共查询到20条相似文献,搜索用时 46 毫秒
1.
Luis Diaz-Balteiro Mercedes Bertomeu Manuel Bertomeu 《Forest Policy and Economics》2009,11(8):548-554
This paper focuses on strategic management planning of Eucalyptus globulus Labill. plantations in Galicia (northwestern Spain). Several problems associated with the management of these plantations were identified first. Current management plans for plantations of this species consist of the systematic and somewhat arbitrary application of the area control method. Thus, these plans do not take into consideration the optimum length for one full plantation cycle that maximizes the land expectation value, neither do they formulate the area control method through any mathematical programming model for scheduling regeneration harvests. In this paper, we present a modelling approach based on linear and goal programming. The models consider area and volume control regulation strategies, and take into account variations in land productivity among site classes and successive rotation intervals. To illustrate this approach, we applied the models to a neighbourhood community-owned forest currently managed by the Regional Forest Service with a recent management plan. The results showed that the models provided more flexible harvest schedules, and the profitability of eucalypt stands was 64% higher than that under the current management plan. Finally, extensions to this study were identified. 相似文献
2.
Combining stand simulation and forest-level optimization is an efficient way to study harvest scenarios of a forest area. A simulator first generates for each treatment unit a number of treatment schedules. Linear programming (LP) can then be used to study how stand-level schedules can be combined at the forest level with respect to alternative goals and constraints. The special structure of the obtained LP problems can be utilized using the generalized upper-bound technique which takes care of the so-called area constraints. JLP software was based on this technique. Later J software was developed to replace JLP. Now J is developed to deal with factory problems where the transportations costs and capacities of factories are included in the problem definition. The generalized upper-bound technique was modified to handle transportation constraints which tell that each timber unit produced is transported to some of the factories. The number of these constraints is very large. This paper describes the basic features of the algorithm and its implementation in the J software. 相似文献
3.
In strategic level planning, the harvest levels are often obtained by maximizing NPV of the forest area. The resulting harvests within each planning period are then typically scattered over the area. In practical forestry, clustering harvests is seen as important, but tools for planning harvest clustering applicable for practical level planning are largely missing. In previous studies, clustering harvests has been seen as an objective in itself rather than means to save costs. It has thus not been possible to define an optimal level for clustering in order to maximize the NPV. In this study, clustering is carried out by minimizing the total opening costs (TOCs) for harvest sites. TOC is defined as a fixed cost for one contiguous harvest cluster. It consists of e.g. transferring the machines to the harvest site, waiting time for the machinery and workers due to the transfer, delineation of the harvest site and administrative work required for each harvest site. Our results show that with small opening cost, it is optimal to follow the strategic level plan, while as the opening cost increases it is optimal to make larger and larger harvest clusters. The clustering also affects the treatments carried out: with high opening costs the harvests in some stands will be postponed for 10 years or more, or the treatment may change from the strategic level optimum. 相似文献
4.
Mikko Kurttila Eero Muinonen Pekka Leskinen Harri Kilpeläinen Jouni Pykäläinen 《European Journal of Forest Research》2009,128(1):37-50
A proper forest planning process includes the assessment of the decision-makers’ preferences concerning the future forest
use. For some owners, it may be a difficult task to express their preferences exactly and in the form that is required for
planning calculations. This study presents a new kind of approach for analyzing the effects of preferential uncertainty. The
approach consists of examination of the differences in the actual decision variables in forest planning, i.e. selected treatments
for stands between holding-level forest plans. In example calculations, the preferential uncertainty was examined from three
different viewpoints: the uncertainty in the weights of the objective variables; the uncertainty in the partial utility function;
and the combination of these two uncertainty sources. One thousand preference realizations were generated for each of these
uncertainty sources. More than one treatment schedules are proposed for stands that are affected by preferential uncertainty.
These stands were detected from among the resulting set of 1,000 forest plans. With this done, two potential decision-making
strategies, an adaptive behavior strategy and a threshold proportion strategy, were applied as guides in decision-making for
stands, which have more than one treatment alternative selected in the produced optimal forest plans. The adaptive behavior
technique required that the forest owner select one treatment alternative for at least one stand that has more than one proposed
treatment alternative. The treatment alternatives having frequencies exceeding the given threshold frequency were all accepted
simultaneously in the threshold strategy. The main benefit of the approach is to present the effects of uncertainties in a
way that can be easily understood by the actual decision-makers. It is a promising tool for practical decision-making situations
because at least Finnish non-industrial private forest owners quite often focus on making stand-level forest management decisions.
It is also suitable for examinations of other uncertainty sources such as timber prices or inventory data. 相似文献
5.
《Forest Policy and Economics》2003,5(1):27-38
This study presents a practical harvest scheduling approach for multiple ownership planning. The approach has both spatial and non-spatial goals, namely, a spatial landscape-level goal to cluster ecologically valuable resources is considered simultaneously with timber production goals. Harvest scheduling is based on the location of the stand, on one hand, and on an economic variable depicting the cutting maturity of the stand, on the other hand. Proximity to valuable resources decreases the likelihood that the stand is cut. Therefore, harvests tend to be located outside potential resource clusters with small and isolated economically mature stands being cut first. In the application of the approach the landscape-level spatial objective was to cluster old forest stands (age⩾80) and simultaneously maintain a predefined cutting volume. A stand's economic cutting maturity was measured with value increment percentage. In the top-down application of the approach the timber harvest target was specified only for the whole planning area. In the bottom-up application it was specified separately for individual holdings, aiming at promoting the acceptability of the plan. The presented approach was clearly able to cluster old forest patches. In the case study area, the mean size of old forest patches increased from 3.4 to 5.7 ha in 30 years in the top-down plan, and to 4.6 ha in the bottom-up plan. An application of the current planning practice (referred to as the reference plan) decreased the mean patch size to 2.9 ha. The presented approach is easy to apply in forest planning practice. 相似文献
6.
Arto Haara Mikko Kurttila Jouni Pykäläinen Raili Hokajärvi Harri Kilpeläinen 《Scandinavian Journal of Forest Research》2014,29(7):185-194
In this study, an interactive forest planning process corresponding to the practical demands was developed and further tested in a challenging forest planning situation in northeastern Finland. The process includes prior preparation of alternative stand-level treatments and a small amount of holding-level forest plans; an interactive planning session consisting of the primary choice of the forest owner's profile; the owner's selection of the best holding-level plan; and finally a local improvement of this plan. The method as a whole aims to bridge the gap between the prevailing planning culture that has developed for private forest planning over three decades in Finland and the planning approach suggested by multiobjective forest planning theory. The usability and characteristics of the process were evaluated through an exercise set given to both forestry students and forest professionals. Tests of the process indicated, among other things, that comparison particularly of stand-level alternatives and offering owners the possibility to make changes and truly affect the end-result of the planning process are seen as important characteristics of the process. 相似文献
7.
Comparison of treewise and standwise forest simulators by means of quantile regression 总被引:1,自引:0,他引:1
Antti Mäkinen Annika KangasJouni Kalliovirta Jussi RasinmäkiEsko Välimäki 《Forest Ecology and Management》2008
Predicting forest development under varying treatment schedules forms the basis of forest management planning. The actual growth predictions are made with a forest simulator which includes growth equations and additional models for predicting a number of varying tree, forest and site properties. Forest growth simulators typically include either tree-level or stand-level growth models, but these two approaches have not been thoroughly compared. We set out here to compare these two approaches with the SIMO simulator framework in a small data set from southern Finland based on 60 sample plots in 30 stands, the development of which was known for 20 years. The stands chosen were very dense, so that the simulators could be tested under extreme conditions. The results show that the stand-level model is more accurate in almost all cases and its computational burden is much lower. It could therefore be advisable to use tree-level models for short-term predictions, which would ensure detailed information on forest structure for planning the near-future operations. Stand-level models would be more advisable in longer term predictions, especially when accurate volume estimates are considered more important than the forest structure. The errors observed in these simulators were analysed further by quantile regression, which allows empirical estimates of confidence intervals to be obtained for the simulator. 相似文献
8.
This paper presents a practical forest planning approach for continuous forest-based employment in a forested village with primarily young stands. The model is designed to find the practice level for continuous forest employment which embraces both the goal of maximizing the total forest employment and the constraint of maintaining its annual balance, considering forest size and condition, and budget available for forest practice. Through controlling the practice level with the help of a desired employment effect that contributes to allocating forest practices equally to each plan year, a marginal practice level can be found under which any practice level fulfills the goal and constraints. The potential practice area, which is determined by forest area, stand age, and practice schedule, contributes to determining the area silviculturally available for forest practice. Our forest planning model is focused on the planning of young forests which are not expected to yield merchantable products in the near term. The model can also be characterized by landscape-level forest planning in which stand-level practices are planned for achieving a forest-level goal of continuous forest employment. Thus, the model can serve as a basic planning tool for maintaining healthy forests as well as continuous forest employment in young forest areas, where forest-level goals are predicated on stand level practices. 相似文献
9.
The most common scientific approach to numerical landscape-level forest management planning is combinatorial optimization aimed at finding the optimal combination of the treatment alternatives of stands. The selected combination of treatments depends on the conditions of the forest, and the objectives of the forest landowners. A two-step procedure is commonly used to derive the plan. First, treatment alternatives are generated for the stands using an automated simulation tool. Second,the optimal combination of the simulated treatment schedules is found by using mathematical programming or various heuristics. Simulation of treatment schedules requires models for stand dynamics and volume for all important tree species and stand types present in the forest.A forest planning system was described for Northeast China. The necessary models for stand dynamics and tree volume were presented for the main tree species of the region. The developed models were integrated into the simulation tool of the planning system. The simulation and the optimization tools of the planning system were described. The optimization tool was used with heuristic methods, making it possible to easily solve also spatial forest planning problems, for instance aggregate cuttings.Finally, the use of the system is illustrated with a case study, in which nonspatial and spatial management plans are developed for the Mengjiagang Forest District. 相似文献
10.
11.
Emin Zeki Başkent Ali İhsan Kadıoğulları 《Scandinavian Journal of Forest Research》2014,29(7):121-131
Decision support systems (DSSs) are indispensable tools in preparing a forest management plan for a better combination of multiple forest values. This study attempted to develop and explain a stand-based forest management DSS (Ecosystem-based multiple-use forest planning [ETÇAP]) comprising a traditional simulation, linear programming (LP), metaheuristics and geographic information system. The model consists of five submodels; traditional management approach to handle inventory data, an empirical growth and yield model, a simulation to conceptualize management actions, a LP technique to optimize resource allocation and a simulated annealing approach to directly create a spatially feasible harvest schedule. The ETÇAP model has been implemented in a comparative two case study areas; Denizli–Honaz and Akseki–Ibrad?. Both simulation and optimization models outperformed to the traditional management plan. The periodical change of growing stock, allowable cuts, carbon sequestration and water production are used as performance indicators. The results showed that more amount of wood could be harvested over time compared to traditional level of harvesting. It could be concluded that various management strategies allowed managers to stimulate more decision options for better outputs through intertemporal trade-offs of management interventions as the model provided tools to quantify forest dynamics over time and space. Challenges exist to establish the functional relationships between forest structure and values for better quantification and integration into the management plans. 相似文献
12.
Avian use of even-aged timber harvests is likely affected by stand attributes such as size, amount of edge, and retained basal area, all characteristics that can easily be manipulated in timber harvesting plans. However, few studies have examined their effects during the post-breeding period. We studied the impacts of clearcut, low-leave two-age, and high-leave two-age harvesting on post-breeding birds using transect sampling and mist-netting in north-central West Virginia. In our approach, we studied the effects of these harvest types as well as stand size and edge on species characteristic of both early-successional and mature forest habitats. In 2005-2006, 13 stands ranging from 4 to 10 years post-harvest and 4-21 ha in size were sampled from late June through mid-August. Capture rates and relative abundance were similar among treatments for generalist birds. Early-successional birds had the lowest capture rates and fewer species (∼30% lower), and late-successional birds reached their highest abundance and species totals (double the other treatments) in high-leave two-age stands. Area sensitivity was evident for all breeding habitat groups. Both generalist and late-successional bird captures were negatively related to stand size, but these groups showed no clear edge effects. Mean relative abundance decreased to nearly zero for the latter group in the largest stands. In contrast, early-successional species tended to use stand interiors more often and responded positively to stand size. Capture rates for this group tripled as stand size increased from 4 to 21 ha. Few birds in the forest periphery responded to harvest edge types despite within-stand edge effects evident for several species. To create suitable habitat for early-successional birds, large, non-linear openings with a low retained basal area are ideal, while smaller harvests and increased residual tree retention would provide habitat for more late-successional birds post-breeding. Although our study has identified habitat use patterns for different species in timber harvests, understanding habitat-specific bird survival is needed to help determine the quality of silvicultural harvests for post-breeding birds. 相似文献
13.
Annika Kangas Markus Hartikainen Kaisa Miettinen 《Scandinavian Journal of Forest Research》2014,29(7):224-233
In many recent studies, the value of forest inventory information in the harvest scheduling has been examined. Usually only the profitability of measuring simultaneously all the stands in the area is examined. Yet, it may be more profitable to concentrate the measurement efforts to some subset of them. In this paper, the authors demonstrate that stochastic optimization can be used for defining the optimal measurement strategy simultaneously with the harvest decisions. The results show that without end-inventory constraints, it was most profitable to measure the stands that were just below the medium age. Measuring the oldest stands was not profitable at all. It turned out to be profitable to postpone the measurements until just before the potential harvests. Introducing a strict end-inventory constraint increased the number of stands that could be profitably measured. In this case, also the length of the planning horizon had a clear effect on what stands were profitable to measure. With a 15-year planning horizon, measuring the oldest stands was profitable while with longer planning horizons it was not. The interest rate did not affect the number of stands measured much, but it had a clear effect on the timing of the measurements. 相似文献
14.
The effect of changes in roundwood harvests in Norway on the harvests in rest of the world is examined using a global forest sector model. About 60–100% of the harvest change in Norway is offset by an opposite change in the rest of the world. Such leakage rates vary over time, wood category, background scenario, and the size of the harvest change. Asymmetries between the effects of increasing and decreasing the harvests also exist. Hence, the magnitude of leakage rate is case specific, though considerable. Under tightening wood supply there is less need/room to respond to harvest increase/decrease in Norway with incremental/reduced harvests elsewhere. When the use of global forest resources intensifies with increasing wood demand in the future, leakage rates can be smaller than today. It is important to account for harvest leakage in order to avoid overestimating the climate benefits of policies that decrease or increase roundwood harvests. For instance, for full carbon sequestration benefits of increasing harvests for harvested wood products, creating fresh additional demand for these products should be prioritized. Else the origin of raw material and the place of production for these products may change instead of their stock. 相似文献
15.
《Forest Policy and Economics》2003,5(3):285-296
Forest owners’ values and the ownership structure of forest are changing continuously. One probable consequence of the current trends in Finland is that the significance of forest-related income will decrease, which may have a significant impact on the round wood supply. This study developed and demonstrated a new method, which allows policy makers to make forecasts on the future timber supply. The method is based on the assumed temporal changes in the distributions of the importance of different forest management goals. The distributions are converted into utility functions, generated separately for each forest holding. The utility functions are maximised, using heuristics, to obtain the optimal forest management plans for the holdings. The regional cutting budget is calculated by summing the removals of the optimal treatment schedules of stands over the whole area. The method was demonstrated by assuming four different scenarios for the forest management goals, in which the importance of net income from realised cuttings decreased by 0%, 25%, 50% or 100% in 60 years. The decrease was compensated for by an increased importance of the other goals, namely economic security, recreation, and nature values. The calculations were made with three different methods. Methods 1 and 2 derived the optimal plans directly for the whole 60-year period while Method 3 developed three consecutive 20-year plans. Method 2 assumed that the holding is sold or inherited once in 20 years with an abrupt change in the management goals. In Methods 1 and 3 the goals changed only gradually. The results were logical, indicating that the more the importance of net income decreases the lower the future timber supply will be. 相似文献
16.
An integrated assessment approach to optimal forest bioenergy production for young Scots pine stands
《Forest Ecosystems》2015,(3)
Background: Bioenergy is re-shaping opportunities and imperatives of forest management. This study demonstrates,through a case study in Scots pine(Pinus sylvestris L.), how forest bioenergy policies affect stand management strategies.Methods: Optimization studies were examined for 15 Scots pine stands of different initial stand densities, site types, and temperature sum regions in Finland. Stand development was model ed using the Pipe Qual stand simulator coupled with the simulation-optimization tool Opti For Bioenergy to assess three forest bioenergy policies on energy wood harvest from early thinnings.Results: The optimal solutions maximizing bare land value indicate that conventional forest management regimes remain optimal for sparse stands. Energy harvests occurred only when profitable, led to lower financial returns. A forest bioenergy policy which included compulsory energy wood harvesting was optimal for denser stands. At a higher interest rate(4 %), increasing energy wood price postponed energy wood harvesting. In addition, our results show that early thinning somewhat reduced wood quality for stands in fertile sites. For less fertile sites, the changes were insignificant.Conclusions: A constraint of profitable energy wood harvest is not rational. It is optimal to carry out the first thinning with a flexible forest bioenergy policy depending on stand density. 相似文献
17.
Emil Sandulescu John E. Wagner Sharon Pailler Donald W. Floyd Craig J. Davis 《Forest Policy and Economics》2007,10(1-2):14-24
Forest management in Romania is based on sustained yield. However, the current sustained-yield policy may be outdated and may not be the best way of achieving Romania's intended objectives of biological sustainability and community stability. The existing policy also does not incorporate objectives consistent with Romania's new economic and social systems. We examine the potential economic net benefits from timber harvests that could result from changes to the existing sustained-yield policy by comparing the state-approved management plan of a community forest with three alternative forest management plans. We find that the three alternatives appreciably increase the potential economic net benefits. Certain aspects of these alternative plans deviate from Romania's current sustained-yield criteria; however, the costs associated with changes to the current regime could be balanced by the economic net benefits of implementing an alternative management plan. To employ the same static forest management policy throughout time without adapting to a dynamic socio-economic environment will likely lead to inefficient, ineffective, and unproductive utilization of Romania's forest resources. 相似文献
18.
ABSTRACT As more forest entities worldwide consider pursuing Forest Stewardship Council (FSC) certification, a critical question remains on whether stand-level management impacts differ between certified and uncertified forests. To begin to answer this question, we measured forest structure on three FSC-certified stands, three uncertified stands, and six adjacent unharvested reference stands (12 stands total) composed primarily of sugar maple (Acer saccharum) on non-industrial private properties in central Vermont, USA. The certified and uncertified partial harvests reduced total tree biomass and live tree carbon storage by one-third compared to reconstructed pre-harvest conditions. Both treatments also contained significantly lower densities of saplings and some mid-size trees compared to non-harvested references due to similar impacts from harvesting. The net present value of merchantable sugar maple over 10 year projections was consistently lower on certified than uncertified stands, but this difference was insignificant at discount rates from 4–8%. The certified stands contained significantly greater total residual volumes of coarse woody debris (standing and downed) than uncertified stands, although the debris was smaller than that found in unmanaged mature forests. Overall, our data suggest that FSC-certified harvested stands in northern hardwood forests have similar sugar maple timber value, aboveground live tree carbon storage value, similar live tree structure, and greater residual coarse woody debris than uncertified harvested stands. 相似文献
19.
The forest planning system of large Swedish forest owners follows a three step procedure: long-term, medium-term, and short-term planning. The system is sequential and hierarchical in the sense that longer-term plans form the framework for shorter-term plans, and that top-level management prepares the long range plans and the lower management levels develop plans with successively shorter horizons. Studies indicate that this approach does not fully use existing knowledge within the organization. Problems associated with the top-down approach are also recognized in the general literature on organization and management. A proposal for a bottom-up approach is developed that aim at the use of local level knowledge to enhance accuracy and applicability of the forest plans. After top-level management has issued some fundamental planning directives, medium-term planning is conducted by the districts. Then the district plans are consolidated at the top-level for coordination and revision. A simulated planning process provides an illustration of the approach. The Heureka system is used here to optimize harvests and road costs with a mixed integer programming model of the problem, spanning 10 years with three seasons per year. The importance of detailed local knowledge to the outcome of planning is indicated, and needs for continued decision support systems development is discussed. 相似文献
20.
Boreal forest birds have adapted to changes caused by natural disturbances such as fire and this adaptation forms the basis for the Natural Disturbance Paradigm (NDP) underlying recent proposed changes in forest harvesting practices in western Canada. To date, this paradigm has been evaluated primarily at the stand level and within conventional harvesting systems. The potential for improvements in avian conservation at the landscape scale by adopting the NDP approach is largely unknown. We examined the effects of landscape-scale disturbances on forest bird communities by contrasting richness and abundance of birds in (1) 16 single-pass harvest sites with residual forest patches, (2) 29 multi-pass harvest sites with residuals; and (3) 15 salvage-logged post-fire sites with variable harvest intensity. We contrasted bird communities in these treatments with those in unsalvaged post-fire sites of similar age. Post-fire sites were used to provide a metric of the Natural Range of Variation (NRV) to be expected in bird communities. Sites were surveyed for avian community composition and abundance 1–5 years post-disturbance. Redundancy analysis indicated that bird communities differed from the NRV in all of the harvest treatments. However, single-pass harvests provided a somewhat better fit to NRV than did multi-pass harvesting. Avian community similarity was influenced by non-linear responses to area harvested, amount of residual retention, residual composition and pre-disturbance forest composition. An optimization routine created from a General Linear Model, suggests that community similarity to NRV can be maximized by using single-pass harvests over multi-pass harvests, harvesting 66–88% of the timber in the planning unit, and retaining 5–19% of the disturbance area as live residual patches, with 50% of harvests having at least 9% of the area in residuals. 相似文献