Design and implementation of a low-cost device for measuring sap flow in woody species

Design and implementation of a low-cost device for measuring sap flow in woody species

Transpiration is a key variable in water balance. Sap flow measurement methods allow to estimate transpiration at plant level, but scalable at the stand, river basin or ecosystem level. This requires recording data continuously, for which there are commercial devices, but they are specialized and ex...

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Bibliographic Details
Main Authors: María Fernanda Cárdenas, Cristina López Ramírez, Juan Diego Mejía, Jhon Fredy Escobar
Format: Article
Language:English
Published: Universidad Nacional de Colombia 2019-01-01
Series:Dyna
Subjects:
plant transpiration
alternatives for CR1000
datalogger
Arduino
heat pulse method
importation substitution
Online Access:https://revistas.unal.edu.co/index.php/dyna/article/view/72039
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spelling doaj-9ee649154ead4d2aa9f73dd23770a1902020-11-25T00:04:23ZengUniversidad Nacional de Colombia Dyna0012-73532346-21832019-01-018620821422010.15446/dyna.v86n208.7203950471Design and implementation of a low-cost device for measuring sap flow in woody speciesMaría Fernanda Cárdenas0Cristina López Ramírez1Juan Diego Mejía2Jhon Fredy Escobar3Universidad Nacional de ColombiaUniversidad de AntioquiaSennova - SENAUniversidad Pontificia BolivarianaTranspiration is a key variable in water balance. Sap flow measurement methods allow to estimate transpiration at plant level, but scalable at the stand, river basin or ecosystem level. This requires recording data continuously, for which there are commercial devices, but they are specialized and expensive. This document shows that it is possible to integrate a data capture, management and storage system, as a counterpart to a commercial system such as Campbell's CR-100, for measuring and recording environmental variables, with a notable reduction in costs. The methodology used to develop a device for the estimation of sap flow using the heat ratio method, the design of the Arduino-based  electronic circuit and the software, with register 13-64-171 of the Dirección Nacional de Derechos de Autor, is presented.https://revistas.unal.edu.co/index.php/dyna/article/view/72039plant transpirationalternatives for CR1000dataloggerArduinoheat pulse methodimportation substitution
collection DOAJ
language English
format Article
sources DOAJ
author María Fernanda Cárdenas
Cristina López Ramírez
Juan Diego Mejía
Jhon Fredy Escobar
spellingShingle María Fernanda Cárdenas
Cristina López Ramírez
Juan Diego Mejía
Jhon Fredy Escobar
Design and implementation of a low-cost device for measuring sap flow in woody species
Dyna
plant transpiration
alternatives for CR1000
datalogger
Arduino
heat pulse method
importation substitution
author_facet María Fernanda Cárdenas
Cristina López Ramírez
Juan Diego Mejía
Jhon Fredy Escobar
author_sort María Fernanda Cárdenas
title Design and implementation of a low-cost device for measuring sap flow in woody species
title_short Design and implementation of a low-cost device for measuring sap flow in woody species
title_full Design and implementation of a low-cost device for measuring sap flow in woody species
title_fullStr Design and implementation of a low-cost device for measuring sap flow in woody species
title_full_unstemmed Design and implementation of a low-cost device for measuring sap flow in woody species
title_sort design and implementation of a low-cost device for measuring sap flow in woody species
publisher Universidad Nacional de Colombia
series Dyna
issn 0012-7353
2346-2183
publishDate 2019-01-01
description Transpiration is a key variable in water balance. Sap flow measurement methods allow to estimate transpiration at plant level, but scalable at the stand, river basin or ecosystem level. This requires recording data continuously, for which there are commercial devices, but they are specialized and expensive. This document shows that it is possible to integrate a data capture, management and storage system, as a counterpart to a commercial system such as Campbell's CR-100, for measuring and recording environmental variables, with a notable reduction in costs. The methodology used to develop a device for the estimation of sap flow using the heat ratio method, the design of the Arduino-based  electronic circuit and the software, with register 13-64-171 of the Dirección Nacional de Derechos de Autor, is presented.
topic plant transpiration
alternatives for CR1000
datalogger
Arduino
heat pulse method
importation substitution
url https://revistas.unal.edu.co/index.php/dyna/article/view/72039
work_keys_str_mv AT mariafernandacardenas designandimplementationofalowcostdeviceformeasuringsapflowinwoodyspecies
AT cristinalopezramirez designandimplementationofalowcostdeviceformeasuringsapflowinwoodyspecies
AT juandiegomejia designandimplementationofalowcostdeviceformeasuringsapflowinwoodyspecies
AT jhonfredyescobar designandimplementationofalowcostdeviceformeasuringsapflowinwoodyspecies
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