Matzen, S. L., G. Lobo, S. Fakra, A. Kakouridis, P. S. Nico, C. E. Pallud. 2021. Arsenic hyperaccumulator Pteris vittata shows reduced biomass in soils with high arsenic and low nutrient availability, leading to increased arsenic leaching from soil. Science of the Total Environment (in press).
Matzen, S. L., J. E. Arnold, R. Bennaton, C. E. Pallud. 2021. Safer soils: A step-by-step guide to soil sampling for urban food growers. UC Agriculture and Natural Resources (in press).
Matzen, S. L., S. Fakra, P. S. Nico, C. E. Pallud. 2020. Pteris vittata arsenic accumulation only partially explains soil arsenic depletion during field-scale phytoextraction. Soil Systems 4: 1-20.
Matzen, S. L., J. M. Beiriger, P. C. Torretto, P. Zhao, B. E. Viani. 2000. Uranium(VI) and neptunium(V) transport through fractured, hydrothermally altered concrete. Radiochimica Acta 88: 657-664.
Matzen, S. L., J. E. Arnold, R. Bennaton, C. E. Pallud. 2021. Safer soils: A step-by-step guide to soil sampling for urban food growers. UC Agriculture and Natural Resources (in press).
Matzen, S. L., S. Fakra, P. S. Nico, C. E. Pallud. 2020. Pteris vittata arsenic accumulation only partially explains soil arsenic depletion during field-scale phytoextraction. Soil Systems 4: 1-20.
Matzen, S. L., J. M. Beiriger, P. C. Torretto, P. Zhao, B. E. Viani. 2000. Uranium(VI) and neptunium(V) transport through fractured, hydrothermally altered concrete. Radiochimica Acta 88: 657-664.
