As the temperature of soil decreases from 10 degree celcius, what will most likely happen to the infiltration rate of water through it?
please help i have no idea about it. thank you.
the increased infiltration rates, so the most likely cause ... retention basins to decrease the infiltration rate
thanks but i m sorry i forgot and didn't type the whole question....the question is:
As the temperature of soil decreases from 10 degree celcius to -5 degree celcius, what will most likely happen to the infiltration rate of water through it?
At -5 degree Celsius the water is frozen.
It will absorb the water.
?? confuse what ur asking for?
thanks to both....
To determine the likely effect of decreasing temperature on the infiltration rate of water through soil, we need to consider some factors related to soil properties and water behavior.
The relationship between temperature and infiltration rate is influenced by the physical properties of soil, such as porosity, soil texture, and soil structure. When temperature decreases, the following general effects on soil and water occur:
1. Water Density: As temperature decreases, the density of water increases. Water becomes denser and slightly contracts, causing it to permeate soil particles more slowly.
2. Soil Permeability: Soil permeability is influenced by temperature due to changes in water viscosity. As temperature decreases, water viscosity increases, making it more difficult for water to flow through the soil pores.
Based on these factors, a decrease in temperature would generally lead to a decrease in the infiltration rate of water through soil. Lower temperatures are likely to result in denser water and higher water viscosity, making it more challenging for water to infiltrate through the soil particles and pores.
However, it's important to note that the specific response of soil to decreasing temperature can vary depending on factors such as soil composition, moisture content, and the presence of organic matter. Different soil types may exhibit unique behaviors in response to temperature changes.
To get more accurate predictions, experimental data or laboratory tests on the specific soil type in question would be needed.