Energy balance
; Plants (botany)
; Temperature
; Thermal gradients
; Water vapor
; Controlled conditions
; Energy balance components
; Energy balance models
; Energy exchange rate
; Experimental set up
; Hydrological cycles
; Simultaneous observation
; Transpiration rates
; Transpiration
; energy balance
; energy flow
; experimental design
; hydrological cycle
; latent heat flux
; leaf
; sensible heat flux
; temperature gradient
; transpiration
; water vapor
英文摘要:
Leaf transpiration and energy exchange are coupled processes that operate at small scales yet exert a significant influence on the terrestrial hydrological cycle and climate. Surprisingly, experimental capabilities required to quantify the energy-Transpiration coupling at the leaf scale are lacking, challenging our ability to test basic questions of importance for resolving large-scale processes. The present study describes an experimental set-up for the simultaneous observation of transpiration rates and all leaf energy balance components under controlled conditions, using an insulated closed loop miniature wind tunnel and artificial leaves with pre-defined and constant diffusive conductance for water vapour. A range of tests documents the above capabilities of the experimental set-up and points to potential improvements. The tests reveal a conceptual flaw in the assumption that leaf temperature can be characterized by a single value, suggesting that even for thin, planar leaves, a temperature gradient between the irradiated and shaded or transpiring and non-Transpiring leaf side can lead to bias when using observed leaf temperatures and fluxes to deduce effective conductances to sensible heat or water vapour transfer. However, comparison of experimental results with an explicit leaf energy balance model revealed only minor effects on simulated leaf energy exchange rates by the neglect of cross-sectional leaf temperature gradients, lending experimental support to our current understanding of leaf gas and energy exchange processes.
Department of Environmental Systems Science, ETH Zurich, Zurich, Switzerland
Recommended Citation:
Schymanski S,J,, Breitenstein D,et al. Technical note: An experimental set-up to measure latent and sensible heat fluxes from (artificial) plant leaves[J]. Hydrology and Earth System Sciences,2017-01-01,21(7)