2022
and in press
93. Tompkins D.C., Stewart D.I., Graham J.T. and
Burke I.T. In situ disposal of crushed concrete waste as void fill material at
UK nuclear sites: Leaching behavior and effect of pH
on trace element release. Journal of
Hazardous Materials Advances (2022) 5, 100043. PDF SI.
92. Zhai, J., Burke, I.T. and Stewart, D.I.
Potential reuse options for biomass combustion ash as affected by the
persistent organic pollutants (POPs) content. Journal of Hazardous Materials Advances (2022) 5, 100038. PDF SI.
2021
91. Zhai, J., Burke, I.T. and Stewart, D.I.
Beneficial management of biomass combustion ashes. Renewable and Sustainable Energy Reviews (2021) 151, 111555. PDF SI.
90. Sanchez-Marroquin A., Burke I.T., West J,
McQuaid J.B. and Murray B.J. Mineral and biological ice-nucleating particles
above the South East of the British Isles. Environmental
Science: Atmospheres
(2021) 1, 176-191. PDF SI.
89. Zhai, J., Burke, I.T., Mayes, W.M. and
Stewart, D.I. New insights into biomass combustion ash categorisation: A
phylogenetic analysis. Fuel (2021)
287, 119469. PDF SI.
2020
88. Adams M.P., Tarn M.D., Sanchez-Marroquin A.,
Porter G.C.E., O'Sullivan D., Harrison A.D., Cui Z.,
Vergara-Temprado J., Carotenuto F., Holden M.A., Daily, M.I., Whale T.F.,
Sikora S.N.F., Burke I.T., Shim J-u., McQuaid J.B. and Murray B.J. A major
combustion aerosol event had negligible impact on the atmospheric
ice-nucleating particle population. Journal
of Geophysical Research - Atmospheres (2020) 125(22), e2020JD032938. PDF SI.
87. Riley A.L., MacDonald J.M., Burke, I.T.,
Renforth P., Jarvis, A.P. Hudson-Edwards K.A., McKie
J. and Mayes W.M. Legacy Iron and Steel Wastes in the UK: Extent, Resource
Potential, and Management Futures. Journal
of Geochemical Exploration (2020) 219, 106630. PDF SI.
86. Sanchez-Marroquin A., Arnalds
O., Baustian-Dorsi K.J., Dagsson-Waldhauserova
P., Harrison A.D., Maters E.C., Pringle K.J., Vergara-Temprado J., Burke I.T.,
McQuaid J.B., Carslaw K.S., and Murray B.J. Iceland is an episodic source of
atmospheric ice-nucleating particles relevant for mixed-phase clouds. Science Advances, (2020) 6(26),
eaba8137. PDF SI.
85. Boylan A. A., Stewart D. I., Graham J. T. and
Burke I. T. The behaviour of low molecular weight organic carbon-14 containing
compounds in contaminated groundwater during denitrification and
iron-reduction. Geomicrobiology Journal
(2020) 37(5), 486-495. PDF.
2019
84. Sanchez-Marroquin A., Hedges D.H.P., Hiscock
M., Parker S.T., Rosenberg P.D., Trembath J., Richard
Walshaw R., Burke I.T., McQuaid J.B. and Murray B.J. Characterisation of the
filter inlet system on the BAE-146 research aircraft and its use for size
resolved aerosol composition measurements. Atmospheric
Measurement Techniques (2019) 12, 5741-5763. PDF
SI.
83. Mayes W.M., Burke I. T., Deutz P., Bray A.W.
and Gomes H. Resource Recovery and Remediation of Alkaline Wastes (R3AW). CL:AIRE research
bulletin (2019) RB 21, ISSN 2047-6450, pp1-4. PDF
82. Pullin H., Bray A.W., Burke I.T., Muir D.D., Sapsford
D.J., Mayes W.M. and Renforth P. The atmospheric carbon capture performance of
legacy iron and steel waste. Environmental
Science and Technology (2019) 53, 9502-9511. PDF SI
81. Hudson-Edwards K. A., Byrne P., Bird G.
Brewer P. A., Burke I.T., Jamieson H. E., Macklin M. G. and Williams R. D.
Origin and fate of vanadium in the Hazeltine Creek catchment following the 2014
Mount Polley mine tailings spill, British Columbia, Canada. Environmental Science and Technology
(2019) 53, 4088-4098.80. PDF
SI
80. Aldmour S. T., Burke I. T., Bray A. W., Baker
D. L., Ross A. B., Gill F., Cibin G., Ries M. E. and Stewart D. I. Abiotic
reduction of Cr(VI) by humic acids derived from peat
and lignin: kinetics and removal mechanism. Environmental
Science and Pollution Research (2019) 26(5) 4717-4729. PDF SI
2018
79. Watt J. A. J., Burke I. T., Edwards R. A.,
Malcolm H. M., Mayes W. M. Olszewska J. P. Pan G., Graham M. C., Heal K. V.,
Rose N. L., Turner S. D. and Spears B. M. Vanadium - a re-emerging
environmental hazard. Environmental
Science and Technology (2018) 52(21) 11973-11974. PDF
78. Hobson A. J., Stewart D. I., Mortimer R. J. G.,
Mayes W. M., Rogerson M. and Burke I. T. Leaching behaviour of co-disposed
steel making wastes: Effects of aeration on leachate chemistry and vanadium
mobilisation. Waste Management (2018)
81, 1-10. PDF
77. O'Sullivan D., Adams M, Tarn M. D., Harrison A. D.,
Vergara- Temprado J., Porter G. C. E., Holden M. A., Sanchez-Marroquin A., Carotenuto F., Whale T. F., McQuaid J. B., Walshaw R.,
Hedges D., Burke I. T., Cui Z. and Murray B. J. Biogenic material and desert
dust contributes to the atmospheric ice-nucleating particle population in
Northern Europe. Scientific Reports
(2018) 8, 13821 PDF SI
76. Higgins D., Curtin T., Burke I.T. and
Courtney R. The potential for constructed wetland mechanisms to treat alkaline
bauxite residue leachate: carbonation and precipitate characterisation. Environmental Science and Pollution Research (2018)
25(29), 29451-29458. PDF
SI
75. Gomes H. I., Mayes W. M., Baxter H. A. Jarvis A.P., Burke I. T., Stewart
D. I. and Rogerson M. Options for managing alkaline steel slag leachate: A life
cycle assessment. Journal of Cleaner
Production (2018) 202, 401-412. PDF
SI
74. Woodward G. L., Peacock C. L., Otero-Farina A., Thompson O. A.,
Brown A. P. and Burke I. T. A universal uptake mechanism for cobalt(II)
on soil constituents: ferrihydrite, kaolinite, humic
acid, and organo-mineral composites. Geochimica et Cosmochimica Acta (2018) 238,
270-291. PDF SI
73. Boylan A. A., Stewart D. I., Graham J. T. and Burke I. T.
Behaviour of carbon-14 containing low molecular weight organic compounds in
contaminated groundwater under aerobic conditions. Journal of Environmental Radioactivity (2018) 192, 279-288. PDF
72. Hobson A. J., Stewart D. I., Bray A. W., Mortimer R. J. G., Mayes
W. M., Riley A. L., Rogerson M. and Burke I. T. Behaviour and fate of vanadium
during the aerobic neutralisation of hyperalkaline
slag leachate. Science of the Total
Environment (2018) 643, 1191-1199. PDF
71. Vidal-Dura A., Burke I. T., Mortimer R. J. G. and Stewart D. I.
Diversity patterns of benthic bacterial communities along the salinity
continuum of the Humber estuary (UK). Aquatic
Microbial Ecology (2018) 81(3), 277-291. PDF
SI
70. Hodkin D. J., Stewart D. I., Graham J. T., Cibin G. and Burke I.
T. Enhanced Crystallographic incorporation of Strontium(II) ions to Calcite via
Preferential Adsorption at Obtuse growth steps. Crystal Growth and Design (2018) 18(5) 2836-2843. PDF SI
69. Vidal-Dura A., Burke I. T., Stewart D. I and Mortimer R. J. G. Reoxidation of estuarine sediments during simulated
resuspension events: Effects on nutrient and trace metal mobilisation. Estuarine, Coastal and Shelf Science (2018)
207, 40-55. PDF SI
68. Cusack P. B., Healy M. G., Ryan P. C., Burke I. T., O'Donoghue L. M. T., Ujaczki E. and Courtney R. Enhancement
of bauxite residue as a low-cost adsorbent for phosphorus in aqueous solution
using seawater and gypsum treatments. Journal
of Cleaner Production (2018) 179, 217-224. PDF SI
67. Stewart D. I., Bray A. W., Udoma G.,
Hobson A. J., Mayes W. M., Rogerson M. and Burke I. T. Hydration of Dicalcium
Silicate and Diffusion through Neo-Formed Calcium-Silicate-Hydrates at
Weathered Surfaces Control the Long-Term Leaching Behaviour of Basic Oxygen
Furnace (BOF) Steelmaking Slag. Environmental
Science and Pollution Research (2018) 25, 9861-9872. PDF SI
66. Bray A. W., Stewart D. I., Courtney R., Rout S. P., Humphreys P.
N., Mayes W. M. and Burke I. T. Sustained Bauxite Residue Rehabilitation with
Gypsum and Organic Matter 16 years after Initial Treatment. Environmental Science and Technology
(2018) 52(1), 151-161. PDF SI
2017
65. Hirst C., Andersson P. S., Shaw S.,
Burke I. T., Kutscher L., Murphy M. L., Maximov T., Pokrovsky O. S., Mӧrth
C-M., and Porcelli D. Characterisation of Fe-bearing particles and colloids in
the Lena River basin, NE Russia. Geochimica et Cosmochimica Acta (2017) 213, 553-573. PDF SI
64. Hobson A. J., Stewart D. I., Bray A. W., Mortimer R. J. G., Mayes
W. M., Rogerson M. and Burke I. T. Mechanism of Vanadium Leaching During
Surface Weathering of Basic Oxygen Furnace Steel Slag Blocks: A Microfocus X-ray Absorption Spectroscopy and Electron
Microscopy Study. Environmental Science
and Technology (2017) 51(14), 7823-7830. PDF SI
63. Gomes H. I., Rogerson M., Stewart D. I., Burke I. T. and Mayes W. M.
Hydraulic and biotic impacts on neutralisation of high-pH waters. Science of the Total Environment (2017)
601-602, 1271-1279. PDF SI
62. Littlewood J. L., Shaw S., Peacock C. L., Bots P., Trivedi D. and
Burke I. T. Mechanism of enhanced strontium uptake into calcite via an
amorphous calcium carbonate (ACC) crystallisation pathway. Crystal Growth and Design (2017) 17(3), 1214-1223. PDF SI
61. Boylan A. A., Stewart D. I., Graham J. T., Trivedi D. and Burke I.
T. Mechanisms of inorganic carbon-14 attenuation in
contaminated groundwater: Effect of solution pH on isotopic exchange and
carbonate precipitation reactions. Applied
Geochemistry (2017) 85(B), 137-147. PDF
SI
60. Gomes H. I., Jones A., Rogerson M., Greenway G. M., Fernandez D.,
Burke I. T. and Mayes W. M. Removal and recovery of vanadium from alkaline
steel slag leachates with anion exchange resins. Journal of Environmental Management (2017) 187, 384-392. PDF
2016
59. Gomes H. I., Jones A., Rogerson M., Burke I. T. and Mayes W. M.
Vanadium removal and recovery from bauxite residue leachates by ion exchange. Environmental Science and Pollution Research
(2016) 23(22) 23034-23042. PDF
58. Ding W., Botha J. A., Hanson B. C. and Burke I. T. Aqueous
hydroxylation mediated synthesis of crystalline calcium uranate
particles. Journal of Alloys and
Compounds (2016) 688, 260-269. PDF
SI
57. Sheng Y, Sun Q, Sun R., Burke I T. and Mortimer R. J. G. Use of
bauxite residue (red mud) as a low cost sorbent for sulfide
removal in polluted water remediation. Water
Science and Technology (2016) 74(2) 359-366. PDF
56. Hodkin D. J., Stewart D. I., Graham J. T. and Burke I.
T. Coprecipitation of 14C and Sr with
carbonate precipitates: The importance of reaction kinetics and recrystallization
pathways. Science of the Total
Environment (2016) 562, 335-343. PDF
SI.
55. Fuller A. J., Shaw S., Peacock C. L., Trivedi D., and Burke I. T. EXAFS
study of Sr sorption to illite, goethite, chlorite and mixed sediment under
hyper-alkaline conditions. Langmuir (2016)
32(12) 2937-2946. PDF SI
54. Mayes, W. M., Burke I. T., Gomes, H. I., Anton A. D., Ujaczki E.,
Molnar M. and Feigl V. Advances in understanding environmental risks of red mud
after the Ajka spill, Hungary. Journal of
Sustainable Metallurgy (2016) 2, 332-343. PDF.
53. Ding W., Stewart D. I., Humphreys P. N., Rout S. P. and Burke I. T.
Role of an organic carbon-rich soil and Fe(III) reduction in reducing the
toxicity and environmental mobility of Chromium(VI) at a COPR disposal site. Science of the Total Environment (2016)
541, 1191-1199. PDF SI
52. Gomes H. I., Mayes W. M., Rogerson M.,
Stewart D. I. and Burke I. T. Alkaline residues and the environment: A review
of impacts, management practices and opportunities. Journal of Cleaner Production (2016) 112 3751-3582. PDF SI
2015
51. Littlewood J. L., Shaw S., Bots P., Peacock C.
L., Trivedi D. and Burke I. T. Effect of solution composition on the recrystallisation of kaolinite to feldspathoids
in hyperalkaline conditions: Limitations of pertechnetate incorporation by ion competition effects. Mineralogical Magazine (2015) 79(6),
1379-1388. PDF
50. Mayes W. M. and Burke I. T. Risks,
remediation and recovery: Lessons for bauxite residue management from Ajka. In:
Pontikes Y. et al. (Ed), Bauxite residue valorisation
and best practices (2015) pp35-45. PDF
49. Fuller S. J., Burke I. T. McMillan D. G. G.,
Ding W. and Stewart D. I. Population Changes in a Community of Alkaliphilic
Iron Reducing Bacteria Due to Changes in the Electron Acceptor: Implications
for Bioremediation at Alkaline Cr(VI) Contaminated Sites. Water, Air and Soil Pollution (2015) 226, 180, DOI
10.1007/s11270-015-2437-z. PDF SI
48. Lockwood C. L., Stewart D. I., Mortimer R. J.
G., Mayes, W. M., Jarvis A. P., Gruiz K. and Burke I.
T. Leaching of copper and nickel in soil-water systems contaminated by bauxite
residue (red mud) from Ajka, Hungary: The importance of soil organic matter. Environmental Science and Pollution Research
(2015) 22, 10800-10810. PDF SI
47. Fuller A. J., Shaw S., Ward M. B., Haigh S.
J., Mosselmans F. W., Peacock C. L., Stackhouse S., Dent A. J., Trivedi D., and
Burke I. T. Caesium incorporation and retention in illite interlayers. Applied Clay Science (2015) 108,
128-134. PDF SI
46. Burke I. T, Mosselmans F. W., Shaw S.,
Peacock C. L., Benning L. G. and Cocker V. S. Impact of the Diamond Light
Source on Research in Earth and Environmental Sciences: Current Work and Future
Perspectives. Philosophical Transactions
A (2015) 373 (2036), 20130151. PDF
2014
45. Anton A. D., Feigl V., Klebercz
O., Burke I. T., Jarvis A. P., Gruiz K. and Mayes W.
M. Geochemical Recovery of the Torna-Marcal river
system after the Ajka red mud spill, Hungary. Environmental Science: Processes & Impacts (2014) 16,
2677-2685. PDF
44. Lockwood C. L., Mortimer R. J. G., Stewart D.
I., Mayes, W. M., Peacock C. L., Polya D.A., Lythgoe P.R., Lehoux A. P., Gruiz
K. and Burke I. T. Mobilisation of arsenic from bauxite residue (red mud)
affected soils: Effect of pH and redox conditions. Applied Geochemistry (2014).51, 268-277. PDF SI
43. Misik M., Burke I.
T., Reismuller M., Pichler
C., Reiner B., Misikova K., Mayes W.M. and Knasmueller S. Red mud a byproduct
of aluminum production contains soluble vanadium that
causes genotoxic and cytotoxic effects in higher plants. Science of the Total Environment (2014) 493, 883-890. PDF
42. Small J. S., Wallace S. H. and Burke I. T.
Strontium 90 mobility in contaminated nuclear facilities and groundwater. NNL Science Journal (2014) 2, 25-29. PDF
41. Fuller A. J., Shaw S., Peacock C. L., Trivedi
D., Small J. S., Abrahamsen L. G. and Burke I. T. Ionic strength and pH
dependent multi-site sorption of Cs onto a micaceous aquifer sediment. Applied Geochemistry (2014) 40, 32-42. PDF SI
40. Fuller S. J., McMillan D. G. G., Renz M. B.,
Schmidt M., Burke I. T. and Stewart D. I. Extracellular electron transport
mediated Fe(III) reduction by a community of alkaliphilic bacteria that use flavins as electron shuttles. Applied and Environmental Microbiology (2014). 80 (1) 128-137. PDF SI
39. Rogers C. M., Burke I. T., Amed I. A. and Shaw S. Immobilization of chromate in hyperalkaline waste streams by green rusts and zero-valent
iron. Environmental Technology (2014). 35 (4) 508-513. PDF SI
2013
38. Burke I. T., Peacock C. L., Lockwood C. L.,
Stewart D. I., Mortimer R. J. G., Ward M. B., Renforth P., Gruiz,
K. and Mayes, W. M. Behaviour of aluminium, arsenic and vanadium during the
neutralisation of red mud leachate by HCl, gypsum, or
seawater. Environmental Science and
Technology (2013) 47, 6527-6535. PDF
SI
37. Wallace S. H., Shaw S., Morris K., Small J.
S. and Burke I. T. Alteration of Sediments by Hyperalkaline
K-Rich Cement Leachate: Implications for Strontium Adsorption and
Incorporation. Environmental Science and
Technology (2013) 47 (8), 3694-3700. PDF
SI
36. Fuller S.J., Stewart D.I. and Burke I. T.
Chromate Reduction in Highly Alkaline Groundwater by Zero Valent Iron:
Implications for its use in a permeable reactive barrier. Industrial and Engineering Chemistry Research (2013) 52 (13),
4704-4714. PDF SI
35. Burke I. T. Long-term behaviour of
contaminant metals in red mud. Diamond
Light Source Ltd. Annual Review 2013 (2013) pp17-18. PDF
34. Lehoux A. P., Lockwood C. L., Mayes W. M.,
Stewart D. I., Mortimer R. J. G., Gruiz K. and Burke
I. T. Gypsum addition to soils contaminated by red mud: Implications for
aluminium, arsenic, molybdenum and vanadium solubility. Environmental Geochemistry and Health (2013) 35, 643-656. PDF
33. Whittleston R. A., Stewart D. I., Mortimer R.
J. G. and Burke I. T. Enhancing microbial iron reduction in hyperalkaline,
chromium contaminated sediments by pH amendment, Applied Geochemistry. (2103) 28, 135-144. PDF SI
2012
32. Burke I. T., Mortimer R. J. G., Palani S., Whittleston R. A., Lockwood C. L., David J.
Ashley D. J. and Stewart D. I. Biogeochemical reduction processes in a hyper-alkaline
leachate affected soil profile. Geomicrobiology
Journal. (2012) 29 (9), 769-779. PDF
31. Wallace S.H., Shaw S., Morris K., Small J. S., Fuller A. J. and Burke I.T. Effect of groundwater pH and ionic strength on strontium sorption in aquifer sediments: Implications for 90Sr mobility at contaminated nuclear sites, Applied Geochemistry. (2012) 27 (8), 1482-1491. PDF
30. Thorpe C. L., Lloyd J. R., Law G. T. W., Burke
I. T., Shaw S., Bryan N. D. and Morris K. Strontium sorption and incorporation
behaviour during bioreduction in nitrate impacted
sediments, Chemical Geology. (2012)
306-307, 114-122. PDF
29. Burke I. T., Mayes, W. M., Peacock C. L.,
Brown A. P., Jarvis A. P. and Gruiz, K. Speciation of
arsenic, chromium and vanadium in red mud samples from the Ajka spill site,
Hungary, Environmental Science and
Technology. (2012) 46, 3085-3092. PDF
SI
28. Renforth P., Mayes W. M., Jarvis A. P., Burke
I. T., Manning, D. A. C. and Gruiz, K. Contaminant
mobility and carbon sequestration downstream of the Ajka (Hungary) red mud
spill: the effects of gypsum dosing. Science of the Total Environment. (2012) 421-422, 253-259. PDF
27. Thorpe C.L., Law G.T.W., Boothman
C., Lloyd J.R., Burke I.T. and Morris K. The synergistic effects of high
nitrate concentrations on sediment bioreduction. Geomicrobiology Journal. (2012) 29,
484-493. PDF
2011
26. Mayes W. M., Jarvis A. P., Burke I. T.,
Walton M. and Gruiz K. (2011) Trace and rare earth element
dispersal downstream of the Ajka red mud spill, Hungary, In: Wolkersdorfer C.; Freund A.; Rude T. R. (Ed) Mine Water -
Managing the challenges, International Mine Water Association, pp.29-34. PDF
25. Whittleston R. A., Stewart D. I., Mortimer R.
J. G., Tilt Z. C., Brown A. P., Geraki K., and Burke
I. T. Chromate reduction in Fe(II)-containing soil affected by hyperalkaline leachate from chromite ore processing
residue. Journal or Hazardous Materials (2011)
194 (c) 15-23. PDF SI
24. Mcbeth
J. M., Law G. T. W., Lloyd J. R., Livens F. R., Burke I. T. and Morris K. Redox interactions of technetium with
biogenic and abiologically precipitated Fe minerals. Mineralogical Magazine. (2011) 75
2419-2430. PDF
23. Law G. T. W., Geissler, A., Burke I. T., Livens F. R., Lloyd J. R., McBeth
J. M., and Morris K. Uranium redox cycling in sediment and biomineral systems. Geomicrobiology Journal.
(2011) 28 (5 & 6) 497-506. PDF
22. Geissler, A., Boothman, C., Livens, F.R., Lloyd, J.R., Law, G.T.W.,
Morris, K. and Burke, I.T.; Microbially
mediated Fe(II) oxidation in reduced technetium-containing sediments. Geomicrobiology
Journal. (2011) 28 (5
& 6) 507-518. PDF
21. Mayes W. M., Jarvis A. P., Burke I. T.,
Walton M. Feigl, V., Klebercz, O. and Gruiz K. Dispersal and attenuation of trace contaminants
downstream of the Ajka bauxite residue (red mud) depository failure, Hungary. Environmental Science and Technology. (2011)
45 (12) 5147-5155. PDF SI
20. Begg J. D. C., Burke I. T., Shaw S., Lloyd J.R., Boothman C. Charnock J. and M. Morris K., Bioreduction
behaviour of U(VI) sorbed to sediments. Geomicrobiology
Journal. (2011) 28 (2) 160-171. PDF
19. Whittleston
R. A, Stewart D. I., Mortimer, R.J.G., Ashley D. and Burke I. T. Effect of Microbially induced anoxia on Cr(VI)
mobility at a hyperalkaline chromite ore processing
residue contaminated site. Geomicrobiology
Journal. (2011) 28 (1) 68-82. PDF
2010
18. Geissler A., Selenska-Pobell S., Morris K., Burke I. T., Livens F. R. and
Lloyd J.R. (2010) The microbial ecology of land and water contaminated with
radioactive waste; towards the development of bioremediation options for the
nuclear industry, In: Batty C. L. Hallberg K., and Jarvis P. A. (Ed) The
Ecology of Industrial Pollution: restoration, remediation and preservation,
Ecological Reviews , Cambridge University Press, UK,
pp.226-241. PDF
17. Law G. T. W., Geissler
A., Lloyd J. R., Livens F. R., Boothman C., Begg J.
D. C. Denecke M.A., Rothe
J., Dardenne K., Burke I. T., Charnock J. M. and
Morris K. Geomicrobiological redox cycling of the
transuranic element neptunium. Environmental
Science and Technology. (2010) 44
(23) 8924-8929. PDF SI
16. Burke I. T., Livens F. R., Lloyd J. R., Brown, A., Law G. T.
W., McBeth J. M., Ellis, B., Lawson R.S. and Morris
K.
Fate of technetium in reduced sediments: comparison of direct and
indirect analysis. Applied Geochemistry. (2010) 25 (2) 233-241. PDF
15. Law G. T. W., Geissler
A., Lloyd J. R., Burke I. T.,
Livens F. R., Boothman C. and Morris K. Role of
nitrate in conditioning aquifer sediments for technetium bioreduction.
Environmental Science and Technology. (2010) 44 (1) 150-155. PDF SI
14. Lear G., McBeth, J. M., Boothman C., Gunning, DJ., Ellis, B., Lawson, R., Morris, K., Burke, I. T., Bryan N., Livens F.R.
and Lloyd J.R. Probing the Biogeochemical Behavior of Technetium Using a
Novel Nuclear Imaging Approach. Environmental Science and Technology. (2010) 44 (1) 156-162. PDF SI
13. Stewart D. I., Burke I. T., Hughes-Berry D.
V. and Whittleston R. A., Microbially mediated chromate reduction in soil
contaminated by highly alkaline leachate from chromium containing waste. Ecological
Engineering. (2010) 36 (2) pp211-221.
PDF
2008
12. Begg J. D. C., Burke I. T., Charnock J. M.
and Morris K. Behaviour of technetium
in Dounreay soil exposed to air and nitrate. Radiochimica Acta. (2008) 96
(9-11) 631-636. PDF
11. Morris K., Livens F.R., Charnock J. M., Burke I. T., McBeth J. M., Begg J. D.
C., Boothman C. and Lloyd J. R. An
X-ray absorption study of the fate of technetium in reduced and reoxidised sediments and mineral phases. Applied
Geochemistry. (2008) 23, pp
603-617. PDF
2007
10. Morris K, Livens F.
R., Charnock J. M., Burke I. T., McBeth J. M., Boothman C., and Lloyd J. R. (2007) Microbially
driven transformations of technetium. In: Denecke MA;
et al (Ed) Speciation Techniques and Facilities for Radioactive Materials at
Synchrotron Light Sources, Nuclear Energy Agency, Issy-les-Moulineaux, France, pp.71-81. PDF
9. Stewart D. I., Burke I. T. and Mortimer R. J. M. Stimulation of microbially-mediated
chromate reduction in alkaline soil-water systems. Geomicrobiology Journal. (2007) 24 (7 & 8) pp 655-669. PDF
8. McBeth
J. M., Lear G., Lloyd J. R., Livens F. R., Morris K. and Burke I. T. Technetium reduction and reoxidation
in aquifer sediments. Geomicrobiology
Journal. (2007) 24 (3 & 4) pp 189-197. PDF
7. Begg J. D. C., Burke I. T. and Morris K. The behaviour of
technetium during microbial bioreduction in amended
soils from Dounreay, UK. Science of the Total
Environment. (2007) 373 pp 297-304. PDF
2006
6. Burke I. T., Boothman C., Lloyd J. R., Livens F. R., Charnock J. M., McBeth J. M., Mortimer R. J. M. and Morris K. Reoxidation behavior of technetium,
iron and sulfur in estuarine sediments. Environmental
Science and Technology. (2006) 40
(11) pp 3529 3535.
PDF SI
2005
5. Lloyd J. R., Renshaw
J. C., May I., Livens F. R., Burke I.
T., Mortimer R. J. M. and Morris K. Biotransformation of
actinides: Microbial reduction of actinides and fission products. Journal of
Nuclear and Radiochemical Sciences. (2005) 6 (1) 17-20. PDF
4. Burke I. T., Boothman C., Lloyd J. R., Mortimer R. J. M., Livens F. R.
and Morris K. Effects of progressive anoxia on the solubility of technetium in
sediments. Environmental Science and Technology (2005) 39 (11) pp 4109-4116. PDF SI
2004
3. Burke I. T. and Kemp
A. E. S. A mid-Holocene geochemical record of salt water inflow to the Baltic
Sea. The Holocene (2004) 14 (6)
940-948. PDF
2002
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sediments from the Gotland Deep, Baltic Sea. Marine Geology (2002)
183 89-105. PDF
1. Burke I. T. and Kemp
A. E. S. Micro-fabric analysis of Mn-Carbonate
laminae deposition and Mn-sulphide formation in the
Gotland Deep, Baltic Sea. Geochimica et Cosmochimica Acta (2002) 66 (9) 1589-1600. PDF