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Techniques and Applications of X-ray Fluorescence Microscopy in
Environmental Science
Ryan Tappero
National Synchrotron Light Source-II (NSLS-II)
New York, USA
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Outline
• Synchrotrons at Brookhaven National Lab – NSLS stats – NSLS-II machine status and performance
• X-ray Interactions with Matter (Image contrast mechanisms) – Absorption-, Fluorescence-, Diffraction-, Phase-contrast
• X-ray Fluorescence Microscopes – Techniques (XRF, XAS, XRD, fCMT) – ZP vs. KB (imaging vs. spectroscopy)
• Environmental Science Examples
• Summary
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Brookhaven National Lab
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Brookhaven National Lab
RHIC
NSLS
NSLS-II 1.2 km
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Brookhaven National Lab
RHIC
NSLS
NSLS-II 1.2 km
National Synchrotron Light Source (NSLS)
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NSLS in Its Final Year of Operation as an Outstanding Scientific User Facility
• NSLS Tradition and Strengths: Broad range of science programs Diverse capabilities over broad spectral range Highly engaged and productive user community
• Highly Productive & High Impact FY13 Since 1982 • Users 2,367 ~ 57,000 • Publications 881 17,182 • Protein Databank Deposits ~ 600 7,122 • 2 Nobel Prizes (2003, 2009)
• Crucial Resource • Universities: SBU, Columbia, MIT, Yale, Rutgers, ... • Industry: IBM, ExxonMobil, GE, Pharmaceuticals, ... • BNL: CFN, CMP, Catalysis, Struct Bio, Env Sci, ...
• NSLS ceased ops on Sep 30, 2014
59 Beamlines
2.8 GeV 0.8 GeV
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NSLS-II Project
Accelerator Systems –Storage Ring (~ ½ mile in circumference) –Linac and Booster Top-Off Injection System
Conventional Facilities –Ring Building/Exp. floor (400,000 gsf) –5 Laboratory/Office Bldgs designed to promote
interaction & collaboration among staff & users (190,000 gsf)
Experimental Facilities –Initial suite of 6 insertion device beamlines –Capable of hosting ~60 beamlines
Research and Developments –High-resolution crystal optics, nano-focusing and
nanopositioning, detectors developments
N
0 100 200
Fitted out
portion of
LOBs
NSLS-II Project “Completion” Mar 2015
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Electron storage ring at NSLS- II
Magnet structure at NSLS-II DBA= double-bend achromat
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Particle accelerator from IKEA Only available in Double-Bend Achromat (DBA)!
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• NSLS-II Accelerator Systems have provided >1500 hours of SR operations in FY15.
• All project BL IDs commissioned and front-ends are conditioned for 150 mA operations
• Stored 250 mA
• Stability: Met specification:
< 10% of source size in
vertical and horizontal
• Emittance: Met specification
1 nm-rad horiz
0.006 nm-rad vert
NSLS- II Accelerator Commissioning
after John Hill, NSLS-II director
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Diffraction pattern from a 20 mm square slit illustrating high coherence in both directions
CHX Beamline Commissioning
after John Hill, NSLS-II director
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SEM image of test pattern X-ray image from HXN
Data taken 4/25/15 using “fly scan” mode ~ 15 x 15 nm resolution
12 keV @ 50 mA current
Pt XRF
fly-scan:
5nm/pixel
Dwell time:
0.5s/pixel
Imaging data from the HXN beamline aka “Yong’s golden donuts”
after John Hill, NSLS-II director
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fly scan
5 nm/pixel
0.5 s/pixel
SEM*
*Note: SEM image was
taken right after synthesis.
The actual structure may
have changed after ~5
years of use
Imaging at ~15 nm resolution
after John Hill, NSLS-II director
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Comparisons with NSLS CeO2
• Science commissioning largely complete for
XPD beamline
Manuscript submitted 2 months after first light (Dec 2014).
Title: "Enhanced Thermoelectric Power and Electronic Correlations in RuSe2“.
Apl. Phys Lett. Mat. Feb. (2015)
Ru0.8Ir0.2Se2
Data taken at 0.5 mA
First Publication from NSLS-II
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X-rays: Interaction with matter
Scattering sample
detector data
Diffraction
detector data
sample
Absorption
data
detector
sample
detector
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Photoabsorption
• A source X-ray strikes an inner shell electron. If at high enough energy (above absorption edge of element), the e- is ejected from the atom
• Higher energy electrons cascade to fill vacancy
• Giving off characteristic fluorescent X-rays
• Characteristic X-ray: Each element has it’s own “color”!
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Anatomy of an EDX spectrum
Spot XRF analysis of tumeric powder at 17 keV
17 keV
Emission lines: each element has it’s own “color”!
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Imaging or Chemical Imaging?
1 mm
Co Ca K
Dark=high absorption Light=low absorption
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Spectroscopic “Chemical” Imaging
1 mm 1 mm
Co
Co
Zn
Scatter
Fe Mn Ca
K
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1 mm 1 mm
Mn
Co
Zn
Scatter
Fe Mn Ca
K
Spectroscopic “Chemical” Imaging
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1 mm 1 mm
Ca
Co
Zn
Scatter
Fe Mn Ca
K
Spectroscopic “Chemical” Imaging
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1 mm
Co Ca K
1 mm
K
Co
Zn
Scatter
Fe Mn Ca
K
Spectroscopic “Chemical” Imaging
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1 mm
Co Ca K
Co
Zn
Scatter
Fe Mn Ca
K
Spectroscopic “Chemical” Imaging
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Purpose: spatially-resolved characterization of elemental abundances and chemical
speciation in “as-is” samples that are heterogeneous at the (sub)micrometer scale.
Techniques: Micro-XRF: Spot XRF analyses of trace element composition Element Mapping: 2D composition and oxidation state imaging Fluorescence Microtomography: Internal 2D and 3D elemental imaging Micro-XAS: Spot XANES and EXAFS determinations of oxidation state and speciation Micro-XRD: phase identification and correlation with elemental and speciation information
X-ray fluorescence microprobe
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Elements with absorption edge in range for typical hard X-ray microprobe
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after J. Maser
X-ray focusing– Current state-of-art
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X-ray Fluorescence Microscope: FZP
after Stefan Vogt
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• High intensity, directionality, and collimation of SR sources ideally suited for creating X-ray micro- and nano-beams.
• Very high flux density SR μ-XRF source provides extremely high brilliance (i.e., photons per unit source area over a unit angle of emission).
• 3rd generation facilities can deliver > 1012 photons s−1 μm−2 using wide bandpass X-ray focusing optics, which can yield ppb MDL’s.
Why an X-ray microprobe?
• In-situ XRF, XAFS and XRD in heterogeneous materials, 3D chemical analysis with low power deposition.
• No chemical pretreatment required, samples can be analyzed in ‘as collected’ state. Liquids can be analyzed.
after A. Lanzirotti
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Absolute detection limits below 0.1 ag can be achieved (a few thousand of transition metal atoms) using XFM at 3rd generation sources
SXRF Detection Limits
Absolute mass detection limits (NIST standard, 6 × 1011 photons/s) – Adams et al. (2011) in
Handbook of Nuclear Chemistry, Second Edition
Probe MDL (ppm/s) Proton ~10-100 Electron ~ 5-30 Mono x-ray < 1 feasible EMPA & PIXE:
• inner shell hole production cross section low • signal-to-background low • PIXE flux density on the sample is low
Synchrotron X-ray microprobe with 1012 photons/s/mm2 has ~103 lower MDL for most elements PIXE can achieve the same MDL but with 104 more energy deposited in the sample.
after A. Lanzirotti
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X-ray fluorescence imaging
“As-is” sample 2-D mXRF “map” 3-D fCMT
Ni
“Virtual slice”
• Nickel is compartmentalized in leaf epidermal cells of hyperaccumulator A. murale
Anatomy of a microprobe experiment:
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mXRF “map”
X
mEXAFS
Raw XAS Spectra
-0.20
0.00
0.20
X-ray Absorption Spectroscopy (mXAS)
• Chemical binding (chelation) of Ni by organic and amino acids for transport in A.m.
Molecular speciation
-1.50
-0.75
0.00
0.75
1.50
2 3 4 5 6 7 8 9 10
data
fit
Ni-Histidine 40%
Ni-Malate/Citrate 60%
-1.50
-0.75
0.00
0.75
1.50
2 3 4 5 6 7 8 9 10
data
fit
delta E NSS
0.26 2.87 E-02
Anatomy of a microprobe experiment:
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X-ray microdiffraction (mXRD)
mXRF “map” mXRD
• A. murale trichomes (leaf hairs) are crystalline calcite (CaCO3)
Phase identification
10 15 20 25 30
2-theta (degrees)
Inte
nsit
y (
A.U
.)
d = 3.02
2.48
2.282.09
1.911.87
1.60 1.52 1.44
CaCO3
10 15 20 25 30
2-theta (degrees)
Inte
nsit
y (
A.U
.)
d = 3.02
2.48
2.282.09
1.911.87
1.60 1.52 1.44
CaCO3
10 15 20 25 30
2-theta (degrees)
Inte
nsit
y (
A.U
.)
d = 3.02
2.48
2.282.09
1.911.87
1.60 1.52 1.44
CaCO3
10 15 20 25 30
2-theta (degrees)
Inte
nsit
y (
A.U
.)
d = 3.02
2.48
2.282.09
1.911.87
1.60 1.52 1.44
CaCO3
Anatomy of a microprobe experiment:
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Science!
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Erosion
Reprecipitation
Soil Solution:
ions & complexes
Bioavailable ?
Transport Mn+ O
O
O
Adsorption and Desorption
Sorption to soil solids:
Inclusion into neo-formed solids (oxides,aluminosilicates)
Plant uptake: accumulation/toxicity
Dissolution of metal bearing phases
Release of metals into the Environment
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Exceeds 43 ppm Ni 345 km2
Exceeds 200 ppm Ni 29 km2
29 km2 = 2900 ha @ $3 million/ha or $8.7 billion for soil > 200 ppm Ni
Impacts from Smelter/ Refinery Site
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Co Ni Pb
Co Zn Pb
Ni Ni Co
Zn
Zn Ni
Phytoextraction… relies on hyperaccumulator plants to extract
metals from contaminated media
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Alyssum murale (yellowtuft)
• Concentrate trace metals (weight percent) in shoot tissue as mechanism to survive metalliferous soil conditions
• Accumulators recognized for centuries and used as geobotanical indicators for mineral prospecting (Cannon 1960)
• Alyssum being developed as commercial crop for phytomining and remediation by USDA (Chaney 1985)
• Mechanisms of metal tolerance as well as metal ion uptake, transport, and storage are being studied to improve hyperaccumulation.
Meet nickel hyperaccumulator Alyssum murale
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Alyssum murale in ebb-flow hydroponics
A. murale exposed to mixed metal (Ni, Co, Zn) systems
50-0-0 50-10-0 50-50-0 50-50-50 Control
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Bulk metal concentration in shoot tissue Ni-Co-Zn
Zn treatment
mM mg/g
50-0-0 1609 a 60 a
50-10-0 1417 a 404 a 57 a
50-50-0 1653 a 1569 b 69 a
50-50-50 1407 a 2065 c 129 b
Ni Co
Uptake of Ni and Co by A. murale using ICP-OES
NOTE: 50 mM ~ 3 ppm solution
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Co Ni Zn
Co Ni Zn
Co Ni Zn
3 mm
6 mm
0.5 mm
Internal metal localization in A.m. roots using fCMT
• Root tips (and root hairs) are important to absorption of Ni and Co
• In A.m. roots, Ni and Co localization patterns are nearly identical
fCMT images showing metal localization in a hydrated A.m. root from 50-50-50 treatment
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• Cobalt is localized at leaf tips/margins !!!
Metal localization in A.m. leaf using SXRF
SXRF images showing metal localization in a hydrated A.m. leaf from 50-50-50 treatment
• Nickel distribution is relatively uniform
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Hard X-rays are deeply penetrating…
Incident beam
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µ-focused beam
rotation stage
Sample fluoresced X-rays
q
transmitted & diffracted X-rays
CCD or
Diode
x
translation stage
…fluorescence computed microtomography (fCMT)
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• Cobalt is localized on leaf exterior near tips/ margins • Cobalt is excluded from epidermal cell layer
Co
75 mm
100 mm
50 mm
10 mm
5 mm 7 %
0.5 %
Ni
10 mm
15 mm
20 mm
5 mm
0 mm
0.5 %
10 %
500 mm
8 % 400 mm
900 mm
1250 mm
Co
500 mm
8 %
0.5 %
Cobalt localization in A.m. leaf using microtomography
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• Co preferentially localized between cells (apoplastic fluid)
8 %
Co
0.5 %
100 mm
Grey = Cell structure Color = Cobalt
Cobalt localization in A.m. leaf using microtomography
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Control
Co 25 mM
Co 50 mM
• Fumarate levels increase in response to increasing concentrations of Co in nutrient solution (Co = 0, 25, or 50 mM)
Fumarate
Organic acids in apoplastic fluid using HPLC
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Cobalt speciation in A.m. leaf using bulk EXAFS
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2 4 6 8 10
k (1/Å)
χ(k
)*k^
30 2 4 6 8
R + ΔR (Å)
FT
Ma
gn
itu
de
2 4 6 8 10k (Ǻ
-1)
χ(k
)*k
3
1
2
• Speciation varies between leaf-tip and bulk-leaf region
2
1
Cobalt speciation in A.m. leaf using mEXAFS
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0 1 2 3 4 5 6 7
R + ΔR (Ǻ)
FT
[K
3 χ
(k]
Ma
gn
itu
de
Co-O
Co-Co/Si
FT Magnitude
Imaginary phase
Multi-shell fit
CN = coordination number (1st shell +/- 20 %, 2nd shell +/- 40 %)
R = radial distance (1st shell +/- 0.03, 2nd shell +/- 0.06)
2 = Debye-Waller factor (1st shell +/- 0.003, 2nd shell +/- 0.006)
CN
5.8
4.7
2 (Å–2)
0.008
0.010
E0 (~eV)
-3.17
-3.17
Res.
1.55
1.55
Shell
Co - O
Co - Co
Co – Si
R (Å)
2.08
3.11
3.27 0.005 3.3 -3.17 1.55
• Speciation at leaf-tip is poorly-ordered hydrous Co silicate
Cobalt speciation in A.m. leaf tip using mEXAFS
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Light element imaging of A.m. leaf tip using SEM
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Light element imaging of A.m. leaf tip using SEM
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Summary: Metal interaction study
• Nickel hyperaccumulation is not compromised by the presence of Co and/or Zn at environmentally-relevant concentrations
• Nickel is bound to amino and organic acids for transport and storage, and is compartmentalized in leaf epidermal cells, thus “(hyper)tolerance”
• Cobalt is bound to amino and organic acids in planta, but is expelled from leaves and forms a hydrous Co silicate on the leaf exterior, thus “exocellular sequestration”
A. murale uses a different tolerance mechanism for Nickel than for Cobalt
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Ca
Biofortification Effort- Alfalfa
Punshon, T., R. Tappero, F.K. Ricachenevsky, K. Hirschi, and P.A. Nakata. 2014. The Plant Journal 76:627-633.
• Calcium (Ca) is an essential nutrient for humans, but excess Ca in plants is stored as mineral form not readily absorbed by humans • Crop plants can be selected to contain more bioaccessible Ca (i.e. biofortification)
• At the X-ray microprobe, XRF, XAS & XRD were used to understand how CAX1 gene alters the storage form of Ca in alfalfa
1 mm
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MUT
Ca
Biofortification Effort- Alfalfa
Punshon, T., R. Tappero, F.K. Ricachenevsky, K. Hirschi, and P.A. Nakata. 2014. The Plant Journal 76:627-633.
WT
Ca
1 mm
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Biofortification Effort- Alfalfa
Punshon, T., R. Tappero, F.K. Ricachenevsky, K. Hirschi, and P.A. Nakata. 2014. The Plant Journal 76:627-633.
• Wildtype cultivars have preferential localization of Ca in discrete hotspots both above and below secondary veins, whereas mutant cultivars (cod5) do not.
MUT
WT Ca
0.5 mm
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Biofortification Effort- Alfalfa
Punshon, T., R. Tappero, F.K. Ricachenevsky, K. Hirschi, and P.A. Nakata. 2014. The Plant Journal 76:627-633.
• XANES and XRD reveal Ca-oxalate (whewellite) in hotspots
WT Ca
0.5 mm
CaC2O4 (calcium oxalate)
CaC2O4 (whewellite)
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Biofortification Effort- Alfalfa
Punshon, T., R. Tappero, F.K. Ricachenevsky, K. Hirschi, and P.A. Nakata. 2014. The Plant Journal 76:627-633.
50 mm
WT Ca
0.5 mm
• Wildtype and mutant cultivars had similar leaf morphology and bulk Ca concentration
• Calcium localization was altered at the whole leaf scale by the gene knockout
• Calcium speciation was shifted toward a more bioavailable form
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(Eco)toxicology of Cr- Mouse
• Mice develop duodenal tumors upon chronic exposure (20 mg/L) of hexavalent chromium • Critical to identify the mode of action (MOA) underlying the development of Cr(VI)-induced intestinal cancers • At a super-micron X-ray probe, quantitative XRF and XAS were used to understand mechanisms of Cr toxicity in mouse model
(A) Representative duodenal section from control mouse stained with anti γ-H2AX to reveal DNA damage. (B) Representative section from mouse exposed to 20 mg/L Cr(VI) for 13 weeks. Note the relative blunting of villi and expansion of the crypt compartment (crypt epithelial hyperplasia)
Seiter, J., R. Tappero, C.M. Thompson et al.,. 2015. Toxicological Science (in review).
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2 3 4 5 6 7
F l u o r e
s c e n c e
C o u n t s
E n e r g y ( k e V )
V i l l i
C r y p t
C r K a
C r K b C a K a
C a K b T i K a
A r K a
A r K b
S K a
(Eco)toxicology of Cr- Mouse
• Chromium accumulation up to
100 mg/g was observed in the
duodenal villi, as trivalent Cr(III)
• Chromium did not accumulate in
the duodenal crypts; crypt
compartment is where stem cells
reside
Cr
1 mm
crypt
villi
Seiter, J., R. Tappero, C.M. Thompson et al.,. 2015. Toxicological Science (in review).
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0.5 mm
(Eco)toxicology of Cr- Mouse
Seiter, J., R. Tappero, C.M. Thompson et al.,. 2015. ES&T (in review).
>20 (100)
Cr
100 mm
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Cr chemistry in Chondritic Meteorite
Photo-micrograph under cross-polarized transmitted light of meteorite MAC 88136 featuring a forsterite-enstatite chondrule.
McKeown, D.A., A.C. Buechele, R. Tappero, T.J. McCoy, and K.G. Gardner-Vandy. 2014. American Mineralogist 99:190-197.
200 mm
• Understanding Cr valence states can shed light on the ƒO2 conditions of formation in meteorites
• Sample was a petrographic thin section with 50 – 200 micron size forsterite grains with ~0.13 wt% Cr. • At a super-micron resolution X-ray probe, XANES and EXAFS were used to characterize Cr chemistry in forsterite-enstatite chondrule
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Cr chemistry in Chondritic Meteorite
McKeown, D.A., A.C. Buechele, R. Tappero, T.J. McCoy, and K.G. Gardner-Vandy. 2014. American Mineralogist 99:190-197.
EXAFS: Cr2+ substituting for Mg2+ in the forsterite M(1) site
XANES: highly reduced Cr2+ species
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DU penetrator rods
• DU munitions have been used by the US Army since the 1950’s
• DU has been fired on military firing ranges all across the USA (Yuma, Aberdeen, Hawaii)
• Materials to replace DU in these rounds have been unsuccessful
• Current interest in cleanup and potential continued use – aim was to characterize DU weathering products
Lafferty, Seiter et al. (USACE)
Chemistry of Depleted Uranium (DU) in Military Firing Range Soils
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1 2
3 4
XANES spectra of the surface rod minerals, U(IV) Standard – Uranophane, and patterns for spots 1 and 2 from the maps at left
XRD patterns of the surface rod minerals (Bequerelite) and patterns for spots 2 and 4
• U found in the soil and around the rods is a mix of U(IV) and U(VI)
• A number of U minerals identified in soil and greater variety in the soils closely surrounding the rods
Chemistry of Depleted Uranium (DU) in Military Firing Range Soils
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• DU penetration rods weather in arid environments
• U will migrate to some extent in soil in arid environments
• U species identified through XRD indicate that soil chemistry will influence U mineral formation
• High levels of Ca in the DU garden soils encouraged the formation of Becquerelite (Ca(UO2)6O4(OH)6·8(H2O))
Lafferty et al. (USACE
Chemistry of Depleted Uranium (DU) in Military Firing Range Soils
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Punshon, et
al., 2008
• XFM is well-suited for evaluation of how specific genes influence the uptake of nutrients and contaminants in plants
• fCMT (3D XRF) provides non-destructive, three dimensional characterization of elemental distribution in plants in vivo.
• fCMT images of knockout and WT Arabidopsis seed confirmed localization of Fe requires vacuolar membrane transporter VIT1.
As XANES spectroscopy from
rice
3D in-vivo imaging of metals in
Arabidopsis using fluorescence
microtomography
Ionomics study: Iron homeostasis in plants
Kim, S.A., T. Punshon, A. Lanzirotti, L. Li, J.M. Alonso, J.R. Ecker, J. Kaplan, and M.L. Guerinot. 2005. Science 314:1295-1298.
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Ionomics study: Iron homeostasis in plants
…Pushing to higher detection sensitivity and to better spatial and temporal resolution!
Punshon et al., 2012
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Trace Element Chemistry in Diatoms
Cyclotella meneghiniana (diatom)
X-ray Fluorescence Microtomography (fCMT)
deJonge et al., 2010
…and pushing to 3-D!
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Conclusions
• Synchrotron radiation sources are ideal for developing tunable, high-intensity, highly-focused X-ray fluorescence microscopes
• Useful for characterizing the speciation, transport, and reactions of chemical species in biological and inorganic systems
• No chemical pretreatment required, samples can be analyzed in an ‘as collected’ state.
• Detection sensitivities in the attogram range and spatial resolutions less than 50 nanometers
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Thank you for your attention