Seawater-induced mobilization of trace metals from mackinawite-rich estuarine sediments
Wong, VNL; Johnston, SG; Burton, ED; Bush, RT; Sullivan, LA; Slavich, PG
HERO ID
2009473
Reference Type
Journal Article
Year
2013
Language
English
PMID
| HERO ID | 2009473 |
|---|---|
| In Press | No |
| Year | 2013 |
| Title | Seawater-induced mobilization of trace metals from mackinawite-rich estuarine sediments |
| Authors | Wong, VNL; Johnston, SG; Burton, ED; Bush, RT; Sullivan, LA; Slavich, PG |
| Journal | Water Research |
| Volume | 47 |
| Issue | 2 |
| Page Numbers | 821-832 |
| Abstract | Benthic sediments in coastal acid sulfate soil (CASS) drains can contain high concentrations (similar to 1-5%) of acid volatile sulfide (AVS) as nano-particulate mackinawite. These sediments can sequester substantial quantities of trace metals. Because of their low elevation and the connectivity of drains to estuarine channels, these benthic sediments are vulnerable to rapid increases in ionic strength from seawater incursion by floodgate opening, floodgate failure, storm surge and seasonal migration of the estuarine salt wedge. This study examines the effect of increasing seawater concentration on trace metal mobilization from mackinawite-rich drain sediments (210-550 mu mol g(-1) AVS) collected along an estuarine salinity gradient. Linear combination fitting of S K-edge XANES indicated mackinawite comprised 88-96% of sediment-bound S. Anoxic sediment suspensions were conducted with seawater concentrations ranging from 0% to 100%. We found that mobilization of some metals increased markedly with increasing ionic strength (Cu, Fe, Mn, Ni) whereas Al mobilization decreased. The largest proportion of metals mobilized from the labile metal pool, operationally defined as Sigma exchangeable + acid-extractable + organically-bound metals, occurred in sediments from relatively fresh upstream sites (up to 39% mobilized) compared to sediments sourced from brackish downstream sites (0-11% mobilized). The extent of relative trace metal desorption generally followed the sequence Mn > Ni approximate to Cu > Zn > Fe > Al. Trace metal mobilization from these mackinawite-rich sediments was attributed primarily to desorption of weakly-bound metals via competitive exchange with marine-derived cations and enhanced complexation with Cl- and dissolved organic ligands. These results have important implications for trace metal mobilization from these sediments at near-neutral pH under current predicted sea-level rise and climate change scenarios. (c) 2012 Elsevier Ltd. All rights reserved. |
| Doi | 10.1016/j.watres.2012.11.009 |
| Pmid | 23199454 |
| Wosid | WOS:000315072600034 |
| Is Certified Translation | No |
| Dupe Override | No |
| Is Public | Yes |
| Language Text | English |
| Keyword | Trace metals; mobilization; AVS; anoxic sediments; sea-level rise |