autotrophs are green plants, algae, etc.
ATP
Yes
autotrophs are green plants, algae, etc.
Autotrophs
Heterotrophs are dependent on autotrophs for a variety of reasons. The most obvious reason is that autotrophs are the only organisms that can produce organic molecules from inorganic molecules. This means that heterotrophs must consume autotrophs (or the organic molecules they produce) in order to obtain the organic molecules they need to survive. In addition to this, autotrophs play a vital role in the global carbon and water cycles. They take in carbon dioxide from the atmosphere and use it to produce organic molecules. This helps to remove carbon dioxide from the atmosphere, which would otherwise contribute to global warming. Autotrophs also release water vapor into the atmosphere through the process of transpiration. This helps to regulate the Earth's temperature and keep it habitable for other organisms. Without autotrophs, the world would be a very different place. Heterotrophs would not be able to survive, and the planet would be uninhabitable for most other organisms.
Water, sunlight, and nutrients.
There are several theories on how the first organisms on Earth obtained energy. The generally accepted theory is that these organisms harvested organic substances from the primordial soup of energy-rich molecules.
autotrophs are green plants, algae, etc.
Autotrophs are also known as producers, and create complex organic molecules - like carbohydrates and fats - from simple organic molecules.
Autotrophs
Autotrophs
Autotrophs
Similarities: 1. both have life 2.need air, water and sunlight for survival 3. require organic molecules(food) for metabolism
autotrophs
autotrophs gain carbon via CO2. Heterotrophs gain carbon by consuming organic molecules.
Heterotrophs are dependent on autotrophs for a variety of reasons. The most obvious reason is that autotrophs are the only organisms that can produce organic molecules from inorganic molecules. This means that heterotrophs must consume autotrophs (or the organic molecules they produce) in order to obtain the organic molecules they need to survive. In addition to this, autotrophs play a vital role in the global carbon and water cycles. They take in carbon dioxide from the atmosphere and use it to produce organic molecules. This helps to remove carbon dioxide from the atmosphere, which would otherwise contribute to global warming. Autotrophs also release water vapor into the atmosphere through the process of transpiration. This helps to regulate the Earth's temperature and keep it habitable for other organisms. Without autotrophs, the world would be a very different place. Heterotrophs would not be able to survive, and the planet would be uninhabitable for most other organisms.
A plant or heterotroph. The inorganic carbon of CO2 is made into the organic sugar glucose as the result of photosynthetic organisms such as plankton, phytoplankton, and algae.
Water, sunlight, and nutrients.
There are several theories on how the first organisms on Earth obtained energy. The generally accepted theory is that these organisms harvested organic substances from the primordial soup of energy-rich molecules.