Historical harvests reduce neighboring old-growth basal area across a forest landscape. Bell, D. M., Spies, T. A., & Pabst, R. Ecological Applications, 27(5):1666–1676, July, 2017.
Historical harvests reduce neighboring old-growth basal area across a forest landscape [link]Paper  doi  abstract   bibtex   
While advances in remote sensing have made stand, landscape, and regional assessments of the direct impacts of disturbance on forests quite common, the edge influence of timber harvesting on the structure of neighboring unharvested forests has not been examined extensively. In this study, we examine the impact of historical timber harvests on basal area patterns of neighboring old-growth forests to assess the magnitude and scale of harvest edge influence in a forest landscape of western Oregon, USA. We used lidar data and forest plot measurements to construct 30-m resolution live tree basal area maps in lower and middle elevation mature and old-growth forests. We assessed how edge influence on total, upper canopy, and lower canopy basal area varied across this forest landscape as a function of harvest characteristics (i.e., harvest size and age) and topographic conditions in the unharvested area. Upper canopy, lower canopy, and total basal area increased with distance from harvest edge and elevation. Forests within 75 m of harvest edges (20% of unharvested forests) had 4% to 6% less live tree basal area compared with forest interiors. An interaction between distance from harvest edge and elevation indicated that elevation altered edge influence in this landscape. We observed a positive edge influence at low elevations (\textless 800 m) and a negative edge influence at moderate to high elevations (\textgreater 800 m). Surprisingly, we found no or weak effects of harvest age (13-60 yr) and harvest area (0.2-110 ha) on surrounding unharvested forest basal area, implying that edge influence was relatively insensitive to the scale of disturbance and multi-decadal recovery processes. Our study indicates that the edge influence of past clear-cutting on the structure of neighboring uncut old-growth forests is widespread and persistent. These indirect and diffuse legacies of historical timber harvests complicate forest management decision-making in old-growth forest landscapes by broadening the traditional view of stand boundaries. Furthermore, the consequences of forest harvesting may reach across ownership boundaries,highlighting complex governance issues surrounding landscape management of old-growth forests.
@article{bell_historical_2017,
	title = {Historical harvests reduce neighboring old-growth basal area across a forest landscape},
	volume = {27},
	issn = {1051-0761},
	shorttitle = {Historical harvests reduce neighboring old-growth basal area across a forest landscape},
	url = {://WOS:000405174300021},
	doi = {10.1002/eap.1560/full},
	abstract = {While advances in remote sensing have made stand, landscape, and regional assessments of the direct impacts of disturbance on forests quite common, the edge influence of timber harvesting on the structure of neighboring unharvested forests has not been examined extensively. In this study, we examine the impact of historical timber harvests on basal area patterns of neighboring old-growth forests to assess the magnitude and scale of harvest edge influence in a forest landscape of western Oregon, USA. We used lidar data and forest plot measurements to construct 30-m resolution live tree basal area maps in lower and middle elevation mature and old-growth forests. We assessed how edge influence on total, upper canopy, and lower canopy basal area varied across this forest landscape as a function of harvest characteristics (i.e., harvest size and age) and topographic conditions in the unharvested area. Upper canopy, lower canopy, and total basal area increased with distance from harvest edge and elevation. Forests within 75 m of harvest edges (20\% of unharvested forests) had 4\% to 6\% less live tree basal area compared with forest interiors. An interaction between distance from harvest edge and elevation indicated that elevation altered edge influence in this landscape. We observed a positive edge influence at low elevations ({\textless} 800 m) and a negative edge influence at moderate to high elevations ({\textgreater} 800 m). Surprisingly, we found no or weak effects of harvest age (13-60 yr) and harvest area (0.2-110 ha) on surrounding unharvested forest basal area, implying that edge influence was relatively insensitive to the scale of disturbance and multi-decadal recovery processes. Our study indicates that the edge influence of past clear-cutting on the structure of neighboring uncut old-growth forests is widespread and persistent. These indirect and diffuse legacies of historical timber harvests complicate forest management decision-making in old-growth forest landscapes by broadening the traditional view of stand boundaries. Furthermore, the consequences of forest harvesting may reach across ownership boundaries,highlighting complex governance issues surrounding landscape management of old-growth forests.},
	language = {English},
	number = {5},
	journal = {Ecological Applications},
	author = {Bell, D. M. and Spies, T. A. and Pabst, R.},
	month = jul,
	year = {2017},
	keywords = {disturbance, basal area, Environmental Sciences \& Ecology, forest, lidar, windthrow, timber harvesting, clear-cut, old-growth, douglas-fir forests, western oregon, canopy structure, carbon density, disturbance legacies, edge influence, fragmented landscapes, silvicultural implications},
	pages = {1666--1676}
}
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