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GEOL 3213 MICROPALEONTOLOGY

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Title: GEOL 3213 MICROPALEONTOLOGY


1
GEOL 3213MICROPALEONTOLOGY
  • Diatoms
  • Introduction Classification

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Photosynthetic algae
  • Phylum Bacillariophyta (diatoms)
  • Phylum Chrysophyta (chrysophytes)
  • Phylum Haptophyta (coccoliths)
  • Phylum Phaeophyta (brown algae)
  • Phylum Chlorophyta (green algae)
  • Phylum- Rhodophyta (red algae)
  • etc.
  • Diatoms and coccoliths are grouped together with
    the chrysophyta (includes silicoflagellates) by
    some workers.

Other Algae
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Diatoms Biology Ecology
  • Unicellular /or colonial organisms
  • Eukaryotic
  • Lack flagella
  • Asexual and sexual reproduction
  • May be single celled or in chains
  • Photosynthetic, productive even in cold
    nutrient-rich water (Antarctic, etc.)
  • Base of the food chain Grass of the sea
    (Account for up to 25 total world primary food
    production by phytoplankton. Some species
    harvested for food for shellfish industry.)
  • Planktic and benthic forms

Seafloor siliceous ooze composed of diatoms and
radiolaria
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Diatoms Biology Ecology
  • Can move on within the sediment with mucus
    streamers associated with a groove called the
    raphe
  • Can live heterotrophically in the dark
  • Occurrences
  • Freshwater (lacustrine, swamp, marsh, riverine)
  • Marine (shoreline environments to the deep sea)
  • Other
  • Damp terrestrial
  • Hot springs
  • Hypersaline lakes
  • Melt-water pools on icebergs
  • Diversity of benthic forms is high worldwide

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Diatom Classification
  • Diatoms are the golden brown algae
  • Some researchers classify them in the Phylum
    Bacillariophyta
  • Other workers put them, with the coccolithophores
    silicoflagellates, in the Phylum Chrysophyta
  • Frustrule (porous valves) shapes vary greatly, so
    there is no simple summary of morphology
  • Two major subdivisions are recognized
  • Centrales (centric) circular, oblong,
    hemicircular, triangular, or quadrangular, with
    surface features arranged around a central point
    radially symmetrical
  • Pennales (pennate) elongate with major features
    at right angles to the median line (long axis).
    (These are further subdivided into 7 subgroups.)
    - bilaterally symmetrical

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Diatom Skeletons
  • Range
  • Jurassic(?) marine, Mid-Cretaceous to Recent
  • Oldest nonmarine forms are Eocene
  • Skeleton called a frustrule
  • Overlapping bivalves
  • Box hypotheca
  • Lid epitheca
  • Overlapping sides girdle
  • Porous (called punctae) striae costae
  • Raphe groove for locomotion?
  • Opaline
  • Marine dominantly centric forms (Cretaceous to
    Recent)
  • Nonmarine dominantly pennate forms (Paleocene to
    Recent)
  • As small as 5 um and up to 500 or more um
  • Account for 70-90 siliceous particles suspended
    in oceanic water
  • Siliceous skeleton resistant to solution in deep
    sea sediments
  • Diagenetic solution reprecipitation leads to
    chert formation
  • Sediments oozes, diatomaceous earth, diatomite

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HOW DIATOMS REPRODUCE
  • Reproduction mainly asexual occurs during
    mitosis. Some sexual reproduction with meiosis
    (when population sizes very small)
  • Alternation of sexual and asexual reproduction
  • Figure below Girdle views of diatom valves
    through several reproductive phases. Note the
    progressive decrease in size of some forms.

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Diatom structure
  • Frustule made of polymerized opaline silica
    joined in two overlapping halves. Two halves fit
    together like Petri dish elaborate glass
    houses
  • Raphe - Tiny slit that runs along cells
    thought that tiny microfibrils extrude from this
    to enable locomotion
  • Pennate form better movers more common in
    freshwater
  • Centric form more common in marine.

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Diatom Morphology
  • Striae line of punctae
  • Costae raised ridge parallel to striae

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Centrales
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Examples of Centrales
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Pennales
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Examples of Pennales
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Diatom Diversity Through Time
  • Centric forms
  • Cretaceous to Recent
  • Dominate the plankton
  • Pennate forms
  • Paleocene to Recent
  • Dominate the benthos

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Diatoms Uses
  • Applications of diatom studies
  • Used a lot by Quaternary geologists
  • Age-dating and correlation
  • Many short-ranged species
  • Especially for the Tertiary
  • Paleoenvironmental studies
  • O18/O16 ratios used for paleotemperature studies
  • Used to detect polluted water because of
    environmental sensitivity, e. g., to nitrate and
    phosphate nutrient enrichments
  • Natural absorbent Diatoms from marine
    freshwater deposits are mined because
  • Highly porous
  • Low density
  • Used to make dynamite
  • Without its adsorbent character, Nobel's
    invention would not have been possible
  • Absorbing nitro-glycerin into diatomite made
    possible it's
  • Transport
  • Safe use
  • Other major industrial uses are
  • Filtration
  • Water purification

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But they are not all good and beautiful.
  • Big contibutors to 'natural' occurrences of toxic
    marine conditions.
  • Eutrophication
  • Along coasts - Some diatom blooms have caused
    mass pollution, oxygen depletion, exphixiation,
    starvation.
  • Marine biotoxin ('domoic acid) Some diatom
    species that produce it are members of the
    planktonic genera Pseudonitzschia Peragallo
  • Domoic acid is a naturally occurring amino acid
    and is a glutamate analogue that strongly binds
    to the glutamate receptors in the brain where it
    causes nerve cells to transmit impulses
    continuously until the cells die.

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End of File
  • Which of these diatoms are pennate diatoms
    which are centric diatoms?

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End of File
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Diatom Lab Exercise
1.
2.
  • Examine the slides with marine diatoms
  • 2. Examine the slides with freshwater diatoms
  • 3. Determine which of the unknowns is from a
    freshwater deposit and which is from a marine
    deposit. State your reasons

Unknown Marine? Nonmarine? Reason(s)
Name ______________
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Heterokonts different flagella
  • Tinsel - Long pleuronematic flagellum, directed
    forward during swimming
  • Lining pleuronematic flagellum are two rows of
    special, stiff hairs, called mastigonemes (or
    flimmers). The mastigonemes are composed of
    glycoprotein and are synthesized in the cisternae
    of the endoplasmic reticulum.
  •  
  • 2) Whiplash - a shorter smooth flagellum that
    points backwards along the cell.

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  • The smooth, backwardly directed flagellum bears
    a swelling near its base, which fits against the
    concave eyespot. The eyespot lies at the anterior
    of the cell, enclosed within the chloroplast, and
    consists of a single layer of globules containing
    reddish-orange pigment. The eyespot and flagellar
    swelling together form the photoreceptor
    apparatus, which is the light-perceiving
    organelle of the cell.

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Molecular studies
  • 1) fungus like heterokonts diverged early
  • 2) pigmented heterokonts derived from a single,
    common ancestor
  • 3) early separation of the pigmented forms into
    two clades diatoms vs the rest.
  • 3) green algae clear ancestor of plants.
    Plants paraphyletic to protists.

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Life cycles
  • Zygotic meiosis fungi and some algae
  • Dominant phase haploidy, transient zygotes divide
    meiotically and form new haploids.
  • Gametic meiosis animals, water molds and some
    green and brown algae
  • Zygote produces haploid gametes that fuse and
    restore diploidy. Gametes do not grow.
  • Sporic meiosis (alternation of generations)
    plants, many algae and some others
  • Meiosis produces spores which can divide
    mitotically to create multicellular haploid
    organism. These gametophytic cells can fuse -
    sporophyte
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