know im trying to find that answer to i hate Biology espically the teacher and i cant find this answer snywhere and i dont want to read to find the answer i thought the internet is supposed to help you with your hw. Its messed up i have been on 6 different sites and none of them told me the anser. Sorry this didnt help you any but maybe we will have to use the book to figure ths out.SORRY AGAIN
In C4 plants, the first product of CO2 fixation is a 4-carbon compound called oxaloacetate. In CAM plants, the first product of CO2 fixation is converted into malate or another 4-carbon organic acid. These compounds help minimize photorespiration and increase the efficiency of carbon fixation in these plants.
The transfer of carbon dioxide to organic compounds is known as carbon fixation. This process occurs during photosynthesis in plants, where carbon dioxide is converted into glucose and other organic molecules with the help of sunlight and chlorophyll. Carbon fixation is essential for the production of organic material that serves as a source of energy for living organisms.
Carbon Dioxide
Carbon fixation is the process by which carbon from carbon dioxide is incorporated into organic compounds.Specifically, fixation describes a conversion from inorganic to organic. The process is carried out by living organisms. Organisms known as autotrophs - e.g., plants - will grow by conducting carbon-fixing photosynthesis. Others known as heterotrophs - e.g., animals - will grow by using an autotroph's fixed carbon.
The least common type of carbon fixation in plants located in arid environments is C3 photosynthesis. While C3 plants are widespread, they are less efficient in hot and dry conditions due to increased photorespiration and water loss. In contrast, C4 and CAM (Crassulacean Acid Metabolism) pathways have evolved in many arid-adapted plants to minimize water loss and enhance carbon fixation efficiency under stress conditions.
The gaseous by-product oxygen is produced during the process of photosynthesis in plants. During photosynthesis, plants use sunlight to convert carbon dioxide and water into glucose and oxygen. Oxygen is released as a waste product into the atmosphere.
In C4 plants, the first product of CO2 fixation is a 4-carbon compound called oxaloacetate. In CAM plants, the first product of CO2 fixation is converted into malate or another 4-carbon organic acid. These compounds help minimize photorespiration and increase the efficiency of carbon fixation in these plants.
The primary source of carbon for carbon fixation in plants is carbon dioxide (CO2) from the atmosphere. In photosynthesis, plants use the enzyme RuBisCO to fix CO2 into organic molecules, eventually producing glucose for energy.
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Balsam plants are C3 plants. They use the C3 carbon fixation pathway for photosynthesis, which involves the initial fixation of carbon dioxide into a three-carbon compound.
The transfer of carbon dioxide to organic compounds is known as carbon fixation. This process occurs during photosynthesis in plants, where carbon dioxide is converted into glucose and other organic molecules with the help of sunlight and chlorophyll. Carbon fixation is essential for the production of organic material that serves as a source of energy for living organisms.
The process by which photosynthetic organisms such as plants turn inorganiccarbon (usually carbon dioxide) into organic compounds (us. Carbohydrates). email me at upernagishad@gmail.com if you need a better clarification
C3 Photosynthetic pathways are the carbon fixation pathways used by cacti and other such desert plants. In this type of carbon fixation pathway there are 3 initial products that contain 3-carbon compounds.
Carbon Dioxide
Carbon fixation is the process by which carbon from carbon dioxide is incorporated into organic compounds.Specifically, fixation describes a conversion from inorganic to organic. The process is carried out by living organisms. Organisms known as autotrophs - e.g., plants - will grow by conducting carbon-fixing photosynthesis. Others known as heterotrophs - e.g., animals - will grow by using an autotroph's fixed carbon.
The least common type of carbon fixation in plants located in arid environments is C3 photosynthesis. While C3 plants are widespread, they are less efficient in hot and dry conditions due to increased photorespiration and water loss. In contrast, C4 and CAM (Crassulacean Acid Metabolism) pathways have evolved in many arid-adapted plants to minimize water loss and enhance carbon fixation efficiency under stress conditions.
They are named after the number of carbons of the first product of their carbon fixation cycle (the cycle used to make plant sugars). C4 plants have a more elaborate carbon fixation cycle of C3 and reduces photorespiration. They are thought to have evolved more recently than C3 plants.