Heat balance sap flow gauge for small diameter stems

Applying heat balance sap flow gauges to plant stems <10 mm in diameter has been difficult because a miniature design is needed that can be attached to a range of stem geometries. This report presents a modified gauge design for use on small plant stems of irregular geometry and shows results from Glycine max with stem diameters of 3–4 mm. The gauge was evaluated on container-grown plants by comparing gauge measurements of flow to gravimetric estimates of transpiration. Experiments were conducted in the laboratory and greenhouse, using artificial and natural lighting, respectively. Laboratory comparisons of gauge versus gravimetric water loss measurements indicated that the instrument was accurate to within ±5% when soil water was not limiting. Similar results were obtained from greenhouse tests except when soil water availability was low and cumulative gauge estimates became 30–45% less than gravimetric measurements. Differences may have reflected reduced plant water uptake or errors in sap flow estimates associated with low flow rates. Gauge accuracy was not improved by including the rate change in heat storage (S) in the flow calculations because S was always less then 3% of the total heat balance. Relationships between system temperature and sap flow rate suggested a diagnostic test for determining optimum power input. A time constant of 15 s indicated potential application in many agronomic and physiological studies.