Spectroscopic approach toward unraveling the electrical signature of roots
Geoelectrical methods are increasingly used to investigate soil‐plant interactions in an
agricultural context. For this, it is essential to quantify root electrical properties, since they …
agricultural context. For this, it is essential to quantify root electrical properties, since they …
Sensing the electrical properties of roots: A review
Thorough knowledge of root system functioning is essential to understand the feedback
loops between plants, soil, and climate. In situ characterization of root systems is …
loops between plants, soil, and climate. In situ characterization of root systems is …
A new method for characterizing the complex electrical properties of root segments
The application of geophysical methods to root investigation is increasing in recent years
because of the limitations associated with the use of traditional methods (root excavation …
because of the limitations associated with the use of traditional methods (root excavation …
Imaging and functional characterization of crop root systems using spectroscopic electrical impedance measurements
Background and aims Non-or minimally invasive methods are urgently needed to
characterize and monitor crop root systems to foster progress in phenotyping and general …
characterize and monitor crop root systems to foster progress in phenotyping and general …
Electrical impedance spectroscopy and roots
T Repo, Y Cao, R Silvennoinen… - Measuring roots: an …, 2012 - Springer
This chapter reviews studies dealing with the characterization of the plant root system by the
electrical impedance method, ie, with resistance and capacitance at a single frequency or at …
electrical impedance method, ie, with resistance and capacitance at a single frequency or at …
Three‐channel electrical impedance spectroscopy for field‐scale root phenotyping
Electrical impedance spectroscopy has long been considered a promising technique for
noninvasive, in‐situ root investigation because of its sensitivity to anatomy and physiology …
noninvasive, in‐situ root investigation because of its sensitivity to anatomy and physiology …
Imaging of plant current pathways for non-invasive root Phenotyping using a newly developed electrical current source density approach
Aims The flow of electric current in the root-soil system relates to the pathways of water and
solutes, its characterization provides information on the root architecture and functioning. We …
solutes, its characterization provides information on the root architecture and functioning. We …
Geophysical imaging of tree root absorption and conduction zones under field conditions: a comparison of common geoelectrical methods
Aims Our objective was to identify the most accurate and simple non-destructive method for
visualising a tree's root system, based on the assumption that tree physiological processes …
visualising a tree's root system, based on the assumption that tree physiological processes …
[HTML][HTML] Potential of geoelectrical methods to monitor root zone processes and structure: A review
Understanding the processes that control mass and energy exchanges between soil, plants
and the atmosphere plays a critical role for understanding the root zone system, but it is also …
and the atmosphere plays a critical role for understanding the root zone system, but it is also …
Analysis of root growth by impedance spectroscopy (EIS)
H Ozier-Lafontaine, T Bajazet - Plant and Soil, 2005 - Springer
Electrical impedance spectroscopy (EIS) is investigated as a non-destructive method for
monitoring root growth of tomato. This paper aims to (i) review the basic principles of EIS …
monitoring root growth of tomato. This paper aims to (i) review the basic principles of EIS …