Applying biomass and stem fluxes to quantify temporal and spatial fluctuations of an old-growth forest in disturbance

• Main Authors: S. Liu, Y.-L. Li, G.-Y. Zhou, K. O. Wenigmann, Y. Luo, D. Otieno, J. Tenhunen
• Format: Article
• Language: English
• Published: Copernicus Publications 2009-09-01
• Series: Biogeosciences
• Online Access: http://www.biogeosciences.net/6/1839/2009/bg-6-1839-2009.pdf

A subtropical old-growth forest was studied over a twelve-year period to investigate temporal and spatial fluctuations of biomass and stem fluxes under disturbances. Vegetations were categorized into three types according to disturbances caused by biotic and abiotic factors, including <i>Castanopsis chinensis</i> population, insect direct-influenced population, and insect indirect-influenced population according to disturbance scenarios. The biomass fluxes (growth and mortality) and stem fluxes (stem recruitment and mortality) were used to quantify population fluctuations. Annual average biomass growth rate was stable throughout the study while annual biomass mortality and stem fluxes increased consistently. <i>C. chinensis</i> population predominantly contributed to biomass fluxes of the community. Biomass and stem mortalities of insect direct-influenced population increased significantly during the whole study period (1992–2004). Results of indirect-influenced population showed that (1) the increase in biomass of the dominant species was well correlated between different intervals. Similar relationships were found in stem fluxes; (2) higher stem mortality occurred within the DBH range of 1 to 10 cm; (3) stem fluxes in the canopy gaps were remarkably higher than those in closed canopy.