Answer:
The “fact” that biological diversity—biodiversity—is declining and that humanity is ultimately responsible has become common knowledge among scientists, citizens, and policymakers. Biodiversity loss is the mantra for conservation; we are exhausting biodiversity on the planet at a far greater rate than it can replenish itself (1). Furthermore, these losses could greatly reduce the benefits (ecosystem services) that humans obtain from nature, such as the pollination of crops, absorption of carbon dioxide from the atmosphere, and provision of wild foods . However, is biodiversity truly declining? Remarkably, Vellend et al. export that, on average, the local diversity of plants has not decreased in recent decades. If anything, it has increased.
Vellend et al. searched the literature for studies that examined changes in local plant diversity. They found 168 studies from around the world, where the number of plant species had been counted, in over 16,000 plots in total, over periods of 5–50 or more years. They analyzed their global-scale dataset, finding an average 7.6% increase per decade in the number of species present in plots. This average was not significantly different from zero, so they concluded that there has been no overall change in local plant diversity, a finding that is extremely interesting.
Height of the Mount Everest is <span>8,586 meters or 28,169 ft
Hope this helps!</span>
Answer:
c warmer than Khatyrka. At Alesund, energy is transferred from the ocean to the air. At Khatyrka, energy is transferred from the air to the ocean.
Explanation:
The ocean current towards Alesund is from the equator and is therefore warmer than the sorrounding air so, heat energy is transfered to the air from the ocean. For Khatyrka, ocean current is from the north pole and is colder than the sorrounding air. Therefore heat energy is transfered from the air to the ocean.
This is besides the fact that they are both on the same latitude and hence receive the same amount of mean solar radiation intensity.
Answer:
they are mostly owned my national government
<span>Thermal energy is transferred from hot places to cold places by convection. Convection occurs when warmer areas of a liquid or gas rise to cooler areas in the liquid or gas. Cooler liquid or gas then takes the place of the warmer areas which have risen higher. This results in a continous circulation pattern. Water boiling in a pan is a good example of these convection currents. Another good example of convection is in the atmosphere. The earth's surface is warmed by the sun, the warm air rises and cool air moves in.
</span><span>Convection is the movement of heat through gases or liquids. Heat from the sun heats the air which can account for A and D, but a lot of the Earth's heat is distributed by the ocean. Water has a high specific heat which can absorb a lot of heat in one place, and distribute it in a colder place evening out the Earth's temperatures a bit.
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So, the answer would be
<span>through the greenhouse effect
And could also be </span><span>through the movement of winds and currents</span>