EPISODE · May 6, 2021 · 56 MIN
53 Tangriani Simioni Assmann, PhD
from The Meet Your Herdmates Sodcast · host Sodfather
Tangriani holds a doctorate in Agronomy at the Federal University of Paraná and INRAe -FR – Clermont-Ferrand. Her thesis was on nitrogen cycling in integrated crop-livestock systems. In 2015 she served as a visiting scientist in the Soil Management and Ecology team led by Dr. Alan Franzllubers at North Carolina State University. She is a full professor in the Department of Agronomy at the Federal University of Technology – Paraná – Pato Branco. She teaches “Soil Fertility”(undergraduate) and “Nutrient Cycling” (graduate). Her research focuses on system-level fertilization, a concept that relies on biological nutrient cycling between rotation phases to achieve nutrient use efficiency, thereby reducing mineral nutrient inputs, avoiding losses, and maintaining long-term soil fertility. This approach contrasts with the more typical paradigm of fertilization of individual cash crops within a rotation, where the residual effect of fertilizers is considered minimal and is typically ignored. System-level fertilization considers all crops (pastures and cash crops) in the fertilization scheme with rotational carryover (i.e. either directly from inorganic forms or indirectly through organic N mineralization) as key components.
What this episode covers
Tangriani holds a doctorate in Agronomy at the Federal University of Paraná and INRAe -FR – Clermont-Ferrand. Her thesis was on nitrogen cycling in integrated crop-livestock systems. In 2015 she served as a visiting scientist in the Soil Management and Ecology team led by Dr. Alan Franzllubers at North Carolina State University. She is a full professor in the Department of Agronomy at the Federal University of Technology – Paraná – Pato Branco. She teaches “Soil Fertility”(undergraduate) and “Nutrient Cycling” (graduate). Her research focuses on system-level fertilization, a concept that relies on biological nutrient cycling between rotation phases to achieve nutrient use efficiency, thereby reducing mineral nutrient inputs, avoiding losses, and maintaining long-term soil fertility. This approach contrasts with the more typical paradigm of fertilization of individual cash crops within a rotation, where the residual effect of fertilizers is considered minimal and is typically ignored. System-level fertilization considers all crops (pastures and cash crops) in the fertilization scheme with rotational carryover (i.e. either directly from inorganic forms or indirectly through organic N mineralization) as key components.
NOW PLAYING
53 Tangriani Simioni Assmann, PhD
No transcript for this episode yet
Similar Episodes
Mar 26, 2026 ·1m
Mar 19, 2026 ·34m
Feb 18, 2026 ·11m
Feb 11, 2026 ·45m