Explain Soil
Gullies are more likely to form in a field with plowed soil and no plants because the bare soil is more prone to erosion by water runoff. Thick grass in a field helps to reduce water runoff, prevent soil erosion, and stabilize the ground, making it less likely for gullies to form.
Gullies would be more likely to form in a field with plowed soil and no plants because the soil is more exposed and vulnerable to erosion from water flow. In contrast, a field covered with thick grass can help reduce erosion by holding the soil in place with its roots and providing protection from rainwater runoff.
Gullies would likely form more easily in a field with plowed soil and no plants because there are no roots to hold the soil in place. The loose soil is more prone to erosion by water, leading to gully formation. In contrast, a field covered with thick grass would be more resistant to erosion due to the roots binding the soil together and reducing the impact of water flow.
Continuous plantation of crops in a field can lead to soil degradation through nutrient depletion, loss of soil structure, and increased susceptibility to erosion. This can result in decreased soil fertility, decreased crop yields, and loss of biodiversity in the soil ecosystem. Proper soil management practices such as crop rotation, cover cropping, and adding organic matter can help mitigate these effects and maintain soil health.
Gullies are more likely to form in a plowed field with no plants because the loose soil is more easily eroded by water runoff. In a field covered with thick grass, the roots help to stabilize the soil and prevent erosion, making it less likely for gullies to form.
Crop rotation is a method that can help soil recover from overuse. By alternating crops in a field, different plants can replenish nutrients in the soil, prevent soil erosion, and control pests and diseases, leading to healthier soil for future plant growth.
Medieval farmers let a field fallow to allow the soil to replenish its nutrients naturally. By leaving the field uncultivated for a season, it helps prevent soil exhaustion and improves crop yields in the future. This practice also helps control weeds and pests.
The practice of leaving the field uncultivated is called fallowing. Fallowing helps improve soil quality, conserve moisture, and control weeds.
The soil in the forest is shaded by the trees. The soil in the field gets direct sun.
Avoiding overcrowding: Limiting the size of a field helps prevent overcrowding, which can lead to reduced efficiency and accessibility for workers or equipment. Maintaining soil health: Larger fields can be more challenging to manage in terms of soil health, irrigation, and pest control. Limiting field size can help prevent soil degradation and promote sustainable agricultural practices.
it is the deepest soil found and is below horizon a and b
The in-situ density of the soil is required to control the results of field compaction in earth embankments, Road fill and structural back filling. So, measuring the soil density is essential before building any construction. Three methods are used to determine the density (unit weight) of a soil in the sight; the sand replacement method, the balloon method, and the nuclear method.