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Organisms grow by cell division or mitosis which causes increase in number of cells , and then by increase in size of cell .
yes . it is the study on how organisms interact with the abiotic and biotic elements arround them and what their biome /ecosystems provides them. it also looks at the energy transfer - between consumers and producers. energy transfer is when , i'll give an example : when a green plant grows it gets energy from the sun, when the cow eats that plant it gets 1/10 of the energy the plant had then when we eat the cow , we get 1/10 of the energy the cow has. the amount of energy transferd is always 1/10 of the amount that living organism has. ~ hope this helped ~
If an organism's food source is limited somehow, it can adapt to eat other types of food in order to survive. That way members of the same species do not have to rely on a limited amount of food. The larger the variety of food an organism can take in, the less likely it is that the organism will run out of options. Another way a species can adapt to reduce its competition for food is by altering mating and reproduction habits. By reproducing less, the organisms can maintain a population that can be sustained by the amount of food available, thus allowing that population to retain better health overall.
The smallest multi-celled organism in the world is C. elegans. It has 959 somatic cells and is a few millimeters in length. It has an estimated 17,800 genes which is about half the amount of genes in a human.
The only answer that there is available is no
Yes. The amount of energy depends on the organism and how long ago it died.
It results to overpopulation and high organism density of the area.
It takes a few minutes to complete the transfer. The amount transferred will be available within three business days. If the business day is a holiday, then the amount transferred may take an extra day to be available.
It takes a few minutes to complete the transfer. The amount transferred will be available within three business days. If the business day is a holiday, then the amount transferred may take an extra day to be available.
Organisms grow by cell division or mitosis which causes increase in number of cells , and then by increase in size of cell .
yes . it is the study on how organisms interact with the abiotic and biotic elements arround them and what their biome /ecosystems provides them. it also looks at the energy transfer - between consumers and producers. energy transfer is when , i'll give an example : when a green plant grows it gets energy from the sun, when the cow eats that plant it gets 1/10 of the energy the plant had then when we eat the cow , we get 1/10 of the energy the cow has. the amount of energy transferd is always 1/10 of the amount that living organism has. ~ hope this helped ~
If an organism's food source is limited somehow, it can adapt to eat other types of food in order to survive. That way members of the same species do not have to rely on a limited amount of food. The larger the variety of food an organism can take in, the less likely it is that the organism will run out of options. Another way a species can adapt to reduce its competition for food is by altering mating and reproduction habits. By reproducing less, the organisms can maintain a population that can be sustained by the amount of food available, thus allowing that population to retain better health overall.
No - haploid cells contain half the normal amount of chromosomes.Polyploid is the term used for a cell/organism with more than 2 sets of chromosomes.
Multi-cellular and unicellular refer to the amount of cells that make up a single organism. Plants and animals are mulit-cellular organisms. An example of a uni-cellular organism is a bacteria, or omeba.
The number of chromosomes in a organism can vary. Humans have 46 chromosomes, or 23 pairs.
Humans currently consume a great amount of the available food crops and medicine produced by earths organisms. This is a threat because some of these organisms are rare.
It depends on the organism. Different organisms have different relative amounts of nitrogenous bases. The only thing we can say for sure is that the amount of thymine in a given organism's genome will be just about the same as the amount of adenine.