Water quality measurements fall into three broad categories:

physical characteristics such as temperature, colour, suspended solids and turbidity;

chemical characteristics such as nutrients, minerals, metals, oxygen, and organic compounds;

biological characteristics such as the types and quantities of aquatic plants, animals, algae, bacteria and protozoan parasites.

Scientists use water quality data collected during intensive monitoring and research programs to assess the effectiveness of water quality protection strategies

Cells in our world come in two basic types, prokaryotic and eukaryotic. “Karyose” comes from a Greek word which means “kernel,” as in a kernel of grain. In biology, we use this word root to refer to the nucleus of a cell. “Pro” means “before,” and “eu” means “true,” or “good.” So “Prokaryotic” means “before a nucleus,” and “eukaryotic” means “possessing a true nucleus.” This is a big hint about one of the differences between these two cell types. Prokaryotic cells have no nuclei, while eukaryotic cells do have true nuclei. This is far from the only difference between these two cell types, however.

Despite their apparent differences, these two cell types have a lot in common. They perform most of the same kinds of functions, and in the same ways. Both are enclosed by plasma membranes, filled with cytoplasm, and loaded with small structures called ribosomes. Both have DNA which carries the archived instructions for operating the cell. And the similarities go far beyond the visible–physiologically they are very similar in many ways. For example, the DNA in the two cell types is precisely the same kind of DNA, and the genetic code for a prokaryotic cell is exactly the same genetic code used in eukaryotic cells.