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| nationality = British
| nationality = British
| citizenship = British
| citizenship = British
| residence = UK
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| occupation = Professor of Biogeochemistry
| occupation = Professor of Biogeochemistry
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==Education and career==
==Education and career==


Evershed graduated in 1978 from Nottingham Trent University (Trent Polytechnic, Nottingham) with a BSc in Applied Chemistry. He undertook his PhD in the Department of Chemistry at the [[University of Keele]], investigating pheromones in social insects. Following his PhD he worked as a postdoctoral researcher in the Organic Geochemistry Unit in the School of Chemistry, University of Bristol, where he worked with Professor Geoffrey Eglinton and Professor James Maxwell to develop [[GC/MS]] and [[HPLC]] methodologies to investigate [[porphyrins]] in crude oils and source rocks. He moved to the Department of Chemistry, University of Liverpool in 1984 to manage a biochemical mass spectrometry unit, before taking up a position as Lecturer in the School of Chemistry, [[University of Bristol]], in 1993. He was promoted to Reader in 1996, and a Chair of Biochemistry in 2000.<ref>{{cite web |title=Professor Richard Evershed |url=http://www.bris.ac.uk/chemistry/people/richard-p-evershed/about.html |website=University of Bristol}}</ref>
Evershed attended [[St Ivo School]], St Ives in the late 1960s<ref>{{cite web |title=Honour for former St Ives scientist |url=https://www.huntspost.co.uk/news/honour-for-former-st-ives-scientist-1-551094 |website=The Hunts Post}}</ref> and graduated in 1978 from Nottingham Trent University (Trent Polytechnic, Nottingham) with a BSc in Applied Chemistry. He undertook his PhD in the Department of Chemistry at the [[University of Keele]], investigating pheromones in social insects. Following his PhD he worked as a postdoctoral researcher in the Organic Geochemistry Unit in the School of Chemistry, University of Bristol, where he worked with Professor Geoffrey Eglinton and Professor James Maxwell to develop [[GC/MS]] and [[HPLC]] methodologies to investigate [[porphyrins]] in crude oils and source rocks. He moved to the Department of Chemistry, University of Liverpool in 1984 to manage a biochemical mass spectrometry unit, before taking up a position as Lecturer in the School of Chemistry, [[University of Bristol]], in 1993. He was promoted to Reader in 1996, and a Chair of Biochemistry in 2000.<ref>{{cite web |title=Professor Richard Evershed |url=http://www.bris.ac.uk/chemistry/people/richard-p-evershed/about.html |website=University of Bristol}}</ref>


He is currently the Director of the Bristol Biogeochemistry Research Centre, and the Bristol node of the [[Natural Environment Research Council|NERC]] Life Sciences Mass Spectrometry Facility. He was elected a [[Fellow of the Royal Society]] in 2010.<ref>{{cite web |title=Professor Richard Evershed |url=https://royalsociety.org/people/richard-evershed-11415/ |website=The Royal Society}}</ref>
He is currently the Director of the Bristol Biogeochemistry Research Centre, and the Bristol node of the [[Natural Environment Research Council|NERC]] Life Sciences Mass Spectrometry Facility. He was elected a [[Fellow of the Royal Society]] in 2010.<ref>{{cite web |title=Professor Richard Evershed |url=https://royalsociety.org/people/richard-evershed-11415/ |website=The Royal Society}}</ref>
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Evershed's research is highly interdisciplinary. He applies the principles and techniques of organic and analytical chemistry, to address questions spanning archaeological chemistry and palaeontology to biogeochemistry. These diverse areas are linked by his overarching interests in the preservation, recycling, decay and transport processes that impact biological materials once they enter the geosphere.<ref>{{cite web |title=Professor Richard Evershed - Research |url=http://www.bris.ac.uk/chemistry/people/richard-p-evershed/research.html |website=Bristol University}}</ref>
Evershed's research is highly interdisciplinary. He applies the principles and techniques of organic and analytical chemistry, to address questions spanning archaeological chemistry and palaeontology to biogeochemistry. These diverse areas are linked by his overarching interests in the preservation, recycling, decay and transport processes that impact biological materials once they enter the geosphere.<ref>{{cite web |title=Professor Richard Evershed - Research |url=http://www.bris.ac.uk/chemistry/people/richard-p-evershed/research.html |website=Bristol University}}</ref>


He pioneered several methodologies to analyse archaeological materials and provide ‘chemical fingerprints’, for example the method of lipid residue analysis in archaeological pottery. His research has had a significant impact on our understanding of human activity in the past, opening new avenues for the identification of plant and animal exploitation in the past. These methods have contributed to our understanding of the origins of dairying, and provided evidence for the earliest use of beeswax.<ref>{{cite web |title=Combining chemistry and archaeology gives scientists a real buzz |url=https://www.chemicalindustryjournal.co.uk/combining-chemistry-archaeology-gives-scientists-real-buzz |website=Chemical Industry Journal}}</ref>
He pioneered several methodologies to analyse archaeological materials and provide ‘chemical fingerprints’, for example the method of lipid residue analysis in archaeological pottery. He has also developed techniques for comparing and distinguishing between food signatures and possible environmental contamination.<ref name="Wilke">{{cite journal |last1=Wilke |first1=Carolyn |title=What did ancient people eat? Scientists find new clues in old pottery |journal=Knowable Magazine |date=21 July 2021 |doi=10.1146/knowable-052221-1 |url=https://knowablemagazine.org/article/society/2021/what-did-ancient-people-eat |access-date=30 November 2021|doi-access=free}}</ref> His research has had a significant impact on our understanding of human activity in the past, opening new avenues for the identification of plant and animal exploitation in the past. These methods have contributed to our understanding of the origins of dairying, and provided evidence for the earliest use of beeswax, for example.<ref>{{cite web |title=Combining chemistry and archaeology gives scientists a real buzz |url=https://www.chemicalindustryjournal.co.uk/combining-chemistry-archaeology-gives-scientists-real-buzz |website=Chemical Industry Journal|date=18 April 2016 }}</ref>
Other areas his research has focused on includes stable isotope applications for studying ancient diet and agriculture, the study of marker compounds in ancient soils, and the analysis of ancient tars, resins and embalming agents. His palaeontological research has applied a similar approach to fossils, to develop a better understanding of the processes involved in the [[diagenesis]] of fossil and sub fossil organisms.
Other areas his research has focused on includes stable isotope applications for studying ancient diet and agriculture, the study of marker compounds in ancient soils, and the analysis of ancient tars, resins and embalming agents.<ref>{{cite web |title=What's for Dinner, Mummy? |url=https://theanalyticalscientist.com/techniques-tools/whats-for-dinner-mummy |website=The Analytical Scientist}}</ref> His palaeontological research has applied a similar approach to fossils, to develop a better understanding of the processes involved in the [[diagenesis]] of fossil and sub fossil organisms.


In biogeochemistry his research has focused on understanding the fate of soil organic matter. His research has developed biomolecular and isotopic methods to characterise soil organic matter and to understand how soil organisms impact the cycling of organic matter. The wider aim of this research is to produce better models for nutrient cycles, which are central to understanding the effects of global warming and intensive agriculture. This study of organic matter has also been applied to palaeoenvironment and palaeocliamtic reconstruction, using sedimentary archives such as ocean sediments and peat bogs.
In biogeochemistry his research has focused on understanding the fate of soil organic matter. His research has developed biomolecular and isotopic methods to characterise soil organic matter and to understand how soil organisms impact the cycling of organic matter. The wider aim of this research is to produce better models for [[nutrient cycle]]s, which are central to understanding the effects of global warming and intensive agriculture. This study of organic matter has also been applied to palaeoenvironment and palaeoclimatic reconstruction, using sedimentary archives such as ocean sediments and peat bogs.


One of his areas of research involves the relationships between prehistoric milk use and the evolution of lactase persistence. His research suggests that milk was being processed in pots in Europe in the [[7th millennium BC]], well before the lactase persistence allele became common there.<ref name="Cappellini">{{cite journal |last1=Cappellini |first1=Enrico |last2=Prohaska |first2=Ana |last3=Racimo |first3=Fernando |last4=Welker |first4=Frido |last5=Pedersen |first5=Mikkel Winther |last6=Allentoft |first6=Morten E. |last7=de Barros Damgaard |first7=Peter |last8=Gutenbrunner |first8=Petra |last9=Dunne |first9=Julie |last10=Hammann |first10=Simon |last11=Roffet-Salque |first11=Mélanie |last12=Ilardo |first12=Melissa |last13=Moreno-Mayar |first13=J. Víctor |last14=Wang |first14=Yucheng |last15=Sikora |first15=Martin |last16=Vinner |first16=Lasse |last17=Cox |first17=Jürgen |last18=Evershed |first18=Richard P. |last19=Willerslev |first19=Eske |title=Ancient Biomolecules and Evolutionary Inference |journal=Annual Review of Biochemistry |date=20 June 2018 |volume=87 |issue=1 |pages=1029–1060 |doi=10.1146/annurev-biochem-062917-012002 |pmid=29709200 |s2cid=14004952 |url=https://doi.org/10.1146/annurev-biochem-062917-012002 |access-date=8 December 2021 |language=en |issn=0066-4154|doi-access=free |hdl=21.11116/0000-0001-DF45-7 |hdl-access=free }}</ref>
==Awards==
Evershed was awarded a [[European Research Council]] Advanced Grant (2013–2018) for Neo-Milk, The Milking Revolution in Temperate Neolithic Europe, which investigated where, when and why dairying arose in temperate Neolithic Europe.<ref>{{cite web |title=The NeoMilk project |url=https://neomilk-erc.eu/ |website=Neo-Milk The Milking Revolution in Temperate Neolithic Europe}}</ref>


==Awards==
Evershed was awarded the [[Royal Society of Chemistry]]’s [[Interdisciplinary_Prizes_(RSC)|Interdisciplinary Award]] in 2003,<ref>{{cite web |title=Interdisciplinary Prizes Previous Winners |url=https://www.rsc.org/ScienceAndTechnology/Awards/InterdisciplinaryPrize/PreviousWinners.asp |website=Royal Society of Chemistry}}</ref> and the [[Aston Medal]] of the [[British Mass Spectrometry Society]] in 2010.<ref>{{cite web |title=Holders of the Aston Medal |url=https://www.bmss.org.uk/about-us/awards-and-honours/aston-medal/ |website=British Mass Spectrometry Society}}</ref> In 2016, he was the winner of the Royal Society of Chemistry's Robert Boyle Prize for Analytical Science.<ref>{{cite web |title=Robert Boyle Prize for Analytical Science 2016 Winner |url=https://www.rsc.org/ScienceAndTechnology/Awards/BoylePrize/2016-Winner.asp |website=Royal Society of Chemistry}}</ref> In 2002, he was awarded the [[Royal Society of Chemistry]] Theophilus Redwood Lectureship.<ref>{{cite web |title=Theophilus Redwood Award Previous Winners |url=https://www.rsc.org/ScienceAndTechnology/Awards/TheophilusRedwoodAward/PreviousWinners.asp |website=Royal Society of Chemistry}}</ref>


Evershed was awarded the [[Royal Society of Chemistry]]’s [[Interdisciplinary Prizes (RSC)|Interdisciplinary Award]] in 2003,<ref>{{cite web |title=Interdisciplinary Prizes Previous Winners |url=https://www.rsc.org/ScienceAndTechnology/Awards/InterdisciplinaryPrize/PreviousWinners.asp |website=Royal Society of Chemistry}}</ref> and the [[Aston Medal]] of the [[British Mass Spectrometry Society]] in 2010.<ref>{{cite web |title=Holders of the Aston Medal |url=https://www.bmss.org.uk/about-us/awards-and-honours/aston-medal/ |website=British Mass Spectrometry Society}}</ref> In 2016, he was the winner of the Royal Society of Chemistry's Robert Boyle Prize for Analytical Science.<ref>{{cite web |title=Robert Boyle Prize for Analytical Science 2016 Winner |url=https://www.rsc.org/ScienceAndTechnology/Awards/BoylePrize/2016-Winner.asp |website=Royal Society of Chemistry}}</ref> In 2002, he was awarded the [[Royal Society of Chemistry]] Theophilus Redwood Lectureship.<ref>{{cite web |title=Theophilus Redwood Award Previous Winners |url=https://www.rsc.org/ScienceAndTechnology/Awards/TheophilusRedwoodAward/PreviousWinners.asp |website=Royal Society of Chemistry}}</ref>
==Publications==


==Selected publications==
With Nicola Temple he wrote "Sorting the beef from the bull" a book on the science of food fraud forensics.<ref>{{cite web |title=Book Club – Sorting the beef from the bull |url=https://www.chemistryworld.com/podcasts/book-club--sorting-the-beef-from-the-bull/1010149.article |website=Chemistry World}}</ref>
*With Nicola Temple he wrote ''Sorting the beef from the bull'' a book on the science of food fraud forensics.<ref>{{cite web |title=Book Club – Sorting the beef from the bull |url=https://www.chemistryworld.com/podcasts/book-club--sorting-the-beef-from-the-bull/1010149.article |website=Chemistry World}}</ref>
*Lloyd, C, Michaelides, K, Chadwick, D, Dungait, J & Evershed, R, 2011, "Tracing the flow-driven vertical transport of livestock-derived organic matter through soil using biomarkers". ''Organic Geochemistry'', pp.&nbsp;56 – 66
*Styring, A, Sealy, J & Evershed, R, 2010, "Resolving the bulk δ15N values of ancient human and animal bone collagen via compound-specific nitrogen isotope analysis of constituent amino acids". ''Geochimica et Cosmochimica Acta'', vol 74., pp.&nbsp;241 – 251
*Outram, A, Stear, N, Bendrey, R, Olsen, S, Kasparov, A, Zaibert, V, Thorpe, N & Evershed, R, 2009, ''Earliest horse harnessing and milking''. ''Science'', vol 323., pp.&nbsp;1332 – 1335
*Bull, I, Berstan, R, Vass, A & Evershed, R, 2009, "Identification of a disinterred grave by molecular and stable isotope analysis*. ''Science and Justice'', vol 49., pp.&nbsp;142 – 149


== References ==
== References ==
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[[Category:Fellows of the Royal Society]]
[[Category:Fellows of the Royal Society]]
[[Category:Biogeochemists]]
[[Category:Biogeochemists]]
[[Category:Year of birth missing (living people)]]

Latest revision as of 12:34, 6 June 2024

Richard P. Evershed
NationalityBritish
CitizenshipBritish
OccupationProfessor of Biogeochemistry
Academic background
Alma materNottingham Trent University
Thesis (1981)
Academic work
DisciplineBiogeochemistry
Sub-disciplineArchaeological chemistry
InstitutionsBristol University
Websitehttp://www.bris.ac.uk/chemistry/people/richard-p-evershed/overview.html

Richard Evershed is a Professor of Biogeochemistry and Fellow of the Royal Society.

Education and career

[edit]

Evershed attended St Ivo School, St Ives in the late 1960s[1] and graduated in 1978 from Nottingham Trent University (Trent Polytechnic, Nottingham) with a BSc in Applied Chemistry. He undertook his PhD in the Department of Chemistry at the University of Keele, investigating pheromones in social insects. Following his PhD he worked as a postdoctoral researcher in the Organic Geochemistry Unit in the School of Chemistry, University of Bristol, where he worked with Professor Geoffrey Eglinton and Professor James Maxwell to develop GC/MS and HPLC methodologies to investigate porphyrins in crude oils and source rocks. He moved to the Department of Chemistry, University of Liverpool in 1984 to manage a biochemical mass spectrometry unit, before taking up a position as Lecturer in the School of Chemistry, University of Bristol, in 1993. He was promoted to Reader in 1996, and a Chair of Biochemistry in 2000.[2]

He is currently the Director of the Bristol Biogeochemistry Research Centre, and the Bristol node of the NERC Life Sciences Mass Spectrometry Facility. He was elected a Fellow of the Royal Society in 2010.[3]

Research

[edit]

Evershed's research is highly interdisciplinary. He applies the principles and techniques of organic and analytical chemistry, to address questions spanning archaeological chemistry and palaeontology to biogeochemistry. These diverse areas are linked by his overarching interests in the preservation, recycling, decay and transport processes that impact biological materials once they enter the geosphere.[4]

He pioneered several methodologies to analyse archaeological materials and provide ‘chemical fingerprints’, for example the method of lipid residue analysis in archaeological pottery. He has also developed techniques for comparing and distinguishing between food signatures and possible environmental contamination.[5] His research has had a significant impact on our understanding of human activity in the past, opening new avenues for the identification of plant and animal exploitation in the past. These methods have contributed to our understanding of the origins of dairying, and provided evidence for the earliest use of beeswax, for example.[6] Other areas his research has focused on includes stable isotope applications for studying ancient diet and agriculture, the study of marker compounds in ancient soils, and the analysis of ancient tars, resins and embalming agents.[7] His palaeontological research has applied a similar approach to fossils, to develop a better understanding of the processes involved in the diagenesis of fossil and sub fossil organisms.

In biogeochemistry his research has focused on understanding the fate of soil organic matter. His research has developed biomolecular and isotopic methods to characterise soil organic matter and to understand how soil organisms impact the cycling of organic matter. The wider aim of this research is to produce better models for nutrient cycles, which are central to understanding the effects of global warming and intensive agriculture. This study of organic matter has also been applied to palaeoenvironment and palaeoclimatic reconstruction, using sedimentary archives such as ocean sediments and peat bogs.

One of his areas of research involves the relationships between prehistoric milk use and the evolution of lactase persistence. His research suggests that milk was being processed in pots in Europe in the 7th millennium BC, well before the lactase persistence allele became common there.[8] Evershed was awarded a European Research Council Advanced Grant (2013–2018) for Neo-Milk, The Milking Revolution in Temperate Neolithic Europe, which investigated where, when and why dairying arose in temperate Neolithic Europe.[9]

Awards

[edit]

Evershed was awarded the Royal Society of Chemistry’s Interdisciplinary Award in 2003,[10] and the Aston Medal of the British Mass Spectrometry Society in 2010.[11] In 2016, he was the winner of the Royal Society of Chemistry's Robert Boyle Prize for Analytical Science.[12] In 2002, he was awarded the Royal Society of Chemistry Theophilus Redwood Lectureship.[13]

Selected publications

[edit]
  • With Nicola Temple he wrote Sorting the beef from the bull a book on the science of food fraud forensics.[14]
  • Lloyd, C, Michaelides, K, Chadwick, D, Dungait, J & Evershed, R, 2011, "Tracing the flow-driven vertical transport of livestock-derived organic matter through soil using biomarkers". Organic Geochemistry, pp. 56 – 66
  • Styring, A, Sealy, J & Evershed, R, 2010, "Resolving the bulk δ15N values of ancient human and animal bone collagen via compound-specific nitrogen isotope analysis of constituent amino acids". Geochimica et Cosmochimica Acta, vol 74., pp. 241 – 251
  • Outram, A, Stear, N, Bendrey, R, Olsen, S, Kasparov, A, Zaibert, V, Thorpe, N & Evershed, R, 2009, Earliest horse harnessing and milking. Science, vol 323., pp. 1332 – 1335
  • Bull, I, Berstan, R, Vass, A & Evershed, R, 2009, "Identification of a disinterred grave by molecular and stable isotope analysis*. Science and Justice, vol 49., pp. 142 – 149

References

[edit]
  1. ^ "Honour for former St Ives scientist". The Hunts Post.
  2. ^ "Professor Richard Evershed". University of Bristol.
  3. ^ "Professor Richard Evershed". The Royal Society.
  4. ^ "Professor Richard Evershed - Research". Bristol University.
  5. ^ Wilke, Carolyn (21 July 2021). "What did ancient people eat? Scientists find new clues in old pottery". Knowable Magazine. doi:10.1146/knowable-052221-1. Retrieved 30 November 2021.
  6. ^ "Combining chemistry and archaeology gives scientists a real buzz". Chemical Industry Journal. 18 April 2016.
  7. ^ "What's for Dinner, Mummy?". The Analytical Scientist.
  8. ^ Cappellini, Enrico; Prohaska, Ana; Racimo, Fernando; Welker, Frido; Pedersen, Mikkel Winther; Allentoft, Morten E.; de Barros Damgaard, Peter; Gutenbrunner, Petra; Dunne, Julie; Hammann, Simon; Roffet-Salque, Mélanie; Ilardo, Melissa; Moreno-Mayar, J. Víctor; Wang, Yucheng; Sikora, Martin; Vinner, Lasse; Cox, Jürgen; Evershed, Richard P.; Willerslev, Eske (20 June 2018). "Ancient Biomolecules and Evolutionary Inference". Annual Review of Biochemistry. 87 (1): 1029–1060. doi:10.1146/annurev-biochem-062917-012002. hdl:21.11116/0000-0001-DF45-7. ISSN 0066-4154. PMID 29709200. S2CID 14004952. Retrieved 8 December 2021.
  9. ^ "The NeoMilk project". Neo-Milk The Milking Revolution in Temperate Neolithic Europe.
  10. ^ "Interdisciplinary Prizes Previous Winners". Royal Society of Chemistry.
  11. ^ "Holders of the Aston Medal". British Mass Spectrometry Society.
  12. ^ "Robert Boyle Prize for Analytical Science 2016 Winner". Royal Society of Chemistry.
  13. ^ "Theophilus Redwood Award Previous Winners". Royal Society of Chemistry.
  14. ^ "Book Club – Sorting the beef from the bull". Chemistry World.