Plants do not directly use oxygen to incorporate into organic compounds; rather, they primarily use carbon dioxide during photosynthesis to synthesize organic molecules like glucose. However, oxygen is a byproduct of photosynthesis, produced when water molecules are split to release electrons. Additionally, plants do require oxygen for respiration, which occurs in their mitochondria, allowing them to convert stored energy in organic compounds into usable energy.
Air refresheners contain organic compounds.
Air, water, plants, animals, rocks, minerals, and most organic compounds.
The scales and bones of bony fish contain phosphorus. As is the case on land, primary producers in the ocean incorporate phosphates into organic compounds.
The scales and bones of bony fish contain phosphorus. As is the case on land, primary producers in the ocean incorporate phosphates into organic compounds.
Assimilatory sulfate reduction is the process by which plants and microorganisms incorporate sulfate into organic compounds such as cysteine and methionine for use in essential biological processes. These organic compounds are then used in the synthesis of proteins and other biomolecules necessary for growth and development.
The entire macroscopic life on this planet Earth is dependent on plants directly or indirectly. The plants help by providing organic compounds for food and oxygen to breath.
Plants reduce carbon dioxide (CO2) through photosynthesis, converting it into oxygen (O2) and organic compounds to use as energy sources for growth and development.
From a chemistry point of view, organic compounds are carbon compounds and organic chemistry is the study of carbon and its derivatives. But from a biological aspect, organic compounds are those that are obtained from plants or animals.
From a chemistry point of view, organic compounds are carbon compounds and organic chemistry is the study of carbon and its derivatives. But from a biological aspect, organic compounds are those that are obtained from plants or animals.
Plants and animals are composed of organic compounds because these compounds are primarily based on carbon, which can form stable bonds with a variety of elements, allowing for the complexity and diversity of biological molecules. The common elements found in organic compounds include carbon (C), hydrogen (H), oxygen (O), nitrogen (N), phosphorus (P), and sulfur (S). These elements are essential for forming the macromolecules such as carbohydrates, proteins, lipids, and nucleic acids that are vital for life.
Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.
Proteins. Proteins are the organic compounds for which information must be encoded in DNA for green plants to synthesize to other compounds.