department of marine science university of otago...carbonates, phosphates, halides, sulfates...
TRANSCRIPT
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Dr. Abby Smith
Department of Marine Science
University of Otago
Biomineralisation
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Biomineralisation
Biomineralisation is the process by
which living organisms produce mineral
products, usually skeletal
What? Who? Where? When? How?
How do we know?
Why? At what cost? Who cares?
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What?
Biominerals: almost 60 known
Carbonates, phosphates, halides, sulfates
Silicate, Fe oxides, Mn oxides, sulfides
Metals, citrate, oxalates and more
About 50% of all precipitated minerals
are based on Ca
Most common marine biominerals are
calcium carbonate and silicate
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Calcium carbonate Silicate
CaCO3 SiO2
Crystalline or
amorphous
Often contaminated with
other elements (Sr, Mg)
Many polymorphs
Commonly precipitated
by:
Foraminifera
Nannoplankton
Invertebrates
Amorphous opaline
silicate
Generally nearly pure
Commonly precipitated by:
Radiolarians, diatoms
Some other plants
Silicosponges and a few
other invertebrates
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Silicate is glass
SiO2 is the mineral quartz, the most
common mineral in Earth’s crust
Silicate is the main mineral in glass
Biomineral silicate is usually transparent &
glassy, often in needle shapes
SiO2 is used in cement, drilling muds,
various ore processing methods, also
grinding, leaching, pumps, and as
absorbents, lubricants, thickeners
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Mineral SiO2
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Biomineral SiO2
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CaCO3: an important biomineral
Calcium carbonate (a.k.a. lime)
Common on the Earth’s crust (4% by wt)
Used in cements, mortars, lime, glass-
making, ornamental stone
Fossils, mineral cements, limestones,
marbles, cave formations, mexican onyx,
iceland spar, “tv rock”
Several different crystal structures
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CaCO3 polymorphs
Calcite Aragonite
(trigonal) (orthorhombic)
C O O
O
Ca
Ca
Ca
Ca
Ca
Ca
C O O
O
Ca
Ca Ca
Ca Ca
Ca
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Calcite Aragonite
Easy, cheap to make
Resistant to dissolution
Stable over time
Mg substitution (< 22%)
Common in cool waters
Expensive to make
Resistant to mechanical stress
Metastable
Sr substitution (< 2%)
Common in warm waters
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Mineral Calcite
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Biomineral Calcite
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Mineral Aragonite
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Biomineral Aragonite
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22
8
4
0
HMC
IMC
LMC
Wt %
MgCO3
in
calcite
Bio-Mineralogical Space
0 50 100 Wt % Calcite
100 50 0 Wt % Aragonite
Aragonite Calcite
(Smith et al, 2006)
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Who?
Bacteria, fungi, protists
Algae, phytoplankton, plants
Invertebrates
Sponges, worms, bryozoans, brachiopods,
Molluscs, arthropods, echinoderms…
Vertebrates
Ascidians, chordates
In all, 55 phyla have at least some
mineralisers (thus some hard parts)
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Microfossils
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Coccolithophores
Haptophyta:
Prymnesiophyceae:
Coccolithales
Marine calcareous
nannoplankton
Coccolithus huxleyi
Coccoliths (~ 1 µm)
form sediment, chalk
Low-Mg calcite
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Foraminifera
Amoeboid protozoa
Pelagic marine
Consumers
Globigerina, Orbulina
Tests (1 mm) form
sediment
Important in deep sea
cores & paleoceanography
Almost all calcite
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Plants
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Codiacean Green
Algae
Chlorophyta:
Bryopsidales
Tropical marine
Halimeda, Penicillus
Rapid sediment
production, lime
mud
Usually aragonite
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Coralline Algae
Rhodophyta: Corallinales
Tropical to temperate marine
shallow water
Geniculate or non-geniculate
Corallina, Lithothamnion
Rhodoliths
Fossils, Limestone
High-Mg calcite
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Invertebrates
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Corals -- solitary and colonial
Coelenterata: Anthozoa
Soft vs hard corals
Reef-building (tropical)
vs solitary
Porites, Flabellum
Reefs, biodiversity, sea-
level research
Aragonite
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Brachiopods -- lamp shells
Brachiopoda
Benthic marine
Calloria, Notosaria,
Terebratella
Long fossil record
Usually calcite or
fluorapatite (Ca
phosphate)
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Bryozoans -- moss animals
Bryozoa
Marine benthic
colonies
Bugula, Cellepora
Thickets, encrusting
Important sediment-
formers, long fossil
record
Variable mineralogy
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Molluscs - clams, snails, squids
Pelecypods: clams,
scallops, oysters
Gastropods: snails,
limpets, paua
Cephalopods: squid,
octopus
Chitons, tusk shells,
pteropods
Highly variable mineralogy
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Annelids -- worms
Annelida: Serpulidae
Marine benthos
Tubes, reefs
Galeolaria, Serpula
High-Mg Calcite
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Arthropods: crabs, barnacles
Arthropoda:
Crustacea (crabs)
Cirripedia (barnacles)
Ostracoda
Cancer, Balanus
Mobile, consumers
Usually calcite
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Echinoderms -- urchins, stars
Echinodermata:
Echinoidea (urchins),
Asteroidea (stars)
Evechinus
Mobile, consumers
High-Mg calcite
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Vertebrates
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Vertebrates -- bone, eggs
Most bones are calcium phosphate
(Dahllite or Francolite):
Ca5(PO4, CO3)3OH
Otoliths & Eggshells: CaCO3
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Bio-Mineralogical Space
22
8
4
0
HMC
IMC
LMC
Wt %
MgCO3
in
calcite
0 50 100 Wt % Calcite
100 50 0 Wt % Aragonite
Aragonite Calcite
(Smith et al, 2006)
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Where?
Shallow tropical environments are
dominated by aragonite and high-Mg
calcite
In shallow temperate/polar
environments, low-Mg calcite dominates
Moderate deep waters -- calcite oozes
Deep high-productivity ocean -- silicate
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When?
5 billion years ago -- Earth
2.7 Bya -- First biological precipitation in
sulfides
1.6 Bya -- Encrusting bacteria produce
Mn crusts
1 Bya -- metazoans (unmineralised
fossils such as tracks, burrows)
1 Bya -- lightly calcified cyanobacteria
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Proterozoic - Phanerozoic
Phanerozoic means “visible life.”
570 Mya -- beginning of Cambrian Period
A major extinction
Onset of truly shelled organisms
Plants, animals, bacteria
Carbonates, phosphates, silicates
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Cambrian Period
570 to 490 Mya
“Problematica” experimenting with
minerals and structures, most died out
by end of Cambrian
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Ordovician Period
490 to 434 Mya
Phosphatic minerals became limited to vertebrates
Silicates precipitated by sponges, radiolarians
By 434 Mya, all major
mineralising taxa had
arisen and were
well-established.
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Vertebrates and bone
Devonian 395 Mya --
bony fish arise
Carboniferous 285 Mya -
- reptiles
Triassic 200 Mya --
mammals on land
Mid-Jurassic 170 Mya --
birds evolve last of the
vertebrates
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Mesozoic marine production
Triassic reef-building time 230 Mya
Carbonate producers (forams, coccoliths) invaded the open ocean at about 195 Mya
Silicate producers (radiolarians, diatoms) became important in the open ocean in the Cretaceous
(100 - 65 Mya)
Mollusc reef-building
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The situation now
Open ocean undersaturated with silica, much
lower in calcite than before the Jurassic.
Carbonate and silicate “stored” in solid form in
sea floor sediments
Huge and diverse aragonitic reefs in the
tropics
Large tracts of cool-water shelf gravels,
But remember -- it hasn’t always been this
way.
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How?
Silicification and Calcification are
complicated and poorly understood
People want to know, though, because
of the many medical uses to which such
information could be put
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Calcification
CO2 (gas) + H2O --> CO3= + 2H+
CO3= + 2H+ + Ca ++ --> CaCO3 + 2 H+
Does not require an organism -- if water is
warm and supersaturated
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Sites of Mineralisation
Surficial, Extracellular, Cell wall, cellular
Extracellular Cellular Cell wall Surficial
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How do we know?
Staining, titration
X-ray diffractometry
Raman laser spectrometry
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Biomineralisation costs
It takes up energy
It makes you heavier, maybe slower
It gets in the way of physiological
functions
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Why Biomineralise?
Protection
Structural support, doors
Food gathering
Reproductive protection
Navigation, Gravity reception
Detoxification, mineral storage
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So what?
Biomineralisation
produces shells
Shells break down
into sediment
Sediments lithify
into fossils,
limestones, marble
A permanent record
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A permanent record of what?
Chemistry of sea water
Marine sedimentation
Storage of solid carbonate in
the carbon cycle
Biodiverse environments
such as reefs
Fossilisation, preservation
Record of evolution over time
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Mineralogy and sea-water chemistry
Aragonite is less stable than calcite
High-Mg calcite is even less stable
High-Mg calcite producers may be at
greatest risk from acidification,
especially in cool waters
(Andersson et al., 2008)
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Bio-Mineralogical Risk
22
8
4
0
HMC
IMC
LMC
Wt %
MgCO3
in
calcite
0 50 100 Wt % Calcite
100 50 0 Wt % Aragonite
Aragonite Calcite
(Smith et al, 2006)
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So who cares?
Calcifying organisms
Life could get a lot harder for shell-formers
Marine food chains & reef dwellers
If calcifying organisms are struggling, so
will others who rely on them
Us
Implications for fisheries, conservation,
carbon cycle, marine geological history
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In Summary,
Many different kinds of marine
organisms make shells from many
different biominerals
CaCO3 (calcite and aragonite) is the
most common biomineral, and the most
likely to be affected by ocean
acidification
Understanding the mineralogy of marine
shells allows evaluation of risk