Journal
CANADIAN JOURNAL OF FOREST RESEARCH
Volume 37, Issue 4, Pages 737-749Publisher
CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS
DOI: 10.1139/X06-261
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We quantified the dynamics of the tree stratum at Hubbard Brook Experimental Forest (HBEF), New Hampshire, to examine why live biomass reached a plateau in about 1980. Total aboveground biomass increased from 209aMg center dot ha(-1) in 1981 to 216 Mg center dot ha(-1) in 2001. From 1991 to 2001, in-growth of >= 10 cm diameter at breast height (DBH) trees averaged 4.7 trees center dot ha(-1 center dot)year (-1) with a corresponding in-growth biomass of 0.29 Mg center dot ha(-1 center dot)year(-1). Mortality of trees >= 10 cm DBH averaged 5.3 trees center dot ha(-1 center dot)year(-1) (1.12% of trees-year(-1)). Dying trees represented 2.24 Mg center dot ha(-1 center dot)year(-1) of aboveground biomass from 1991 to 2001. The biomass pools of standing dead, snags, and coarse woody debris in this forest currently are near steady state with residence times of 7.5, 15, and 6.2 years, respectively. The plateau in live biomass was mostly associated with lower wood production. Aboveground net primary productivity was estimated at 6.53aMg center dot ha(-1 center dot)year(-1) (3.28 Mg center dot a(-1 center dot)year(-1) for aboveground woody tissues and 3.25 Mg center dot ha(-1 center dot)year(-1) for leaf production), considerably lower than published estimates for the 1956-1965 period at the HBEF. Net ecosystem productivity in this young, second-growth forest is near zero, indicating that it may not be a sink for carbon.
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