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The plant kingdom is made up of multicellular, photosynthetic eukaryotes. 
These multicellular organisms contain specialized cells that perform different tasks. Algae are some of the simplest aquatic plants, often referred to as seaweed in the marine environment. Marine algae are abundant throughout the ocean and can either float freely or cling to substrate such as rocks and reefs. The majority of seaweeds are classified as red algae (6000 species). There are also brown algae (2000 species) and green algae (1200 species). None of the algae species are known to be poisonous, and many species are harvested for human consumption. Find out more at The Seaweed Site.
Phytoplankton
Phytoplankton are microalgae that form an essential component of the marine food chain. These single-celled plants provide nourishment to many marine species and they also play an important role in regulating the amount of carbon in the atmosphere. There are two main types of the larger phytoplankton species: Diatoms and Dinoflagellates. Smaller phytoplankton categorized as nanoplankton and picoplankton.
Diatoms
The cell walls of diatoms are made of silica formed into their characteristic "pillbox" shape. Diatoms are composed of two valves or frustules, one on top of the other, within which the living matter of the diatom is found. Diatoms are either found singly where each individual lives in a single box, or found in chains. Diatoms reproduce by dividing in half. One half is attached to the top valve, the other is attached to the bottom valve. Once the division takes place, each half creates a new valve to form another whole. The new valve is secreted in the old valve, therefore the average size of each diatom is reduced with every new generation. It is thought that as many as 50,000 species of diatoms have inhabited the earth. They occur in both fresh and salt water. See also "What are diatoms?"
Dinoflagellates
Dinoflagellates are the other primary form of large phytoplankton with about 2,000 species. Unlike diatoms, dinoflagellates are mobile through the use of a flagella. Also unlike diatoms, they do not have an external skeleton made of silica, however they are protected by cellulose. Dinoflagellates are typically solitary and do not form chains like diatoms. Like the diatom they reproduce through fission. Once divided, each half retains half of the original cellulose armor and replaces the missing half to form a new whole. Some dinoflagellates can produce toxins that are released into seawater. When there are large blooms, a phenomenon known as red tide occurs. In some cases increased levels of dinoflagellate toxin may cause other marine life to die. The symbiotic algae found in many corals, or zooxanthellae, are actually a non-mobile species of dinoflagellate. Dinoflagellates have strong bioluminescence and have been a source of fascination for sailors and other mariners as their ships pass through waves which become lit up by these organisms at night. See also "What are dinoflagellates?"
Algae - Visit AlgaeBase (>2,300 records): http://www.algaebase.org
As mentioned earlier, algae are photosynthetic eukarotes that are either unicellular, colonial, or multicellular. Algae with at least some multicellular members are grouped into three divisions of the plant kingdom: division Rhodophyta (red algae), division Phaeophyta (brown algae) and division Chlorophyta (green algae). These three groups are thought to have evolved from different groups of unicellular ancestors. Red and brown algae species are most commonly marine; green algae are found in abundance in both marine and freshwater.
Rhodophyta (Red Algae)
Red algae grow as single-celled plants or plants that grow as filaments, branched plants, broad flat plates, and ruffled plants. They come in a variety of sizes, but most red algae are small. All species attach to substrate such as rock or coral and sometimes to an animal shell or even another algae species.
Division Phaeophyta (Brown Algae)
Brown algae contain the largest and most complex algae plants. Pacific kelp are a brown algae species. There are no unicellular or colonial forms of brown algae. Brown algae stores food reserves as a substance called laminarin, similar to a lesser known species of gold algae in the division Chrysotphyta. Brown and gold algae also have in common the presence of flagellated cells of both sperm and motile spores. Brown algae are commonly found attached to substrate in cool, shallow waters near the shore in temperate and subpolar regions. Some forms of brown algae have developed adaptations to survive life on the coast where they may be pounded by surf or submerged then exposed with the tide. Large brown algae are used as shelter for some bottom-dwelling animals. They also provide serve as substrate for other algae that grow as epiphytes, or plants that grow on other plants.
Alaria esculenta (Dabberlocks, Wing Kelp, Murlins)
Ascophyllum nodosum (Asco, Sea Whistle, Bladderwrack)
Fucus serratus (Serrated Wrack)
Fucus spiralis (Spiralled Wrack)
Fucus vesiculosus (Bladderwrack)
Laminaria saccharina (Sugar Kelp)
Laminaria hyperborea (Kelp, May Weed)
Laminaria digitata (Kelp)
Laminaria ochroleuca (Kelp)
Macrocystis pyrifera (Giant Pacific Kelp)
Division Chlorophyta (Green Algae)
Chlorophyta (green algae) is the most biodiverse of the algaes with species that grow in a variety of forms and in a variety of habitats. They are typically small and simple, with many single-celled species, some that form branched filaments, hollow balls of cells, or broad, flat sheets. Some species attach to sandy shores by secreting a calcareous cement rather than holdfasts that might shift with the sand and become unstable.
Ulva compressa
Ulva rigida (Sea Lettuce)
Seagrasses
Seagrasses, unlike seaweed, are flowering plants that live submerged in the marine environment. There are an estimated 50 species of seagrasses worldwide, most of which are found in the tropics. Seagrass beds grow in shallow waters forming thick beds that provide an important habitat for marine life in temperate and tropical seas. These habitats vary in size and abundance from isolated patches to a continuous area that grows for miles. In waters with a lot of wave activity, beds tend to be patchy. In calmer waters, seagrass beds tend to carpet the seafloor.
Seagrasses typically grow as long, thin leaves with air channels that grow up from a creeping rhizome. Seagrasses are found from the mid-intertidal region to depths of 50 m. Most species grow in soft substrates, such as sand, and form a dense mat of entwined rhizomes and roots that not only secure the plant, but also stabilize sediment. They also absorb wave motion and slow currents.
Kelp Beds: Forests of the Sea
As mentioned previously, Pacific kelp is a large species of brown algae. Kelps grow throughout the cold temperate regions of the world. They are known as kelp beds where there is no surface canopy and kelp forests where they form a canopy.
Like other algae species, kelps attach to the substrate using a holdfast. The holdfast extends into a stem or trunk ending in broad, flat blades. A gas-filled pneumatocyst is found beneath the blade, which floats the kelp at the surface. They take up nutritents generated by the constantly moving seawater.
Macrocystis and Nereocystis are the two genera that make up most kelp forests on the Pacific coast of North America. These enormous kelps grow upward through the water column to 20-30 m in length. These plants grow toward the surface where they can spread their blades to obtain sunlight, which often blocks sunlight from other organisms. Beneath the canopy, an "understory" of algae is found, which forms another layer.
Kelps grow extremely quickly under the right conditions. Growth rates of 6 cm/day have been recorded in Nereocystis luetkanan (Scagel 1947) and Macrocystis pyrifera has been recorded at 50 cm/day (North 1971) on the California coast. Surprisingly, despite this rapid growth rate and high rate of productivity, relatively few marine species graze directly on the kelp.
References
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Biology, Karen arms and Pamela S. Camp, third edition, Chapter 26
Marine biology, an ecological approach, James W. Nybakken, 201-218 AlgaeBase California Academy of Sciences - Diatoms Introduction to Bacillariophyta (The Diatoms) Introduction to the Dinoflagellata Protist Information Server Microscopy-UK Tsukuba Laboratory of Plant Systematics and Phylogeny, U of Tsukuba |
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