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Download Spatial Distribution Five Kingdoms of Life Three domains of life
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Spatial Distribution high surface area volume ratio increases •drag (friction) •nutrient uptake •Fig. 2.1 A spatial classification of marine organisms. Five Kingdoms of Life Protista: “grab-bag kingdom” single-celled eukaryotes: phytoplankton protozoa (eg, ciliates) zooplankton form chains of cells or colonies sometimes Three domains of life phytoplankton parasitic protozoa (Giardia) Three domains of life: Archaea •single celled, tiny •unique cell membrane •prokaryotes (no nucleus or organelles)) •live in extreme environments (high T or produce methane) 1 Three domains of life: Archaea Three domains of life: bacteria •single celled, small •no membrane-bound nucleus •no organelles Yellowstone Hot Springs. Archaea living in boiling water Three domains of life: Eukaryotes Three domains of life: Eukaryotes Fungi, Protists, Plants, Animals... Fungi, Protists, Plants, Animals... cells contain: cells have a nucleus and organelles (eg, mitochondria and chloroplasts) nucleus DNA in chromosomes organelles mitochondria (~all) and plastids (plants) Cyanobacteria (“blue green algae”) Cyanobacteria form stromatolites Domain Bacteria early producers of oxygen Anabaena 400x and 2500 x stromatolites •mounded, microbial mat with sand or mineralized material •mostly fossils, modern day stromatolites in W Australia, Baja •early oxygen atmosphere created by cyanobacteria 2 Classification of Plankton Five kingdoms: Domain: Animalia Plantae Fungi Protista Animalia Archaea Bacteria Eukaryota Identify the kingdoms and domains zooplankton = protozoa (eg foraminifera, ciliates), copepods and other crustacea, jellyfish, and other animals that feed on phytoplankton or eachother) Foraminifera •single celled •calcium carbonate shell (“test”) •marine •large (up to 10 cm) •benthic (sea floor) or pelagic (open water) •heterotropic (eat others) •many are symbiotic with algae Foraminifera (specks on “hairs” are symbiotic algae) Foraminifera (“bearer of little holes” philopods come out of holes to feed or to expose symbionts to light) 3 Foraminifera (growth of chambers) living sands (skeletons of foraminifera seen through hand lens) Phytoplankton Groups diatoms •one celled, chains •phytoplankton •cell walls made of silica •fossils well-preserved •important in colder seas Chrysophyta •Fig. 3.9. An SEM view of Thalassiosira, a coastal diatom, clearly showing the epitheca, hypotheca, and a connecting girdle of cell wall material. ( Courtesy of G. Fryxell) Cyclotella stelligera diatom http://www. indiana.edu/%7Ediatom/diatom.html Diatoms Diploneis Krill - nekton or zooplankton? http://en.wikipedia.org/wiki/Krill 4 Noctiluca bloom CA Dinophytes (dinoflagellates) •unicellular •marine •photosynthetic, or parasitic, fish eating •cause “red tides” •bioluminescent seas •important in tropical seas •symbiotic with corals Pfiesteria (fish-killing dinoflagelllate) What links country-sized patches of bright turquoise water in the oceans, CO2 concentrations in the atmosphere, and the white cliffs of Dover? Emiliania huxleyi , a coccolithophore plankton http://www.vims.edu/pfiesteria/ bloom (turquoise) calcium carbonate platelets (protection from uv? predators?) http://www.soes.soton.ac.uk/staff/tt/ coccolithophore photosynthetic grow in lownutrients warm and temperate seas Sargasso Sea dominated by one species of Coccolithophore Chalky skeleton (sunscreen?) Coccolithophore blooms: cover huge areas many loose coccoliths plus living cells simultaneous bloom over wide area 5 Dinophytes (dinoflagellates) •unicellular •marine •photosynthetic, or parasitic, fish eating •cause “red tides” •toxic •bioluminescent milky blue from loose coccoliths from coccolithophores, •important in tropical seas •symbiotic with corals massive blooms over areas size of countries toxic algae blooms Dinophytes (dinoflagellates) • dinoflagellates (paralytic shellfish poisoning) can produce potenttoxins • diatoms (amnesiac shellfish poisoning) ciguaterra poisoning (from eating large fish) paralytic shellfish poisoning “Bioaccumulation” (or “biomagnification”) toxins accumulate in tissues of predators in increasing amounts, enough to kill higher trophic levels (people, birds, sea lions) when diatoms go bad…. Harmful algal blooms - history “Paralytic shellfish poisoning” from eating shellfish contaminated with “red tides” (plankton, dinoflagellates) known for years. 1987 - Prince Edward Island, Canada, 3 people died from eating shellfish, 100 sick, due to domoic acid, a new toxin produced by a diatom plankton 1991 - Domoic acid found in razor clams off coast of Washington and Oregon, and large die-off of seabirds 1998 - 400 California sea lions died in California from domoic acid (yearly die-offs since then) 2003 - whales? (off NE coast of USA 6 Harmful algal blooms, history cont Domoic Acid causes “amnesiac shellfish poisoning” Produced by diatom Pseudo-nitzchia (at least 8 species). First toxin found in a diatom. Domoic acid accumulates in shellfish as they filter feed on plankton. Mammals and birds affected when they eat shellfish. Shellfish not harmed by domoic acid toxin, but it accumulates in their tissues = bioaccumulation. harmful algal blooms yearly sea lion and dolphin deaths off California in recent years domoic acid from plankton Symptoms of poisoning in humans: seizures, nausea, vomiting, dizziness, confusion, coma and possible death. permanent memory loss, no antidote 7
