2022
[26] Pogge von Strandmann PAE, Liu X, Liu C-Y, Wilson DJ, Hammond SJ, Tarbuck G, Aristilde L, Krause AJ & Fraser WT (2022) Lithium isotope behaviour during basalt weathering experiments amended with organic acids. Geochimica et Cosmochimica Acta 328, 37-57.
2021
[25] Jardine PE, Hoorn C, Beer MAM, Barbolini N, Woutersen A, Bogota-Angel G, Gosling WD, Fraser WT, Lomax BH, Huang H, Sciumbata M, He H & Dupont-Niven G (2021) Sporopollenin chemistry and its durability in the geological record: an integration of extant and fossil chemical data across the seed plants. Palaeontology 64(2) 285-305.
2019
[24] Jardine PE, Kent M, Fraser WT & Lomax BH (2019) Ginkgo leaf cuticle chemistry across changing pCO2 regimes. Paläontologische Zeitschrift 93, 549-558.
[23] Jardine PE, Fraser WT, Gosling WD, Roberts CN, Eastwood WJ & Lomax BH (2019) Proxy reconstruction of ultraviolet-B irradiance at the Earth's surface and its relationship with solar activity and ozone thickness. The Holocene 30(1), 155-161.
[22] Jardine PE, Gosling WD, Lomax BH, Julier ACM & Fraser WT (2019) Chemotaxonomy of domesticated grasses: a pathway to understanding the origins of agriculture. Journal of Micropalaeontolgy 38, 83-95.
[21] Pogge von Strandmann PAE, Fraser WT, Hammond SJ, Tarbucck G, Wood IG, Oelkers EH & Murphy MJ (2019) Experimental determination of Li isotope behaviour during basalt weathering. Chemical Geology 517, 34-43.
[20] Julier ACM, Jardine PE, Adu-Bredu S, Coe AL, Fraser WT, Lomax BH, Malhi Y, Moore S & Gosling WD (2019) Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana 58, 45-62.
2018
[19] Gosling WD, Julier ACM, Adu-Bredu S, Djagbletey GD, Fraser WT, Jardine PE, Lomax BH, Malhi Y, Manu EA, Mayle FE & Moore S (2018) Pollen-vegetation richness and diversity relationships in the tropics. Vegetation History and Archaebotany 27(2), 411-418.
[18] Kemp DB, Fraser WT & Izumi K (2018) Stratigraphic completeness and resolution in an ancient mudrock succession. Sedimentology 65, 1875-1890.
2017
[17] Julier ACM, Jardine PE, Adu-Bredu S, Coe AL, Duah-Gyamfi A, Fraser WT, Lomax BH, Malhi Y, Moore S, Owusu-Afriyie K & Gosling WD (2017) The modern pollen-vegetation relationships of a tropical forest-savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), 324-338.
[16] Jardine PE, Abernethy FAJ, Lomax WD, Gosling WD & Fraser WT (2017) Shedding light on sporopollenin chemistry, with reference to UV reconstructions. Review of Palaeobotany and Palynology 238, 1-6.
2016
[15] Jardine PE, Fraser WT, Lomax BH, Sephton MA, Shanahan TM, Miller CS & Gosling WD (2016) Pollen and spores as biological recorders of past ultraviolet irradiance. Scientific Reports 6, 39269.
[14] Julier ACM, Jardine PE, Coe AL, Gosling WD, Lomax BH & Fraser WT (2016) Chemotaxonomy as a tool for interpreting the cryptic diversity of Poaceae pollen. Review of Palaeobotany and Palynology 235, 140-147.
2015
[13] Lomax BH & Fraser WT (2015) Palaeoproxies: botanical monitors and recorders of atmospheric change. Palaeontology 58(5), 759-768.
[12] Mangalassery S, Mooney SJ, Sparkes DL, Fraser WT & Sjögersten S (2015) Impacts of zero tillage on soil enzyme activities, microbial characteristics and organic matter functional chemistry in temperate soils. European Journal of Soil Biology 68, 9-17.
[11] Fraser WT, Blei E, Fry SC, Newman MF, Reay DS, Smith KA & McLed AR (2015) Emission of methane, carbon monoxide, carbon dioxide and short-chain hydrocarbons from vegetation foliage under ultraviolet irradiation. Plant, Cell and Environment 38(5), 980-989.
[10] Jardine PE, Fraser WT, Lomax BH & Gosling WD (2015) The impact of oxidation on spore and pollen chemistry. Journal of Micropalaeontology 34(2), 139-149.
2014
[9] Fraser WT, Lomax BH, Jardine PE, Gosing WD & Sephton MA (2014) Pollen and spores as a passive monitor of ultraviolet radiation. Frontiers in Ecology and Evolution 2, article 12.
[8] Fraser WT, Watson JS, Sephton MA, Lomax BH, Gosling WD & Self S (2014) Changes in spore chemistry and appearance with increasing maturity. Review of Palaeobotany and Palynology 201, 41-46.
2012
[7] Fraser WT, Scott AC, Forbes AES, Glasspool IJ, Plotnick RE, Kenig F & Lomax BH (2012) Evolutionary stasis of sporopollenin biochemistry revealed by unaltered Carboniferous spores. New Phytologist 196(2), 397-401.
[6] Lomax BH, Fraser WT, Harrington GJ, Blackmore S, Sephton MA & Harris NBW (2012) A novel palaeoaltimetry proxy based on spore and pollen wall chemistry. Earth and Planetary Science Letters 353-354, 22-28.
[5] Watson JS, Fraser WT & Sephton MA (2012) Formation of a polyalkyl macromolecule from the hydrolysable component within sporopollenin during heating/pyrolysis experiments with Lycopodium spores. Journal of Analytical and Applied Pyrolysis 95, 138-144.
2011
[4] Fraser WT, Sephton MA, Watson JS, Self S, Lomax BH, Hames DI, Wellman CH, Callaghan TV & Beerling DJ (2011) UV-B absorbing pigments in spores: Biochemical responses to shade in a high-latitude birch forest and implications for sporopollenin-based proxies of past environmental change. Polar Research 30, article 8312.
2008
[3] Lomax BH, Fraser WT, Sephton MA, Callaghan TV, Self S, Harfoot M, Pyle JA, Wellman CH & Beerling DJ (2008) Plant spore walls as a record of long-term changes in ultraviolet-B radiation. Nature Geoscience 1, 592-596.
2007
[2] Watson JS, Sephton MA, Sephton SV, Beerling DJ, Self S, Fraser WT, Lomax BH, Gilmour I & Wellman CH (2007) Rapid determination of spore chemistry using thermochemolysis gas chromatography-mass spectrometry and micro-Fourier transform infrared spectroscopy. Photochemical and Photobiological Sciences 6, 689-694.
[1] Lindgren P, Parnell J, Norman C, Mark DF, Baron M, Ormö J, Sturkell E, Conliffe J & Fraser WT (2007) Formation of uranium-thorium-rich bitumen in the Locke impact structure, Sweden: A mechanism for carbon concentration at impact sites. Meteoritics and Planetary Sciences 42(11), 1961-1969.
[26] Pogge von Strandmann PAE, Liu X, Liu C-Y, Wilson DJ, Hammond SJ, Tarbuck G, Aristilde L, Krause AJ & Fraser WT (2022) Lithium isotope behaviour during basalt weathering experiments amended with organic acids. Geochimica et Cosmochimica Acta 328, 37-57.
2021
[25] Jardine PE, Hoorn C, Beer MAM, Barbolini N, Woutersen A, Bogota-Angel G, Gosling WD, Fraser WT, Lomax BH, Huang H, Sciumbata M, He H & Dupont-Niven G (2021) Sporopollenin chemistry and its durability in the geological record: an integration of extant and fossil chemical data across the seed plants. Palaeontology 64(2) 285-305.
2019
[24] Jardine PE, Kent M, Fraser WT & Lomax BH (2019) Ginkgo leaf cuticle chemistry across changing pCO2 regimes. Paläontologische Zeitschrift 93, 549-558.
[23] Jardine PE, Fraser WT, Gosling WD, Roberts CN, Eastwood WJ & Lomax BH (2019) Proxy reconstruction of ultraviolet-B irradiance at the Earth's surface and its relationship with solar activity and ozone thickness. The Holocene 30(1), 155-161.
[22] Jardine PE, Gosling WD, Lomax BH, Julier ACM & Fraser WT (2019) Chemotaxonomy of domesticated grasses: a pathway to understanding the origins of agriculture. Journal of Micropalaeontolgy 38, 83-95.
[21] Pogge von Strandmann PAE, Fraser WT, Hammond SJ, Tarbucck G, Wood IG, Oelkers EH & Murphy MJ (2019) Experimental determination of Li isotope behaviour during basalt weathering. Chemical Geology 517, 34-43.
[20] Julier ACM, Jardine PE, Adu-Bredu S, Coe AL, Fraser WT, Lomax BH, Malhi Y, Moore S & Gosling WD (2019) Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana 58, 45-62.
2018
[19] Gosling WD, Julier ACM, Adu-Bredu S, Djagbletey GD, Fraser WT, Jardine PE, Lomax BH, Malhi Y, Manu EA, Mayle FE & Moore S (2018) Pollen-vegetation richness and diversity relationships in the tropics. Vegetation History and Archaebotany 27(2), 411-418.
[18] Kemp DB, Fraser WT & Izumi K (2018) Stratigraphic completeness and resolution in an ancient mudrock succession. Sedimentology 65, 1875-1890.
2017
[17] Julier ACM, Jardine PE, Adu-Bredu S, Coe AL, Duah-Gyamfi A, Fraser WT, Lomax BH, Malhi Y, Moore S, Owusu-Afriyie K & Gosling WD (2017) The modern pollen-vegetation relationships of a tropical forest-savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), 324-338.
[16] Jardine PE, Abernethy FAJ, Lomax WD, Gosling WD & Fraser WT (2017) Shedding light on sporopollenin chemistry, with reference to UV reconstructions. Review of Palaeobotany and Palynology 238, 1-6.
2016
[15] Jardine PE, Fraser WT, Lomax BH, Sephton MA, Shanahan TM, Miller CS & Gosling WD (2016) Pollen and spores as biological recorders of past ultraviolet irradiance. Scientific Reports 6, 39269.
[14] Julier ACM, Jardine PE, Coe AL, Gosling WD, Lomax BH & Fraser WT (2016) Chemotaxonomy as a tool for interpreting the cryptic diversity of Poaceae pollen. Review of Palaeobotany and Palynology 235, 140-147.
2015
[13] Lomax BH & Fraser WT (2015) Palaeoproxies: botanical monitors and recorders of atmospheric change. Palaeontology 58(5), 759-768.
[12] Mangalassery S, Mooney SJ, Sparkes DL, Fraser WT & Sjögersten S (2015) Impacts of zero tillage on soil enzyme activities, microbial characteristics and organic matter functional chemistry in temperate soils. European Journal of Soil Biology 68, 9-17.
[11] Fraser WT, Blei E, Fry SC, Newman MF, Reay DS, Smith KA & McLed AR (2015) Emission of methane, carbon monoxide, carbon dioxide and short-chain hydrocarbons from vegetation foliage under ultraviolet irradiation. Plant, Cell and Environment 38(5), 980-989.
[10] Jardine PE, Fraser WT, Lomax BH & Gosling WD (2015) The impact of oxidation on spore and pollen chemistry. Journal of Micropalaeontology 34(2), 139-149.
2014
[9] Fraser WT, Lomax BH, Jardine PE, Gosing WD & Sephton MA (2014) Pollen and spores as a passive monitor of ultraviolet radiation. Frontiers in Ecology and Evolution 2, article 12.
[8] Fraser WT, Watson JS, Sephton MA, Lomax BH, Gosling WD & Self S (2014) Changes in spore chemistry and appearance with increasing maturity. Review of Palaeobotany and Palynology 201, 41-46.
2012
[7] Fraser WT, Scott AC, Forbes AES, Glasspool IJ, Plotnick RE, Kenig F & Lomax BH (2012) Evolutionary stasis of sporopollenin biochemistry revealed by unaltered Carboniferous spores. New Phytologist 196(2), 397-401.
[6] Lomax BH, Fraser WT, Harrington GJ, Blackmore S, Sephton MA & Harris NBW (2012) A novel palaeoaltimetry proxy based on spore and pollen wall chemistry. Earth and Planetary Science Letters 353-354, 22-28.
[5] Watson JS, Fraser WT & Sephton MA (2012) Formation of a polyalkyl macromolecule from the hydrolysable component within sporopollenin during heating/pyrolysis experiments with Lycopodium spores. Journal of Analytical and Applied Pyrolysis 95, 138-144.
2011
[4] Fraser WT, Sephton MA, Watson JS, Self S, Lomax BH, Hames DI, Wellman CH, Callaghan TV & Beerling DJ (2011) UV-B absorbing pigments in spores: Biochemical responses to shade in a high-latitude birch forest and implications for sporopollenin-based proxies of past environmental change. Polar Research 30, article 8312.
2008
[3] Lomax BH, Fraser WT, Sephton MA, Callaghan TV, Self S, Harfoot M, Pyle JA, Wellman CH & Beerling DJ (2008) Plant spore walls as a record of long-term changes in ultraviolet-B radiation. Nature Geoscience 1, 592-596.
2007
[2] Watson JS, Sephton MA, Sephton SV, Beerling DJ, Self S, Fraser WT, Lomax BH, Gilmour I & Wellman CH (2007) Rapid determination of spore chemistry using thermochemolysis gas chromatography-mass spectrometry and micro-Fourier transform infrared spectroscopy. Photochemical and Photobiological Sciences 6, 689-694.
[1] Lindgren P, Parnell J, Norman C, Mark DF, Baron M, Ormö J, Sturkell E, Conliffe J & Fraser WT (2007) Formation of uranium-thorium-rich bitumen in the Locke impact structure, Sweden: A mechanism for carbon concentration at impact sites. Meteoritics and Planetary Sciences 42(11), 1961-1969.