L. Cavazza scite author profile

L. Cavazza

4Publications

59Citation Statements Received

0Citation Statements Given

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Affiliations

University of Bologna, University of Bari Aldo Moro, Utah State University

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The Movement of Soil Moisture in Response to Temperature Gradients

Taylor¹,

Cavazza

1954

Soil Science Soc of Amer J

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Using an air gap technique, it has been shown that the flow of moisture in the soil from warm to cool regions might occur largely in the vapor phase. This is accompanied by a return flow of liquid water in response to an induced flow potential gradient. The use of wire screens to make air gaps interferes with this process. The measured diffusion coefficient for vapor flow was higher than had been expected from diffusion data, but was substantially in agreement with that of other workers. The reasons for this high diffusion coefficient might be that the diffusion of moisture and heat is coupled in soils; the phenomena of surface migration and molecular hopping of adsorbed water might also cause this increase. The factors having greatest effect on the moisture distribution in continuous soil columns in a closed system are: (1) the diffusion and the convection of vapor or some related processes; (2) the evaporation and condensation occurring in the two end regions of the cylinders; (3) the hydraulic conductivity of the soil. The thickness of the air gap in broken columns influences the amount of water that will be transferred in the vapor phase and must be considered whenever an air gap is used to prevent fluid flow. The existence of two distinct drying and wetting moisture characteristic curves has been verified, and they play an important part in determining the liquid flow of moisture in the soil. The influence of this factor as well as the reason for the large vapor transfer need further study in relation to the transfer of soil moisture.

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Field capacity in soils with a yearly oscillating water table

Cavazza

Patruno

Cirillo

2007

Biosystems Engineering

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Effect of watertable depth and waterlogging on crop yield

Cavazza

Pisa

1988

Agricultural Water Management

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Effect of yearly oscillating water table on soil moisture retention curves

Cavazza

Patruno

Cirillo

2007

Biosystems Engineering

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L. Cavazza

The Movement of Soil Moisture in Response to Temperature Gradients

Field capacity in soils with a yearly oscillating water table

Effect of watertable depth and waterlogging on crop yield

Effect of yearly oscillating water table on soil moisture retention curves

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