Terrestrial nitrogen cycling in Earth system models revisited

Benjamin Stocker; I. Colin Prentice; Sarah Cornell; T Davies-Barnard; Adrien Finzi; Oskar Franklin; Ivan Janssens; Tuula Larmola; Stefano Manzoni; Torgny Nasholm; John Raven; Karin Rebel; Sasha C. Reed; Sara Vicca; Andy Wiltshire; Sonke Zaehle

doi:10.1111/nph.13997

Terrestrial nitrogen cycling in Earth system models revisited

New Phytologist

By: Benjamin Stocker, I. Colin Prentice, Sarah Cornell, T Davies-Barnard, Adrien Finzi, Oskar Franklin, Ivan Janssens, Tuula Larmola, Stefano Manzoni, Torgny Nasholm, John Raven, Karin Rebel, Sasha C. Reed, Sara Vicca, Andy Wiltshire, and Sonke Zaehle

https://doi.org/10.1111/nph.13997

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Abstract

Understanding the degree to which nitrogen (N) availability limits land carbon (C) uptake under global environmental change represents an unresolved challenge. First-generation ‘C-only’vegetation models, lacking explicit representations of N cycling,projected a substantial and increasing land C sink under rising atmospheric CO₂ concentrations. This prediction was questioned for not taking into account the potentially limiting effect of N availability, which is necessary for plant growth (Hungate et al.,2003). More recent global models include coupled C and N cycles in land ecosystems (C–N models) and are widely assumed to be more realistic. However, inclusion of more processes has not consistently improved their performance in capturing observed responses of the global C cycle (e.g. Wenzel et al., 2014). With the advent of a new generation of global models, including coupled C, N, and phosphorus (P) cycling, model complexity is sure to increase; but model reliability may not, unless greater attention is paid to the correspondence of model process representations ande mpirical evidence. It was in this context that the ‘Nitrogen Cycle Workshop’ at Dartington Hall, Devon, UK was held on 1–5 February 2016. Organized by I. Colin Prentice and Benjamin D. Stocker (Imperial College London, UK), the workshop was funded by the European Research Council,project ‘Earth system Model Bias Reduction and assessing Abrupt Climate change’ (EMBRACE). We gathered empirical ecologists and ecosystem modellers to identify key uncertainties in terrestrial C–N cycling, and to discuss processes that are missing or poorly represented in current models.

Suggested Citation

Stocker, B., Prentice, I.C., Cornell, S., Davies-Barnard, T., Finzi, A., Franklin, O., Janssens, I., Larmola, T., Manzoni, S., Nasholm, T., Raven, J., Rebel, K., Reed, S.C., Vicca, S., Wiltshire, A., Zaehle, S., 2016, Terrestrial nitrogen cycling in Earth system models revisited: New Phytologist, v. 210, no. 4, p. 1165-1168, https://doi.org/10.1111/nph.13997.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Terrestrial nitrogen cycling in Earth system models revisited
Series title	New Phytologist
DOI	10.1111/nph.13997
Volume	210
Issue	4
Publication Date	May 09, 2016
Year Published	2016
Language	English
Publisher	Blackwell Science
Publisher location	Cambridge
Contributing office(s)	Southwest Biological Science Center
First page	1165
Last page	1168
Online Only (Y/N)	N
Additional Online Files (Y/N)	N