B.Producer, carnivore, autotroph
C.Predator, herbivore, heterotroph
D.Consumer, Carnivore, Predator
Correct answer choice is:
D) Consumer, carnivore, predator
Explanation:
Most praying mantis problem websites promoting serving them a collection of live bugs. If correctly considered for, praying mantises can live as pets for over a year. While a praying mantis will attack if irritated, their wounds are not poisonous and are cause little injury to humans.
b. egg cells.
c. stem cells.
d. somatic cells. E. germ cells
The statement that mitochondria and chloroplasts cannot survive outside of the cell is not a supporter of the endosymbiotic theory. So the correct option is A.
It's possible that eukaryotic cells originated when several cell types fused to form one. They started coexisting in what are known as symbioticpartnerships. The endosymbiotic theory describes how this may have occurred. One creature that resides inside of another is known as an endosymbiont. Your own cell and all other eukaryotic cells are animals formed of other species' components.
Both the chloroplast and the mitochondrion are organelles that were formerly free-living cells. They were prokaryotes that were ensconced within other cells (host cells). They may have become a part of the other cell by being eaten (a process known as phagocytosis), or they could have been parasites living inside the host cell.
The inner cell lived and flourished with the host cell rather than being ingested by or destroying it. It resembles a landlord and a renter in certain ways. The organelle pays rent by producing energy that the host cell may consume, and the host cell offers a cozy and secure home.
The organelle and the hostcell have developed together throughout time as a result of this long-ago event. The two are now inextricably linked. Even while they now work as a single organism, if we look closely, we can still see traces of the organelles' former lives as free-living entities.
Therefore the correct option is A.
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Answer:
mitochondria and chloroplasts can not survive outside of the cell
Explanation:
Answer:
C. axial and appendicular.
The oldest rocks of the ocean floor are approximately 200 million years old. These rocks are found in the western Pacific Ocean and are part of the western Pacific seafloor, known as the "Western Pacific Basin." This area contains some of the oldest oceanic crust on Earth.
The age of oceanic rocks is related to the process of plate tectonics, where new oceanic crust is continually formed at mid-ocean ridges through volcanic activity. As the oceanic plates move away from the ridges, they carry with them the older rocks towards the edges of the ocean basins. Over time, these older rocks get pushed back into the Earth's mantle at subduction zones, where tectonic plates converge.
This recycling process limits the age of the oceanic crust, and as a result, the oldest oceanic rocks we find today are generally around 200 million years old. This age is significantly younger compared to the age of the continental rocks, some of which are billions of years old.
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