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Biomass production physiology and soil carbon dynamics in short-rotation-grown Populus deltoides and P. deltoides × P. nigra hybrids

2008; Elsevier BV; Volume: 257; Issue: 1 Linguagem: Inglês

10.1016/j.foreco.2008.08.023

1872-7042

Ryan C. Dowell, Daniel E. Gibbins, Julie L. Rhoads, Stephen G. Pallardy,

Forest Biomass Utilization and Management

Fast-growing woody species grown in dense, short-rotation plantations on land previously in agriculture offer potential economic benefits in products such as engineered construction material, boiler fuel, non-food-based biofuel feed stocks and other carbon (C)-based products and credits. However, information on the effects on major C pools of short-rotation culture is relatively sparse. In this study, Populus deltoides and P. deltoides × P. nigra hybrid clones were grown for 5 years at 1 m × 1 m spacing in plantations on a former pasture of high native fertility in the Missouri River floodplain in the lower Midwest U.S.A. Above- and below-ground biomass production, leaf area-based production efficiency, photosynthetic attributes and soil C dynamics were studied. Populus clones yielded up to 70 Mg ha−1 over 5 years, results that compare favorably to poplar culture in other regions. P. deltoides clones yielded almost twice as much as hybrids (66.3 vs. 36.9 Mg ha−1) despite more rapid early growth by the latter. Superior yields of P. deltoides clones were associated with greater (32–120%) production efficiency (total biomass yield per unit of time-integrated leaf area) and greater (17–42%) photosynthetic capacity, but not with differential allocation patterns of C above and below ground. Soil C losses were observed over 5 years, mostly from the top 12.5 cm of soil. Soil C loss in this study was associated with conversion from organic matter input-rich pasture culture, and subsequent rotations might not be accompanied by losses of the magnitude observed in the first. Net C sequestration in measured carbon stocks ranged from 11.4 to 33.5 Mg ha−1 in the two plantations.