<h3>Cofactors</h3>
Explanation:
Enzymes are biochemicals which catalyze a biochemical reaction taking place in the body by reducing the activation energy barriers and changing the substrate molecules to products.
The active sites of enzymes first binds to the substrate and forms an enzyme-substrate complex.
An enzyme can work actively only with the help of helper molecules called co-factors and co-enzymes.
Co-factors are non-protein inorganic ions like iron, magnesium which helps the catalyze chemical reactions.
Cofactors are bound tightly with the active sites of the enzymes and also contribute for the structural integrity and stability of the enzyme
<span> The right answer is </span><span> c. human activity. Phosphorus cycle takes place even without human involvement but it can still affect or cause major changes in this nutrient cycle. </span>Humans use fertilizers and raise livestock (hogs). Waste from livestock and fertilizers are high in phosphate that gets into the soil and bodies of water through drainage and run-off.
Unlike other renewable energy sources, biomass can be converted directly into liquid fuels, called "biofuels," to help meet transportation fuel needs. The two most common types of biofuels in use today are ethanol and biodiesel, both of which represent the first generation of biofuel technology.
A heterotrophic and chlorophyll protist
Food is ingested by protists in three forms. We produce, eat and digest their own organic molecules. Meat ingestion or english bacteria ingests protists. The cell wall and cell membrane are stretched to create an alimentary vacuolum around the foodstuff. Enzymes extract the food inside the food vacuole. At the other side, absorbent protists consume food molecules through their cell membrane by diffusion. In decomposition, absorbent protists play a crucial role. They are assumed to be essential decomponents. Light energy is used to make your own food by big farmers including photosynthetic protists.
----------------------
<em>Hope this helps!</em>
<em />
<u>Brainliest would be great!</u>
<u />
----------------------
<u><em>With all care,</em></u>
<u><em>07x12!</em></u>
In this case, the plot 1 is very rich in the single species; it is dominated by a particular species, which occupy 95% share. While in the plot 2 are rich in the number of species, it has 5 species occupying 20% share.
In comparative analysis, it is seen the plot 1 is rich in species, but diversity is very less. While, plot 2 is rich in the diversity of species, as 5 different species are present, but it is not rich in a particular species.
Hence, compared with plot 1, plot 2 has greater species diversity and lower species richness.
