Wiki User
∙ 13y agoWiki User
∙ 13y agoClayey soil will allow less water to pass through compared to sandy soil because it has smaller particles and is more compact. This results in higher water retention in clayey soil and slower water infiltration compared to sandy soil.
Sandy soil will allow more water to percolate compared to clayey soil. This is because sandy soil has larger particle sizes with more space between them, allowing water to flow through more easily. Clayey soil has smaller particle sizes with less space between them, leading to slower water percolation.
Clayey soil will absorb more water than sandy soil. This is because clayey soil has smaller particles with more surface area, allowing it to retain water more effectively than sandy soil, which has larger particles with less surface area.
Sandy soil is generally more susceptible to erosion than clayey soil. This is because sandy soil has larger particles and less cohesion between them, making it easier for water to wash away the soil particles. Clayey soil, with smaller particles that stick together more, is more resistant to erosion.
Clayey soil has smaller particle size and higher surface area, allowing it to hold more water through capillary action compared to sandy soil. The smaller gaps between clay particles also slow down water drainage, leading to more water being retained in clayey soil.
Sandy soil will allow more water to percolate because it has larger pore spaces between particles, allowing water to move more easily through the soil. Clayey soil has smaller pore spaces, which restricts water flow and makes it more prone to waterlogging.
Sandy soil will allow more water to percolate compared to clayey soil. This is because sandy soil has larger particle sizes with more space between them, allowing water to flow through more easily. Clayey soil has smaller particle sizes with less space between them, leading to slower water percolation.
Clayey soil will absorb more water than sandy soil. This is because clayey soil has smaller particles with more surface area, allowing it to retain water more effectively than sandy soil, which has larger particles with less surface area.
Sandy soil is generally more susceptible to erosion than clayey soil. This is because sandy soil has larger particles and less cohesion between them, making it easier for water to wash away the soil particles. Clayey soil, with smaller particles that stick together more, is more resistant to erosion.
Clayey soil has smaller particle size and higher surface area, allowing it to hold more water through capillary action compared to sandy soil. The smaller gaps between clay particles also slow down water drainage, leading to more water being retained in clayey soil.
Sandy soil will allow more water to percolate because it has larger pore spaces between particles, allowing water to move more easily through the soil. Clayey soil has smaller pore spaces, which restricts water flow and makes it more prone to waterlogging.
Sandy soils have larger particles with more space between them, allowing water to drain quickly and making them drier. In contrast, clayey soils have smaller particles which hold onto water more effectively, resulting in higher moisture content and less drainage, making them wetter.
Sandy clay contains mostly clay particles with some sand mixed in, making it stickier and more cohesive than clayey sand. Clayey sand, on the other hand, has higher sand content with some clay particles, making it more gritty and less cohesive than sandy clay.
Sandy soil has larger particles and drains water quickly, which leads to faster evaporation and less water retention for the crops. Clayey soil has smaller particles and retains water better, requiring less frequent irrigation for crops to access water.
Sandy soils are generally less fertile than clay soils because they do not hold water as well as clay soils. Clay soils are usually fertile and hold more nutrients than sandy soils.
Soil type can affect surface water runoff by influencing the rate of infiltration. Sandy soils allow water to infiltrate quickly, reducing runoff, while clayey soils can cause water to runoff more quickly due to lower infiltration rates. Compacted soils also increase runoff by limiting water penetration into the soil.
Sandy soils are generally less fertile than clay soils because they do not hold water as well as clay soils. Clay soils are usually fertile and hold more nutrients than sandy soils.
I would say Sandy soil because the little pieces of sand can fill in the empty spaces that the bigger pieces of sand can't fill. Hope that helps.