altitude
altitude
As elevation increases, atmospheric pressure decreases, leading to thinner air. This reduced air pressure can limit the growth of trees, as they require certain conditions for photosynthesis and nutrient uptake. Consequently, as you ascend in altitude, trees generally become shorter and less abundant, eventually giving way to shrubs and alpine vegetation. This phenomenon is often observed in mountainous regions where tree lines are established.
oxygen!!!!!! phytoplankton produces about 80% of the worlds oxygen! if they die we die!of course trees will back us up but there is not enough trees for the whole world to share oxygen. if the phytoplankton die, with trees, our death will slowly take effect! in days we will all be taking in shorter breaths and eventually die!
While trees play a significant role in producing oxygen, they are not the sole source. Phytoplankton, algae, and other plants also contribute to oxygen production in the atmosphere through photosynthesis. Overall, terrestrial and aquatic ecosystems collectively contribute to the oxygen balance in the atmosphere.
altitude
altitude
altitude
elevation
altitude
elevation
As elevation increases, atmospheric pressure decreases, leading to thinner air. This reduced air pressure can limit the growth of trees, as they require certain conditions for photosynthesis and nutrient uptake. Consequently, as you ascend in altitude, trees generally become shorter and less abundant, eventually giving way to shrubs and alpine vegetation. This phenomenon is often observed in mountainous regions where tree lines are established.
The air gets thinner. That's why if you are climbing a mountain the trees are shorter as you get to the top because they don't have as much air as the lower atmosphere.
it would be eater elevation or altitude eater one would be correct
Broadleaf trees, such as oak, maple, and beech, are generally more effective at absorbing CO2 from the atmosphere compared to coniferous trees. This is because broadleaf trees have larger, thinner leaves that allow for more efficient gas exchange.
are they
Turpentine.