Food chains show a single path of energy in an ecosystem, and food webs show overlapping pathways of energy in that ecosystem.
Food chain shows the relationship between organisms by the food they eat.
A food web is the natural interconnection of food chains and a graphical representation of what-eats-what in an ecological community.
Food webs show interconnection of food chains about the different animals in an ecosystem and different energy transfer processes.
Thus, food chains show a single path of energy in an ecosystem, and food webs show overlapping pathways of energy in that ecosystem.
Learn more about food chains and food web here: brainly.com/question/2179
Answer:
Food chains show a single path of energy in an ecosystem, and food webs show overlapping pathways of energy in that ecosystem.
Explanation:
Unlike food chains, food webs show more detailed information about the different animals in an ecosystem and show multiple energy transfers to different animals from the same sources.
By looking at these examples, you will notice a dramatic difference in detail:
B. Electron transport chain
C. Glycolysis
Answer: A. 2
Explanation:
What if the blood flow of the antrial systole?
Darwin was describing in his
entry?
Answer:
maintain homeostasis in eukaryotic cells.
Explanation: these are two roles in maintaining homeostatic in eukaryotic cells
1. Membrane Production: The rough ER is responsible for producing the phospholipids and proteins that make up the cell's membranes. These membranes are essential for compartmentalizing the cell and regulating the movement of substances in and out of the cell. For example, the rough ER helps in the production of the plasma membrane, which controls the exchange of molecules between the cell and its environment.
2. Protein Production: The rough ER is studded with ribosomes, which are responsible for protein synthesis. The ribosomes on the rough ER synthesize proteins that are destined for secretion, insertion into the cell membrane, or transport to other organelles. These proteins undergo folding and post-translational modifications in the rough ER, ensuring their proper structure and function. For example, the rough ER produces enzymes that aid in digestion and hormones that regulate various body functions.
By facilitating membrane and protein production, the rough ER helps maintain the integrity, structure, and function of eukaryotic cells. Without these processes, cells would not be able to carry out essential functions, leading to cellular dysfunction and potential health issues.
The rough ER's main function is to synthesize and modify proteins destined for the cell membrane or for export from the cell, a process that is crucial in maintaining homeostasis in eukaryotic cells. This protein synthesis and distribution are crucial for cells' life, growth, and responses to the environment.
The primary function of the rough ER is the synthesis and modification of proteins that are destined either for the cell membrane or for export from the cell. This process is aided by ribosomes that attach to the ER, giving it a rough appearance. The produced protein is typically synthesized within the ribosome and then released inside the channel of the rough ER, where sugars can be added to it (glycosylation) before it is transported within a vesicle to the next stage, the Golgi apparatus.
This protein synthesis by the rough ER plays an important role in maintaining homeostasis in eukaryotic cells. It helps ensure the cell has the required proteins to function properly and influences the balance of protein production and distribution, crucial for cell life, growth, and responses to the environment.
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X-rays are types of electromagnetic radiation that is performed to take images inside the human body. A protective vest functions as a radiation shield. The vest is in the shape of a hospital apron, and it is made up of an outer thin rubber, and an inner lead. Wearing a protective vest during an x-ray helps to reduce the exposure of the patient’s vital organs to ionizing radiation.