Litcius/Paper detail

High precision zero-friction magnetic dendrometer

Cameron Clonch, Mark Huynh, Bryson Goto, A. D. Levin, J. S. Selker, Chet Udell

2021HardwareX11 citationsDOIOpen Access PDF

Abstract

Increasing agricultural demand for freshwater in the face of a changing climate requires improved irrigation management to maximize resource efficiency. Soil water deficits can significantly reduce plant growth and development, directly impacting crop quantity and quality. Dendrometers are a plant-based tool that have shown potential to improve irrigation management in high-value woody perennial crops (e.g., trees and vines). A dendrometer continuously measures small fluctuations in stem diameter; this has been directly correlated to water stress measurements using traditional methods. While plant-based measures of water deficits are considered to be the best measures of water stress, current dendrometer methods are imprecise due to mechanical hysteresis and thermal expansion. The high-precision dendrometer created at the OPEnS Lab alleviates these key failure points using zero-thermal expansion carbon fiber, zero friction via a spring tensioning approach, and a linear magnetic encoder. In-lab tests and field deployments have validated device measurements and the execution of these pivotal qualities. Mass deployment of these automated dendrometers has the potential to provide a continuous record of water stress, providing valuable decision support for irrigation management.

Topics & Concepts

Environmental scienceIrrigationAgricultural engineeringAgronomyEngineeringBiologyPlant Water Relations and Carbon DynamicsTree Root and Stability StudiesPlant Surface Properties and Treatments