Answer:
Minnesota has a humid continental climate, with hot summers and cold winters. Minnesota's location in the Upper Midwest allows it to experience some of the widest variety of weather in the United States, with each of the four seasons having its own distinct characteristics. The area near Lake Superior in the Minnesota Arrowhead region experiences weather unique from the rest of the state. The moderating effect of Lake Superior keeps the surrounding area relatively cooler in the summer and warmer in the winter, giving that region a smaller yearly temperature variation. On the Köppen climate classification, much of the southern third of Minnesota—roughly from the Twin Cities region southward—falls in the hot summer zone (Dfa), and the northern two-thirds of Minnesota falls in the warm summer zone (Dfb).
Winter in Minnesota is characterized by cold (below freezing) temperatures. Snow is the main form of winter precipitation, but freezing rain, sleet, and occasionally rain are all possible during the winter months. Common storm systems include Alberta clippers or Panhandle hooks; some of which develop into blizzards. Annual snowfall extremes have ranged from over 170 inches or 4.32 metres in the rugged Superior Highlands of the North Shore to as little as 5 inches or 0.13 metres in southern Minnesota. Temperatures as low as −60 °F or −51.1 °C have occurred during Minnesota winters. Spring is a time of major transition in Minnesota. Snowstorms are common early in the spring, but by late-spring as temperatures begin to moderate, the state can experience tornado outbreaks, a risk which diminishes but does not cease through the summer and into the autumn.
In summer, heat and humidity predominate in the south, while warm and less humid conditions are generally present in the north. These humid conditions initiate thunderstorm activity 30–40 days per year. Summer high temperatures in Minnesota average in the mid-80s F (30 °C) in the south to the upper-70s F (25 °C) in the north, with temperatures as hot as 114 °F (46 °C) possible. The growing season in Minnesota varies from 90 days per year in the Iron Range to 160 days in southeast Minnesota. Tornadoes are possible in Minnesota from March through November, but the peak tornado month is June, followed by July, May, and August. The state averages 27 tornadoes per year.[1] Average annual precipitation across the state ranges from approximately 35 inches (890 mm) in the southeast to 20 inches (510 mm) in the northwest. Autumn weather in Minnesota is largely the reverse of spring weather. The jet stream—which tends to weaken in summer—begins to revive, leading to a quicker changing of weather patterns and an increased variability of temperatures. By late October and November, these storm systems become strong enough to form major winter storms. Autumn and spring are the windiest times of the year in Minnesota.
Explanation:
if its not right sorry
Answer:
tree plantings
Explanation:
To combat and prevent the spread of desertification, the most effective measure is to preserve green areas and practice reforestation in devastated areas, as vegetation allows for greater absorption of moisture from the atmosphere, while making the climate proportionally milder.
Answer:
1. There is less variation in temperature of Aquatic habitats
2. The movement of water up trees results from capillary action.
3. Provides insulation to aquatic habitats
4. Evaporative cooling
Explanation:
1. The specific heat of water is high and is characterized as measure of heat required to result in the rise in temperature of 1 g of a substance by 
.
Due to this, water can limit changes in temperature thus there isn't much variation in temperature.
2. Capillary action is the motion of water inside the spaces of a permeable material because of forces of cohesion, adhesion and surface tension.
Thus Cohesion forces results in the motion of water up trees.
3. Water has one most significant property where solid structure is less dense than fluid or liquid form that protects aquatic environments. As water in its solid form is less dense, in this manner ice coasts on the lake's surface that protects the water beneath from solidifying and valuable to aquatic life forms.
4. Heat of vaporization of water is high, which is characterized as the measure of energy expected to transform 1 gram of a liquid substance to a gas at steady temperature.
Along these lines when water particles evaporates, the surface they dissipate from gets cooler, referred to as evaporative cooling.
When organisms are “naturally selected” it means that they were born more adapted to their environment than others might be. When these more “fit” organisms reproduce, their traits are carried on to some of their offspring. As this trend continues over time, the population will be more adapted to their surroundings. A population going through this kind of trend results in the population being very different than it used to. This is the population evolving over time and changing.
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Hope this helps! Feel free to change it as you wish, but that’s my understanding of this. Luckily, I’m on this same unit and we’ve learned this stuff :D
Answer:
D
Explanation:
Deforestation involves totally cutting down of trees without replacement hence destroys the cover which exposes biodiversity to destruction
