Themed collection Biogeochemistry of the Trace Elements

Guest editors Elsie Sunderland and Lenny Winkel introduce the Environmental Science: Processes & Impacts themed issue on biogeochemistry of the trace elements.

The distribution of trace elements (TEs) in the bituminous sands is dichotomous: V, Ni, Mo, Se and Re are found predominantly in the bitumen fraction, and all other TEs in the mineral fraction.

At mercury (Hg)-contaminated sites, streambank erosion can act as a main mobilizer of Hg into nearby waterbodies.

Extracellular polymeric substances (EPS) enhance the dissolution of bulk and nano-scale cinnabar (α-HgS), leading to the release of mercury species that are available for microbial methylmercury (MeHg) production.

Aluminum in schwertmannite structure increases the proportion of covalent bonding with adsorbed arsenates.

Biogeochemical cycling of S, Fe, and C in the hyporheic zone is influenced by dynamic hydrologic conditions.

We studied the extent and mode of thallium adsorption onto several phyllosilicate minerals. Thallium, in analogy to cesium, strongly adsorbs onto micaceous phyllosilicates in soils and sediments via complexation in siloxane cavities.

Porewater geochemistry in a lanthanum-remediated lake reveal that phosphorus mobility depends on the interplay between carbon and iron.

Australian anthropogenic emissions of mercury have decreased by a factor of two since 2000, with implications for atmospheric mercury concentrations and deposition to the Australian continent.

Methylmercury production rates in freshwater sediments significantly decreased with increasing arsenate concentrations, regardless of sulfate concentrations amended to the sediments.

Marine heatwave conditions diminished (micro)macronutrient vertical transport, reducing (micro)macronutrient inventories and net community production when external nutrient sources were absent.

We study the uptake of atmospheric mercury by vegetation in a chemical transport model and available observations. Due to the importance of this sink in the global mercury cycle, perturbations to forested areas can elevate mercury risks.

Halogens in soil are closely linked to abiotic processes, biota and pedogenesis, and thus to the availability of water; vertical halogen depth patterns become less pronounced with increasing dryness.

We link selenium concentrations in herring muscle and liver spanning four decades and twenty stations along the Swedish coastline to spatio-temporal variability in deposition and riverine source loads.

The low molecular weight fraction of peat porewater is enriched in DOC, anions, oxyanions, alkalis and some trace metals. An increase in the active layer depth can liberate a large amount of labile metals and nutrients from the peat.

The distribution and chemical speciation of micronutrient selenium is reported for the first time in twenty alpine lakes (Pyrenees, France–Spain).

A holistic multi-analyses (led by Hg stable isotope analysis), multi-media, multi-site approach to improving contaminated site Hg geochemistry, particularly process tracing.

Including concentration-dependent microbial activity may improve model description of mercury methylation and methylmercury demethylation kinetics.

We used a modeling approach to explore how toxicokinetics and food-web trophodynamics affect MeHg bioaccumulation in the Beaufort Sea shelf.