Evaluation of a large-scale forest scenario model in heterogeneous forests: A case study for Switzerland

被引：0

作者：

Federal Research Institute for Forest, Snow and Landscape , Zürcherstrasse 111, CH-8903 Birmensdorf, Switzerland ^{[1
]}

不详 ^{[2
]}

不详 ^{[3
]}

不详 ^{[4
]}

机构：

[1] Federal Research Institute for Forest, Snow and Landscape (WSL), CH-8903 Birmensdorf

[2] Forest Ecology, Department of Environmental Science, ETH Zentrum

[3] Alterra, 6700 AA Wageningen

[4] European Forest Institute (EFI), FI-80100 Joensuu

来源：

Can. J. For. Res. | 2006年 / 3卷 / 671-683期

关键词：

D O I：

10.1139/x05-283

中图分类号：

学科分类号：

摘要：

Large-scale forest scenario models are widely used to simulate the development of forests and to compare the carbon balance estimates of different countries. However, as site variability in the application area often exceeds the variability in the calibration area, model validation is important. The aim of this study was to evaluate the European Forest Information Scenario model (EFISCEN). As Switzerland exhibits high spatial and climatic diversity, it was taken as a case study. The model output was compared to measured data in terms of initialization, estimation of growing stock, stand age, increment, management, and natural mortality. Comparisons were done at the country level, but also for regions and site classes. The results showed that the initialization procedure of EFISCEN works well for Switzerland. Moreover, EFISCEN accurately estimated the observed growing stock at the country level. On a regional level, major differences occurred. In particular, distribution of the harvesting amounts, mortality, and age-class distribution deviated considerably from empirical values. For future model applications, we therefore propose to define the required harvesting level not per country, but to specify it for smaller regions. Moreover, the EFISCEN simulations should be improved by refining the mortality function and by incorporating more flexibility in forest management practices. © 2006 NRC.

引用

页码：671 / 683

页数：12

共 39 条

[1]

Abramowitz M., Stegun J.A., Handbook of Mathematical Functions: with Formulas, Graphs, and Mathematical Tables. Applied Mathematical Series 55, (1965)

[2]

Assmann E., Zur Theorie der Grundflächenhaltung, Forstwiss. Centralbl., 87, pp. 321-330, (1968)

[3]

Baldocchi D.D., Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems: Past, present and future, Global Change Biol., 9, pp. 479-492, (2003)

[4]

Bolliger J., Sprott J.C., Mladenoff D.J., Self-organization and complexity in historical landscape patterns, Oikos, 100, pp. 541-553, (2003)

[5]

Schweizerisches Landesforstinventar: Ergebnisse der Zweitaufnahme 1993-1995, (1999)

[6]

Churkina G., Tenhunen J., Thornton P.E., Falge E.M., Elbers J.A., Erhard M., Grunewald T., Kowalski A.S., Rannik U., Sprinz D., Analyzing the ecosystem carbon dynamics of four European coniferous forests using a biogeochemistry model, Ecosystems, 6, pp. 168-184, (2003)

[7]

Conover W.J., Statistics of the Kolmogorov-Smirnov Type. in Practical Nonparametric Statistics, pp. 428-473, (1999)

[8]

Fang J., Chen A., Peng C., Zhao S., Ci L., Changes in forest biomass carbon storage in China between 1949 and 1998, Science, 292, pp. 2320-2332, (2001)

[9]

Goodale C.L., Apps M.J., Birdsey R.A., Field C.B., Heath L.S., Houghton R.A., Jenkins J.C., Kohlmaier G.H., Kurz W., Liu S.R., Nabuurs G.J., Nilsson S., Shvidenko A.Z., Forest carbon sinks in the Northern Hemisphere, Ecol. Appl., 12, pp. 891-899, (2002)

[10]

Gurney K.R., Law R.M., Denning A.S., Rayner P.J., Baker D., Bousquet P., Bruhwiler L., Chen Y.H., Ciais P., Fan S., Fung I.Y., Gloor M., Heimann M., Higuchi K., John J., Maki T., Maksyutov S., Masarie K., Peylin P., Prather M., Pak B.C., Randerson J., Sarmiento J., Taguchi S., Takahashi T., Yuen C.W., Towards robust regional estimates of CO<sub>2</sub> sources and sinks using atmospheric transport models, Nature (London), 415, pp. 626-630, (2002)

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