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Palmerton Zinc Pile

Compost/Biosolids Application to Revegetate Defoliated Areas

ABSTRACT:

The Palmerton Zinc Pile Superfund Site is a former
primary zinc smelter that operated from the late
1800s to 1980. Previous activities at the site created
a more than 2,000-acre defoliated area on the
adjacent Blue Mountain, a cinder bank composed of
33 million tons of material containing teachable
metals, and additional defoliation along Stoney Ridge.
As a result, there is heavy metal contamination in the
surface soil, ground water, and stream sediments. In
1991, the responsible parties began applying
biosolids to accelerate revegetation of the area.
Through mid-2006, almost 1,300 acres of Blue
Mountain, 220 acres of the cinder bank, and 40 acres
of Stoney Ridge have been revegetated. Additional
revegetation of Blue Mountain and Stoney Ridge will
continue in the remainder of 2006 and in 2007.
Revegetation has stabilized the treated area, reduced
soil erosion, and improved water quality (i.e.,
decreased soluble metals contaminant concentration)
associated with runoff from the site.

Site Background

CERCLIS ID: PA002395887

The Palmerton Zinc Superfund Site (the site) consists of
several thousand acres in the Lehigh Gap area and is
located off Route 248 in Palmerton, Carbon County,
Pennsylvania. The Borough of Palmerton is positioned
at the confluence of the Lehigh River and
Aquashicola Creek in a valley bounded by Blue
Mountain to the south and Stoney Ridge to the North.
The area surrounding Palmerton is rural and consists of
a series of deep, narrow valleys. Aquashicola Creek, a
trout-stocked stream, runs the length of the valley and
discharges into the Lehigh River. The area surrounding
the site has a population of approximately 13,000
people with 5,393 residing in Palmerton itself.

January 2007

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Palmerton Zinc Pile

Biosolids Application to Revegetate Defoliated Areas

The site consists of two former ziric smelters—west
plant operations began in 1898 and east plant
operations in 1911. All primary zinc smelting
operations ceased in December 1980. Smelting
activities resulted in the emission of large quantities
of zinc, lead, cadmium, and sulfur dioxide that
caused the defoliation of more than 2,000 acres of
vegetation in the vicinity of the east smelter on Blue
Mountain. Process residue and other plant wastes
were disposed of in a cinder bank—a 2.5-mile, 255-
acre waste pile located behind the east plant at the
base of Blue Mountain. The cinder bank contains
approximately 33 million tons of material containing
leachable metals, including lead, zinc, and
cadmium. Portions of the cinder bank continue to
smolder because residue was deposited in the pile
before it was fully quenched. Additional defoliation
has also occurred along Stoney Ridge.

Figure l: Palmerton. PA, 1980; Dead Ecosystem on Blue Mt. T° date' the responsible parties have revegetated

(Source: Sprenger) approximately 1,300 acres of the defoliated acres

on Blue Mountain, approximately 220 acres of the
cinder bank, and 40 acres in the Stoney Ridge area of the site in order to control erosion. These areas
were revegetated with compost or municipal sewage sludge, power plant fly and/or bottom ash,
and/or agricultural limestone and seed mixtures.

Waste Stream Characteristics

In the Borough of Palmerton and surrounding area, former
smelting operations and other processes at the site resulted
in soil and shallow ground water contamination of heavy
metals, such as lead, cadmium, and zinc. Elevated levels
of zinc and cadmium in the soil are responsible for the
vegetation damage observed on Blue Mountain, the
cinder bank and areas of Stoney Ridge. As a result of the
defoliation, contaminated soil is more easily washed away,
contributing to surface and ground water contamination.

During individual sampling events, concentrations of total
metals and dissolved metals detected in each well were
similar, which indicates that metals in the ground water at
the site are present mainly in soluble form. The highest
concentrations of zinc and cadmium (both total and
dissolved) were consistently detected in wells at the
eastern end of the cinder bank.

Figure 2: Location of Palmerton Zinc Site

(Source: Apollo, 2005)

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Biosolids Application to Revegetate Defoliated Areas

Table 1. Metals Contamination Concentrations

Area

Media

Cadmium (parts
per million ppm)

Lead (ppm)

Zinc (ppm)

Blue Mountain*

surface soil

364-1,300

1,200-6,475

13,000-35,000

Cinder Bank*

bank material

250

3,600

27,000

Stone Ridge*

ground water

1-1,670

1-1,630

40-2,122,000

TSource: EPA 2002

^Source: TT/B&V (Note that in some ground water samples the listed metals were not detected or
were not significantly detected above the blank. Although listed under the Stoney Ridge Rl, water
samples were collected from all areas of the site—i.e., including Blue Mt. and the cinder bank).

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Consequently, Aquashicola Creek is contaminated with zinc, copper and cadmium with elevated
levels of cadmium, lead and zinc found in fish near the site and elevated cadmium levels found in
fish taken 27 km downstream (as reported in TT/B&V, 2002). Bioaccumulation of these contaminants
in fish may pose a health threat if consumed by people.

Treatment

Technology

Revegetation is the main
treatment	technology

selected to address the
heavy	metal	soil

contamination at and
surrounding the site.
Revegetation is expected to
produce the following results:

• Stop or greatly reduce
wind erosion, which
will remove air-borne
heavy metals from the
site;

• Increase evapotranspiration by establishing a permanent vegetative cover on the site, which
will prevent significant quantities of water from percolating through the soil profile. This
technology is expected to prevent water from picking up heavy metals and delivering them
to the ground water (HRD, April 1991).

• Stop or greatly reduce
surface erosion by
water, thus preventing
the placement of
heavy metals in the
surface waters that
flow from the site; and

Figure 3: Palmerton Zinc Superfund Site Aerial View

(Source: Sprenger, Undated)

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Palmerton Zinc Pile

Biosolids Application to Revegetate Defoliated Areas

Blue Mountain Revegetation

Following several years of pilot testing, full-scale implementation of the revegetation of Blue Mountain
began in 1991. Between 1991 and 1995, approximately 850 acres were revegetated using a spreader
truck (as shown on page 1) to apply lime, potash, sludge, and fly ash (see Table 2 for specific
amounts).

The sludge application rate was adjusted, as necessary, to provide up to 2,000 pounds/acre of
organic nitrogen. The fly ash amount was then adjusted to provide a 2:1 sludge:fly ash ratio. The
other amendments remained constant. Tree and grass seeds were also applied. (HRD, 1991)

While revegetation of the initial 850 acres was highly successful in establishing grass cover, fungal
disease, competition with plants, and foraging animals hindered tree seed growth. Additionally,
limited sampling data indicated that translocation of contaminants may have been occurring
through plant uptake. As a result, additional test plots were planted in 1995 and 1999 (approximately
100 acres), and based on the results, EPA adopted the following approach for the revegetation of
the remaining denuded acreage (EPA, 2002):

•	Utilize a self-sustaining meadowland revegetation approach that has minimum metal uptake;

•	Sample and analyze appropriate indicator plant species for metals to determine if any uptake
is occurring; and

•	Periodically remove volunteer tree species with high metal uptake (e.g., birch, or poplar), if
necessary.

After the initial 850 acres, the application of sewage sludge was replaced with mushroom and leaf-
litter compost due to the negative public perception of sewage sludge application. During the first
half of 2006, the responsible parties applied amendments, fertilizer, lime and warm season grasses to
approximately 200 acres on Blue Mountain with an agricultural tractor and spreader, and an
additional approximately 150 acres on Blue Mountain with a fixed wing crop-duster (Root, 2006).

Table 2. Biosolids Application in Three Areas at the Palmerton Site

Area

Lime
(tons/acre)

Sludge or Compost
(wet tons/acre)

Fly Ash
(tons/acre)

Potash
(pounds/acre)

Blue Mountain
(first 850 acres)

10

105'

57.52

132

Cinder Bank

10

270

1383

-

Stone Ridge
(and remaining Blue Mt.)

Varied4

20s

-

160/130/2906

Notes:

1 20% solids
215% moisture

3	Includes power plant fly and/or bottom ash.

4	Sufficient amount to raise the soil pH to 6.5 base on soil tests.

5	Consists of a mixture of Lehigh County and mushroom organic compost.

6	Consists of commercial fertilizer containing 160/130/290 pounds per acre N/P/K (Nitrogen increased to 250
lbs/acre where leaves were located or used.)

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All work to date on Blue Mountain has been conducted on private land. The remaining -700 acres to
be revegetated are located on land owned by the State of Pennsylvania or U.S. National Park
Service and operated under a cooperative agreement. EPA is working with the State and Park
Service to remediate the remaining portion of Blue Mountain.

Cinder Bank Revegetation

Municipal sewage sludge, power plant fly and/or bottom ash, agricultural limestone (together known
as "Ecoloam") and select seed mixtures were combined in a vegetation mixture and then applied to
the cinder bank using a spreader truck (similar to that used for the Blue Mountain revegetation). The
ratio of sludge to ash was 2:1 by volume. The Ecoloam was applied at a rate of approximately 60 dry
tons of sludge per acre.

The seed mixture included grasses that establish themselves quickly, perennial grasses for long-term
erosion control, and birdsfoot trefoil, a nitrogen-fixing legume, to maintain nitrogen fertility without the
need for supplementary fertilization. The material specification ceiling concentrations of metals and
other constituents in the sludge and ash used in the Ecoloam were based on Pennsylvania
Department of Environmental Protection (PADEP) maximum allowable concentrations in sludge and
cumulative metal loading rates and adjusted down to ensure that no combination of sludge and ash
meeting the specified limits could ever exceed the PADEP lifetime metals loading limits. (ZCA 1999)

Stoney Ridge Revegetation

To help minimize erosion and sediment transport, the responsible parties revegetated approximately
40 acres along Stoney Ridge in 2005 using a mixture of mushroom compost, lime, and fertilizer (see
Table 2). Further, the responsible parties were planning to revegetate another 15 acres in the fall of
2006.

Table 3. Acres Revegetated

Area

Ecoloam

Mushroom/Leaf- Litter
Compost

Total Reclaimed

Remaining

Blue Mountain

850

350

1,200

600

Cinder Bank

220

—

220

25

Stone Ridge

—

40

40

15

TOTAL

1070

390

1,460

640

Challenges, Adjustments, and Solutions

Establishing forestland at the site proved to be extremely challenging and was ultimately
abandoned in favor of meadowland. Problems and change in strategy follow.

In 1995, USACE, on behalf of EPA took the following actions to attempt to achieve the tree seedlings'
successful maturation in the test plots planted on Blue Mountain:

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•	Cut all grass in a 3.3 ft. area with a weed-whacker prior to dibble barring the seedling into the
ground, in an attempt to minimize competition from grass;

•	Inoculated the seedlings with a microrhizium developed for contaminated soils prior to
planting;

•	Applied an animal repellant and an iron chelate (FeEDDHA) to seedlings; and

•	Used insect control as needed.

In the spring of 1998, a ground weed control mat (3x3 ft.) or other control was applied around the
seedlings. A plastic protective tube was placed around the seedlings at planting in November 1997
to protect from animal grazing. The plastic tube was ineffective because windy conditions on the
mountain caused massive wind damage to the seedlings. A netting type of seedling protector was
applied in March 1998. Despite these extensive efforts, the 1995 tree seedling planting performed
poorly. An additional round of tree seedlings were planted in November 1999 in the plots that had
the fewest surviving seedlings from the 1995 planting. In response to the difficulty in creating
successful forestland through either seeding or seedling planting, EPA requested a cost analysis of
establishing meadowland versus forestland. This cost comparison estimated meadowland
establishment at $l,125/acre versus $6,125/acre for forestland via tree seedling planting and
intensive seedling maintenance. In light of the cost and difficulties iri establishing trees on this site,
EPA allowed the responsible parties to modify the remediation to exclude tree seeds/seedlings (EPA,
2002). These modifications were also applied to the cinder bank and Stoney Ridge revegetation
areas.

October 2002	September 2004

August 2003	August 2006

Performance of System

During the past 10 years, the
850 acres reclaimed on Blue
Mountain have maintained
more than 70 percent
vegetative cover with
increasing emergence of
volunteer tree species. As
can be seen in Figure 5,
vegetation on the west side
of Lehigh Gap has increased

dramatically in the past 4
years.

Figure 5: Palmerton Zinc Superfund Site Progression of Revegetation
Activities	(Source: Root, 2006)

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Biosolids Application to Revegetate Defoliated Areas

Other Technologies Used for Wastestream

In association with revegetation and cleanup of the cinder bank, the responsible parties built a
system to divert surface water around the cinder bank and is treating contaminated leachate before
it is discharged to the nearby Aquashicola Creek.

In addition to revegetation, other erosion control activities conducted in the Stoney Ridge area
include the installation of rock/stone check dams, diversion berms, and sedimentation basins in and
around the erosion channels.

Cost

Prior to beginning revegetation activities, it was determined that removal of contaminated soil and
associated smelting residue would cost more than $4 billion and take up to 45 years.

Although costs are not available for all of the revegetation activities, the responsible parties estimate
that it cost approximately $9 million to reclaim the initial 850 acres of Blue Mountain. A significant
portion of the cost can be attributed to the construction of more than 60 miles of switchback roads
to accommodate the application truck's need for a relatively level road surface. Subsequent
revegetation activities (e.g., the remaining portion of Blue Mountain, the cinder bank, and Stoney
Ridge) did not require construction of roads and, therefore, are anticipated to cost less per acre than
the initial 850 acres.

Based on the initial estimates for removal of contaminates soil, it is clear that the chosen remediation
method is significantly less expensive.

Lessons Learned and Conclusions

The method of application and the types of biosolids and seeds used for revegetation were all
modified after the initial revegetation of the 850 acres on Blue Mountain.

•	Because trees could not be easily established, tree seeds were replaced with grass seeds.

•	Due to metals uptake, the types of grass seeds were replaced with those having minimal
metals uptake.

•	As a result of negative public perception, sludge application was replaced with mushroom
compost.

•	To decrease costs, application methods were modified to eliminate the need for roadway
construction.

EPA Contacts

Charlie Root

Remedial Project Manager

U.S. Environmental Protection Agency

Region III

Phone:215-814-3193
E-mail: root.charlie@epa.gov

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Key Dates

1898-1967

New Jersey Zinc Company operates the zinc smelters.

1967-1981

Gulf & Western Corporation operates the zinc smelters.

1981

Horsehead Industries, Incorporated, purchases the smelters and Pegins operating the
facility as a hazardous waste recycling plant.

Sept. 1983

Site is listed on the NPL

Sept. 1985

EPA enters into an Administrative Order on Consent (AO) with Horsehead Industries,
Incorporated (HII), and the current owner/operator of the site, The New Jersey Zinc
Company, a division of HII. Under the terms of this AO, HII agrees to conduct a Remedial
Investigation/FeasiPility Study (RI/FS) for the Cinder Bank.

Sept. 4, 1987

Record of Decision (ROD) is issued, which calls for the revegetation of 2,000 acres on
Blue Mountain.

June 29, 1988

ROD is issued for remediation of the Cinder Bank.

Early 1980s

Revegetation of cinder Pank Pegins.

1991 - 1995

850 acres of Blue Mt. is revegetated using municipal sewage sludge.

1995

Tree seedling pilot test is conducted on Blue Mountain.

Dec. 22, 1995

EPA sends Special Notice Letters to the potentially responsiPle parties (PRPs), which
contained an offer for them to perform the RI/FS for the ground and surface waters
potentially impacted Py the site (i.e., Stoney Ridge area). After the PRPs decline this
offer, EPA performs the RI/FS using Superfund monies.

1997 & 1998

EPA conducts fieldwork associated with the ecological aspects of the contaminated
ground and surface waters impacted Py the site.

Nov. 1999

Additional round of tree seedling pilot tests are conducted on Blue Mountain.

April 2000

Cinder Pank Leachate collection and treatment and surface water diversion work
Pegins in conjunction with revegetation activities.

Fall 2002

Revegetation of cinder Pank is complete.

July 2005

Stoney Ridge Erosion and Revegetation Activities Workplan is suPmitted.

April 2006

EPA approves second preliminary design for revegetation of the remaining non-puPlicly-
owned land in the Blue Mt. area.

2006

Amendments, fertilizer, lime, and warm season grasses are applied to more than 200
acres of Blue Mt. with agricultural tractor and spreader and an additional
approximately 150 acres of Blue Mt. with fixed wing crop-duster type aircraft.

References

Apollo® Environmental Strategies, Inc. (for Viacom International, Inc.). July 1, 2005. "Palmerton Zinc
Superfund Site - Stoney Ridge Erosion and Revegetation Activities Workplan."

Horsehead Redevelopment Co., Inc. (HRDJ. April 1991. "Blue Mountain Project Palmerton Zinc
Superfund Site Remedial Design."

Jenness, Nathan. University of Arizona (for USEPA). August 2001. "Mine Reclamation Using
Biosolids."

Sprenger, Mark. USEPA-OSWER-OSRTI-ERT. Undated. "Effectiveness of BiosolidsApplication for
Remediating Metals Mining Sites."

Tetra Tech/Black & Veatch (TT/B&V). June 2002. "Remedial Investigation Palmerton Zinc Pile -
Operable Unit 4."

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Biosolids Application to Revegetate Defoliated Areas

U.S. Environmental Protection Agency. February 2002. (Signed July 2002) "Second Five-Year Review
Report Palmerton Zinc Pile."

U.S. Environmental Protection Agency Region 3 (Mid-Atlantic). June 2006 (last updated). Current Site
Information, http://www.epa.gov/rea3hwmd/no!/PAD002395887.htm.

Zinc Corporation of America (ZCA). March 1999. "Cinder Bank Revegetation Plan."

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