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JÉRÔME BALESDENT (1957–2020): IN MEMORIAM

Published online by Cambridge University Press:  25 June 2021

Christine Hatté Open the ORCID record for Christine Hatté [Opens in a new window]
Christine Hatté*
Affiliation:
LSCE - CEA CNRS UVSQ, Université Paris Saclay, Gif-sur-Yvette 91191, France
*
Corresponding author. Email: christine.hatte@lsce.ipsl.fr
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Obituary
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Radiocarbon , Volume 64 , Issue 3: Seven Decades of Radiocarbon Dating: Remembering the Pioneers & Looking Towards the Future. Part 1 of 2 , June 2022 , pp. 489 - 490
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© The Author(s), 2021. Published by Cambridge University Press for the Arizona Board of Regents on behalf of the University of Arizona

Jérôme Balesdent

1957–2020

Jérôme Balesdent passed away on July 19, 2020, at the age of 63. The scientific community has lost an outstanding researcher and a colleague who has always been committed to teamwork and the involvement of the younger generation.

Jérôme was creative throughout his career, starting at the French Institute for Research in Agronomy (INRA) in Nancy, then Versailles, Cadarache and finally, Aix-en-Provence. As an agronomist, he left his mark on the world of soil science. He is among the most internationally recognized French researchers for his work on soils and the dynamics of soil organic matter.

Jérôme Balesdent was always one step ahead. He was the inventor of the use of 13C to trace constrain carbon dynamics in soils. Using 13C, he measured, as a function of time, the introduction of corn-derived carbon (C4 photosynthesis) into a soil that had only seen C3 plants. The constraint of the fast component of soil organic matter dynamics was born. This approach, published in 1987 (Balesdent etal. Reference Balesdent, Mariotti and Guillet1987), is a reference today with nearly 800 citations and many emulators. This stable carbon isotope was a complement to his toolbox, which already contained another carbon isotope, 14C, with which he had already studied the dynamics of the slower components of SOC (Balesdent and Guillet Reference Balesdent and Guillet1982). Beyond the design of novel methods and the acquisition of invaluable data, Jérôme was also a pioneer in the modeling of soil organic matter content (Elzein and Balesdent Reference Elzein and Balesdent1995). His 1995 paper was a landmark, and it is still this exponential form of the soil carbon age profile that is used in current models.

One will also recall his intervention at the French Academy of Agriculture in 1999 (Balesdent and Arrouays Reference Balesdent and Arrouays1999), during which he already affirmed that the soil “could be a huge potential source or sink of CO2 and that an annual increase in this reservoir of only 0.4% per year would store as much carbon as the burning of fossil carbon emits.” It is this vision that served as the basis for the international initiative “4‰ – soils for food security and climate” that was launched by France in 2015 at the COP21, 15 years after its intervention at the Academy. In 2018, in a meta-analysis published in Nature (Balesdent etal. Reference Balesdent, Basile-Doelsch, Chadoeuf, Cornu, Derrien, Fekiacova and Hatté2018), he insisted on the inertia of the carbon cycle in soils, particularly at depth. He underlined the need to consider the soil profile in its entirety and to account for its historical use when modeling the global carbon cycle and its links with the climate. This paper illustrates the interest that Jérôme always had in the modeling and conceptualization of soil carbon processes.

Beyond the renowned scientist, Jérôme Balesdent was also a generous, available, smiling, optimistic and positive being, eager to transmit his expertise. Many can attest to the encouragement he gave to all those who came to him for advice. He will be greatly missed by the French and international soil science communities.

References

REFERENCES

Balesdent, J, Arrouays, D. 1999. Usage des terres et stockage de carbone dans les sols du territoire français. Une estimation des flux nets annuels pour la période 1900–1999. Compte-rendus des séances de l’Académie d’Agriculture de France 85(6):265277.Google Scholar
Balesdent, J, Basile-Doelsch, I, Chadoeuf, J, Cornu, S, Derrien, D, Fekiacova, Z, Hatté, C. 2018. Atmosphere-soil carbon transfer as a function of soil depth. Nature 559:599602.CrossRefGoogle ScholarPubMed
Balesdent, J, Guillet, B. 1982. Les datations par le 14C des matières organiques des sols – Contribution à l'étude de l’humification et du renouvellement des substances humiques. Science du Sol 2:93112.Google Scholar
Balesdent, J, Mariotti, A, Guillet, B. 1987. Natural 13C abundance as tracer for studies of soil organic matter dynamics. Soil Biology & Biochemistry 19 :2530.CrossRefGoogle Scholar
Elzein, A, Balesdent, J. 1995. Mechanistic simulation of vertical distribution of carbon concentrations and residence times in soils. Soil Science Society of America Journal 59:13281335.CrossRefGoogle Scholar