Answer:
B) Distinctly alkaline diagnostic horizons, thin profiles, lack of organic material, and dominance of sandy materials are features most closely associated with aridisols.
Explanation:
The aridisols are types of soils that are found predominantly in arid areas. They are soils that are not considered as fertile, and are near the bottom by quality of soils. These soils are lacking organic material, and also are very exposed to erosion, with the primary reason being the climate, as it doesn't allow for lot of vegetation to grow. The horizons of the aridisols are distinctly alkaline diagnostic ones, with the profiles being very thin and labile. The top layer of the soil is dominated by sandy material, which is a result of the extensive weathering and erosion in their surroundings, so the wind is mostly transporting small sandy grains and covers most of the area with them.
4 minutes mean 1 degree of longitude
There is 150 minute difference
17 degree 30 minutes west is longitude
Satellite imagery can prove to be very useful at times and at many occasions will be more beneficial using Satellite imagery than the plain old maps. For instance, it can be used to track weather systems, especially floods and other storms such as hurricanes. And most of the times, the reliability of the data is accurate. Other than that Satellite imagery is a vital tool for many meteorologist.
Answer:
Clear Cutting
Pro: Financial Reasons. Clearcutting advocates argue that the method is the most efficient for both harvesting and replanting trees.
Pro: Increased Water Flow.
Con: Effects on Plant and Wildlife.
Con: Loss of Recreation Land.
Pro: Increased Farmland.
Selective Cutting
Pro: Supports more wildlife by keeping their ecosystems intact
Pro: They build up tolerance and resistance to disease and pests
Pro: Carbon dioxide that is stored by the trees will regenerate (regrow)
faster
Pro: Helps the forest grow back faster
Con: Expensive and time-consuming
Con: Some species will not regenerate (regrow) as fast
Con: More exposure to weather damage such as ice, storms, and fires
Con: Lots of stumps and other tree debris left behind
These are some things I could come up with while learning some info about this.
The transform fault boundaries are not having the same characteristics as the convergent or divergent plate boundaries. The movement at the convergent and divergent plate boundaries is caused by pressure from below, thus vertical one, and also when they collide one of them moves diagonally downwards, or rather subducts. That leaves gaps at the plate boundaries and big cracks through which the magma can penetrate. At the transform boundaries it is a different situation. The plates engaged in this type of boundary are neither moving away from each other, nor they are colliding, but instead they slide past each other. By sliding past each other, the plates actually close in any gap that might have enables for magma to come out on the surface, so we don't see volcanoes along this type of boundaries. What is typical about the transform plate boundaries is the formation of faults that form because of the stress, and are parallel to the boundary.
