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dc.contributor.authorBabst, Flurin
dc.contributor.authorAlexander, M. Ross
dc.contributor.authorSzejner, Paul
dc.contributor.authorBouriaud, Olivier
dc.contributor.authorKlesse, Stefan
dc.contributor.authorRoden, John
dc.contributor.authorCiais, Philippe
dc.contributor.authorPoulter, Benjamin
dc.contributor.authorFrank, David
dc.contributor.authorMoore, David J.P.
dc.contributor.authorTrouet, Valerie
dc.identifier.citationFlurin Babst, M. Ross Alexander, Paul Szejner, Olivier Bouriaud, Stefan Klesse, John Roden, Philippe Ciais, Benjamin Poulter, David Frank, David J. P. Moore, Valerie Trouet. "A tree-ring perspective on the terrestrial carbon cycle." Oecologia 176(2): 307-322
dc.description.abstractTree-ring records can provide valuable information to advance our understanding of contemporary terrestrial carbon cycling and to reconstruct key metrics in the decades preceding monitoring data. The growing use of tree rings in carbon-cycle research is being facilitated by increasing recognition of reciprocal benefits among research communities. Yet, basic questions persist regarding what tree rings represent at the ecosystem level, how to optimally integrate them with other data streams, and what related challenges need to be overcome. It is also apparent that considerable unexplored potential exists for tree rings to refine assessments of terres-trial carbon cycling across a range of temporal and spatial domains. Here, we summarize recent advances and highlight promising paths of investigation with respect to (1) growth phenology, (2) forest productivity trends and variability, (3) CO2 fertilization and water-use efficiency, (4) forest disturbances, and (5) comparisons between observational and computational forest productivity estimates. We encourage the integration of tree-ring data: with eddy-covarian measurements to investigate carbon allocation patterns and water-use efficiency; with remotely sensed observations to distinguish the timing of cambial growth and leaf phenology; and with forest inventories to develop continuous, annually-resolved and long-term carbon budgets. In addition, we note the potential of tree-ring records and derivatives thereof to help evaluate the performance of earth system models regarding the simulated magnitude and dynamics of forest carbon uptake, and inform these models about growth responses to (non-)climatic drivers. Such efforts are expected to improve our understanding of forest carbon cycling and place current developments into a long-term perspective.en_US
dc.titleA tree-ring perspective on the terrestrial carbon cycleen_US
mus.identifier.categoryLife Sciences & Earth Sciencesen_US
mus.relation.collegeCollege of Letters & Scienceen_US
mus.relation.collegeCollege of Letters & Science
mus.relation.universityMontana State University - Bozemanen_US
mus.contributor.orcidPoulter, Benjamin|0000-0002-9493-8600en_US

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