction well underway, we’ve developed a pipeline construction monitoring program, undergoing rigorous training and developing official badges to identify ourselves and our organization. We also register all of our monitors with the county commissioners’ office (to prevent imposters from engaging in nefarious acts in our name). (See badge, right)

And it’s made a difference.

I remember well our first outreach efforts in summer 2014 at events like National Night Out in Campbelltown, where we were met with a fair amount of open hostility. “Why do you oppose American energy independence?” people would ask.  “What about all the jobs the pipelines will bring to local workers?” After four years of respectfully but insistently hammering on these issues, the public tenor has shifted. Very rarely do we encounter outright hostility anymore. The public has grown increasingly receptive to our message – especially now that construction has begun and folks can see that what we’ve predicted is now coming to pass.

Respect and Reciprocity

We’ve worked very hard to cultivate a respectable public persona and reputation, and we’ve largely succeeded. As best as we can tell, the predominant public perception is that Lebanon Pipeline Awareness is run by a group of dedicated and well-informed volunteers with an important message to share. In fact, two of our leaders were singled out last year by the local newspaper for recognition as providing a positive impact for our community. Our core group, which generally meets twice a month, has expanded to include upwards of 15 committed local activists.

We’ve also worked hard to always couple our anti-pipeline message with a positive message about renewable energy – repeatedly emphasizing that wind, solar, geothermal, and other green energies represent an increasingly viable alternative for energy and for jobs.

In It for the Long Haul

So that’s where we in Lebanon Pipeline Awareness stand at the beginning of our fifth year. Because we have every reason to expect this insane pipeline buildout to intensify, we know we’re in it for the long haul. Our goals for the coming year are to expand our membership; build on and extend our alliances even further; intensify our outreach efforts and our pipeline construction monitoring program; and continue to host public meetings for concerned property owners and citizens.

CHISPA Flyer

CHISPA Flyer – Click to enlarge

We also plan to expand our activities to include direct action campaigns like CHISPA – “Challenge in the Streets to Pipelines in PA” – where every Friday afternoon from 4-6 p.m. we’ll be lining five miles of westbound Route 422 from Lebanon to Annville with volunteers bearing provocative protest signs that challenge the thousands of passing motorists to think in fresh ways about issues like climate change, jobs, eminent domain, property rights, renewable energies, and more.

Lebanon Pipeline Awareness is but one of dozens of grassroots citizens’ organizations that have emerged across Pennsylvania over the past decade to resist the Fracking and Pipeline revolutions and insist that we follow “a better path” (the name of an emergent coalition of anti-fracking and anti-pipeline groups from across Pennsylvania). We have lost many battles against our vastly more deep-pocketed and powerful adversaries, but we’ve also made a substantial and positive difference.

Will we win the war? Yes, eventually, as global climate disruption makes increasingly clear that our most pressing need as a species is to leave the remaining stocks of fossil fuels in the ground. In the meantime, win or lose, our efforts continue – and will continue as long as these insane Fracking and Pipeline revolutions continue to imperil humankind and the web of life that sustains us all.


by Michael Schroeder, Vice President, Lebanon Pipeline Awareness, Annville, Pennsylvania

Shell Pipeline - Not Quite the Good Neighbor

Shell Pipeline: Not Quite the “Good Neighbor”

In August 2016, Shell Pipeline announced plans to develop the Falcon Ethane Pipeline System, a 97-mile pipeline network that will carry more than 107,000 barrels of ethane per day through Pennsylvania, West Virginia, and Ohio, to feed Shell Appalachia’s petrochemical facility currently under construction in Beaver County, PA.

FracTracker has covered the proposed Falcon pipeline extensively in recent months. Our Falcon Public EIA Project explored the project in great detail, revealing the many steps involved in risk assessments and a range of potential impacts to public and environmental health.

This work has helped communities better understand the implications of the Falcon, such as in highlighting how the pipeline threatens drinking water supplies and encroaches on densely populated neighborhoods. Growing public concern has since convinced the DEP to extend public comments on the Falcon until April 15th, as well as to host three public meetings scheduled for early April.

Shell’s response to these events has invariably focused on their intent to build and operate a pipeline that exceeds safety standards, as well as their commitments to being a good neighbor. In this article, we investigate these claims by looking at federal data on safety incidents related to Shell Pipeline.

Contrary to claims, records show that Shell’s safety record is one of the worst in the nation.

The “Good Neighbor” Narrative

Maintaining a reputation as a “good neighbor” is paramount to pipeline companies. Negotiating with landowners, working with regulators, and getting support from implicated communities can hinge on the perception that the pipeline will be built and operated in a responsible manner. This is evident in cases where Shell Pipeline has sold the Falcon in press releases as an example of the company’s commitment to safety in public comments.

Figure 1. Shell flyer

A recent flyer distributed to communities in the path of the Falcon, seen in Figure 1, also emphasizes safety, such as in claims that “Shell Pipeline has a proven track record of operating safely and responsibility and remains committed to engaging with local communities regarding impacts that may arise from its operations.”

Shell reinforced their “good neighbor” policy on several occasions at a recent Shell-sponsored information meeting held in Beaver County, stating that, everywhere they do business, Shell was committed to the reliable delivery of their product. According to project managers speaking at the event, this is achieved through “planning and training with first responders, preventative maintenance for the right-of-way and valves, and through inspections—all in the name of maintaining pipeline integrity.”

Shell Pipeline also recently created an informational website dedicated to the Falcon pipeline to provide details on the project and emphasize its minimal impact. Although, curiously, Shell’s answer to the question “Is the pipeline safe?” is blank.

U.S. Pipeline Incident Data

Every few years FracTracker revisits data on pipeline safety incidents that is maintained by the Pipeline and Hazardous Materials Safety Administration (PHMSA). In our last national analysis we found that there have been 4,215 pipeline incidents resulting in 100 reported fatalities, 470 injuries, and property damage exceeding $3.4 billion.

These numbers were based on U.S. data from 2010-2016 for natural gas transmission and gathering pipelines, natural gas distribution pipelines, and hazardous liquids pipelines. It is also worth noting that incident data are heavily dependent on voluntary reporting. They also do not account for incidents that were only investigated at the state level.

Shell Pipeline has only a few assets related to transmission, gathering, and distribution lines. Almost all of their pipeline miles transport highly-volatile liquids such as crude oil, refined petroleum products, and hazardous liquids such as ethane. Therefore, to get a more accurate picture of how Shell Pipeline’s safety record stacks up to comparable operators, our analysis focuses exclusively on PHMSA’s hazardous liquids pipeline data. We also expanded our analysis to look at incidents dating back to 2002.

Shell’s Incident Record

In total, PHMSA data show that Shell was responsible for 194 pipeline incidents since 2002. These incidents spilled 59,290 barrels of petrochemical products totaling some $183-million in damages. The below map locates where most of these incidents occurred. Unfortunately, 34 incidents have no location data and so are not visible on the map. The map also shows the location of Shell’s many refineries, transport terminals, and off-shore drilling platforms.

Open the map fullscreen to see more details and tools for exploring the data.


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Incidents Relative to Other Operators

PHMSA’s hazardous liquid pipeline data account for more than 350 known pipeline operators. Some operators are fairly small, only maintaining a few miles of pipeline. Others are hard to track subsidiaries of larger companies. However, the big players stand out from the pack — some 20 operators account for more than 60% of all pipeline miles in the U.S., and Shell Pipeline is one of these 20.

Comparing Shell Pipeline to other major operators carrying HVLs, we found that Shell ranks 2nd in the nation in the most incidents-per-mile of maintained pipeline, seen in table 1 below. These numbers are based on the total incidents since 2002 divided by the number of miles maintained by each operator as of 2016 miles. Table 2 breaks Shell’s incidents down by year and number of miles maintained for each of those years.

Table 1: U.S. Pipeline operators ranked by incidents-per-mile

Operator HVL Incidents HVL Pipeline Miles Incidents Per Mile (2016)
Kinder Morgan 387 3,370 0.115
Shell Pipeline 194 3,490 0.056
Chevron 124 2,380 0.051
Sunoco Pipeline 352 6,459 0.049
ExxonMobile 240 5,090 0.048
Colonial Pipeline 244 5,600 0.044
Enbride 258 6,490 0.04
Buckeye Pipeline 231 7,542 0.031
Magellan Pipeline 376 12,928 0.03
Marathan Pipeline 162 5,755 0.029

Table 2: Shell incidents and maintained pipeline miles by year

Year Incidents Pipeline Miles Total Damage Notes
2002 15 no PHMSA data $2,173,704
2003 20 no PHMSA data $3,233,530
2004 25 5,189 $40,344,002 Hurricane Ivan
2005 22 4,830 $62,528,595 Hurricane Katrina & Rita
2006 10 4,967 $11,561,936
2007 5 4,889 $2,217,354
2008 12 5,076 $1,543,288
2009 15 5,063 $11,349,052
2010 9 4,888 $3,401,975
2011 6 4,904 $2,754,750
2012 12 4,503 $17,268,235
2013 4 3,838 $10,058,625
2014 11 3,774 $3,852,006
2015 12 3,630 $4,061,340
2016 6 3,490 $6,875,000
2017 9 no PHMSA data $242,800
2018 1 no PHMSA data $47,000 As of 3/1/18

Cause & Location of Failure

What were the causes of Shell’s pipeline incidents? At Shell’s public informational session, it was said that “in the industry, we know that the biggest issue with pipeline accidents is third party problems – when someone, not us, hits the pipeline.” However, PHMSA data reveal that most of Shell’s incidents issues should have been under the company’s control. For instance, 66% (128) of incidents were due to equipment failure, corrosion, welding failure, structural issues, or incorrect operations (Table 3).

Table 3. Shell Pipeline incidents by cause of failure

Cause Incidents
Equipment Failure 51
Corrosion 37
Natural Forces 35
Incorrect Operation 25
Other 20
Material and/or Weld Failure 15
Excavation Damage 11
Total 194

However, not all of these incidents occurred at one of Shell’s petrochemical facilities. As Table 4 below illustrates, at least 57 incidents occurred somewhere along the pipeline’s right-of-way through public areas or migrated off Shell’s property to impact public spaces. These numbers may be higher as 47 incidents have no mention of the property where incidents occurred.

Table 4. Shell Pipeline incidents by location of failure

Location Incidents
Contained on Operator Property 88
Pipeline Right-of-Way 54
Unknwon 47
Originated on Operator Property, Migrated off Property 3
Contained on Operator-Controlled Right-of-Way 2
Total 194

On several occasions, Shell has claimed that the Falcon will be safely “unseen and out of mind” beneath at least 4ft of ground cover. However, even when this standard is exceeded, PHMSA data revealed that at least a third of Shell’s incidents occurred beneath 4ft or more of soil.

Many of the aboveground incidents occurred at sites like pumping stations and shut-off valves. For instance, a 2016 ethylene spill in Louisiana was caused by lightning striking a pumping station, leading to pump failure and an eventual fire. In numerous incidents, valves failed due to water seeping into systems from frozen pipes, or large rain events overflowing facility sump pumps. Table 5 below breaks these incidents down by the kind of commodity involved in each case.

Table 5. Shell Pipeline incidents by commodity spill volumes

Commodity Barrels
Crude Oil 51,743
Highly Volatile Liquids 6,066
Gas/Diesel/Fuel 1,156
Petroleum Products 325
Total 59,290

Impacts & Costs

None of Shell’s incidents resulted in fatalities, injuries, or major explosions. However, there is evidence of significant environmental and community impacts. Of 150 incidents that included such data, 76 resulted in soil contamination and 38 resulted in water contamination issues. Furthermore, 78 incidents occurred in high consequence areas (HCAs)—locations along the pipeline that were identified during construction as having sensitive environmental habitats, drinking water resources, or densely populated areas.

Table 6 below shows the costs of the 194 incidents. These numbers are somewhat deceiving as the “Public (other)” category includes such things as inspections, environmental cleanup, and disposal of contaminated soil. Thus, the costs incurred by private citizens and public services totaled more than $80-million.

Table 6. Costs of damage from Shell Pipeline incidents

Private Property Emergency Response Environmental Cleanup Public (other) Damage to Operator Total Cost
$266,575 $62,134,861 $11,024,900 $7,308,000 $102,778,856 $183,513,192

A number of significant incidents are worth mention. For instance, in 2013, a Shell pipeline rupture led to as much as 30,000 gallons of crude oil spilling into a waterway near Houston, Texas, that connects to the Gulf of Mexico. Shell’s initial position was that no rupture or spill had occurred, but this was later found not to be the case after investigations by the U.S. Coast Guard. The image at the top of this page depicts Shell’s cleanup efforts in the waterway.

Another incident found that a Shell crude oil pipeline ruptured twice in less than a year in the San Joaquin Valley, CA. Investigations found that the ruptures were due to “fatigue cracks” that led to 60,000 gallons of oil spilling into grasslands, resulting in more than $6 million in environmental damage and emergency response costs. Concerns raised by the State Fire Marshal’s Pipeline Safety Division following the second spill in 2016 forced Shell to replace a 12-mile stretch of the problematic pipeline, as seen in the image above.

Conclusion

These findings suggest that while Shell is obligated to stress safety to sell the Falcon pipeline to the public, people should take Shell’s “good neighbor” narrative with a degree of skepticism. The numbers presented by PHMSA’s pipeline incident data significantly undermine Shell’s claim of having a proven track record as a safe and responsible operator. In fact, Shell ranks near the top of all US operators for incidents per HVL pipeline mile maintained, as well as damage totals.

There are inherent gaps in our analysis based on data inadequacies worth noting. Incidents dealt with at the state level may not make their way into PHMSA’s data, nor would problems that are not voluntary reported by pipeline operators. Issues similar to what the state of Pennsylvania has experienced with Sunoco Pipeline’s Mariner East 2, where horizontal drilling mishaps have contaminated dozens of streams and private drinking water wells, would likely not be reflected in PHMSA’s data unless those incidents resulted in federal interventions.

Based on the available data, however, most of Shell’s pipelines support one of the company’s many refining and storage facilities, primarily located in California and the Gulf states of Texas and Louisiana. Unsurprisingly, these areas are also where we see dense clusters of pipeline incidents attributed to Shell. In addition, many of Shell’s incidents appear to be the result of inadequate maintenance and improper operations, and less so due to factors beyond their control.

As Shell’s footprint in the Appalachian region expands, their safety history suggests we could see the same proliferation of pipeline incidents in this area over time, as well.

NOTE: This article was amended on 4/9/18 to include table 2.

Header image credit: AFP Photo / Joe Raedle

By Kirk Jalbert, FracTracker Alliance

Global oil refineries map by FracTracker - Ted Auch

Tracking Global Oil Refineries and their Emissions

Potential Conflict Hotspots and Global Productivity Choke Points

Today, FracTracker is releasing a complete inventory of all 536 global oil refineries, along with estimates of daily capacity, CO2 emissions per year, and various products. These data have also been visualized in the map below.

Total productivity from these refineries amounts to 79,372,612 barrels per day (BPD) of oil worldwide, according to the data we were able to compile. However, based on the International Energy Agency, global production is currently around 96 million BPD, which means that our capacity estimates are more indicative of conditions between 2002 and 2003 according to BP’s World Oil Production estimates. We estimate this disparity is a result of countries’ reluctance to share individual refinery values or rates of change due to national security concerns or related strategic reasons.

These refineries are emitting roughly 260-283 billion metric tons (BMT) of CO2[1], 1.2-1.3 BMT of methane and 46-51 million metric tons of nitrous oxide (N2O) into the atmosphere each year. The latter two compounds have climate change potentials equivalent to 28.2-30.7 BMT and 14.1-15.3 BMT CO2, respectively.

66 million

Assuming the planet’s 7.6 billion people emit 4.9-5.0 metric tons per capita of CO2 per year, emissions from these 536 refineries amounts to the CO2 emissions of 52-57 million people. If you include the facilities’ methane and N2O emissions, this figure rises to 61-66 million people equivalents every year, essentially the populations of the United Kingdom or France.

Map of global oil refineries


View map fullscreen | How FracTracker maps work | View static map | Download map data

BP’s data indicate that the amount of oil being refined globally is increasing by 923,000 BPD per year (See Figure 1). This increase is primarily due to improved productivity from existing refineries. For example, BP’s own Whiting, IN refinery noted a “$4-billion revamp… to boost its intake of Canadian crude oil from 85,000 bpd to 350,000 bpd.”

Figure 1. Global Oil Production 1965 to 2016 (barrels per day)

Figure 1. Global Oil Production, 1965 to 2016 (barrels per day) – Data courtesy of British Petroleum (BP) World Oil Production estimates.

 

Potential Hotspots and Chokepoints

Across the globe, countries and companies are beginning to make bold predictions about their ability to refine oil.

Nigeria, for example, recently claimed they would be increasing oil refining capacity by 13% from 2.4 to 2.7 million BPD. Currently, however, our data indicate Nigeria is only producing a fraction of this headline number (i.e., 445,000 BPD). The country’s estimates seem to be more indicative of conditions in Nigeria in the late 1960s when oil was first discovered in the Niger Delta. Learn more.

Is investing in – and doubling down on – oil refining capacity a smart idea for Nigeria’s people and economy, however? At this point, the country’s population is 3.5 times greater than it was in the 60’s and is growing at a remarkable rate of 2.7% per year. Yet, Nigeria’s status as one of the preeminent “Petro States” has done very little for the majority of its population – The oil industry and the Niger Delta have become synonymous with increased infant mortality and rampant oil spills.

Sadly, the probability that the situation will improve in a warming – and more politically volatile – world is not very likely. 

Such a dependency on oil price has been coupled to political instability in Nigeria, prompting some to question whether the discovery of oil was a cure or a curse given that the country depends on oil prices – and associated volatility – to balance its budget: Of all the Organization of Petroleum Exporting Countries (OPEC) countries, Nigeria is near the top of the list when it comes to the price of oil the country needs to balance its budget – Deutsche Bank and IMF estimate $123 per barrel as their breaking point. This is a valuation that oil has only exceeded or approached 4.4% of the time since 1987 (See Figure 2).

Former Central Bank of Nigeria Governor, Charles Soludo, once put this reliance in context:

… For too long, we have lived with borrowed robes, and I think for the next generation, for the 400 million Nigerians expected in this country by the year 2050, oil cannot be the way forward for the future.

Other regions are also at risk from the oil market’s power and volatility. In Libya, for example, the Ras Lanuf oil refinery (with a capacity of 220,000 BPD) and the country’s primary oil export terminal in Brega were the focal point of the Libyan civil war in 2011. Not coincidentally, Libya also happens to be the Petro State that needs the highest per-barrel price for oil to balance its budget (See Figure 2). Muammar Gaddafi and the opposition, National Transitional Council, jostled for control of this pivotal choke point in the Africa-to-Europe hydrocarbon supply chain.

The fact that refineries like these – and others in similarly volatile regions of the Middle East – produce an impressive 10% (7,166,900 BPD) of global demand speaks to the fragility of these Hydrocarbon Industrial Complex focal points, as well as the planet’s fragile dependence on fossil fuels going forward.

Weekly Spot Price of Brent Sweet Crude ($ Per Barrel) and estimates of the prices OPEC/Petro States need to balance their budgets.

Figure 2. Weekly Spot Price of Brent Sweet Crude ($ Per Barrel) and estimates of the prices OPEC/Petro States need to balance their budgets.

 

Dividing Neighbors

These components of the fossil fuel industry, and their associated feedstocks and pipelines, will continue to divide neighbors and countries as political disenfranchisement and inequality grow, the climate continues to change, and resource limitations put increasing stress on food security and watershed resiliency worldwide.

Not surprisingly, every one of these factors places more strain on countries and weakens their ability to govern responsibly.

Thus, many observers speculate that these factors are converging to create a kind of perfect storm that forces OPEC governments and their corporate partners to lean even more heavily on their respective militaries and for-profit private military contractors (PMCs) to prevent social unrest while insuring supply chain stability and shareholder return.[2,3] The increased reliance on PMCs to provide domestic security for energy infrastructure is growing and evolving to the point where in some countries it may be hard to determine where a state’s sovereignty ends and a PMC’s dominance begins – Erik Prince’s activities in the Middle East and Africa on China’s behalf and his recent aspirations for Afghanistan are a case in point.

To paraphrase Mark Twain, whiskey is for drinking and hydrocarbons are for fighting over. 

The international and regional unaccountability of PMCs has added a layer of complexity to this conversation about energy security and independence. Countries such as Saudi Arabia and Venezuela provide examples of how fragile political stability is, and more importantly how dependent this stability is on oil refinery production and what OPEC is calling ‘New Optimism.’ To be sure, PMCs are playing an increasing role in political (in)stability and energy production and transport. Since knowledge and transparency are essential for peaceful resolutions, we will continue to map and chronicle the intersections of geopolitics, energy production and transport, social justice, and climate change.


By Ted Auch, Great Lakes Program Coordinator, FracTracker Alliance; and Bryan Stinchfield, Associate Professor of Organization Studies, Department Chair of Business, Organizations & Society, Franklin & Marshall College


Relevant Data

Footnotes and References

  1. Assuming a tons of CO2 to barrels of oil per day ratio of 8.99 to 9.78 tons of CO2 per barrel of oil based on an analysis we’ve conducted of 146 refineries in the United States.
  2. B. Stinchfield.  2017.  “The Creeping Privatization of America’s Armed Forces”.  Newsweek, May 28th, 2017, New York, NY.
  3. R. Gray.  “Erik Prince’s Plan to Privatize the War in Afghanistan”.  The Atlantic, August 18th, 2017, New York, NY.
Community Sentinel Awards 2017

Reflections from the 2017 Community Sentinel Award Program

The Community Sentinel Award for Environmental Stewardship, launched in 2015, is awarded each year to three people who work to guard their communities from the harms of oil and gas development. Below is a reflection of the 2017 honorees and Community Sentinel Award Program held on November 18, 2017 in Pittsburgh, PA.

This year, 18 people were nominated by their peers to receive this distinguished award. These nominees were reviewed by a committee of community defense leaders (judges listed below). With the help of our Award Partners, we presented the 2017 Community Sentinel award to: Ranjana Bhandari, Frank Finan, and Ray Kemble. Each awardee received $1,000 to perpetuate their efforts.

The award ceremony, attended by ~300 people, was graciously emceed by David Braun of Rootskeeper. Recipients were introduced enthusiastically by Jennifer Krill of Earthworks, Ryan Clover-Owens of Halt the Harm Network, and Doug Shields of Food and Water Watch. After giving their very moving acceptance speeches, Ranjana, Frank, and Ray were then presented with their awards by acclaimed author and ecologist, Sandra Steingraber.

Community Sentinel Award Recipients

Ranjana Bhandari of TX, Photo by Julie Dermansky | DeSmogBlog

Ranjana Bhandari of TX, Photo by Julie Dermansky | DeSmogBlog

Ranjana Bhandari, though humble and quiet, is an outspoken advocate for clean air and water. When urban fracking came to her town, she took the initiative to form a grass roots organization. In 2017, she worked tirelessly for many months organizing a successful opposition to a proposed wastewater injection well that was to be installed on the banks of her town’s drinking water supply.

Frank Finan of PA

Frank Finan of PA

Frank Finan is an unsung hero of the Marcellus Shale, through both his work documenting emissions using his FLIR camera and his selfless donations of talent, skills, and labor when his neighbors are in need. He made it his mission to help families who were becoming ill from highly concentrated spikes of pollution.

Ray Kemble of PA

Ray Kemble of PA

Ray Kemble has been at the center of fighting fracking from day one as a resident of Dimock, Pennsylvania. Despite recently breaking has back and undergoing an operation for cancer, he will not be deterred from seeking justice for the harmed.

Legacy of Heroes Presentation

In addition to the Community Sentinels, we also recognized activists who could not be with us during a special Legacy of Heroes presentation. This presentation recognized the efforts of four people who valiantly fought against the harms of dirty energy but passed away in the last year: Walter Brasch of Pennsylvania, Rosemarie Braz of California, Jackie Dill of Oklahoma, and Kaye Fissinger of Colorado.

Walter Brasch, of Bloomsburg, Pennsylvania, was professor emeritus of mass communications and journalism at Bloomsburg University and an award-winning reporter and author who turned his attention to fracking when the boom overtook PA. His critically-acclaimed book, Fracking Pennsylvania: Flirting with Disaster, explored the controversies surrounding shale gas development in his home state.

From apartheid to the prison-industrial complex to climate change, Rose Braz fought injustice in all its many forms. An incredible strategist, facilitator and mentor, she led and inspired a generation of activists. As the Center for Biological Diversity’s Climate Campaign Director from 2009 until her death, and Co-founder of Californians Against Fracking, Rose worked passionately to protect people from fracking and dangerous drilling.

Jackie Dill described herself as a heritage wildcrafter, practicing and teaching others to use wild plants for food, spices, healing, and crafts. Oil and gas companies developed wells around her home, and fracking-induced earthquakes severely damaged it. Jackie was known for speaking out about these issues, with features in Time and Newsweek.

Kaye Fissinger, of Longmont, Colorado, was a force of nature. The effort she led to ban fracking via an historic ballot initiative attracted the attention of The New York Times and PBS, among other national media. A founding member of Americans Against Fracking, Kaye helped change the conversation about fracking.

On behalf of all of the award partners and sponsors, a heartfelt thank you goes out to these incredible advocates.

Ceremony Photos


Complete Award and Program Details

Nominees and Recipients

  • Gustavo Aguirre Jr. – Central CA EJ Network – Bakersfield, CA
  • Heather Andersen – Save The Hills Alliance – Bloomer, WI
  • Alice Arena – FRRACS – Weymouth, MA
  • Ranjana Bhandari – Liveable Arlington – Arlington, TX **
  • Lois Bower-Bjornson – CCJ, CAC, Sierra Club, etc. – Scenery Hill, PA
  • Malinda and Mark Clatterbuck – Lancaster Against Pipelines – Holtwood, PA
  • Robert Donnan – Community Resident – McMurray, PA
  • Karen Feridun – Berks Gas Truth – Kutztown, PA
  • Frank Finan – Community Resident – Hop Bottom, PA **
  • Kim Fraczek – Sane Energy Project – Brooklyn, NY
  • Anne Marie Garti – Stop the Pipeline – Bronx, NY
  • Elise Gerhart – Camp White Pine – Huntingdon, PA
  • Nadine Grabania – Don’t Frack Maryland – Frostburg, MD
  • Carrie Hahn – CAUSE – Volant, PA
  • Ray Kemble – Community Resident, Montrose, PA **
  • Ann Nau – Community Resident – Myersville, MD
  • Courtney Williams – resistaim.org / resistspectra.org – Peekskill, NY
  • Leonard Zuza – Community Resident – Solomons, MD

** Indicates 2017 Award Recipient

Legacy of Heroes Remembrance

  • Walter Brasch of Pennsylvania
  • Jackie Dill of Oklahoma
  • Kaye Fissinger of Colorado
  • Rosemarie Braz of California

If there are additional community heroes who passed away this year that you would like us to list above, we would be happy to include them. Please email us: info@fractracker.org.

Judges

  • Bill Hughes of Wetzel County Action Group, West Virginia
  • Pat Popple of Save the Hills Alliance, Wisconsin
  • Sierra Shamer of Shalefield Organizing Committee, Pennsylvania
  • Dante Swinton of Energy Justice, Maryland
  • Niki Wong of Redeemer Community Partnership, California

Partners

Sponsors

Many thanks to the organizers and attendees of the People vs. Oil and Gas Infrastructure Summit, during which the Community Sentinel award ceremony was conducted.

FracTracker Alliance to Host Community Meetings in Colorado

FracTracker Alliance invites Colorado’s Front Range communities to attend and participate in two community meetings, open to the public on August 23rd and 24th. Our shared goals will be to craft new research projects for FracTracker to study related to the environmental health impacts resulting from oil and gas development in Colorado. We also welcome Dr. Stephanie Malin, who will be giving a short presentation on her current work.

Background

FracTracker is returning to Colorado’s Front Range to continue working with communities where oil and gas exploration and production impacts the daily lives of Coloradoans and degrades the environment. While Colorado is not well known for oil and gas extraction, development within recent years using unconventional techniques like fracking has bloated production to over 60,000 active wells. The majority of these wells, over 33,000, are located in Weld County. These Front Range communities are also the most densely populated regions near major unconventional oil and gas development. FracTracker will, therefore, continue to support these communities under assault by the fossil fuel industry.

Community Workshops

FracTracker will be hosting two community engagement workshops in Weld County on August 23rd and 24th. You can find the flyers with times posted below. The meetings will serve to both inform the communities of the work FracTracker is currently conducting or has already completed to date, and to direct and inform future research in Colorado. Active communty engagement is most important to the environmental health research process. Researchers rely on community members. You, the community, are the experts we need to create responsibly informed research projects!

Below are flyers with more information about the events (click to expand).

Our agenda for the August 23rd meeting includes a synopsis of the research products that have been generated by FracTracker thus far. Below you will find links to the research that has been summarized into blog posts. Current, active research will also be presented:

Meeting Goals

Instead of coming in with a preconceived research question, we’re starting with your concerns. The goal of these meetings is to narrow down topics for future research, and then to refine the questions associated with each topic. The meeting on the 23rd will serve to nail down the issues that are most important to community members. This conversation may include expanding existing research and revisiting topics. On the evening of August 24th, we will present these topics to the greater community for further discussion. The issues will be prioritized with the help of a larger audience, and specific research aims will be synthesized.

workshop-wheel

For more information about these community meetings in Colorado, please contact Kyle Ferrar at ferrar@fractracker.org.

Right to a healthy home - Photo credit: Leann Leiter

The Right to a Healthy Home

Reframing Fracking in Our Communities

Imagine that tonight you head home to cook dinner. But, standing at your kitchen sink, you find that your tap water is suddenly running a funny color or gives off a bad smell. So instead of cooking, you order a pizza and decide to work outside in your garden. Just as you’re getting your hands dirty, however, you hear the roar of the compressor station that you see from your yard as its “blows off” some substance. Going back inside, and closing your windows to keep out the foul air, you think of the tap water and decide a shower is out of the question. Imagine that you resign yourself to just going to bed early – only to be kept awake by the bright and unnatural glow of gas being flared at the nearby wellhead.

Scenarios just like these can and do happen when hydraulic fracturing, or fracking, encroaches upon residential areas.

In Part 1 of this two-part series, we described how the many aspects of fracking can destroy a healthy home environment and argued for a frame that focuses on those impacts. A frame is a way of contextualizing, communicating about, and understanding an issue.

This article brings in the idea of rights, and lists several declared rights that fracking violates. Returning to the topic of framing, we then challenge the fracking-friendly frame, by calling into question three common ways of talking about fracking that ignore the rights of those impacted.

In short, the push to support fracking often ignores the rights of people living near it.

Healthy Homes for Human Flourishing

First, let’s explore why a having healthy home matters.

Everyone has a basic need for a safe, healthy place to live. The World Health Organization identifies the social determinants of health (SDH) as the “conditions in which people are born, grow, work, live, and age, and the wider set of forces and systems shaping the conditions of daily life.” Applied to healthy homes, these SDH include access to clean air and safe drinking water, and protection from intrusion and disaster. Health is not merely the absence of disease. Health can mean the ability to function, to live one’s life,[1] to flourish.

Human flourishing demands a healthy home environment. Picture again the scenario at the beginning of this article. Would you be able to care for yourself and your family members, to meet your basic needs, or to lead a satisfying life if your home didn’t seem like a safe place to live?

Using Rights to Make the Case

Many people who live near drilling often ask themselves that very question. These include people like Pam Judy, with a compressor station less than 800 feet from her house, who questions the long term effects of breathing in the 16 chemicals detected in air test conducted by the PA Department of Environmental Protection.

Greene County, PA resident Pam Judy and the compressor station near her home in Gas Rush Stories, part 5: A Neighbor from Kirsi Jansa on Vimeo.

Simply reading or watching the stories of those directly impacted by gas development makes a moving argument for the right to a healthy home environment – and that argument also has a lot of backing. Researchers[2] have made a powerful case that fracking can and has violated human rights, by impacting the health for those downwind or downstream and by denying civil liberties to those pushed aside or silenced during the debate. These same researchers showed specifically that fracking has violated the rights to privacy, family, home, and protection of property.

Various governments and non-governmental organizations around the world have likewise called out human rights violations due to fracking. Other human rights declarations are relevant here, too. Fracking’s impacts are incompatible with the rights to health and to housing. Here’s a sampling:

side-by-side-rights-table

This sampling of precedents includes statements and declarations by the United Nations and the Organization of American States. It shows that when it comes to human rights and fracking, a strong case has already been made by respected international organizations.

Challenging the fracking-friendly frame

A rights-based perspective, informed by precedents like those above, gives us a strong platform from which to examine and counter arguments that support or promote fracking. We can call those pro-fracking arguments a “fracking-friendly” frame.

A fracking-friendly frame denies or minimizes the human impacts. We can hear elements of the fracking-friendly frame underlying industry promises and political talking points, and witness how they leach into common dialogue between citizens.

Element #1: “Economic impacts”- but only the positives

An “economic impacts ” emphasis tends to focus on narrowly-defined economic benefits , while excluding other real, negative economic drawbacks , like the latter half of boom & bust cycles. Consider this infographic of the “economic impacts” of an Appalachian petrochemical hub scenario–an industry reliant upon the cheap and abundant fracked natural gas of the region. The document offers projected estimates for industry profits and employment levels potentially generated by the five ethane crackers planned for the region. But this document – and its focus on economics – says nothing about the negative consequences to the community. Due to air emissions from these facilities, health costs from fine particulate matter (PM 2.5) could amount to between $120 and $270 million each year, without even factoring in the additional impacts of ozone or toxics. A focus on economic impacts also says nothing about  the incalculable value of lives – and quality of life – lost, which could amount to between 14 and 32 additional deaths annually, plus increased asthma, heart attacks, and bronchitis.[3]

Element #2: “Choice”

A false assumption of choice is built into the fracking-friendly frame. This element assumes that people have a choice–if they don’t like the drilling next door, they can just move. Yet, as well water becomes degraded and countryside views become dominated by unprecedented industrial development, selling a home can be a difficult proposition. As one researcher summed it up,

the various forms of land damage from fracking often result in decreased property values, making resale and farming difficult , and also making it harder to acquire mortgages and insurance. Properties adjoining drilling sites are often simply unsellable, as no one wants to live with the noise, the bad air, and the possibility of water pollution.[4]

Others confirm this fallout to home values. A recent report assessing 16 other studies on how UOGD affects home prices points to significant potential decreases in housing values for those on well water (up to -$33,000) and those without ownership of their mineral rights (up to -$60,000). These unfortunate realities belie the idea of choice.

drilling-rig-home-town-of-mcdonald

pipeline-path-among-homes-washington-county

On left, a white fracking rig at the far left of the image sits near a cabin overlooking the town of McDonald, PA. On right, a pipeline cut descends a hillside and into a residential development outside of Houston, PA. Photo credit: Leann Leiter.

In interviews conducted with women living in close quarters to drilling activity, three health care professionals[5] discovered the sense of powerlessness experienced they felt. One woman contemplated moving away from the region in spite of opposition from her husband and her own attachment to her home. In my own interaction with affected families, many express powerful feelings about relocation like sadness about leaving land owned for generations, or an eagerness to escape a home that no longer feels safe. Many express a sense of injustice for being forced to make such painful choices.

Element #3: “Sacrifice of the few for the good of the many”

Another underlying assumption of a fracking-friendly frame is that of “sacrifice of the few for the good of the many.” It declares that a “few” people will have to live near fracking and bear the unfortunate consequences, so many others can have cheap oil and gas. The belief bubbles up among the public, such as in this comment collected during a survey[6] of people living in the Marcellus shale gas region:

Energy has to come from somewhere. The needs of the many may outweigh the inconvenience of the few who live near the exploration efforts. This is not an ideal situation for all residents, but it is the reality.

This person’s statement shows acceptance of the assumption that energy for all requires unevenly shared sacrifice, and indicates a drastic underestimation of the populations impacted. It also indicates a misperception of the impacts, which unfortunately go far beyond mere “inconvenience” for many residents.

We can break down these assumptions by questioning how many people make sacrifices in the name of gas extraction. An interactive map by FracTracker shows that over 12 million Americans live within a risky ½ mile of oil and gas facilities (including both fracking wells and other types). Mounting research indicates health threats for distances of ½ mile or greater. That meaning this ever-growing number of Americans have increased rates of asthma and prenatal harms, with the most vulnerable – the young, the elderly, and those with pre-existing conditions – at the highest risk. The 12 million figure, already a conservative estimate, would be significantly higher if factoring in other oil and gas infrastructure like pipelines or frac sand mining operations, each of which carry their own risks.

Populations in US near activity oil and gas drilling activity in 2016

Populations in US near activity oil and gas drilling activity in 2016. Click to explore the interactive map.

We can also question the nature of their sacrifice. In terms of health, research has shown correlations between how close women live to fracking operations and certain birth defects and noise-induced sleep disturbance and cardiovascular disease, as just a few examples. Facilities like well pads also come with risks to public safety, such as the Monroe County, Ohio well pad fire that burned unknown chemicals for five days near homes and resulted in 70,000 fish killed in a creek that flows to the Ohio River. Other fracking infrastructure likewise poses potential dangers from the 2.5 million miles of gas pipeline and additional 200,000 for hazardous liquids including  crude oil that crisscross the United States. Between 2010 and 2016 the US experienced 230 reported pipeline explosions, 635 fires, over 20,000 people evacuated, 470 injured, and 100 lives lost.

emergency-contacts-sign-at-pipeline-road-crossing

The view of nearby homes from a pipeline right-of-way, along with list of emergency contacts in case of incident. Safety precautions like these remind us of the potentially injurious nature of gas infrastructure. They also highlight the level of sacrifice being demanded of households near the hazard. Photo credit: Leann Leiter.

Building social support

These elements of a fracking-friendly frame function to isolate those who are experiencing negative effects in their own homes by minimizing, even denying, the impacts they are experiencing. Researchers in extractive regions have observed the power of this isolation. In some rural areas, isolation may be supported in part by cultural norms, such as an Appalachian appreciation for “minding one’s own business.” In at least one fracking-affected community, this widely-accepted norm hampers sharing among neighbors, prompting one resident’s complaint that “we’re all fighting like individuals.”[7] In a study of a community being driven from their homes by coal mining and power generation, another set of extractive, industrial activities, one participant lamented:

I think one of the problems of the mining and the industry is, they play on the basic everyday person’s lack of resources. There’s no social support for displacement, none whatsoever.[8]

A healthy homes frame, focused on universally shared human rights, powerfully counters the isolation. It reminds those who are suffering or have concerns about the changes to their home environment that they are not alone; others around the world are experiencing similar impacts to their households. Adopting this frame for understanding fracking is a show of support, one that acknowledges their plight.

Nearly everyone values and desires a healthy home, regardless of whether that home is an apartment, a nursing home, a cabin, or a mobile home. This frame extends beyond geographical, economical, and cultural barriers. It encourages social support from those currently removed from shale plays and the hydraulic fracturing used in extracting their resources. It empowers action, with the home front as a site of resistance, by articulating the range of rights being violated.

Focusing on what we’re fighting for

Re-centering the problems of fracking as they impact the right to a healthy home makes sense to those of us witnessing the degradation of the places people need in order to live and flourish. A rights-based approach focuses on what we’re fighting for, rather than giving extra airtime to the already-powerful frame we must fight against.

  • If you need assistance protecting your rights from planned fracking, the Delaware Riverkeeper Network offers a guide for communities and their local leaders to defending environmental rights at the municipal level.
  • For those already impacted, Fair Shake Environmental Legal Services provides “sliding scale” legal help to people in the Appalachian basin.
  • For communities at any stage of gas development, Environmental Health Project has created a Where to Turn for Help directory full of sources for air testing services, community organizing, health information, tracking and reporting fracking development and violations, and much more.

Whether or not you feel the direct impacts of fracking, we are all connected to this extensive process. Fracking’s commodity products – energy and plastics – are part of all of our lives; it’s climate-altering effect diminishes all of our futures. More importantly, we all have a crucial role to play. Here is how you can get further involved:

  • Communicate with your lawmakers – share with them this article series or your own take on fracking, and ask what frame they are using when they make decisions on this and other dangerous modes of energy extraction.
  • Join Halt the Harm Network to get connected to people, groups and events “working to fight the harms of oil and gas development.”
  • Follow @EnvironmentalHealthProject on Facebook and @EHPinfo on Twitter, and participate in the evolving discussion!

Bringing rights into the conversation on fracking challenges the fracking-friendly frame, and promotes instead protection for those in fracked households.


Special thanks to the many individuals and families who shared the experiences that informed this article series. 

References:

  1. Resick, L. K., Knestrick, J. M., Counts, M. M., & Pizzuto, L. K. (2013). The meaning of health among mid-Appalachian women within the context of the environment. Journal of Environmental Studies and Sciences , 3 (3), 290-296.
  2. Short, D., Elliot, J., Norder, K., Lloyd-Davies, E., & Morley, J. (2015). Extreme energy, ‘fracking’ and human rights: a new field for human rights impact assessments? , The International Journal of Human Rights, 19:6, 697-736, DOI:10.1080/13642987.2015.1019219
  3. John Graham, Senior Scientist at Clean Air Task Force, personal communication, June 9, 2017. Health impacts modeling completed using EPA Co-Benefits and Risk Assessment (COBRA) Screening Tool, using estimated PM 2.5 air emissions for permitted Shell ethane cracker in Beaver County, PA and four additional facilities planned in Ohio and West Virginia.
  4. Richard Heinberg cited in Short, D., Elliot, J., Norder, K., Lloyd-Davies, E., & Morley, J. (2015). Extreme energy, ‘fracking’ and human rights: a new field for human rights impact assessments? , The International Journal of Human Rights, 19:6, 697-736, DOI:10.1080/13642987.2015.1019219
  5. Resick, L. K., Knestrick, J. M., Counts, M. M., & Pizzuto, L. K. (2013). The meaning of health among mid-Appalachian women within the context of the environment. Journal of Environmental Studies and Sciences , 3 (3), 290-296.
  6. Cooley, R., & Casagrande, D. (2017). Marcellus Shale as Golden Goose. ExtrACTION: Impacts, Engagements, and Alternative Futures. Routledge.
  7. Resick, L. K., Knestrick, J. M., Counts, M. M., & Pizzuto, L. K. (2013). The meaning of health among mid-Appalachian women within the context of the environment. Journal of Environmental Studies and Sciences , 3 (3), 290-296.
  8. Connor et al., p. 54. Linda Connor, Glenn Albrecht, Nick Higginbotham, Sonia Freeman, and Wayne Smith. (2004). Environmental Change and Human Health in Upper Hunter Communities of New South Wales, Australia. EcoHealth 1 (Suppl.2), ,47-58. DOI: 10.1007/s10393-004-0053-2

By Leann Leiter, Fellow with the Environmental Health Project and FracTracker Alliance

Healthy Homes article in PA

Healthy Homes: Re-Framing Fracking Impacts

An Ohio family took joy in raising their kids and cattle at their farmhouse, built in 1853 with crooked walls and no indoor bathrooms. When they leased land to fracking activity, however, the “beep, beep, beep” of heavy truck traffic kept them up all night, and a cow died after drinking a strange fluid flowing on the land during the cold of winter. They dedicated their retirement savings to moving and building a new home, only to soon after receive a compressor station as their neighbor – close enough to hear the engines at all hours and loud enough to make them dread even walking out to their mailbox.

During the upswing of a boom-and-bust cycle of the gas industry in Greene County, the influx of outside workers and the high demand on rental housing resulted in one particular family being unable to secure an apartment. Without adequate housing, their children were temporarily taken from their custody.

In Huntingdon, a young woman resisted a pipeline being forced through her property by stationing herself in a tree, while workers with chainsaws felled those around her. Eminent domain enabled the gas company to claim this privately-owned land under a weak guise of “public good.”

These unsettling but true stories hint at the countless ways fracking plays out in individual households. A healthy home environment – with clean air, potable drinking water, and safety from outside elements – is essential to human life and functioning. Yet, the industrial processes involved in unconventional oil and gas development (UOGD), often summed up with the term “fracking,” may interfere with or even take away the ability to maintain a healthy home.

This article aims to put these household impacts, and the right to a healthy home, at the center of the fracking debate.

Framing the issue

definition-of-a-frame

The way we understand just about anything depends on our frame of reference. A frame, like the frame around a picture, brings its contents into focus. At the same time, it excludes the information outside its borders. A frame declares that what’s inside is what matters. When it comes to the human effects of fracking, various conflicting frames exist, each dictating their own picture of what fracking actually does and means.

health-frame

The frame we use to look at the fracking debate is so important, because it dictates how we talk about and think about the problem. Likewise, if we can identify the frame others are using when they talk about fracking, we can see more clearly what they have prioritized and what they are leaving out of the conversation.

Two researchers who conducted surveys, interviews, and focus groups in five Pennsylvania counties in 2014 and 2015 argue for the need for a new frame.1 Some of the common ways of talking about fracking not only favor shale gas development for reasons like those included in the frame on the left above, they also work against those trying to make a stand against the negative effects fracking. These researchers suggest that, rather than arguing within the existing, dominant frames, activists should consider proactively “reframing the debate around other core values.” The right to a healthy home is a widely-shared value. I propose we adopt a frame that puts that right at the center of the picture.

What is a “healthy home”?

The term healthy home isn’t new. The federal agencies Housing and Urban Development (HUD) and the Centers for Disease Control (CDC) both use this phrase in defining the importance of a home environment free from hazards and contaminants, like lead and radon. Simply put, a healthy home is one that supports health.

Why Now?

We sit poised at a unique moment to take on the task of reframing fracking. While new drilling in some places appears to be on the decline, countless large-scale petrochemical projects, like a growing crop of plastic-producing ethane crackers in the northeast US, are ramping up. These facilities will demand massive supplies of natural gas and byproducts, perpetuating and likely increasing drilling.

The renewed demand on wells and their associated infrastructure increase the burden on those households in its wake, living amid stimulated wells, near odorous compressor stations, next to pipelines with pig launchers spewing emissions.

Continued demand on natural gas – for energy or cheap plastics – also requires less-discussed but equally-invasive infrastructure, such as the massive underground gas storage underlying communities in growing numbers in states like Ohio and Pennsylvania. Such infrastructure exposes residents to the possibility of leaks, like the one that forced the evacuation of thousands of families in Porter Ranch, California. It burdens other communities with the disposal of toxic waste fluids, including underground injection and the associated earthquakes, like the hundreds pockmarking Ohio and now encroaching on Pennsylvania. Keeping the fracking going means communities, like some dairy farming regions in Wisconsin, continue to see the environmental and quality-of-life impacts of frac sand mining.

Engagement is urgent and timely,2 and the entire country has a role to play. This moment in our energy history is a chance for all of us – those affected by, in favor of, concerned about, eager to welcome, or otherwise learning about UOGD – to get clear on our frame of understanding fracking.

pipeline-route-runs-behind-home-and-swingset

A pipeline right-of-way, about 200 yards behind this house and children’s swingset, shows how close fracking infrastructure comes to homes. Photo credit: Leann Leiter

Why a “Healthy Homes” Frame?

Proponents of frames that endorse fracking often live at a considerable distance from the processes involved,3 buffering them and their families from its impacts. According to researchers4 who listened to the testimonies of residents at a community hearing, the distance they lived from the industrial activities shows up in how they talk about fracking. Those in favor tend to use a depersonalized, “birds-eye view” in describing the impacts. People for whom the negative impacts are or will be a part of their lives rely on more descriptive, specific, and place-based language.

Similarly, a frame that focuses on household impacts emphasizes the on-the-ground, lived experience of living near fracking infrastructure. This frame approaches the debate on fracking by continually asking, what is this like for the people who live with the process? What are the impacts to their home environment? Such a frame does not ignore large-scale issues of jobs and energy supply, but grounds these bigger questions with the real and urgent consequences to the people who are suffering.

oval-healthy-homes-frame

Household impacts

Despite rulings that define UOGD as an industrial process, drilling companies locate all manner of infrastructure – wells, pipelines, compressor stations, among others – in areas formerly residential or agricultural. Rules dictating distances from UOGD facilities to structures like houses vary by municipality and state. Yet, these new and often imposing facilities repeatedly occupy the immediate view of homes, or are within close proximity that defy medical and safety warnings.


Video: Glaring light of burning flares and noises both droning and sudden, along with major truck traffic and other changes to the immediate landscape around the household, produce high levels of stress, leading to its own health problems, creating an environment where water may become unsafe to drink and breathing the air becomes a hazard.

The Oil & Gas Threat Map (by Earthworks and FracTracker) shows the populations within a half-mile “threat radius” of infrastructure that includes fracking – close enough for residents to be exposed to contaminated air emissions, and possibly smell disturbing odors, hear loud sounds and feel vibrations, and see bright lights and the fire of emergency flares. As confirmed by the EPA, in some cases, UOGD results in contamination of drinking water, as well.

Researchers at The Environmental Health Project (EHP) offer individual health assessments to residents living in the shadow of fracking operations. In a physician’s thorough review of over 61 assessments, they identified the following symptoms to be temporally related to gas activity:

Table 1. Symptoms temporally related to UOGD

SYMPTOM CATEGORY n Symptom %
UPPER RESPIRATORY SYMPTOMS 39 64% Nose or throat irritation 25 41%
 Sinus pain or infections 17 28%
Nose bleeds 8 13%
CONSTITUTIONAL SYMPTOMS 33 54% Sleep disruption 26 43%
Fatigue 13 21%
 Weak or Drowsy 9 15%
NEUROLOGICAL SYMPTOMS 32 52% Headache 25 41%
Dizziness 11 18%
Numbness 9 15%
Memory loss 8 13%
PSYCHOLOGICAL SYMPTOMS 32 52% Stress or anxiety 23 38%
Irritable or moody 12 20%
Worry 6 10%
LOWER RESPIRATORY SYMPTOMS 30 49% Cough 21 34%
Shortness of breath 19 31%
Weezing 14 23%
GASTRO-INTESTINAL SYMPTOMS 27 44% Nausea 13 21%
Abdominal pain 12 20%
EYE SYMPTOMS 23 38% Itchy eyes 11 18%
Painful or dry 10 16%
DERMATOLOGICAL SYMPTOMS 19 31% Rash 10 16%
Itching 7 11%
Lesions or blisters 6 10%
CARDIAC SYMPTOMS 17 28% Palpitations 9 15%
Chest pain 6 10%
Other cardiac symptoms 6 10%
HEARING CHANGES OR TINNITUS 10 16% Hearing loss 3 5%
Tinnitus (ringing in the ear) 10 16%
 MUSCULOSKELETAL 10 16% Painful joints 9 15%
Aches 7 11%
ENDOCRINE 7 11% Hair loss 7 11%
n =  Number of patients reporting symptom, out of 61 patients assessed
% = Percentage of patients reporting symptom, out of 61 patients assessed
Table adapted from EHP – Click to download Excel spreadsheet

Mental and emotional stress can exacerbate and create physical health symptoms. For households close to fracking, the fear of a disaster, like a well pad fire, or concern for the long term health effects of exposures through air and water can create serious stress. These developments change communities, sometimes in divisive, negative ways, potentially adding to the stress.

Fracking, a disruptive, landscape-altering process can also produce what’s called solastalgia, whereby negatively-perceived changes to the land alter a person’s sense of belonging. In the case of fracking in residential areas, people may lose not only their relationship to the land, but their homes as they once knew them.5 Solastalgia, considered by some researchers to be a new psycho-social condition, is “the lived experience of the physical desolation of home.”6

When Home is Unsafe, Where to Get Help

EHP Trifold Cover

Click to expand and explore the tri-fold. Click here to access and print this free resource, and many others by EHP.

EHP offers a new resource for protecting your health at a household level, called: “Protecting Your Health from Unconventional Oil and Gas Development.” We created this free informational resource in collaboration with residents and health care providers in four different shale gas counties.

The final product is the direct result of input and knowledge from 15 focus groups and project meetings in these affected communities with over 100 participants, including residents and healthcare providers. EHP has packed this resource with practical steps for households amid shale gas development to limit their exposure to air and water contamination that may be associated with fracking.

For follow-up questions, or for free personalized health services for those experiencing fracking-related exposures, you can contact EHP directly at 724-260-5504 or by email at info@environmentalhealthproject.org.

Re-Centering Home in the Fracking Debate

Putting affected households at the center of the fracking debate better reflects the experiences of people on the front lines. This powerful frame could help counter the power of those who speak positively about fracking, but lack direct experience of the process.

For those at the frontlines of fracking, the intent is that these resources and tools will help you protect your health and your homes.

For those not yet directly affected by fracking, you can lend a hand. Show support for health protective measures by signing up at EHP for updates on events, education, and opportunities to make your voice heard. And, whenever and wherever you can weigh in on the debate, put a frame around fracking that puts impacted households at the center.

References

  1. Cooley, R., & Casagrande, D. (2017). Marcellus Shale as Golden Goose. ExtrACTION: Impacts, Engagements, and Alternative Futures.
  2. Short, D., Elliot, J., Norder, K., Lloyd-Davies, E., & Morley, J. (2015). Extreme energy, ‘fracking’ and human rights: a new field for human rights impact assessments?, The International Journal of Human Rights, 19:6, 697-736, DOI:10.1080/13642987.2015.1019219
  3. Cooley, R., & Casagrande, D. (2017). Marcellus Shale as Golden Goose. ExtrACTION: Impacts, Engagements, and Alternative Futures.
  4. Mando, J. (2016). Constructing the vicarious experience of proximity in a Marcellus Shale public hearing. Environmental Communication, 10(3), 352-364.
  5. Resick, L. K. (2016). Gender, protest, and the health impacts of unconventional natural gas development. In Y. Beebeejaum (Ed.), The participatory city (pp. 167-175). Berlin: Jovis Verlag GmgH.
  6. Albrecht et al (2007). Solastalgia: the distress caused by environmental change, Australasian Psychiatry . Vol 15 Supplement.

By Leann Leiter, Environmental Health Fellow for the SW-PA Environmental Health Project and FracTracker Alliance

Feature photograph: A compressor station sits above a beautiful farm in Washington County, Pennsylvania. Photo credit: Leann Leiter

Piecing together the ethane cracker - Graphic by Sophie Riedel

Piecing Together an Ethane Cracker

How fragmented approvals and infrastructure favor petrochemical development

By Leann Leiter and Lisa Graves-Marcucci

Let’s think back to 2009, when oil and gas companies like Range Resources began drilling the northeast shale plays in earnest. Picture the various stages involved in drilling – such as leasing of land, clearing of trees, boring of wells, siting of compressor stations, and construction of pipelines to gather the gas. Envision the geographic scope of the gas infrastructure, with thousands of wells in Pennsylvania alone, and thousands of miles of pipelines stretching as far as Louisiana.

Figure 1. A pipeline right-of-way snakes behind a residential property in Washington County, PA. Photo credit: Leann Leiter.

Figure 1. A pipeline right-of-way snakes behind a residential property in Washington County, PA. Photo credit: Leann Leiter

Now, picture the present, where a homeowner looks out over her yard and wonders how a lease she signed with Shell several years prior made it possible for the company to run an ethane pipeline across her property and between her house and her garage.

Think forward in time, to 2022, the year when a world-scale ethane cracker is set to go online in Beaver County, Pennsylvania, to begin churning through natural gas liquids from wells in PA and others, producing a variety of disposable plastic products.

At each of these moments in gas development, which of the many stakeholders – industry leaders, local governments, state regulatory agencies, or landowners and residents – were granted a view of the full picture?

The proposed Shell ethane cracker in Beaver County is an illustration of the fragmented nature of gas development. From the extensive web of drilling infrastructure required to supply this massive facility, to several years of construction, this project is a case-study in piecemeal permitting. Such fragmentation creates a serious barrier to transparency and to the informed decision-making that relies upon it.

In the first two articles in this series on the petrochemical development in Beaver County, we focused on ethane cracker emergency scenarios and how the area might prepare. In this article, we draw the lens back to take in the larger picture of this region-altering project and highlight the effects of limited transparency.

The “Piecemeal” Nature of Gas Development

All across the Pennsylvania, proposed industrial development – even coal operations – have historically provided to the public, elected officials, and regulatory agencies the extent or footprint of their planned operations. Nonetheless, the oil and gas industry has in several instances undertaken a practice of developing its extensive infrastructure piece-by-piece. Operators of these facilities first acquire a GP-5 General Permit, which is only available to certain oil and gas operations with “minor” emissions and which allows them to avoid having the permit undergo public notice or comment. These operators then add emissions sources and increases through a series of minor amendments. While they are required to obtain a “major” source permit once their modifications result in major emissions, they avoid the scrutiny required for a major source by this fragmented process.

Unlike most other industrial permitting, the gas industry has enjoyed a much less transparent process. Instead of presenting their entire planned operation at the time of initial permit application, gas operators having been seeking – and receiving – incremental permits in a piecemeal fashion. This process puts local decision makers and the women, men, and children who live, work, and go to school near gas development at a severe disadvantage in the following ways:

  • Without full disclosure of the entirety of the planned project, neither regulatory bodies nor the public can conduct a full and factual assessment of land use impacts;
  • Incremental approvals allow for ever-expanding operations, including issuance of permits without additional public notification and participation;
  • Piecemeal approvals allow operations to continuously alter a community and its landscape;
  • The fragmented approval process prevents consideration of cumulative impacts; and
  • Without full transparency of key components of the proposed operations, emergency planning is hampered or non-existent.

From the Well to the Ethane Cracker

In the fragmented approval process of gas development, the proposed ethane cracker in Beaver County represents a pertinent example. Developers of this massive, multi-year, and many-stage project have only revealed the size and scope in a piecemeal fashion, quietly making inroads on the project (like securing land leases along the route of the pipeline required for the cracker, years in advance of permit approvals for the facility itself). By rolling out each piece over several years, the entirety of the petrochemical project only becomes clear in retrospect.

A World-Scale Petrochemical Hub

While Shell is still pursuing key approval from the PA Department of Environmental Protection, industry leaders treat the ethane cracker as a foregone conclusion, promising that this facility is but one step in turning the area into a “petrochemical hub.”

The cracker facility, alone, will push existing air pollution levels further beyond their already health-threatening state. Abundant vacant parcels around Shell’s cracker site are attractive sites for additional spin-off petrochemical facilities in the coming “new industry cluster.” These facilities would add their own risks to the equation, including yet-unknown chemical outputs emitted into the air and their resulting cumulative impacts. Likewise, disaster risks associated with the ethane cracker remain unclear, because in the piecemeal permitting process, the industry is not required to submit Preparedness, Prevention, and Contingency (PPC) Plans until after receiving approval to build.

Figure 2: Visualization shows a portion of the extensive US natural gas interstate pipeline system stretching from the petrochemical hubs in the bayous of the Gulf Coast Basin to Pittsburgh's Appalachian Basin. However, petrochemical development in the northeast may reverse or otherwise change that flow. Visualization created by Sophie Riedel, Carnegie Mellon University, School of Architecture. Data on interstate natural gas supply sourced from Energy Information Administration, Form EIA176 "Annual Report of Natural Gas and Supplemental Gas Supply and Disposition," 2007.

Figure 2. A portion of the extensive US natural gas interstate pipeline system stretching from the petrochemical hubs in the bayous of the Gulf Coast Basin to Pittsburgh’s Appalachian Basin. However, petrochemical development in the northeast may reverse or otherwise change that flow. Visualization created by Sophie Riedel, Carnegie Mellon University, School of Architecture. Data on interstate natural gas supply sourced from Energy Information Administration, Form EIA176 “Annual Report of Natural Gas and Supplemental Gas Supply and Disposition,” 2007.

92.3 Miles of Explosive Pipeline

More than just a major local expansion, communities downriver and downwind will be susceptible to the impacts, including major land disturbance, emissions, and the potential for “incidents,” including explosion. The pipeline required to feed the cracker with highly flammable, explosive ethane would tie the tri-state region into the equation, expanding the zone of risk into Ohio and crossing through West Virginia.

Figure 3: The Falcon Pipeline, which would be used to transport ethane to the cracker in Beaver County. At 92.3 miles long, it consists of two “legs,” starting from Scio and Cadiz, Ohio and Houston, PA, respectively, and extending up to the site of Shell’s ethane cracker. Credit: Shell Pipeline Company LP.

Figure 3. The Falcon Pipeline, which would be used to transport ethane to the cracker in Beaver County. At 92.3 miles long, it consists of two “legs,” starting from Scio and Cadiz, Ohio and Houston, PA, respectively, and extending up to the site of Shell’s ethane cracker. Credit: Shell Pipeline Company LP

Renewed Demand at the Wellhead

No one piece of the gas infrastructure stands alone; all work in tandem. According to the  Energy Information Administration (EIA), the new US ethane crackers will drive consumption of ethane up by a 26% by the end of 2018. Gas wells in the northeast already supply ethane; new ethane crackers in the region introduce a way to profit from this by-product of harvesting methane without piping it to the Gulf Coast. How this renewed demand for ethane will play out at fracked wells will be the result of complex variables, but it will undoubtedly continue to drive demand at Pennsylvania’s 10,000 existing unconventional oil and gas wells and those of other states, and may promote bringing new ones online.

quote-from-petchem-report

Figure 4. Excerpt from Executive Summary of IHS Markit Report, “Prospects to Enhance Pennsylvania’s Opportunities in Petrochemical Manufacturing.”

Along with drilling comes a growing network of gathering and transmission lines, which add to the existing 88,000 miles of natural gas pipeline in Pennsylvania alone, fragment wildlife habitat, and put people at risk from leaks and explosions. Facilities along the supply stream that add their own pollution and risks include pump stations along the route and the three cryogenic facilities at the starting points of the Falcon Pipeline (see Fig. 6).

Figure 4: Several yards of the 88,000 miles of gas pipelines cutting through Pennsylvania. Finleyville, PA. Credit: Leann Leiter.

Figure 5. Several yards of the 88,000 miles of gas pipelines cutting through Pennsylvania. Finleyville, PA. Credit: Leann Leiter

The infrastructure investment required for ethane crackers in this region could reach $3.7 billion in processing facilities, pipelines for transmitting natural gas liquids including ethane, and storage facilities. A report commissioned by Team Pennsylvania and the PA Department of Community and Economic Development asserts that “the significant feedstock and transportation infrastructure required” will “exceed what is typically required for a similar facility” in the Gulf Coast petrochemical hub, indicating a scale of petrochemical development that rivals that of the southern states. This begs the question of how the health impacts in Pennsylvania will compare to those in the Gulf Coast’s “Cancer Alley.”

Figure 6. Houston, PA Cryogenic and Fractionation Plant, one of three such facilities supplying feedstock to the proposed Shell ethane cracker. Credit: Garth Lenz, iLCP.

Figure 6. Houston, PA Cryogenic and Fractionation Plant, one of three such facilities supplying feedstock to the proposed Shell ethane cracker. Credit: Garth Lenz, iLCP

Water Impacts, from the Ohio River to the Arctic Ocean

Shell’s facility is only one of the ethane crackers proposed for the region that, once operational, would be permitted to discharge waste into the already-beleaguered Ohio River. This waterway, which traverses six separate states, supplies the drinking water for over 3 million people. Extending the potential water impact even further, the primary product of the Shell facility is plastics, whose inevitable disposal would unnecessarily add to the glut of plastic waste entering our oceans. Plastic is accumulating at the alarming rate of 3,500 pieces a day on one island in the South Pacific and as far away as the waters of the Arctic.

Figure 7: View of the Ohio River, downriver from the site of Shell’s proposed ethane cracker. Existing sources of industrial pollution to the river include the American Electric power plants, coal loading docks, barges, coal ash lagoons, and dry coal ash beds shown in this picture, and at least two fracking operations within the coal plant areas. Credit: Vivian Stockman/ohvec.org; flyover courtesy SouthWings.org.

Figure 7. View of the Ohio River, downriver from the site of Shell’s proposed ethane cracker. Existing sources of industrial pollution to the river include the American Electric power plants, coal loading docks, barges, coal ash lagoons, and dry coal ash beds shown in this picture, and at least two fracking operations within the coal plant areas. Credit: Vivian Stockman/ohvec.org; flyover courtesy SouthWings.org.

How does fragmentation favor industry?

The gas and petrochemical industry would likely defend the logistical flexibility the piecemeal process affords them, allowing them to tackle projects, make investments, and involve new players as needed overtime. But in what other ways do the incredibly fragmented approval processes, and the limited requirements on transparency, favor companies like Shell and their region-changing petrochemical projects? And what effect does the absence of full transparency have on local communities like those in Beaver County? We conclude that it:

  • “Divides and conquers” the region. The piecemeal approach to gas development, and major projects like the Shell ethane cracker, deny any sense of solidarity between the people along the pipeline route resisting these potentially explosive channels cutting through their yards, and residents of Beaver County who fear the cracker’s emissions that will surround their homes.
  • Makes the project seem a foregone conclusion, putting pressure on others to approve. For example, before Shell formally announced its intention to build the facility in Potter Township, it rerouted a state-owned road to facilitate construction and increased traffic flow. Likewise, though a key permit is still outstanding with the PA DEP, first responders, including local volunteer firefighters, have already begun dedicating their uncompensated time to training with Shell. While this is a positive step from a preparedness standpoint, it is one of many displays of confidence by Shell that the cracker is a done deal.
  • Puts major decisions in the hands of those with limited resources to carry them out and who do not represent the region to be affected. In the case of the Shell ethane cracker, three township supervisors in Potter Township granted approvals for the project. The impacts, however, extend well beyond Potter or even Beaver county and include major air impacts for Allegheny County and the Pittsburgh area. Effects will also be felt by landowners and residents in numerous counties and two states along the pipeline route, those near cryogenic facilities in Ohio and Pennsylvania, plus those living on the Marcellus and Utica shale plays who will see gas well production continue and potentially increase.


Figures 8a and 8b. Potter Township Supervisors give the go-ahead to draft approval of Shell’s proposed ethane cracker at a January meeting, while confronted with public concern about deficiencies in Shell’s permit applications. Photos courtesy of the Air Quality Collaborative.

Fragmented Transparency, Compromised Decision-making

The piecemeal, incremental, and fragmented approval processes for the ethane cracker – and other gas-related facilities in the making – create one major problem. They make it nearly impossible for locals, elected officials, and regulatory agencies to see the whole picture as they make decisions. The bit-by-bit approach to gas development amounts to far-reaching development with irreversible impacts to environmental and human health.

We ask readers, as they contemplate the impacts closest to them – be it a fracked well, a hazardous cryogenic facility, the heavily polluted Ohio River, a swath of land taken up for the pipeline’s right-of-way, or Shell’s ethane cracker itself – to insist that they, their elected officials, and regulators have access to the whole picture before approvals are granted. It’s hard to do with a project so enormous and far-reaching, but essential because the picture includes so many of us.

Sincere Appreciation

To The International League of Conservation Photographers, The Ohio Environmental Council, and The Air Quality Collaborative for sharing photographs.

To Sophie Riedel for sharing her visualizations of natural gas interstate pipelines.

To Lisa Hallowell at the Environmental Integrity Project, and Samantha Rubright and Kirk Jalbert at FracTracker, for their review of and and invaluable contributions to this series.

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Front Range Health Tracking Project

Is fracking impacting your air quality?

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Front Range Citizen Science Health Tracking Project

Fracking is increasing at an alarming rate in Colorado, raising concerns about possible negative health outcomes. While mapping and air monitoring can contribute valuable data on this topic, there is an information gap when it comes to understanding the true human impact of fracking in the Front Range. To fill this gap, FracTracker Alliance is launching the Front Range Citizen Science Health Tracking Project in partnership with several community groups.

Residents can contribute valuable data about the fracking industry and its impacts from their phone anytime and anywhere. We’ll compare these reports with real-time air quality measurements to gain an in-depth look at the way fracking is affecting Coloradans.

Check back soon for dates and locations of our in-person meetings 

Why Participate?

As a participant, you will join hundreds of other residents in collecting data that will be compared with real-time air quality measurements. You’ll also receive information on threats to your air quality and tips on how to protect your health throughout the length of this year-long project.

Make an important contribution to all Coloradans who breathe air and get involved!

Sign up if you’d like to get involved or stay up to date on the project:

FracTracker – The Mobile App

The oil and gas industry – from its wells to pipelines to refineries – has a variety of ways of impacting the communities and environment that surround its infrastructure. We want to help you document it! 


App Features


  • Check the Oil & Gas Map

    Find wells, pipelines, & user reports near you on the map

  • Activity Feed

    View recent reports from other app users

  • Submit a Report

    Submit reports & photos about nearby activity & issues you witness

  • Impacted Senses

    Classify reports by senses impacted, such as from noise or odors

  • Activity Feed

    Mobile App Newsfeed
  • Wells, Pipelines, & Reports

  • Intuitive Reporting

  • Industry Selection

  • Senses Impacted

  • User Profile


Download on the App Store

Android App on Google Play

Explore the FracTracker App from your laptop

The FracTracker web app is another way to explore the scope and impacts of oil and gas development. Just like the mobile app, this tool contains an activity feed of user reports and a map of these reports. Watch a short video tutorial of the web app.

Este recurso está disponible en español.

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