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Isotope Geochemistry I
Applications of Stable Isotopes
Χ. Στουραϊτη
Επίκουρη Καθηγήτρια
ΠΕΡΙΒΑΛΛΟΝΤΙΚΗ ΓΕΩΧΗΜΕΙΑ
5-2-2014
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Examples of applications
To establish an isotopic “profile” for a material, the ratios of the
stable isotopes of a number of elements such us 2H/1H, 13C/12C, 15N/14N and 18O/16O can be measured. The isotopic
abundances of these elements were fixed when Earth was
formed and, on a global scale, have not changed since. Subtle
variations in the isotopic composition may be introduced during
biological, chemical and physical processes.
The technique:
Isotope Ratio Mass Spectrometry (IRMS) is used to measure
the relative abundance of isotopes in different materials
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Examples of applications
• Geosciences
Geochemistry and geology
- Extent and temperature of post-burial alteration of
rocks
- Provenancing of clasts
- Identifying the source of water smples
Palaeoclimatology
Paleoecology
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Examples of applications
• Biological sciences
Ecology
- Photosynthetic pathways
- Food webs
- Ecohydrology
- Nutrient cycling
Human provenancing
Metabolic studies
Sports medecine
Toxicology - Distinguishing endogenous vs exogenous bio-chemicals
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Examples of applications
• Forensic sciences
Environmental forensics and monitoring
- Identifying the source of poluutants (eg. Oil spills)
- Monitoring atmospheric gases to distiguish
between natural – anthropogenic sources
- Climate studies
- Water cycle research
Food authenticity and traceability - Identifying adulteration of foods with cheaper foodstuffs
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Isotopes
• Isotopes have different ## of neutrons,
and thus a different mass
• Affect on reactions in small, but real, and
provides another measurement of
reactions – affected by similar
physicochemical parameters!
• Also a critical tracer – the isotopes can be
used to track molecules in a reaction!
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• A reaction or process which selects for
one of the stable isotopes of a particular
element
• If the process selects for the heavier
isotope, the reaction product is ‘heavy’, the
reactant remaining is ‘light’
Fractionation
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Fractionation Factor, a
• R is the ratio of heavy to light isotopes
• a, or fractionation factor, is the ratio between
reactant and product
products
tsreac
R
R tana
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Why a ratio???
• Differences between 2 isotopes of one
element is VERY small – to measure them
individually with enough precision is difficult
to impossible for most isotope systems
• By comparing a sample ratio to a standard
ratio, the difference between these two can
be determined much more precisely!!
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Isotope Standards
• VSMOW – Vienna Standard Mean Ocean
Water – bunch of ocean water kept in
Austria – O and H standard
• PDB – Pee Dee Belemnite – fossil of a
belemnite from the Pee Dee formation in
Canada – C and O
• CDT – Canyon Diablo Troilite –meteorite
fragment from meteor crater in Arizona,
contains FeS mineral Troilite – S
• AIR – Atmospheric air - N
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Measuring Isotopes • While different, isotopes of the same element
exist in certain fractions corresponding to
their natural abundance (adjusted by
fractionation)
• We measure isotopes as a ratio of the
isotope vs. a standard material (per mille ‰)
3
standard
standard18 10
R
RRO
sample
b
aa
bR
Ra
Where Ra is the ratio of
heavy/light isotope and a is
the fractionation factor
‰
a
bba
a
b aln103
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is “delta”, and is the isotope ratio of a particular
thing (molecule, mineral, gas) relative to a
standard times 1000. sometimes called ‘del’
is “delta” and is the difference between two
different isotope ratios in a reaction:
AB = A - B
3
standard
standard18 10
R
RRO
sample
Many isotopers are very sensitive about misuses of isotope terminology.
Harmon Craig’s immortal limerick says it all:
There was was a young man from Cornell
Who pronounced every "delta" as "del"
But the spirit of Urey
Returned in a fury
And transferred that fellow to hell
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Equilibrium Fractionation
• For an exchange reaction:
½ C16O2 + H218O ↔ ½ C18O2 + H2
16O
• Write the equilibrium:
• Where activity coefficients effectively cancel
out
• For isotope reactions, K is always small,
usually 1.0xx (this K is 1.047 for example)
)()(
)()(
2182
1
2
16
2162
1
2
18
OHOC
OHOCK
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WHY IS K DIFFERENT FROM
1.0?
Because 18O forms a stronger covalent bond
with C than does 16O.
The vibrational energy of a molecule is given by
the equations:
HOH
hE lvibrationa 21
m
k
2
1 kxF
Thus, the frequency of vibration depends
on the mass of the atoms, so the energy
of a molecule depends on its mass.
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• The heavy isotope forms a lower energy
bond; it does not vibrate as violently.
Therefore, it forms a stronger bond in
the compound.
• The Rule of Bigeleisen (1965) - The
heavy isotope goes preferentially into
the compound with the strongest bonds.
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Temperature effects on
fractionation • The fractionation factors, a, are affected
by T (recall that this affects EA) and
defined empirically:
• Then,
• As T increases, decreases – at high T
goes to zero
BT
Aa
b
2
63 10ln10 a
Where A and B are constants
determined for particular reactions
and T is temp. in Kelvins
a
bba
a
b aln103
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FRACTIONATION DURING
PHYSICAL PROCESSES
• Mass differences also give rise to
fractionation during physical processes
(diffusion, evaporation, freezing, etc.).
• Fractionation during physical process is a
result of differences in the velocities of
isotopic molecules of the same compound.
• Consider molecules in a gas. All molecules
have the same average kinetic energy, which
is a function of temperature.
22
1 mvEkinetic
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Using isotopes to get information on
physical and chemical processes
• Fractionation is due to some reaction, different isotopes can have different fractionation for the same reaction, and different reactions have different fractionations, as well as being different at different temperatures and pressures
• Use this to understand physical-chemical processes, mass transfer, temperature changes, and other things…
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Equilibrium Fractionation II
• For a mass-dependent reaction:
• Ca2+ + C18O32- CaC18O3
• Ca2+ + C16O32- CaC16O3
• Measure 18O in calcite (18Occ) and water
(18Osw)
• Assumes 18O/16O between H2O and CO32- at
some equilibrium
T ºC = 16.998 - 4.52 (18Occ -
18Osw) + 0.028 (18Occ-18Osw)2
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Empirical Relationship between Temp. &
Oxygen Isotope Ratios in Carbonates
At lower temperatures, calcite
crystallization tends to incorporate a
relatively larger proportion of 18O
because the energy level (vibration)
of ions containing this heavier isotope
decreases by a greater amount than ions
containing 16O.
As temperatures drop, the energy level
of 18O declines progressively by an
amount that this disproportionately
greater than that of the lighter 16O.
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ISOTOPE FRACTIONATION IN THE
HYDROSPHERE
Evaporation of surface water in equatorial regions
causes formation of air masses with H2O vapor
depleted in 18O and D compared to seawater.
This moist air is forced into more northerly, cooler air
in the northern hemisphere, where water
condenses, and this condensate is enriched in 18O
and D compared to the remaining vapor.
The relationship between the isotopic composition of
liquid and vapor is:
331818 1010 v
l
vl OO a
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Assuming that 18Ov = -13.1‰ and avl(O) =
1.0092 at 25°C, then
and assuming Dv = -94.8‰ and avl(H) = 1.074
at 25°C, then
These equations give the isotopic composition
of the first bit of precipitation. As 18O and D
are removed from the vapor, the remaining
vapor becomes more and more depleted.
Thus, 18O and D values become increasingly
negative with increasing geographic latititude
(and altitude.
0003318 0.410101.130092.1 lO
00033 8.2710108.94074.1 lD
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Map of North
America
showing
contours of the
approximate
average D
values of
meteoric surface
waters.
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Because both H and O occur together in water, 18O and D
are highly correlated, yielding the meteoric water line
(MWL): D 818O + 10
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Deviation from MWL
• Any additional fractionation process which
affects O and D differently, or one to the
exclusion of the other will skew a water
away from the MWL plot
• These effects include:
– Elevation effects - (D -8‰/1000m, -4‰/ºC)
– Temperature (a different!)
– Evapotranspiration and steam loss
– Water/rock interaction (little H in most rocks)
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Iron Isotopes Earth’s Oceans 3 Ga had no
oxygen and lots of Fe2+,
cyanobacteria evolved,
produced O2 which oxidized
the iron to form BIFs – in time
the Fe2+ was more depleted
and the oceans were stratified,
then later become oxic as they
are today This interpretation is largely based on iron
isotopes in iron oxides and sulfide minerals
deposited at those times (Rouxel et al., 2005)
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Experiments
• Fe2+ and
FeSmackinawite at
equilibrium,
separate physically
(filter) and measure
each component:
From Butler et al., 2005 EPSL 236 430-442
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Fe –isotope exchange with a particle
• Particles coarsen via
Ostwald ripening or
topotactic alignment –
how fast can isotopes
exchange with Fe in a
xstal actively getting
bigger?
• At certain size internal
Fe2+ does not
exchange…
Fe2+ Fe2+
Fe2+
Fe2+
Fe2+ Fe2+
Fe2+
Fe2+
Fe2+
Fe2+
Fe2+
Guilbaud et al., 2010 EPSL 300 174-183
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What can we get from using
multiple isotopes? • Many isotope systems have more than 2
stable isotopes – 56Fe, 57Fe, 58Fe; 32S, 33S, 34S, 36S
• Looking at multiple isotopes can provide
new insight on multiple processes,
especially useful for complicated reaction
pathways, also helps get at equilibrium v.
kinetic processes, and mass-dependent v.
independent processes…
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• Tracing S-isotopic fractionation from
different communities of organisms
(Sulfate-reducers, sulfur
disproportionation, phototrophic S oxid.)
From Zerckle et al., 2009 GCA 73, 291-306
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S isotopes and microbes
• The fractionation of H2S formed from
bacterial sulfate reduction (BSR) is affected
by several processes:
– Recycling and physical differentiation yields
excessively depleted H2S
– Open systems – H2S loss removes 34S
– Limited sulfate – governed by Rayleigh process,
enriching 34S
– Different organisms and different organic
substrates yield very different experimental 34S
• Ends up as a poor indicator of BSR vs. TSR
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Mass-independent fractionation
• Mass effects for 3 stable isotopes (such as 18O, 17O, and 16O) should have a mass-dependent relationship between each for any process
• Deviation from this is mass-independent and thought to be indicative of a nuclear process (radiogenic, nucleosynthetic, spallation) as opposed to a physico-chemical process
• Found mainly associated with atmospheric chemistry, effect can be preserved as many geochemical reactions in water and rock are mass-dependent
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S-isotopic evidence of Archaen
atmosphere
• Farquar et al., 2001; Mojzsis et al., 2003 found MIF signal in S isotopes (32S, 33S, 34S) preserved in archaen pyrites precipitated before 2.45 Ga
• Interpreted to be signal from the photolysis of SO2 in that atmosphere – the reaction occurs at 190-220nm light, indicating low O2 and O3 (which very effficiently absorb that wavelength)
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Volatilization
• calcite + quartz = wollastonite + carbon dioxide
CaCO3 + SiO2 = CaSiO3 + CO2
• As the CO2 is produced, it is likely to be expelled
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• Other volatilization reaction examples…
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