Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska

Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska

There is little information in the literature about the impacts of mineral exploration drilling on natural waters. A copper-gold-molybdenum mining deposit in Alaska was heavily explored until 2012 and partially reclaimed; however, full reclamation of drill sites remained incomplete in 2016. Copper i...

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Main Authors: Kendra Zamzow, David M. Chambers
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:Environments
Subjects:
artesian flow
mining exploration
mine water
reclamation
water quality
Online Access:https://www.mdpi.com/2076-3298/6/7/84
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spelling doaj-29e30c1150f84b89a50a4a9bdc02f73f2020-11-24T21:30:35ZengMDPI AGEnvironments2076-32982019-07-01678410.3390/environments6070084environments6070084Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest AlaskaKendra Zamzow0David M. Chambers1Center for Science in Public Participation, Chickaloon, AK 99674, USACenter for Science in Public Participation, Bozeman, MT 59715, USAThere is little information in the literature about the impacts of mineral exploration drilling on natural waters. A copper-gold-molybdenum mining deposit in Alaska was heavily explored until 2012 and partially reclaimed; however, full reclamation of drill sites remained incomplete in 2016. Copper is sub-lethally toxic to salmon, a highly-valued resource in this area. Of 109 sites inspected, 9 sites had confirmed impacts due to un-reclaimed drill-holes or drill waste disposal practices. At seven sites artesian waters at the drill stem resulted in surface water or sediment elevated in aluminum, iron, copper, or zinc with neutral pH. Copper concentrations at artesian sites were <0.4, 0.7, 2, 7, 15, 76, and 215 µg/L; the latter four exceed water quality criteria. Drilling waste is known to have been disposed of in ponds and unlined sumps. At one of five ponds sampled, copper declined from 51 to 8 µg/L over nine years. At the one sump area with historical data, copper increased from 0.3 to 1.8 µg/L at a downgradient wetland spring over five years. This research identifies contaminant types and sources and can be used to guide future ecotoxicity studies and improve regulatory oversight.https://www.mdpi.com/2076-3298/6/7/84artesian flowmining explorationmine waterreclamationwater quality
collection DOAJ
language English
format Article
sources DOAJ
author Kendra Zamzow
David M. Chambers
spellingShingle Kendra Zamzow
David M. Chambers
Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
Environments
artesian flow
mining exploration
mine water
reclamation
water quality
author_facet Kendra Zamzow
David M. Chambers
author_sort Kendra Zamzow
title Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
title_short Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
title_full Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
title_fullStr Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
title_full_unstemmed Potential Impacts to Wetlands and Water Bodies Due to Mineral Exploration, Pebble Copper-Gold Prospect, Southwest Alaska
title_sort potential impacts to wetlands and water bodies due to mineral exploration, pebble copper-gold prospect, southwest alaska
publisher MDPI AG
series Environments
issn 2076-3298
publishDate 2019-07-01
description There is little information in the literature about the impacts of mineral exploration drilling on natural waters. A copper-gold-molybdenum mining deposit in Alaska was heavily explored until 2012 and partially reclaimed; however, full reclamation of drill sites remained incomplete in 2016. Copper is sub-lethally toxic to salmon, a highly-valued resource in this area. Of 109 sites inspected, 9 sites had confirmed impacts due to un-reclaimed drill-holes or drill waste disposal practices. At seven sites artesian waters at the drill stem resulted in surface water or sediment elevated in aluminum, iron, copper, or zinc with neutral pH. Copper concentrations at artesian sites were <0.4, 0.7, 2, 7, 15, 76, and 215 µg/L; the latter four exceed water quality criteria. Drilling waste is known to have been disposed of in ponds and unlined sumps. At one of five ponds sampled, copper declined from 51 to 8 µg/L over nine years. At the one sump area with historical data, copper increased from 0.3 to 1.8 µg/L at a downgradient wetland spring over five years. This research identifies contaminant types and sources and can be used to guide future ecotoxicity studies and improve regulatory oversight.
topic artesian flow
mining exploration
mine water
reclamation
water quality
url https://www.mdpi.com/2076-3298/6/7/84
work_keys_str_mv AT kendrazamzow potentialimpactstowetlandsandwaterbodiesduetomineralexplorationpebblecoppergoldprospectsouthwestalaska
AT davidmchambers potentialimpactstowetlandsandwaterbodiesduetomineralexplorationpebblecoppergoldprospectsouthwestalaska
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