How Much Physiology is Needed in Forest Gap Models for Simulating Long-Term Vegetation Response to Global Change? Harald BugmannJames F. ReynoldsLouis F. Pitelka Legacy Pages: 249 - 250
How Much Physiology Is Needed in Forest Gap Models for Simulating Long-Term Vegetation Response to Global Change? Introduction Louis F. PitelkaHarald BugmannJames F. Reynolds Introduction Pages: 251 - 257
Tree Species Composition in European Pristine Forests: Comparison of Stand Data to Model Predictions Franz-W. BadeckHeike LischkeBenjamin Smith OriginalPaper Pages: 307 - 347
Comparing the Performance of Forest gap Models in North America Harald K. M. BugmannStan D. WullschlegerAllen M. Solomon OriginalPaper Pages: 349 - 388
A Comparative Analysis of the Structure and Behavior of Three Gap Models at Sites in Northeastern China Guofan ShaoHarald BugmannXiaodong Yan OriginalPaper Pages: 389 - 413
Aboveground Growth and Competition in Forest Gap Models: An Analysis for Studies of Climatic Change Richard J. NorbyKiona OgleJosep PeƱuelas OriginalPaper Pages: 415 - 447
Below-Ground Processes in Gap Models for Simulating Forest Response to Global Change Stan D. WullschlegerRobert B. JacksonGuofan Shao OriginalPaper Pages: 449 - 473
Regeneration in Gap Models: Priority Issues for Studying Forest Responses to Climate Change David T. PriceNiklaus E. ZimmermannBenjamin Smith OriginalPaper Pages: 475 - 508
Tree Mortality in Gap Models: Application to Climate Change Robert E. KeaneMike AustinPeter Wyckoff OriginalPaper Pages: 509 - 540
How Much Physiology is Needed in Forest Gap Models for Simulating Long-Term Vegetation Response to Global Change? Challenges, Limitations, and Potentials James F. ReynoldsHarald BugmannLouis F. Pitelka OriginalPaper Pages: 541 - 557