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References (34)
-
E. M. Adomiet, M. P. Austin, M. F. Hutchinson, K. Christenson (1984)
A Rainfall Surface and Contour Map of South‐eastern Australia -
L. Pryor (1959)
Species Distribution and Association in Eucalyptus -
R. G. Florence (1981)
Biology of Native Australian Plants -
K. D. Cocks, J. R. Ive, J. L. Clark (1995)
Forest Issues: Processes and Tools for Inventory, Evaluation, Mediation and Allocation. Report on a case‐study of the Batemans Bay area, New South Wales, Australia -
Brendan Mackey, Henry Nix, Michael Hutchinson, J. Macmahon, P. Fleming (1988)
Assessing representativeness of places for conservation reservation and heritage listingEnvironmental Management, 12
-
M. Austin, G. Yapp (1978)
Definition of rainfall regions of south-eastern Australia by numerical classification methodsArchiv für Meteorologie, Geophysik und Bioklimatologie, Serie B, 26
-
D. Currie (1991)
Energy and Large-Scale Patterns of Animal- and Plant-Species RichnessThe American Naturalist, 137
-
D. Newbery (1995)
M. A. Huston, Biological Diversity: the coexistence of species on changing landscapes . Cambridge University Press. ISBN 0-521-36930-4 (pbk). 681 + xix. pages. £24.95.Journal of Tropical Ecology, 11
-
A. Nicholls (1989)
How to make biological surveys go further with generalised linear modelsBiological Conservation, 50
-
I. Noble (1989)
Ecological Traits of the Eucalyptus L'hérit Subgenera Monocalyptus and SymphyomyrtusAustralian Journal of Botany, 37
-
A. Floyd (1989)
Rainforest trees of mainland South-eastern Australia -
K. Rohde (1992)
Latitudinal gradients in species diversity: the search for the primary causeOikos, 65
-
F. Chapin, E. Schulze, Harold Mooney (1992)
Biodiversity and ecosystem processes.Trends in ecology & evolution, 7 4
-
(1993)
Species diversity : An introduction to the problem -
P. J. Grubb (1987)
Organisation of Communities, Past and Present -
D. Pregibon (1981)
Logistic Regression DiagnosticsAnnals of Statistics, 9
-
R. Gittins (1968)
Trend-Surface Analysis of Ecological DataJournal of Ecology, 56
-
M. Austin, R. Cunningham, J. Wood (1983)
The Subgeneric Composition of Eucalypt Forest Stands in a Region of South-Eastern AustraliaAustralian Journal of Botany, 31
-
M. Begon, J. L Harper, C. R. Townsend (1990)
Ecology. Individuals, populations and communities -
J. Burdon, L. Pryor (1975)
Interspecific Competition Between Eucalypt SeedlingsAustralian Journal of Botany, 23
-
R. G. Florence (1963)
Vegetation pattern in east coast forests, 88
-
J. Pausas (1994)
Species richness patterns in the understorey of Pyrenean Pinus sylvestris forestJournal of Vegetation Science, 5
-
D. Currie, Viviane Paquin (1987)
Large-scale biogeographical patterns of species richness of treesNature, 329
-
M. P. Austin (1978)
Land Use on the South Coast of New South Wales. Vol. 2 Biophysical Background Studies -
G. Stevens (1989)
The Latitudinal Gradient in Geographical Range: How so Many Species Coexist in the TropicsThe American Naturalist, 133
-
J. Burdon, G. Chilvers (1974)
Fungal and Insect Parasites Contributing to Niche Differentiation in Mixed Species Stands of Eucalypt SaplingsAustralian Journal of Botany, 22
-
James Brown (1981)
Two Decades of Homage to Santa Rosalia: Toward a General Theory of DiversityIntegrative and Comparative Biology, 21
-
M. P. Austin, R. B. Cunningham, P. M. Fleming (1984)
New approaches to direct gradient analysis using environmental scalars and statistical curve‐fitting procedures, 55
-
H. Cornell, J. Lawton, J. Carroll, D. Royer, J. Laundre (1992)
Species interactions, local and regional processes, and limits to the richness of ecological communities : a theoretical perspectiveJournal of Animal Ecology, 61
-
P. Richerson, Kwei-lin Lum (1980)
Patterns of Plant Species Diversity in California: Relation to Weather and TopographyThe American Naturalist, 116
-
M. P. Austin (1980)
Searching for a model for use in vegetation analysis, 42
-
G. Stevens (1992)
The Elevational Gradient in Altitudinal Range: An Extension of Rapoport's Latitudinal Rule to AltitudeThe American Naturalist, 140
-
P. S. Giller (1984)
Community Structure and the Niche -
M. Austin, A. Nicholls, C. Margules (1990)
Measurement of the realized qualitative niche: environmental niches of five Eucalyptus speciesEcological Monographs, 60
- Publisher
- Wiley
- Copyright
- Copyright © 1996 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1442-9985
- eISSN
- 1442-9993
- DOI
- 10.1111/j.1442-9993.1996.tb00596.x
- Publisher site
- See Article on Publisher Site
Abstract
Abstract We present regression models of species richness for total tree species, two growth forms, rainforest trees (broadleaf evergreens) and eucalypts (sclerophylls), and two large subgenera of Eucalyptus. The correlative models are based on a data set of 166 tree species from 7208 plots in an area of southeastern New South Wales, Australia. Eight environmental variables are used to model the patterns of species richness, four continuous variables (mean annual temperature, rainfall, radiation and plot size), plus four categorical factors (topographic position, lithology, soil nutrient level and rainfall seasonality). Generalized linear modelling with curvilinear and interaction terms, is used to derive the models. Each model shows a significant and differing response to the environmental predictors. Maximum species richness of eucalypts occurs at high temperatures, and intermediate rainfall and radiation conditions on ridges with aseasonal rainfall and intermediate nutrient levels. Maximum richness of rainforest species occurs at high temperatures, intermediate rainfall and low radiation in gullies with summer rainfall and high nutrient levels. The eucalypt subgenera models differ in ways consistent with experimental studies of habitat preferences of the subgenera. Curvilinear and interaction terms are necessary for adequate modelling. Patterns of richness vary widely with taxonomic rank and growth form. Any theories of species diversity should be consistent with these correlative models. The models are consistent with an available energy hypothesis based on actual evapotranspiration. We conclude that studies of species richness patterns should include local (e.g. soil nutrients, topographic position) and regional (e.g. mean annual temperature, annual rainfall) environmental variables before invoking concepts such as niche saturation.
Journal
Austral Ecology – Wiley
Published: Jun 1, 1996
Keywords: ; ; ; ;