Mixotroph organisms are capable of obtaining energy from the environment by combining autotrophic and heterotrophic mechanisms. Karenia brevis is <u>mixotroph</u>.
<h3>What is mixotrophy?</h3>
Mixotrophy is a nutritional strategy used by some organisms that combine autotrophy and heterotrophy to obtain energy. It is widely observed in aquatic environments and especially among phytoplanktonic flagellated algae.
The development of mixotrophy depends on the environment in which the organism lives, its limiting conditions, and resources availability.
This strategy is used in aquatic environments in which light and nutrients availability is scarce. So organisms can change from being autotrophs to heterotrophs, and vice-versa, according to the environmental pressures.
Karenia brevis, the dinoflagellate responsible for red tides, is _<u>mixotroph</u>_ , meaning it can undergo photosynthesis when conditions are right, or it can ingest bacteria, algae, and animal waste if additional nitrogen is needed.
You can learn more about mixotrophy at
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If the animals didnt exist in the forest the forest wouldn't exist so that's why when an animal goes extinct it affects the ecosystem dramatically
Answer:
A
Explanation:
it keeps everything inside together.
Answer:
C. Muscles contract rapidly to produce heat on a cold day.
Explanation:
CORRECT
<u>Answer:</u>
<em>The energy in the bonds of glucose molecule is transferred to the phosphate groups in ATP.
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<u>Explanation:</u>
Cells derive energy by performing cellular respiration. The usable form of energy required by living cells is stored as <em>ATP which has three phosphate groups and thus gets the name Adenosine Triphosphate. </em>Within cells glucose molecules and oxygen react to form carbon dioxide, water and ATP.
<em>ATP is formed by the combination of ADP and a phosphate group</em> and is used for energy storage. It is the energy of the bonds in glucose molecule that gets transferred to the phosphate groups in ATP. <em>If energy has to be released this ATP has to break down into ADP and phosphate.
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