Use of nuclear techniques in soil science: A literature review of the Brazilian contribution

This review presents the basic research and some applications of the gamma-ray attenuation, neutron gauges, and Cs-137 fallout techniques for studying soil physical processes and properties. The selected studies aimed to give the readers a general idea of the use of these nuclear techniques carried out by Brazilian researchers in the past decades. It is expected to assist future researchers by identifying knowledge gaps and opportunities for applying the methods presented here. Around 100 studies were selected for this review. The papers dealing with gamma-ray attenuation are mostly related to the analysis of soil radiation interactions, the measurement of basic soil physical properties, the evaluation of hydraulic conductivity, water retention curve, and soil mechanical analysis. Neutron gauge applications are related to monitoring the water distribution and balance at the field scale, procedures for calibrating the existing gauge for the Brazilian soils, and analyzing the spatial and temporal variability of the soil water content. The Cs-137 methodology involves studies about the erosion and sediment deposition in small watersheds and riparian zones, the spatial variability of Cs-1(37) inventories at reference sites, and the measurement of sediment spatial distributions. Future studies with the gamma-ray attenuation methodology should focus on a better comprehension of the photon interaction with the soil and a correct selection of photon energies to investigate contrasting soils. This is mandatory for adopting it as a reliable tool for soil characterization. This review also revealed that the challenges for the future use of the Cs-137 fallout technique involve the continuous decrease of the Cs-137 activity worldwide, including in Brazil. Advances in detection systems (gamma spectrometers) will be required to overcome this issue. Future studies should focus on the use of correction factors related to the enrichment of fine particles during the transport of sediments to improve the estimates obtained through the conversion models. The use of neutron gauges to detect soil water content at the field scale depends on the adoption of reliable calibration curves. Then, comprehending how soil properties alter this curve and how it affects the water balance is a study of great interest. Motivated by strict regulations on the use of radioactive materials, the adoption of gauges with less activity is becoming a new goal. Thus, the development of more effective systems of neutron detection is crucial.

Automated summary

This review highlights the basic research and applications of gamma-ray attenuation, neutron gauges, and Cs-137 fallout techniques for studying soil physical processes and properties, as carried out by Brazilian researchers in past decades. Future studies should focus on improving understanding of photon interaction with soil, selecting appropriate photon energies for investigating different soils, and developing more effective neutron detection systems. Challenges for the future use of Cs-137 fallout technique include the worldwide decrease in Cs-137 activity and the need for advanced detection systems to overcome this issue.