As compared to the Asian lowlands, environmental exposure to arsenic (As) in West Africa has received little attention. Recent studies have found geogenic As contamination of groundwater in many regions in Burkina Faso. As-contaminated groundwater is used for drinking and increasingly also for the irrigation of staple foods. This study assesses the extent to which irrigation and cooking of staple foods in Burkina Faso influence plant uptake and dietary consumption of As, respectively. Using a greenhouse experimental setup, we evaluated the transfer of As from irrigation water spiked with 0, 100, 500, and 1,000 μg/L As(V) to the organs and edible parts of seven commonly consumed vegetables (amaranth, carrot, green bean, lettuce, okra, spinach, and tomato). Next, we cooked the greenhouse-cultivated vegetables and externally purchased foods with As-free and As-spiked waters. The As content in all plant organs increased with increasing As in the irrigation water. With 500 μg/L, the concentrations of As in the edible parts (ordered from highest to lowest) were as follows: spinach (6.6 ± 0.5μg/g); lettuce (3.9 ± 0.1μg/g); carrot (3.5 ± <0.1μg/g); amaranth (2.2 ± <0.1μg/g); okra (0.9 ± <0.1μg/g); green bean (0.8 ± <0.1μg/g); and tomato (0.2 ± <0.1μg/g). The edible parts of leafy vegetables irrigated with As-spiked water had a higher average As content (4.9 ± 4.5μg/g) than root (2.9 ± 2.0μg/g) and fruit/pod vegetables (0.8 ± 1.1μg/g). Cooking with an excess volume of As-free water reduced the As content in the cooked vegetables by 39% on average, while cooking with As-contaminated water transferred As to the cooked food. The As content in steamed foods was 8 to 18 times lower than in boiled foods. Based on human health risk estimates, we recommend planting leafy vegetables in areas with low concentrations of As in irrigation water and we propose the maximum As concentrations of 100 μg/L for the cultivation of carrot, and 500 μg/L for green bean, spinach, lettuce, and amaranth. In As-contaminated areas, mitigation strategies include the cultivation of fruit vegetables such as tomato and okra and steaming the food instead of boiling.

Lithium sorption information from experiments. Data includes the effects of pH, temperature and brine chemistry on the sorption of Lithium from a simulated geothermal brine. The sorbent used in the experiments is "hydrothermally produced, Spinel-LiMn2O4". The sorbent was produced by Carus Corporation.

Measurements of water sulfate concentrations at the beginning and end of the exposures of the animals, initial δ(34S/32S) ratios in the animals at the beginning and end of the exposures, and initial δ(34S/32S) ratios of the exposure water. This dataset is associated with the following publication: Griffith, M., J. Lazorchak, and H. Haring. Uptake of Sulfate from Ambient Water by Freshwater Animals. WATER. MDPI AG, Basel, SWITZERLAND, 12(5): 1496, (2020).