Effects of silvicultural practices on carbon stores in Douglas-fir western hemlock forests in the Pacific Northwest, U.S.A.: results from a simulation model
We used a new model, STANDCARB, to examine effects of various treatments on carbon (C) pools in the Pacific Northwest forest sector. Simulation experiments, with five replicates of each treatment, were used to investigate the effects of initial conditions, tree establishment rates, rotation length, tree utilization level, and slash burning on ecosystem and forest products C stores. The forest examined was typical of the Cascades of Oregon and dominated by Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) and western hemlock (Tsuga heterophylla (Raf.) Sarg). Simulations were run until a C steady state was reached at the landscape level, and results were rescaled relative to the potential maximum C stored in a landscape. Simulation experiments indicated agricultural fields stored the least (15% of the maximum) and forests protected from fire stored the greatest amount (93% of the maximum) of landscape-level C. Conversion of old-growth forests to any other management or disturbance regime resulted in a net loss of C, whereas conversion of agricultural systems to forest systems had the opposite effect. The three factors, in order of increasing importance, most crucial in developing an optimum C storage system were (i) rotation length, (ii) amount of live mass harvested, and (iii) amount of detritus removed by slash burning. Carbon stores increased as rotation length increased but decreased as fraction of trees harvested and detritus removed increased. Simulations indicate partial harvest and minimal fire use may provide as many forest products as the traditional clearcut -broadcast-burn system while increasing C stores. Therefore, an adequate supply of wood products may not be incompatible with a system that increases C stores.Résumé : Nous avons utilisé un nouveau modèle, STANDCARB, pour examiner les effets de différents traitements sur les réservoirs de carbone (C) dans le secteur forestier du Pacifique Nord-Ouest. Des expériences simulées, avec cinq ré-plications pour chaque traitement, ont été utilisées pour étudier les effets des conditions initiales, du taux d'implantation des arbres, de la longueur de la période de révolution, du niveau d'utilisation de l'arbre et du brûlage à plat sur les réserves de C dans l'écosystème et dans les produits forestiers. La forêt examinée était typique des Cascades de l'Oregon et dominée par le douglas de Menzies (Pseudotsuga menziesii (Mirb.) Franco) et la pruche de l'Ouest (Tsuga heterophylla (Raf.) Sarg.). Les simulations ont été arrêtées lorsque le niveau de C atteignait l'état d'équilibre à l'échelle du paysage. Les résultats ont été exprimés relativement au maximum de C pouvant être stocké dans un paysage. Les expériences simulées indiquent que les terres agricoles stockent le moins (15% du maximum) de C et que les forêts protégées du feu stockent la plus grande quantité (93% du maximum) de C à l'échelle du paysage. La conversion des vieilles forêts à tout autre régime d'aménagement ou de perturbation entraîne une perte nette de C, alors que la conversion des systèmes ag...
Land managers face the difficult challenge of maintaining biodiversity on lands also used for commodity production. We present an approach for managing the habitats of terrestrial vertebrates at the landscape scale on multiple-use lands. The approach is based on the hypothesis that animal community response to landscape change is a function of species life histories and local patterns oflandscape change. Key steps are: (1) set clear objectives;(2) associate target species with specific habitat configurations; (3) assess the potential sensitivity of species by mapping habitat suitability and examining species life histories; (4) evaluate alternative management prescriptions using simulation models; and (5) implement preferred or experimental strategies and monitor the responses of habitats and species.The approach was demonstrated for a watershed in western Oregon. Management objectives were to maximize habitat diversity for earlyand late-successional bird species and to produce saw timber at levels compatible with the habitat goals. Habitat associations of 51 bird species were described by four variables that encompass three spatial scales. An analysis of species sensitivity to landscape change revealed several species that may merit special attention. The landscape model LSPA and the gap model ZELIG.PNW were used to simulate four disturbance/management scenarios over a 140-yr period: natural fire, wood production, multiple use, and no action. The results indicated that 65% more saw timber would be produced under the wood production run than the multiple-use run, but the former would maintain habitats for many fewer bird species than the latter. The multiple-use scenario was selected as the preferred alternative. We suggest carrying out management experiments and rigorous monitoring during the implementation phase.While this approach has various limitations, it is an incremental step towards the effective management of species diversity on multiple-use lands.
Land managers face the difficult challenge of maintaining biodiversity on lands also used for commodity production. We present an approach for managing the habitats of terrestrial vertebrates at the landscape scale on multiple-use lands. The approach is based on the hypothesis that animal community response to landscape change is a function of species life histories and local patterns of landscape change. Key steps are: (1) set clear objectives; (2) associate target species with specific habitat configurations; (3) assess the potential sensitivity of species by mapping habitat suitability and examining species life histories; (4) evaluate alternative management prescriptions using simulation models; and (5) implement preferred or experimental strategies and monitor the responses of habitats and species. The approach was demonstrated for a watershed in western Oregon. Management objectives were to maximize habitat diversity for early- and late-successional bird species and to produce saw timber at levels compatible with the habitat goals. Habitat associations of 51 bird species were described by four variables that encompass three spatial scales. An analysis of species sensitivity to landscape change revealed several species that may merit special attention. The landscape model LSPA and the gap model ZELIG.PNW were used to simulate four disturbance/management scenarios over a 140-yr period: natural fire, wood production, multiple use, and no action. The results indicated that 65% more saw timber would be produced under the wood production run than the multiple-use run, but the former would maintain habitats for many fewer bird species than the latter. The multiple-use scenario was selected as the preferred alternative. We suggest carrying out management experiments and rigorous monitoring during the implementation phase. While this approach has various limitations, it is an incremental step towards the effective management of species diversity on multiple-use lands.
Ectomycorrhizal mats in forest soils have a wide global distribution and have been noted as potentially important elements in forest soil nutrient cycling. To elucidate the relationship between ectomycorrhizal mats and their environment, we undertook field studies and spatial analyses of mat distributions at different spatial scales.We used two experimental approaches to study mat-forming ectomycorrhizal fungi in coniferous forests of the Pacific Northwest in the United States. In the first approach, ectomycorrhizal mats and other forest floor features were mapped in 2 x 10 m plots and digitized into a geographical information system (GIS) for spatial pattern analysis. In order to examine larger-scale phenomena, a second approach involving other sites was taken; soil cores were taken along 30-m transects, and distance to the closest living potential host tree was calculated for each core.Mat patterns were studied at two scales: (1) within-stand level (i.e. variability attributed to distribution of other mat species, forest floor attributes, and understory vegetation); and (2) stand level (i.e. variability expressed along a successional gradient). Mat distribution was influenced by: (1) the proximity of one mat to another; (2) the distance from the mat to the closest living tree; (3) the density of living trees in a stand; and (4) the successional stage of the stand.Although GIS analysis indicated that mats of different morphologies did not physically overlap, there was a tendency for clustering of mats. No apparent correlations were observed between forest floor features and mats located within the 2 x 10 m grids. On the scale of tens of meters, mats decreased with distance from the closest potential host tree. Spatial patterns of mat distributions in harvested sites suggest that these mats may persist at least 2 years after their host trees have been cut. For Gautieria mats, total mat area, size, and frequency differed with stand age.This study has demonstrated the importance of both spatial scaling and forest stand age when the natural distribution of mycorrhizal fungi is examined. Results suggest the need for mat research directed at higher-order scales (e.g. stand and watershed) that will provide accurate information for managing forests to ensure their survival and normal function.
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