because it is near the river
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Alluvial soils are formed by the deposition of sediments carried by rivers and streams. Since these sediments are typically deposited by rivers, alluvial soils are also referred to as riverine soils. They are known for their fertility and are found in areas where rivers deposit sediments during floods or over time.
The Brahmaputra River forms various landforms, including fertile floodplains, river deltas, and alluvial plains. The river also creates deep gorges and valleys as it flows through the Himalayas and Assam region. Additionally, the Brahmaputra contributes to the formation of riverine islands and sandbars along its course.
An alluvial fan is a cone-shaped deposit of sediment that forms where a stream flows from a steep gradient to a flatter area, causing the sediment to spread out in a fan-like shape. These features are typically found at the base of mountains or hills in arid or semi-arid regions. Alluvial fans are formed by the deposition of sediment carried by the stream as its velocity decreases upon reaching the flatter terrain.
Alluvial deposits are formed by the deposition of sediments carried by rivers. These deposits typically consist of a mixture of gravel, sand, silt, and clay, and are often found in floodplains and deltas. Over time, these sediments can accumulate and form features such as alluvial fans, river terraces, and meanders.
This concludes that Fertilized soil works better than Natural soil when growing plants. There was a drastic change in the growing of the plants in different soils, fertilizer made the plants grow faster, while natural did not grow at all. The expected growth of both plants was thought that they would both grow, but the fertilizer would grow more. What happened is, fertilizer plants grew, and natural did not at all. In the beginning less water should have been used, because through the weeks the amount had to be changed. This could be used in the real world when farming is being done, fertilized soil works a lot better than natural soil, it grows the plants faster and better.
Red cabbage can change color depending on the pH of its environment, turning red in acidic conditions and blue or green in alkaline conditions. Hydrangea flowers also change color based on soil pH, with acidic soils producing blue flowers and alkaline soils producing pink flowers. Bougainvillea flowers can also change color in response to soil pH levels, with more acidic soils leading to redder flowers and more alkaline soils producing pinker shades.