All living things are made up of cells. The structures of different types of cells are related to their functions.
Animal cells and plant cells have features in common, such as a nucleus, cytoplasm, cell membrane, mitochondria and ribosomes. Plant and algal cells also have a cell wall, and often have chloroplasts and a permanent vacuole. Bacterial and yeast cells have different structures to animal and plant cells.
Dissolved substances pass into and out of cells by diffusion.
Scientists hypothesize that green algae and plants share a common ancestor due to genetic, biochemical, and morphological similarities. Both groups contain chlorophyll a and b, which are essential for photosynthesis, and they possess similar cellular structures, such as chloroplasts. Additionally, molecular evidence, including DNA sequencing, indicates a close evolutionary relationship, supporting the idea that land plants evolved from green algal ancestors. This evolutionary link is further corroborated by the fossil record and the ecological roles both groups play in their environments.
Animal cells,prokariyotic cells,protozoans and fungi do not have.They are in plant and algal cells.
Algal Blooms. (APEX)
No, eukaryotic cells are not represented by bacteria cells. Bacteria are prokaryotic cells, while eukaryotic cells are found in organisms such as animals, plants, fungi, and protists. Some algal cells are eukaryotic and share similarities with other eukaryotic cells in terms of having a nucleus and membrane-bound organelles.
The first derived character to appear during the evolution of plants was the development of multicellularity. This allowed simple algal ancestors to evolve into more complex structures, leading to the formation of various plant groups. Following this, the emergence of specialized tissues, such as those for photosynthesis and nutrient transport, marked significant evolutionary advancements in plant lineage. Additionally, adaptations for terrestrial life, such as cuticles and stomata, further defined the evolution of land plants.
Scientists hypothesize that green algae and plants share a common ancestor due to genetic, biochemical, and morphological similarities. Both groups contain chlorophyll a and b, which are essential for photosynthesis, and they possess similar cellular structures, such as chloroplasts. Additionally, molecular evidence, including DNA sequencing, indicates a close evolutionary relationship, supporting the idea that land plants evolved from green algal ancestors. This evolutionary link is further corroborated by the fossil record and the ecological roles both groups play in their environments.
Two common characteristics between plants and green algea are that they both need water and need sunlight
Algal means "of or pertaining to algae".
Algal means "of or pertaining to algae".
The organisms helping plants and animals are called symbioants. Usually micro-organisms like bacteria and some algal forms establish symbiotic relationship with plants and animals.
Animal cells,prokariyotic cells,protozoans and fungi do not have.They are in plant and algal cells.
If a cell does not have a nucleus, then it is a prokaryote. If a eukaryotic cell has chloroplasts, then it is a plant or algal cell. If a cell has a nucleus but no chloroplasts, then it could be an animal cell.
If a cell does not have a nucleus, then it is a prokaryote. If a eukaryotic cell has chloroplasts, then it is a plant or algal cell. If a cell has a nucleus but no chloroplasts, then it could be an animal cell.
Algal blooms can change the environment by reducing oxygen levels in the water, leading to fish kills and other aquatic organisms struggling to survive. The decomposition of algae can also release toxins that are harmful to animals and humans. Additionally, algal blooms can block sunlight from reaching aquatic plants, affecting the entire food chain in the ecosystem.
Invertebrate life includes microscopic mites, lice, krill and springtails. Antarctica consists of lichens, different mosses, liverworts, land and aquatic algal species, and two flowering plants.
John H. Lancaster has written: 'Algal nutrition' -- subject(s): Algae, Nutrition, Plants
Algal Blooms are caused by over fertilization, runoff.