Regional changes in Cladocera lakes impacted by historic gold mining activities

In Yellowknife (Northwest Territories, Canada), roaster stack emissions from historic gold mining activities, particularly Giant Mine (1948-2004), have left a legacy of arsenic contamination in lakes. We examined Cladocera (Branchiopoda, Crustacea) subfossil remains in the recent and pre-industrial...

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Veröffentlicht in:	Hydrobiologia 2021-03, Vol.848 (6), p.1367
Hauptverfasser:	Persaud, A. A, Cheney, C. L, Sivarajah, B, Blais, J. M, Smol, J. P, Korosi, J. B
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Schlagworte:	Aquatic resources Arsenic Gold industry Pollution
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creator	Persaud, A. A Cheney, C. L Sivarajah, B Blais, J. M Smol, J. P Korosi, J. B
description	In Yellowknife (Northwest Territories, Canada), roaster stack emissions from historic gold mining activities, particularly Giant Mine (1948-2004), have left a legacy of arsenic contamination in lakes. We examined Cladocera (Branchiopoda, Crustacea) subfossil remains in the recent and pre-industrial sediments of 23 lakes (arsenic gradient of 1.5-750 [micro]g/l) within a 40 km radius of Giant Mine to provide a snapshot of regional change in Cladocera since pre-1850. We found that littoral and benthic taxa dominated the recent assemblages in high-[As] lakes (surface water [As] > 100 [micro]g/l), while pelagic Bosmina was dominant in lakes with lower [As]. Cladocera richness and diversity were positively correlated with [As] (P = 0.004, R.sup.2 = 0.39; and P = 0.002, R.sup.2 = 0.46, respectively), except for four lakes with [As] > 100 [micro]g/l. The lakes that showed the most pronounced changes in Cladocera since pre-1850 were those affected by both metal(loid) pollution and urban development, where complete shifts in the dominant taxa occurred. Lakes that were most heavily impacted by arsenic emissions did not experience notable shifts in Cladocera assemblages. Our study suggests that changes in Cladocera assemblages in mining-impacted subarctic lakes are modulated by local, lake-specific limnological conditions and the interaction of multiple stressors.
doi_str_mv	10.1007/s10750-021-04534-9
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B</creator><creatorcontrib>Persaud, A. A ; Cheney, C. L ; Sivarajah, B ; Blais, J. M ; Smol, J. P ; Korosi, J. B</creatorcontrib><description>In Yellowknife (Northwest Territories, Canada), roaster stack emissions from historic gold mining activities, particularly Giant Mine (1948-2004), have left a legacy of arsenic contamination in lakes. We examined Cladocera (Branchiopoda, Crustacea) subfossil remains in the recent and pre-industrial sediments of 23 lakes (arsenic gradient of 1.5-750 [micro]g/l) within a 40 km radius of Giant Mine to provide a snapshot of regional change in Cladocera since pre-1850. We found that littoral and benthic taxa dominated the recent assemblages in high-[As] lakes (surface water [As] > 100 [micro]g/l), while pelagic Bosmina was dominant in lakes with lower [As]. Cladocera richness and diversity were positively correlated with [As] (P = 0.004, R.sup.2 = 0.39; and P = 0.002, R.sup.2 = 0.46, respectively), except for four lakes with [As] > 100 [micro]g/l. The lakes that showed the most pronounced changes in Cladocera since pre-1850 were those affected by both metal(loid) pollution and urban development, where complete shifts in the dominant taxa occurred. Lakes that were most heavily impacted by arsenic emissions did not experience notable shifts in Cladocera assemblages. 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Cladocera richness and diversity were positively correlated with [As] (P = 0.004, R.sup.2 = 0.39; and P = 0.002, R.sup.2 = 0.46, respectively), except for four lakes with [As] > 100 [micro]g/l. The lakes that showed the most pronounced changes in Cladocera since pre-1850 were those affected by both metal(loid) pollution and urban development, where complete shifts in the dominant taxa occurred. Lakes that were most heavily impacted by arsenic emissions did not experience notable shifts in Cladocera assemblages. 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title	Regional changes in Cladocera lakes impacted by historic gold mining activities
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