Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-17T18:09:09.991Z Has data issue: false hasContentIssue false

Pollen Representation, Source Area, and Basin Size: Toward a Unified Theory of Pollen Analysis

Published online by Cambridge University Press:  20 January 2017

I.Colin Prentice*
Affiliation:
Department of Geography, University of Southampton, Southampton SO9 5NH, England

Abstract

The concepts of pollen source area and of production and dispersal biases in pollen representation are quantified by means of a simple theoretical model. Source areas and relative pollen representation are shown to depend on basin size according to functions that describe the amount of pollen remaining airborne at increasing distances from single pollen sources. The form of these functions is determined by physical processes. Standard formulas for elevated sources do not apply, but the integrated form of Sutton's equation for particle dispersal from a ground-level source gives useful approximations applicable to pollen transport over a forest canopy. Simulations using this equation yielded source areas that increased realistically with basin size, showed substantial differences between source areas for pollen grains with different deposition velocities, and predicted that lighter pollen grains should become better represented with increasing basin size. All of these predictions are qualitatively consistent with present knowledge of the characteristics of pollen assemblages in different depositional environments. The model further allows parameters that can be estimated by statistical calibration methods to be predicted from underlying physical quantities. This extension suggests procedures for testing the theory with quantitative data on surface pollen and forest composition. Preliminary results showed reasonable agreement between estimated and predicted values of dispersal indices for the most abundant taxa in pollen spectra from the northern midwestern United States.

Type
Original Articles
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aario, L. 1940 Waldgrenzen und subrezenten Pollenspektren in Petsamo Lappland Annales Academiae Scientiarum Fenniae Series A 54 8 1120 Google Scholar
Andersen, S.T. 1967 Tree-pollen rain in a mixed deciduous forest in south Jutland (Denmark) Review of Palaeobotany and Palynology 3 267275 Google Scholar
Andersen, S.T. 1970 The relative pollen productivity and pollen representation of north European trees, and correction factors for tree pollen spectra Danmarks Geologiske Undersoegelse (Afhandlinger), Raekke 2 96 199 CrossRefGoogle Scholar
Andersen, S.T. 1973 The differential pollen productivity of trees and its significance for the interpretation of a pollen diagram from a forested region Birks, H.J.B. West, R.G. Quaternary Plant Ecology Blackwell Oxford 109115 Google Scholar
Andersen, S.T. 1974a Wind conditions and pollen deposition in a mixed deciduous forest. I. Wind conditions and pollen dispersal Grana 14 5763 CrossRefGoogle Scholar
Andersen, S.T. 1974b Wind conditions and pollen deposition in a mixed deciduous forest. II. Seasonal and annual pollen deposition Grana 14 6477 CrossRefGoogle Scholar
Andersen, S.T. 1980 The relative pollen productivity of the common forest trees in the early Holocene in Denmark Årbog Danmarks Geologiske Undersoegelse 1979 519 Google Scholar
Berglund, B.E. 1973 Pollen dispersal and deposition in an area of south-eastern Sweden—Some preliminary results Birks, H.J.B. West, R.G. Quaternary Plant Ecology Blackwell Oxford 117129 Google Scholar
Bonny, A.P. 1980 Seasonal and annual variation over 5 years in contemporary airborne pollen trapped at a Cumbrian lake Journal of Ecology 68 421441 CrossRefGoogle Scholar
Bradshaw, R.H.W. 1981a Modern pollen representation factors for woods in south-east England Journal of Ecology 69 4570 CrossRefGoogle Scholar
Bradshaw, R.H.W. 1981b Quantitative reconstruction of local woodland vegetation using pollen analysis from a small basin in Norfolk, England Journal of Ecology 69 941955 Google Scholar
Bradshaw, R.H.W. Webb, T. III 1983 Relationships between contemporary pollen and vegetation data from Wisconsin and Michigan, U.S.A. Ecology Google Scholar
Chamberlain, A.C. 1955 Aspects of Travel and Deposition of Aerosol and Vapour Clouds Atomic Energy Research Establishment Report HP/R 1261 135 Google Scholar
Chamberlain, A.C. 1967 Cross-pollination between fields of sugar beet Quarterly Journal of the Royal Meteorological Society 93 509515 CrossRefGoogle Scholar
Chamberlain, A.C. 1975 The movement of particles in plant communities Monteith, J.L. Vegetation and the Atmosphere Vol. 1 Academic Press New York/London 155203 Google Scholar
Currier, P.J. Kapp, R.O. 1974 Local and regional pollen rain components at Davis Lake, Montcalm County, Michigan Michigan Academician 7 211225 Google Scholar
Dabrowski, M.J. 1975 Tree pollen rain and the vegetation of the Białowieża National Park Biuletyn Geologiczny 19 157172 Google Scholar
Davis, M.B. 1963 On the theory of pollen analysis American Journal of Science 261 897912 Google Scholar
Delcourt, P.A. Delcourt, H.R. Davidson, J.L. 1983 Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States Review of Palaeobotany and Palynology 39 145 Google Scholar
Donner, J.J. 1972 Pollen frequencies in the Flandrian sediments of Lake Vakojärvi, south Finland Commentationes Biologicae, Societas Scientiarum Fennica 53 119 Google Scholar
Edmonds, R.L. Benninghoff, W.S. 1973a Ecological Systems Approaches to Aerobiology Vol. II Univ. of Michigan Ann Arbor “Development, Demonstration and Evaluation of Models.”Google Scholar
Edmonds, R.L. Benninghoff, W.S. 1973b Ecological Systems Approaches to Aerobiology Vol. III Univ. of Michigan Ann Arbor “Further Model Development”Google Scholar
Erdélyi, A. 1953 Higher Transcedental Functions Vol. 2 McGraw-Hill New York Google Scholar
Faegri, K. Iversen, J. ed 3 1975 Textbook of Pollen Analysis Munksgaard Copenhagen Google Scholar
Gregory, P.H. 1945 The dispersion of air-borne spores Transactions of the British Mycological Society 28 2672 Google Scholar
Gregory, P.H. ed 3 1973 The Microbiology of the Atmosphere Leonard Hill Aylesbury Google Scholar
Hage, K.D. 1973 Atmospheric dispersion models—Theory and practice Edmonds, R.L. Benhinghoff, W.S. Ecological Systems Approaches to Aerobiology Vol. II Univ. of Michigan Ann Arbor 316 “Development, Demonstration and Evaluation of Models”Google Scholar
Harrington, J.B. 1973 Report of Palynology Group Edmonds, R.L. Benninghoff, W.S. Ecological Systems Approaches to Aerobiology Vol. III Univ. of Michigan Ann Arbor 8496 “Further Model Development”Google Scholar
Heide, K.M. Bradshaw, R.H.W. 1982 The pollen2 relationship within forests of Wisconsin and Upper Michigan, U.S.A. Review of Palaeobotany and Palynology 36 123 CrossRefGoogle Scholar
Jacobson, G.L. Jr. Bradshaw, R.H.W. 1981 The selection of sites for paleovegetational studies Quaternary Research 16 8096 Google Scholar
Janssen, C.R. 1973 Local and regional pollen deposition Birks, H.J.B. West, R.G. Quaternary Plant Ecology Blackwell Oxford 3142 Google Scholar
Kabailiene, M.V. 1969 Formirovanie pyl'tsevykh spektrov i metody vosstanovleniya paleorastitel'nosti (English summary: On formation of pollen spectra and restoration of vegetation) Ministerstvo Geologii SSSR, Institut Geologii (Vil'nyus) Trudy 11 1148 Google Scholar
Krzywinski, K. 1977 Different pollen deposition mechanism in forest: A simple model Grana 16 199202 CrossRefGoogle Scholar
Levin, D.A. Kerster, H.W. 1974 Gene flow in seed plants Evolutionary Biology 7 139220 Google Scholar
Maher, L.J. Jr. 1963 Pollen analyses of surface materials from the southern San Juan mountains. Colorado Geological Society of American Bulletin 74 14851504 CrossRefGoogle Scholar
Mason, C.J. 1973 Meteorological dispersion models and their application to aerobiological problems Edmonds, R.L. Benninghoff, W.S. Ecological Approaches to Aerobiology Vol. III Univ. of Michigan Ann Arbor 1030 “Further Model Development”Google Scholar
Parsons, R.W. Prentice, I.C. 1981 Statistical approaches to R-values and the pollen-vegetation relationship Review of Palaeobotany and Palynology 32 127152 CrossRefGoogle Scholar
Parsons, R.W. Gordon, A.D. Prentice, I.C. 1983 Statistical uncertainty in forest composition estimates obtained from fossil pollen spectra via the R-value model Review of Palaeobotany and Palynology 40 177189 Google Scholar
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 Fennici 17 379393 Google Scholar
Pasquill, F. 1962 Atmospheric Diffusion Van Nostrand London Google Scholar
Pigott, C.D. Huntley, J.P. 1980 Factors controlling the distribution of Tilia cordata at the northern limits of its geographical range. II. History in north-west England New Phytologist 84 145164 CrossRefGoogle Scholar
Prentice, I.C. 1978 Modern pollen spectra from lake sediments in Finland and Finnmark, north Norway Boreas 7 131153 Google Scholar
Prentice, I.C. 1982 Calibration of pollen spectra in terms of species abundance Berglund, B.E. Palaeohydrological Changes in the Temperate Zone in the Last 15 000 Years. Subproject B: Lake and Mire Environments Vol. 3 Department of Quaternary Geology Lund 2551 Google Scholar
Prentice, I.C. Parsons, R.W. 1983 Maximum likelihood linear calibration of pollen spectra in terms of forest composition Biometrics 39 10511057 CrossRefGoogle Scholar
Raynor, G.S. Hayes, J.V. Ogden, E.C. 1974 Particulate dispersion into and within a forest Boundary-Layer Meteorology 7 429456 CrossRefGoogle Scholar
Raynor, G.S. Hayes, J.V. Ogden, E.C. 1975 Particulate dispersion from sources within a forest Boundary-Layer Meteorology 9 257277 CrossRefGoogle Scholar
Raynor, G.S. Ogden, E.C. Hayes, J.V. 1970 Dispersal and deposition of ragweed pollen from experimental sources Journal of Applied Meteorology 9 885895 2.0.CO;2>CrossRefGoogle Scholar
Sagendorf, J.F. Goll, J.T. Sandusky, W.F. 1982 XOQDOQ: Computer Program for the Meteorological Evaluation of Routine Effluent Releases at Nuclear Power Stations NUREG/CR Washington, D.C 2919 Google Scholar
Solomon, A.M. Harrington, J.B. 1979 Palynology models Edmonds, R.L. Aerobiology, the Ecological Systems Approach Dowden, Hutchinson & Ross Stroudsburg, Pa 338371 Google Scholar
Strand, L. 1957 Pollen dispersal Silvae Genetica 6 129136 Google Scholar
Sutton, O.G. 1947 The problem of diffusion in the lower atmosphere Quarterly Journal of the Royal Meteorological Society 73 257276 Google Scholar
Sutton, O.G. 1953 Micrometeorology McGraw-Hill New York Google Scholar
Tauber, H. 1965 Differential pollen dispersion and the interpretation of pollen diagrams Danmarks Geologiske Undersoegelse (Afhandlinger), Raekke 2 89 169 Google Scholar
Tauber, H. 1967a Differential pollen dispersion and filtration Cushing, E.J. Wright, H.E. Quaternary Palaeoecology Yale Univ. Press New Haven, Conn 131141 Google Scholar
Tauber, H. 1967b Investigations of the mode of pollen transfer in forested areas Review of Palaeobotany and Palynology 3 277286 CrossRefGoogle Scholar
Tauber, H. 1977 Investigations of aerial pollen transport in a forested area Dansk Botanisk Arkiv 32 1 1121 Google Scholar
Thompson, R. 1980 Use of the word “influx” in palaeolimnological studies Quaternary Research 14 269270 CrossRefGoogle Scholar
Turner, J. 1964 Surface sample analyses from Ayrshire, Scotland Pollen et Spores 6 583592 Google Scholar
Vuorela, I. 1973 Relative pollen rain around cultivated fields Acta Botanica Fennica 102 127 Google Scholar
Wang, C.-W. Perry, T.O. Johnson, A.G. 1960 Pollen dispersion of slash pine (Pinus elliottii Engelm.) with special reference to seed orchard management Silvae Genetica 9 7886 Google Scholar
Webb, T. III 1974 Corresponding patterns of pollen and vegetation in Lower Michigan: A comparison of quantitative data Ecology 55 1728 Google Scholar
Webb, T. III Howe, S.E. Bradshaw, R.H.W. Heide, K.M. 1981 Estimating plant abundances from pollen percentages: The use of regression analysis Review of Palaeobotany and Palynology 34 269300 Google Scholar
Wright, J.W. 1952 Pollen dispersion of some forest trees Northeastern Forest Experiment Station Papers 46 142 Google Scholar
Wright, J.W. 1953 Pollen dispersion studies: Some practical applications Journal of Forestry 51 114118 Google Scholar