Answer:
Autotrophs, but not heterotrophs, can nourish themselves beginning with and other nutrients that are inorganic.
Explanation:
Unlike heterotrophs, autotrophs such as green plants, are able to synthesize their food (in form of sugar molecules) starting with inorganic molecules like atmospheric carbon dioxide, water in the presence of sunlight.
This is commonly known as photosynthesis. The equation is shown below
6CO2 + 6H2O --> C6H12O6 + 6O2 + Energy
Is it something to do with the pressure of the air, higher up it has more air pressure making it cooler? I don’t really know but it’s an educated guess
Good job but I don’t know lol u got this hooray.
Answer:
<em>The tactic which will be of no help will be A) Increase your demand for green products and services to reduce your carbon footprint.</em>
Explanation:
Increasing demand for green products will require the cutting down of trees for meeting up the needs. Hence, lesser the trees, more will be the carbon dioxide as trees tend to take up carbon dioxide and use it in the process of photosynthesis.
Also, by using green products, our carbon footprint will not be reduced because the amount of carbon dioxide we release will remain the same. Hence, option A is the correct option.
Answer:
"Embryophytes
" is the perfect solution.
Explanation:
- Each of some kind of plant sub-system that maintains the embryo inside the maternal tissues, including the tracheophytes as well as bryophytes.
- The other most common species of organisms or plants seem to be the surface plants including embryophytes, furthermore precisely Embryophyta or Metaphyta.
- They are considered as 'land plants' but even though, in comparison to the connected green algae, those who continue living primarily throughout terrestrial environments, mainly aquatic ones.
