Bulk leach extractable gold

"BLEG" redirects here. For the blogging term, see List of blogging terms § B.

Bulk Leach Extractable Gold, more commonly shortened to BLEG is a geochemical sampling/analysis tool used during exploration for gold. It was developed in the early 1980s to address concerns relating to the accurately measuring fine grained gold, and dealing with problems associated with sample heterogeneity.

Analysis

A large quantity of sample (between 2 and 5 kg) is digested or leached with cold sodium cyanide (NaCN) solution (generally 0.1% NaCN), for one to several days (depending on the assay laboratory involved). The gold is dissolved through its formation of a cyanide complex, which is concentrated through the solvent exchange process into an organic solvent and subsequently analyzed. The use of large sample weights and solvent extraction enables low detection limits, as low as 0.1 ppb. The digest is analyzed for Au (0.01 ppb), Cu (0.01 ppm), Ag (0.5 ppb), and depending on situations, for other elements. However, gold values in BLEG are lower than total assays such as those of fire assays, as it analyzes only the fine grained gold fraction and largely ignores coarser and nuggety gold.

If the need arises, a separate split of the original sample is used for pathfinder elements.

Sampling Considerations

BLEG requires the collection of large samples, generally greater than 2 kg. It is necessary to collect fine sized material – silt to clay - where the fine flakes of gold will reside. Given their shape, these fine flakes of gold don’t act hydro-dynamically like heavy minerals, and will not settle in the same locations in a stream bed. Where possible, attempts should be made to sample flash flood sites (where finer material concentrates) – overbank deposits.

BLEG vs Sieving

BLEG is essentially a chemical sieve, designed to focus on the fine grained gold fraction. While many exploration geologists attest to the value of BLEG, some question its value compared to analyzing a simple sieved-out fine grained fraction. BLEG has been tried and tested over 20 years, applied successfully in different climatic settings, provides robust, excellent repeatability of results and has had an important role in discovery of massive Au deposits. However, some comparisons show that fine-grained sieved samples (<75 μm) show comparable results to BLEG, making the more complex process potentially unnecessary. With the exception of BLEGs applicability over a wider range of climatic conditions, the superiority of one method over the other is, at this point, still largely determined by personal preference.

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