Quaternary Plant Ecology Laboratory

FAGERLND

A Program for Exploring and Calibrating

Pollen/Vegetation Relationships

The FAGERLND program was developed to apply the Extended R-Value (ERV) models of Parsons and Prentice (Parsons et al. 1980, Parsons & Prentice 1981, Prentice & Parsons 1983) to pollen-vegetation calibration. The ERV models were designed as a solution to "the Fagerlind effect", in which non-linearities arise in modelling a percentage variable as a function of another precentage variable. The FAGERLND program is discussed in detail by Jackson et al. (1995), which provides citations for all relevant papers through 1994. Jackson and Kearsley (1998) provide a critical review of the assumptions of the ERV models, and Sugita (1994) describes an alternative formulation with applications.

DOWNLOADING THE PROGRAM

FAGERLND is a DOS or Windows compatible program. The following are required to run FAGERLND:

IBM compatible PC with at least an 80286 processor, at least an 80386SX preferred
Windows 3.1 or later running in standard or enhanced mode, enhanced mode preferred
80486 processor or 80x87 numeric coprocessor (other math processors such as the Weitek are not acceptable)
At least 2 Mb RAM, 4 Mb RAM preferred
At least 1 Mb free space on your hard drive for the program and data files.

You may download a self-extracting copy of FAGERLND (fgrlnd.exe) for your own use. Place the file in a directory and double click on it to extract the program files. Sample data sets (modersiz.exe and mosssne.exe) are also avalilable. Each data set should reside in its own directory.

Alternatively, you may download FAGERLND from the ftp site at Northern Arizona University. You will also want the contents of the modersiz and mosssne subdirectories (these are sample data sets) at that site. Each data set should reside in its own directory.

Literature Cited

Jackson, S.T. & J.B. Kearsley. 1998. Quantitative representation of local forest composition in forest-floor pollen assemblages. Journal of Ecology, 86, 474-490.
Jackson, S.T., Webb, T. III, Prentice, I.C. & Hansen, J.E. 1995. Exploration and calibration of pollen/vegetation relationships: a PC program for the extended R-value models. Review of Palaeobotany and Palynology, 84, 365-374.
Jackson, S.T. and Wong, A. 1994. Using forest patchiness to determine pollen source areas of closed-canopy pollen assemblages. Journal of Ecology, 82, 89-100.
Parsons, R.W. and Prentice, I.C. 1981. Statistical approaches to R-values and the pollen-vegetation relationship. Review of Palaeobotany and Palynology, 32, 127-152.
Parsons, R.W., Prentice, I.C. & Saarnisto, M. 1980. Statistical studies on pollen representation in Finnish lake sediments in relation to forest inventory data. Annales Botanici Fennicae, 17, 379-393.
Prentice, I.C. and Parsons, R. W. 1983. Maximum likelihood linear calibration of pollen spectra in terms of forest composition. Biometrics, 39, 1051-1057.
Sugita, S. 1994. Pollen representation of vegetation in Quaternary sediments: theory and method in patchy vegetation. Journal of Ecology, 82, 881-897.

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Questions? Comments?

Contact Steve Jackson at jackson@uwyo.edu

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