D. M. Crumbling, Using the Triad approach to improve the cost-effectiveness of hazardous waste site clean-ups, 2001.

G. Hall, A. Buchar, G. ;. Bonham-carter, R. Oyarzun, J. M. Iraizoz et al., Quality Control Assessment of Portable XRF Analysers: Development of Standard Operating Procedures, Performance on Variable Media and Recommended Uses. CAMIRO Exploration Division, Project 10E01 Phase I Report, 2012.

, Low-cost geochemical surveys for environmental studies in developing countries: Testing a field portable XRF instrument under quasi-realistic conditions, Journal of Geochemical Exploration, vol.113, pp.3-12

T. Houlahan, S. Ramsay, and D. Povey, Use of Field Portable X-Ray Fluorescence Spectrum Analyzers for Grade Control-A Presentation of Case Studies, 5th International Mine Geology Conference. Australasian Institute of Metallurgy, pp.377-385, 2003.

D. J. Kalnicky and R. Singhvi, Field portable XRF analysis of environmental samples, Journal of Hazardous Materials, vol.83, pp.93-122, 2001.
DOI : 10.1016/s0304-3894(00)00330-7

B. Lemiere, A review of pXRF (field portable X-ray fluorescence) applications for applied Geochemistry, Journal of Geochemical Exploration, vol.188, pp.350-363, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01740950

M. Ramsey and K. Boon, A (2012) Can in situ geochemical measurements be more fitfor-purpose than those made ex situ?, Applied Geochemistry, issue.5, pp.883-2927

, Geokemian Päivät, 28.-30, vol.11, 2018.

P. Sarala, Comparison of different portable XRF methods for determining till geochemistry. Geochemistry, Exploration, Environment, Analysis, vol.16, pp.181-192, 2016.

U. , Adaptive Sampling and Analysis Programs (ASAPs), 2001.