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- Title
Coppicing shifts CO<sub>2</sub> stimulation of poplar productivity to above-ground pools: a synthesis of leaf to stand level results from the POP/EUROFACE experiment.
- Authors
Liberloo, Marion; Lukac, Martin; Calfapietra, Carlo; Hoosbeek, Marcel R.; Gielen, Birgit; Miglietta, Franco; Scarascia-Mugnozza, Giuseppe E.; Ceulemans, Reinhart
- Abstract
A poplar short rotation coppice (SRC) grown for the production of bioenergy can combine carbon (C) storage with fossil fuel substitution. Here, we summarize the responses of a poplar ( Populus) plantation to 6 yr of free air CO2 enrichment (POP/EUROFACE consisting of two rotation cycles). We show that a poplar plantation growing in nonlimiting light, nutrient and water conditions will significantly increase its productivity in elevated CO2 concentrations ([CO2]). Increased biomass yield resulted from an early growth enhancement and photosynthesis did not acclimate to elevated [CO2]. Sufficient nutrient availability, increased nitrogen use efficiency (NUE) and the large sink capacity of poplars contributed to the sustained increase in C uptake over 6 yr. Additional C taken up in high [CO2] was mainly invested into woody biomass pools. Coppicing increased yield by 66% and partly shifted the extra C uptake in elevated [CO2] to above-ground pools, as fine root biomass declined and its [CO2] stimulation disappeared. Mineral soil C increased equally in ambient and elevated [CO2] during the 6 yr experiment. However, elevated [CO2] increased the stabilization of C in the mineral soil. Increased productivity of a poplar SRC in elevated [CO2] may allow shorter rotation cycles, enhancing the viability of SRC for biofuel production.
- Subjects
COPPICING; BIOMASS production; PHOTOSYNTHESIS; POPLARS; BIOLOGICAL productivity; NUTRIENT uptake; SOILS; PLANT-soil relationships; ATMOSPHERIC carbon dioxide; FOREST biomass
- Publication
New Phytologist, 2009, Vol 182, Issue 2, p331
- ISSN
0028-646X
- Publication type
Article
- DOI
10.1111/j.1469-8137.2008.02754.x