Sentence examples for a weighing lysimeter from inspiring English sources

A weighing lysimeter located in the experimental field was used to automatically irrigate the orchard after 1.0 mm of measured crop water use.

Furthermore, for each sensor type the actual evapotranspiration is estimated using the soil water balance approach and compared with measurements from a weighing lysimeter.

To accomplish this task, we simulated actual evapotranspiration (ET), water content (WC) and discharge (D) from a weighing lysimeter for each of the conceptual models.

This paper presents a study for the development and implementation of an instrumentation system capable of accurately determining water balance during irrigation periods using a weighing lysimeter for potted crops.

Gas-phase transport experiments were conducted using a large weighing lysimeter to evaluate retention processes for volatile organic compounds (VOCs) in water-unsaturated (vadose-zone) systems, and to test the utility of gas-phase tracers for predicting VOC retardation.

A description is provided of an above-ground, weighing lysimeter that minimizes the edge flow of water which can occur between the soil and the wall of the casing.

In addition, the TSEB-A model output of evapotranspiration (ET) and the components evaporation (E), transpiration (T) when compared to ground observations using the stable isotopic method and eddy covariance (EC) technique from the HiWATER experiment and with microlysimeters and a large monolithic weighing lysimeter from the BEAREX08 experiment showed good agreement.

An autonomous weighing lysimeter system is explained in detail for quantifying water use for a wide range of species and plant sizes in greenhouse and outdoor environments.

Because of access restrictions to RMA, an off-site meso-scale (0.6 m diameter by 1.83 m in height) weighing lysimeter study was conducted using excavated soil (i.e., Ascalon sandy clay loam) associated with As contamination at RMA's South Plants Processing Area.

The six high precision weighing lysimeters (1.0 m2 surface, 1.5 m high; UMS Science-Lysimeter) had a resolution of 10 g (=0.01 mm).

High resolution weighing lysimeters were designed and constructed to generate an accuracy of ±0.0075 mm.