Nonpoint Source Success Story Arizona Federal-state Partnerships Remediate Legacy Mine and Improve Water Quality in Harshaw Creek

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NONPOINT SOURCE SUCCESS STORY

Arizona

Lead Queen Mine

* p- Harshaw
Creek

Federal-State Partnerships Remediate Legacy Mine and Improve
Water Quality in Harshaw Creek

Waterbody Improved ^'stor'ca' mining activities in southern Arizona's Harshaw Creek

basin left a legacy of mining waste that produced acid mine
drainage. The Arizona Department of Environmental Quality (ADEQ) added a three-mile stretch of
Upper Harshaw Creek (HUC 15050301-025A) to its 1996 and 1998 Clean Water Act (CWA) section
303(d) lists for impairments due to copper and acidity. ADEQ. completed a total maximum daily load
(TMDL) for copper and acidity in 2003. The U.S. Forest Service (USFS) conducted land reclamation
and remediation work in the Harshaw Creek area between 2016 and 2019. This work helped to
control acid mine drainage in the basin, which resulted in a measurable water quality improvement.

Problem

The Harshaw Creek basin is in southern Arizona's Santa
Cruz County in the rolling hills of Sonoita Valley (Figure
1). The closest town is Patagonia, with a population
of over 700. Harshaw Creek is a primarily ephemeral
stream fed by groundwater during baseflow conditions,
with larger flows occurring during storms. The basin
is within the Coronado National Forest and is used for
recreation and cattle grazing. Many ranches, farms, and
vacation homes are located downstream. Designated
uses for Upper Harshaw Creek are (1) Aquatic and
Wildlife ephemeral (A&We), (2) Partial Body Contact
(PBC), and (3) Agricultural Livestock Watering (AgL).

Large-scale mining began in the Harshaw Creek Basin
in the mid-1800s and continued for approximately 100
years. The Lead Queen Mine site is on USFS land and
is inactive. The underground lead, gold, silver, zinc,
and copper mine was discovered in 1897 and was in
production between 1898 and 1940. Historic mining
activities left behind a variety of waste rock piles, adits,
and shafts (Figure 2). Rain falling on the site produced
acidic stormwater runoff and leached metals from
surrounding mineral-rich rock, tailings, and waste rock.

The runoff carried the metals into Harshaw Creek.

ADEQ added a three-mile stretch of Upper Harshaw
Creek (HUC 15050301-025A) to its 1996 and 1998
CWA section 303(d) lists as impaired for copper, zinc,
and acidity. Monitoring data indicated that the high
levels of zinc found were due to natural background
conditions and not due to anthropogenic sources. For
this reason, ADEQ completed a TMDL for copper and
acidity in 2003.

Sonoita Creek

If* Harshaw
Queen Creek

Mine

Figure 1. Harshaw Creek is in southern Arizona.

Story Highlights

In 2016, USFS remediated the waste rock piles and
addressed several adits and shafts at the site (Table 1).
(An adit is a horizontal entrance to an underground
mine primarily used for de-watering and extraction
of minerals during operations.) The cleanup included
the excavation and hauling of waste rock material to
a single below-ground consolidation cell, which was
covered with 2-4 feet of native soil and revegetated.

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Table 1. Remediation practices installed at the Lead
Queen Mine site.

Practice

Number
Installed

Comments

Adit plug

l



Shaft closure

6

Mixture of bat-friendly
gates and foam

Gabion basket

ii

Stormwater control
and redirection

Re-grade, cover waste
rock

4

Native soil and
revegetated

Table 2. Monitoring results in Harshaw Creek
before and after plugging the main adit.

Figure 2. The adit at Lead Queen Mine, before
remediation.

Pollutant1

Pre-plug

Post-plug

(2020)

WQS

Designated

use

Lead (total)

0.021

0.0013

0.015

PBC

Copper (total)

1.4

0.033

0.5

AgL

Copper
(dissolved)

1.3

0.027

0.055

AWe

Zinc (dissolved)

4.1

0.082

2.4

AWe

pH

3.69

7.01

6.5-9.0

PBC

Units are in milligrams per liter (except for pH).

Entry to the open shafts were closed with bat-friendly
gates, while others were sealed using polyurethane
foam. A total of 11 zeolite gabion basket structures
were installed in the stream channel at various loca-
tions downstream of the main adit in order to mitigate
stormwater contact. However, the remedy at the main
adit began to fail, allowing discharge of pollutants,
USFS investigations discovered that the foam plug was
intact, but that fractures and faults near the opening
were seeping tunnel discharge that was then flowing
downstream. USFS built a retention basin to contain
and treat the small seep and flow. In 2019, USFS
installed a hydraulic plug—a more long-term solu-
tion—to cease the discharge. Subsequent site visits
confirmed no new seepage coming from the former
adit opening.

Results

Remediation of the Lead Queen Mine improved
surface water quality in the Lead Queen Mine tribu-
tary, which flows into Harshaw Creek. Data collected
post-remediation in 2020 showed no exceedances
of surface water quality standards (WQS) (Table 2).
ADEQ continues to monitor Harshaw Creek to measure
improvements.

Partners and Funding

The project was a collaborative effort between ADEQ
and USFS. The subsequent effectiveness monitoring
conducted by ADEQ was supported by CWA section
319 funds.

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U.S. Environmental Protection Agency
Office of Water
Washington, DC

EPA 841-F-22-001T
September 2022

For additional information contact:

Natalie Muilenberg

AZ Department of Environmental Quality
602-771-6403 • muilenberg.natalie@azdeq,gov

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