Use of biogenic and abiotic elemental selenium nanospheres to sequester elemental mercury released from mercury contaminated museum specimens

Abstract

Mercuric chloride solutions have historically been used as pesticides to prevent bacterial, fungal and insect degradation of herbarium specimens. The University of Manchester museum herbarium contains over a million specimens from numerous collections, many preserved using HgCl 2 and its transformation to H g v 0 represents a health risk to herbarium staff. Elevated mercury concentrations in work areas (∼1.7 μg m −3) are below advised safe levels (<25 μg m −3) but up to 90 μg m −3 mercury vapour was measured in specimen boxes, representing a risk when accessing the samples. Mercury vapour release correlated strongly with temperature. Mercury salts were observed on botanical specimens at concentrations up to 2.85 wt% (bulk); XPS, SEM–EDS and XANES suggest the presence of residual HgCl 2 as well as cubic HgS and HgO. Bacterially derived, amorphous nanospheres of elemental selenium effectively sequestered the mercury vapour in the specimen boxes (up to 19 wt%), and analysis demonstrated that the H g v 0 was oxidised by the selenium to form stable HgSe on the surface of the nanospheres. Biogenic Se 0 can be used to reduce H g v 0 in long term, slow release environments.