Which of these best demonstrates mutualism between certain types of bacteria and humans
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Mutualisam between types of Bateria and Humans
Bacteria and the human both get benefit from each other and this relation is mutualism. Bacteria stay inside nose, mouth, intestines, and many more areas of the body surface. They help human by giving response to pathogenic bacteria for protection of immune system.
They metabolize nutrients, vitamin production and wastes process in human’s digestive system. On the other hand, human provides them place to live. These above best demonstrates mutualism between bateria and humans.
I cannot find the propositions if it is a MCQ, so I will tell what a bacterial mutualism is:
Mutualism is an exchange between species (two or more) in which the mixed organisms profit from this exchange. Unlike commensalism, the associated species adapt, because the modification of one can affect the survival and reproduction of the affiliated species.
Many mutualistic bacteria live and develop in us, for example, the intestinal flora synthesizes vitamin K, a vitamin that is necessary for the absorption of our food. This same intestinal flora also hinders the proliferation of pathogenic bacteria as well as that of commensal bacteria potentially dangerous.
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B. carbohydrates, proteins, and fats.
C. vitamins and minerals.
D. fiber.
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The correct answer to the question which is stated above is:
RNA has the oxygenated form of ribose sugar, while DNA has deoxygenated form of ribose sugar.
>The pentose, which is ribose, is oxygenated in RNA while in DNA it is deoxygenated
receives information about your body
c.
signals a response to stimuli
b.
maintains homeostasis
d.
all of these are nervous system functions
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b. what gas is the plant producing?
c. what source of energy is the plant using to conduct the process recorded in part a?
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Answer:
a. Photosynthesis
b. Oxygen
c. Light from the lamp
Explanation:
a. The process that is occurring in the plant's cell to produce the gas in the bubble is photosynthesis. The process involves the use of inorganic substances such as carbon dioxide and water in the presence of light to manufacture carbohydrates. Oxygen is evolved in the process. The equation for the process is as below:
b. The gas produced by the plant is oxygen as shown in the equation above.
c. The source of energy the plant is using to conduct the process is the light from the lamp. Light catalyzes the excitation of photosystems, causing the release of electrons that causes the splitting of water.
The clipping of an aquatic plant in water a. Photosynthesis, b. Oxygen, c. Light .
Photosynthesis stands as the pivotal biological mechanism through which plants, algae, and certain bacteria convert light energy into chemical energy, stored in the form of glucose.
This intricate metabolic pathway unfolds within specialized cellular structures called chloroplasts, where pigments like chlorophyll absorb light, initiating a series of reactions that culminate in the synthesis of organic compounds.
(b) Oxygen, a critical byproduct of photosynthesis, is released into the atmosphere.
During the light-dependent reactions in the thylakoid membranes of chloroplasts, water molecules are split, liberating oxygen.
This oxygen release is not only vital for the plant's metabolic processes but also plays a crucial role in maintaining the Earth's atmospheric composition, supporting aerobic respiration for various organisms.
(c) Light serves as the primary energy source for photosynthesis. Photons from sunlight are absorbed by chlorophyll, triggering a cascade of events that convert light energy into chemical energy.
This energy conversion powers the synthesis of adenosine triphosphate (ATP) and nicotinamide adenine dinucleotide phosphate (NADPH), essential for the subsequent synthesis of glucose and other organic molecules.
Collectively, these three components encapsulate the intricate dance of energy transformation, gas production, and biochemical synthesis that sustains plant life and influences the entire ecosystem.
The elegance of photosynthesis lies in its ability to harness the radiant energy of the sun and convert it into life-sustaining resources.
For such a more question on Photosynthesis
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b. the rotating cloud of stardust that formed the planets.
c. the gases in the stars that formed the gases in the atmosphere.
d. the rotating cloud of stardust that formed LUCA and all the organisms that evolved later.
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(The 3 examples are:)
~ CO2 from burning fossil fuels
~ gas (methane) leaks from underground gas pipes
~ methane from rotting material in landfills
(Other ones)
~ combustion of fossil fuels (oil, coal, and gas)
~ deforestation (decreasing amount of plants that remove CO2 from the atmosphere)
~ industrial production that uses petroleum based products (mineral/metal production)