Chinese Journal of Applied Ecology ›› 2004, Vol. ›› Issue (5): 837-844.
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XU Chonggang1,2, HU Yuanman1, CHANG Yu1, LI Xiuzhen1, BU Renchang1, HE Hongshi 1
Received:
2003-01-21
Revised:
2003-09-01
CLC Number:
XU Chonggang, HU Yuanman, CHANG Yu, LI Xiuzhen, BU Renchang, HE Hongshi . Spatially explicit Landscape Model-LANDIS I.Mechanism[J]. Chinese Journal of Applied Ecology, 2004, (5): 837-844.
[1] Akcakaya HRE.2001.Linking population-level risk assessment with landscape and habitat modsls.Sci Total Environ,274:283~291 [2] Baker WL,Egbert SL,Frazier GF.1991.A spatial model for studying the effects of climatic change on the structure of landscapes subject to large disturbances.Ecol Mod,56:109~125 [3] Baker WL.1992.The landscape ecology of large disturbances in the design and management of nature reserves.Landscape Ecol,7:181~194 [4] Botkin DB,Janak JG,Wallis JR.1972.Some ecological consequences of a computer model of forest growth.J Ecol,60:849~872 [5] Botkin DB.1993.Forest Dynamics:An Ecological Model.Oxford:Oxford University Press. [6] Bugmann,HKM.1996.A simplified forest model to study speciescomposition along climate gradients.Ecology,77:2055~2074 [7] Chang Y(常禹),Bu R-C(布仁仓).2001.Geographic information system and individual based spatial explicit model.Chin J Ecol(生态学杂志),20(2):61~65(in Chinese) [8] Chen X-W(陈雄文),Wang F-Y(王凤友).2000.Simulation of potential responses of clear-cut of mixed coniferous and broadleaved Korean pine forest in Yichun to climate change by BKPF model.Chin J Appl Ecol(应用生态学报),11(4):513~517(in Chinese) [9] Durrett R.1999.Stochestic spatial model.SIAM Rev,41(4):677~718 [10] Ellner SP,McCauley E,Kendall BE,et al.2001.Habitat structure and population persistence in an experimental community.Nature,412:538~543 [11] Fischin A,Bugmann H,Gyalistres D.1995.Sensitivity of a forest ecosystem models to climate parameterization schemes.Environ Poll,87:267~282 [12] Foster DR,Motzkin G,Slater B.1997.Land-use history as long term broad-scale disturbance:Regional forest dynamics in central New England.Ecosystems,1:96~119 [13] Franklin J,Syphard AD,Mladenoff DJ,et al.2001.Simulating the effects of different fire regimes on plant functional groups in South em California.Ecol Mod,142:261~283 [14] Gao P,Zhan C,Menon S.1996.An overview of cell-besed modeling with GIS.In:Goodchild MF,Steysert LT,Parks Beds.GIS and Environmental Modeling:Progress and Research Issues.Fort Collins:GIS World Books.315~324 [15] Gardner RH,Hargrove WW,Turner MG,et al.1996.Climatechange,disturbances and landscape dynamic.In:Walker BH,Steffen WL eds.International Geosphere-Biosphere Programme,Book Series Number 2.Cambridge:Cambridge University Press.149~172 [16] Gardner RH,Romme WH,Turner MG.1999.Predicting forest fireeffects at landscape scales.In:Mladenoff DJ,Baker WL eds.Spatial Modeling of Forest Landscape Change:Approaches and Applications.Cambridge:Cambridge University Press.163~185 [17] Green DG.1989.Simulated effects of fire,dispersal and spatial pattern on competition within forest mosaics.Vegetation,82:139~153 [18] Gustafson EJ,Crow TR.1994.Modeling the effects of forest harvesting on landscape structure and the spatial distribution of cowbird brood parasitism.Landscape Ecol,19:237~248 [19] Gustafson EJ,Crow TR.1996.Simulating the effects of alternative forest management strategies on landscape structure.J Environ Man,46:77~94 [20] Gustafson EJ,Crow TR.1999.HARVEST:Linking timber harvesting strategies to landscape patterns.In:Klopatek JM,Gardner RH eds.Landscape Ecological Analysis:Issues and Application.New York:Springer-Verlag.309~332 [21] Gustafson EJ,Shifley SR,Mladenofff DJ,et al.2000.Spatial simulation of forest succession and timber harvesting using LANDIS.Can J For Res,30:32~43 [22] Haydon DT,Friar JK,Pianka ER.2000.Fire-driven dynamic mosaics in the Great Victoria Desert,Australia Ⅱ .A spatial and ternporal landscape model.Land Ecol,15:407~423 [23] He HS,Hao Z,Larsen DR,et al.2002.A simulation study of landscape scale forest succession in northeastern China.Ecol Mod,156:153~166 [24] He HS,Mladenoff DJ,Boeder J.1999.An object-oriented forest landscape model and its representation of tree species.Ecol Mod,119:1~19 [25] He HS,Mladenoff DJ,Gustafson EJ.2000.The effects of various harvesting scenarios on forest landscape under climate warming.Third Annual National Integrated Ecosystem Modeling Project Meeting,Raleigh,NC,U.S.A. [26] He HS,Mladenoff DJ,Gustafson EJ.2002.Study of landscape change under forest harvesting and climate warming-induced fire disturbance.For Ecol Man,155 :257~270 [27] He HS,Mladenoff DJ,Radeloff VC,et al.1998.Integration of GIS data and classified satellite imagery for regional forest assessment.Ecol Appl,8:1072~1083 [28] He HS,Mladenoff DJ,Radeloff VC,et al.1999.Linking an ecosys tem model and a landscape model to study forest species response to climate warming.Ecol Mod,114:213~233 [29] He HS,Mladenoff DJ.1999.Spatially explicit and stochastic simulation of forest landscape fire disturbance and succession.Ecology,80:81~99 [30] He HS,Mladenoff DJ.1999.The effects of seed dispersal on the simulation of long-term forest landscape change.Ecosystems,2:308~319 [31] Hogg EH.1999.Simulation of interannual responses of trembling aspen stands to climatic variation and insect defoliation in western Canada.Ecol Mod,114:175~193 [32] Johnson EA.1992.Fire and Vegetation Dynamics:Studies from the North American Boreal Forest.Cambridge:Cambridge University Press. [33] Kamata N.2002.Outbreaks of forest defoliating insects in Japan,1950~2000.Bull Ent Res,92:109~118 [34] Keane RE,Arno SE,Brown KJ.1989.FIRESUM-An Ecological Process Model for Fire Succession in Western Conifer Forests.US DA Forest Service General Technical Report INT-266. [35] Keane RE,Morgan P,Running SW.1996.Fire-BGC-A Mecha nistic Ecological Process Model for Simulating Fire Succession on Coniferous Forest Landscapes of the Northern Rocky Mountains.USDA Forest Service,Research Paper INT-484. [36] Luther JE,Franklin SE,Hudak J,et al.1997.Forecasting the sus ceptibility and vulnerability of Balsam Fir Stands to insect defolia tion with Landsat Thematic Mapper data.Remote Sensing Envi ron,59:77~91 [37] Mladenoff DJ,Baker WL.1999.Development of forest and land scape modeling approaches.In:Mladenoff DJ,Baker WL eds.Ad vances in Spatial Modeling of Forest Landscape Change:Approaches and Applications.Cambridge:Cambridge University Press.1~13 [38] Mladenoff DJ,Baker,WL.1999.Advances in Spatial Modeling of Forest Landscape Change:Approaches and Applications.Cam bridge:Cambridge University Press.1~349. [39] Mladenoff DJ,He HS.1999.Design and behavior of LANDIS,an object-oriented model of forest landscape disturbance and succes sion.In:Mladenoff DJ,Baker WL eds.Spatial Modeling of Forest Landscape Change:Approaches and Applications.Cambridge:Cam bridge University Press.125~162. [40] Mladenoff DJ,Host GE,Boeder J,et al.1996.LANDIS:A spatial model of forest landscape disturbance,succession and management.In:Goodchild MR,Steyaert LT,Parks BO eds.GIS and Environ mental Modeling:Progress and Research Issues.Fort Collins:GIS World Books.175~180 [41] Pacala SW,Canham CC,Saponara J,et al.1993.Forest models de fined by field measurement Ⅰ.The design of a northeastern forest simulator.Can J For Res,23:180~188 [42] Pacala SW,Canham CC,Saponara J,et al.1996.Forest models defined by field measurement:estimation,error analysis and dynamics.Ecol Monog,66:1~43 [43] Pastor J,Post WM.1985.Development of Linked Forest Productiv ity-Soil Process Model.Oak Ridge:Oak Ridge National Laboratory. [44] Pastor J,Post WM.1988.Response of northern forest to CO2-in duced climate change.Nature,334:55~58 [45] Ribbens E,Silander JA,Pacala SW.1994.Seedling recruitment in forests:calibrating models to predict patterns of tree seedling dis persion.Ecology,75:1794~1806 [46] Roberts DW.1996.Modeling forest dynamics with vital attributes and fuzzy system theory.Ecol Mod,90:161~173 [47] Shirley SR,Thompson FR,Larsen,DR,et al.2000.Modeling for est landscape change in the Missouri Ozarks under alternative man agement practices.Comp Elec Agric,27:7~24 [48] Shugart HH.1984.A Theory of Forest Dynamics.New York:Springer-Verlag. [49] Turner MG,Arthaud GJ,Engstrom RT,et al.1995.Usefulness of spatially explicit population models in land management.Ecol Appl,5:12~16 [50] Turner MG,Romme W-H,Gardner RH.1994.Landscape disturbance models and the long-term dynamics of natural areas.Nat Area J,14:3~11 [51] Urban DL,Acevedo MF,Garman SL.1999.Scaling fine-scale processes to large scale patterns using models derived from models:Meta-models.In:Mladenoff DJ,Baker WL eds.Spatial Modeling of Forest Landscape Change:Approaches and Applications.Cambridge:Cambridge University Press.70~98. [52] Urban DL,Shugart HH.1992.Individual-based models of forest succession.In:Glennlewin DC,Peet RK,Veblen TT eds.Plant Succession:Theory and Prediction.London:Chapman and Hall.249~292 [53] Wallin DO,Swanson FJ,Marks B,et al.1996.Comparison of managed and pre-settlement landscape dynamics in forest of the Pacific Nothwest,USA.For Ecol Man,85:291~309 [54] Wallin DO,Swanson FJ,Marks B.1994.Landscape pattern response to changes in pattern generation rules:Land-use legacies in forestry.Ecol Appl,4:569~580 [55] Wolter PT,Mladenoff FJ,Host GE,et al.1995.Improved forest classification in the Northern Lake States using multi-temporal landsat imagery.Photogrammetric Eng Remote Sensing,61:1129~1143 [56] Xu H-C(徐化成).1998.Daxingganling Mountains Forests in Chi ns.Beijing:Science Press.36~38(in Chinese) [57] Yan X-D(延晓冬).2001.Several basic issues of forest GAP model I.Effects of simulated plot area.Chin J Appl Ecol(应用生态学报),12(1):17~22(in Chinese) |
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