The large floating regions of trash where plastics outnumber marine organisms several times over are located in the five main gyre systemsof the world's oceans.
Firstly, these large floating regions of trash are commonly referred to as "garbage patches" or "trash islands". They are primarily located in five main areas of the world's oceans: the North Atlantic Gyre, the South Atlantic Gyre, the North Pacific Gyre, the South Pacific Gyre, and the Indian Ocean Gyre. These gyres are large systems of rotating ocean currents that help to gather and concentrate the trash.
One of the most well-known of these is the Great Pacific Garbage Patch, located in the North Pacific Gyre. This garbage patch alone is estimated to be twice the size of Texas and has an extremely high concentration of plastics and other debris, which indeed outnumber marine organisms several times over.
These garbage patches are a significant environmental concern because the plastics within them can take hundreds of years to decompose. During this time, they can harm marine life and even enter the food chain, causing problems for both wildlife and humans.
In conclusion, the large floating regions of trash where plastics outnumber marine organisms several times over are located in the five main gyre systems of the world's oceans. These areas represent significant challenges for environmental conservation and require urgent attention to reduce further harm to our marine ecosystems.
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b. The Nebular theory has been proven mathematically
c. Astronomers have observed protoplanetary disk around distant newborn stars.
d. None of the above
Answer:
c-ATP is used for short-term energy and to build molecules of starch and fat.
Explanation:
it was an increase in nativist filling in the nation
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Irregular galaxy
Spiral galaxy
Elliptical galaxy
Random Galaxy
...
Because Reasons
Answer:
Random
Explanation:
The difference between normal and sickle hemoglobin at the DNA, RNA, and protein is that a sickle hemoglobin at the DNA is a result of a point mutation from one base. The RNA in a sickle hemoglobin changes from GAG to GUG, and the protein (amino acid) level changes from GLU to Val). Sickle cell is a genetic disorder, which is produced by a change in the nucleotide progression that codes for a protein. In this example, sickle cell is produced by one single nucleotide being changed for another (so, instead of the DNA being AATTGC, it would be AATAGC).