Using IoT technologies represents a novel combination of disciplines (plant ecophysiology and hydrology) to unravel the vulnerability of ecosystem to climatic stress. Taking advantage of IoT, a new device the Tree-Talker, is developed to measure simultaneously important individual tree scale ecophysiological parameters as well as some additional ecosystem-related variables. Key parameters are: (1) tree radial growth, as an indicator of photosynthetic carbon allocation in biomass; (2) sap flow, as an indicator of tree transpiration and functionality of xylem transport; (3) xylem moisture content as indicator of hydraulic functionality 4) light penetration in the canopy in terms of fractional absorbed radiation and 5) light spectral components related to foliage dieback and physiology, 6) tree stability parameters to allow real time forecast of potential tree fallings. Additional parameters such as soil temperatures and moisture and meteorological variables will be also monitored at high frequency to have comparable time scale between abiotic parameters and short term plant responses. In this research, by using of 100 Tree-Talkers, the changes in forest have been monitored in northern Italy. In every tree, particular emphasis is placed on the hourly, daily, monthly and seasonal sap flow, xylem moisture content and plant movement fluctuations under different meteorological and soil moisture conditions. Granier-type thermal dissipation probe and heat pulse velocity (Vh) family of methods (Heat Ratio Mehtod and Tmax) were considered to measure and compare sap flow on the main stem of trees. In addition, Relation between diurnal-nocturnal xylem moisture content and sap flow have been defined in different species in Alpine area. Moreover, the risk of windthrow and uprooting have been studied by recording trees oscillations data in xyz axis due to the gravity. A direct relationship between the sap flow and air temperature has been demonstrated for a number of species with different conditions in hourly scale. While, xylem moisture content and air relative humidity have an inverse relation to sap flow. Our results revealed that sap flow has a different correlation with vapour pressure deficit (VPD) base on natural logarithm function in different species which shows stomata behaviour in wet or dry conditions. In addition, although sap flow significantly correlated with air temperature, the highest sap flow occurs a few times before the maximum daily temperature. Since by closing the stomata, plant responses to high midday temperature stress to reduce water loss.

Asgharinia, S.; Valentini, R.; Gianelle, D. (2019). New technologies for forest monitoring in Alpine Region. In: XII Congresso Nazionale SISEF “La scienza utile per le foreste: ricerca e trasferimento”, Palermo, 12-15 novembre 2019. url: https://congressi.sisef.org/xii-congresso/?id=poster handle: http://hdl.handle.net/10449/58911

New technologies for forest monitoring in Alpine Region

Gianelle, D.
Ultimo
2019-01-01

Abstract

Using IoT technologies represents a novel combination of disciplines (plant ecophysiology and hydrology) to unravel the vulnerability of ecosystem to climatic stress. Taking advantage of IoT, a new device the Tree-Talker, is developed to measure simultaneously important individual tree scale ecophysiological parameters as well as some additional ecosystem-related variables. Key parameters are: (1) tree radial growth, as an indicator of photosynthetic carbon allocation in biomass; (2) sap flow, as an indicator of tree transpiration and functionality of xylem transport; (3) xylem moisture content as indicator of hydraulic functionality 4) light penetration in the canopy in terms of fractional absorbed radiation and 5) light spectral components related to foliage dieback and physiology, 6) tree stability parameters to allow real time forecast of potential tree fallings. Additional parameters such as soil temperatures and moisture and meteorological variables will be also monitored at high frequency to have comparable time scale between abiotic parameters and short term plant responses. In this research, by using of 100 Tree-Talkers, the changes in forest have been monitored in northern Italy. In every tree, particular emphasis is placed on the hourly, daily, monthly and seasonal sap flow, xylem moisture content and plant movement fluctuations under different meteorological and soil moisture conditions. Granier-type thermal dissipation probe and heat pulse velocity (Vh) family of methods (Heat Ratio Mehtod and Tmax) were considered to measure and compare sap flow on the main stem of trees. In addition, Relation between diurnal-nocturnal xylem moisture content and sap flow have been defined in different species in Alpine area. Moreover, the risk of windthrow and uprooting have been studied by recording trees oscillations data in xyz axis due to the gravity. A direct relationship between the sap flow and air temperature has been demonstrated for a number of species with different conditions in hourly scale. While, xylem moisture content and air relative humidity have an inverse relation to sap flow. Our results revealed that sap flow has a different correlation with vapour pressure deficit (VPD) base on natural logarithm function in different species which shows stomata behaviour in wet or dry conditions. In addition, although sap flow significantly correlated with air temperature, the highest sap flow occurs a few times before the maximum daily temperature. Since by closing the stomata, plant responses to high midday temperature stress to reduce water loss.
Tree ecophysiology
Internet of things - IoT
Sap flow
Tree oscillation
Xylem moisture content
Stomata
2019
Asgharinia, S.; Valentini, R.; Gianelle, D. (2019). New technologies for forest monitoring in Alpine Region. In: XII Congresso Nazionale SISEF “La scienza utile per le foreste: ricerca e trasferimento”, Palermo, 12-15 novembre 2019. url: https://congressi.sisef.org/xii-congresso/?id=poster handle: http://hdl.handle.net/10449/58911
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