Energy changes forms as it moves through an ecosystem, but no new energy is produced. As a result, energy and matter are preserved throughout all ecosystem processes.
The three main cycles of an ecosystem are the water cycle, the carbon cycle and the nitrogen cycle. When these three cycles are in harmony, they remove waste from the ecosystem and replenish it with the nutrients it needs to support life.
As these organisms live and die, matter circulates between the air and soil, as well as among plants, animals, and microbes. In addition to absorbing gases and water from the environment, organisms also emit waste materials back into it.
To learn more about ecosystem visit:
#SPJ1
The Calvin Cycle is a perfect example of the interdependence of photosynthesis and cellular respiration. It shows how both processes are essential for life to exist, and how one relies on the other to function properly.
This cycle illustrates how all living things are connected by a shared need for energy and demonstrates the importance of these two metabolic processes. Photosynthesis and cellular respiration are two vital processes that are essential for life. They are interdependent, meaning that one process relies on the other to function properly. The most accurate model of this interdependence is known as the “Calvin Cycle”.
The Calvin Cycle is a metabolic pathway that occurs in plants and other photosynthetic organisms. In this cycle, carbon dioxide enters the plant, and energy from the sun is used to convert it into glucose and other organic molecules. This glucose is then used as the source of energy for cellular respiration.
Cellular respiration is the process by which the energy from the glucose is released, and it occurs in the mitochondria of all living cells. In this process, oxygen is used to break down the glucose molecules, releasing energy in the form of ATP (adenosine triphosphate). This ATP is then used to power the cell's metabolic processes.
This cycle of photosynthesis and cellular respiration is essential for life to exist. Without photosynthesis, there would be no source of glucose and thus no energy for cellular respiration. Similarly, without cellular respiration, the energy from the glucose molecules would not be released, and the process of photosynthesis could not take place.
Learn more about cellular respiration at : brainly.com/question/29760658
#SPJ4
unproductive wastelands
b.
valuable fish habitats
c.
an erosion preventing habitat
d.
pollution filters
Answer:
0.22 gallons
Explanation:
B. By increasing the activation energy of the reaction
C. By decreasing the activation energy of the reaction
D. By increasing the energy of the products of the reaction
E. By decreasing the energy of the products of the reaction
Answer:
Enzymes help to carry out biochemical reactions C). By decreasing the activation energy of the reaction
Explanation:
Enzyme catalysis An enzyme catalyzes a biochemical reaction by binding a substrate at the active site. After the reaction has proceeded, the products are released and the enzyme can catalyze further reactions.
b. Cortex
c. Renal pelvis