On non-linear species response models in ordination (original) (raw)
- Aart, P.J.M.van der. 1973. Distribution analysis of wolfspiders (Araneae, Lycosidae) in a dune area by means of principal component analysis. Neth. J. Zool. 23: 266–329.
Google Scholar - Aart, P.J.M.van der & N., Smeenk-Enserink. 1975. Correlations between distributions of hunting spiders (Lycosidae, Ctenidea) and environmental characteristics in a dune area. Neth. J. Zool. 25: 1–45.
Google Scholar - Anderson, A.J.B. 1971. Ordination methods in ecology. J. Ecol. 59: 713–726.
Google Scholar - Austin, M.P. 1972. Models and analysis of descriptive vegetation data. In J.N.R. Jeffers (ed.): Mathematical Models in Ecology. Symp. Brit. Ecol. Soc. 12: 61–86.
- Austin, M.P. 1977. Performance of four ordination techniques assuming three different non-linear species response models Vegetatio 33: 43–49.
Google Scholar - Austin, M.P. & P., Greig-Smith. 1968. The application of quantitative methods to vegetation survey. II. Some methodological problems of data from rain forest. J. Ecol. 56: 827–844.
Google Scholar - Austin, M.P. & I., Noy-Meir. 1971. The problem of non-linearity in ordination: experiments with two gradient models. J. Ecol. 59: 762–773.
Google Scholar - Bradley, J.V. 1968. Distribution-free Statistical Tests. Prentice-Hall, Englewood Cliffs, New Jersey.
Google Scholar - Bray, J.R. & J.T., Curtis. 1957. An ordination of the upland forest communities of southern Wisconsin. Ecol. Monogr. 27: 325–349.
Google Scholar - Clifford, H.T. & W., Stephenson. 1975. An Introduction to Numerical Classification. Academic Press. London.
Google Scholar - Curtis, J.T. 1959. The Vegetation of Wisconsin: an Ordination of Plant Communities. Univ. Wisconsin Madison.
Google Scholar - Dale, M.B. 1975. On objectives of methods of ordination. Vegetatio 30: 15–32.
Google Scholar - Ellenberg, H. 1954. Über einige Forschritte der kausalen Vegetationskunde. Vegetatio 5–6: 199–211.
Google Scholar - Fasham, M.J.R. 1976. A comparison of nonmetric multidimensional scaling, principal components and reciprocal averaging for the ordination of simulated coenoclines. (manuscript).
- Gauch, H.G.Jr. 1973. The relationship between sample similarity and ecological data. Ecology 55: 1377–1381.
Google Scholar - Gauch, H.G.Jr., G.B., Chase, & R.H., Whittaker. 1974. Ordination of vegetation samples by Gaussian species distribution. Ecology 55: 1382–1390.
Google Scholar - Gauch, H.G.Jr. & R.H., Whittaker, 1972a. Coenocline simulation. Ecology 53: 446–451.
Google Scholar - Gauch, H.G.Jr. & R.H., Whittaker. 1972b. Comparison of ordination techniques. Ecology 53: 868–875.
Google Scholar - Gauch, H.G., R.H. Whittaker, & T.R. Wentworth. 1976. A comparative study of reciprocal averaging and other ordination techniques. J. Ecol. (in press).
- Gittins, R. 1969. The application of ordination techniques. In I.H. Rorison (ed.); Ecological Aspects of the Mineral Nutrition of Plants Symp. Brit. Ecol. Soc. 1968, 9: 37–66.
- Goodall, D.W. 1954. Vegetational classification and vegetational continua. (Germ. summ.) Angew. Pflanzensoziol. [Wien], Festschr. Aichinger 1: 168–182.
Google Scholar - Gower, J.C. 1966. Some distance properties of latent root and vector methods used in multivariate analysis. Biometrika 53: 325–338.
Google Scholar - Groenewoud, H.van 1965. Ordination and classification of Swiss and Canadian coniferous forests by various biometric and other methods. (Germ. summ.) Ber. Geobot. Inst. ETH, Stiftg Rübel, Zürich, 1964, 36: 28–102.
Google Scholar - Hill, M.O. 1973. Reciprocal averaging: an eigenvector method of ordination. J. Ecol. 61: 237–249.
Google Scholar - Hill, M.O. 1974. Correspondence analysis: a neglected multivariate method. J. Roy. Stat. Soc., Ser. C, 23: 340–354.
Google Scholar - Ihm, P. & H.van, Groenewoud. 1975. A multivariate ordering of vegetation data based on Gaussian type gradient response curves. J. Ecol. 63: 767–777.
Google Scholar - Jeglum, J.K., C.F., Wehrhahn, & J.M.A., Swan. 1971. Comparisons of environmental ordinations with principal component vegetational ordinations for sets of data having different degrees of complexity. (French summ.) Can. J. For. Res. 1: 99–112.
Google Scholar - Kessel, S.R. & R.H. Whittaker. 1976. Comparisons of three ordination techniques. Vegetatio (in press).
- LaFrance, C.R. 1972. Sampling and ordination characteristics of computer-simulated individualistic communities. Ecology 53: 387–397.
Google Scholar - Loetsch, F., F. Zöhner, & K.E. Haller. 1973. Forest Inventory, Vol. 2. München. BLV.
- McIntosh, R.P. 1967. The continuum concept of vegetation. Bot. Rev. 33: 130–187.
Google Scholar - Monk, C.D. 1965. Southern mixed hardwood forest of north central Florida. Ecol. Mongr. 35: 335–354.
Google Scholar - Mueller-Dombois, D. & H., Ellenberg. 1974. Aims and Methods of Vegetation Ecology. John Wiley & Sons, New York.
Google Scholar - Mueller-Dombois, D. & H.P., Sims. 1966. Response of three grasses to two soils and a water table depth gradient. Ecology 47: 644–648.
Google Scholar - Noy-Meir, I. 1974a. Multivariate analysis of the semiarid vegetation in south-eastern Australia. II. Vegetation catenae and environmental gradients. Aust. J. Bot. 22: 115–140.
Google Scholar - Noy-Meir, I. 1974b. Catenation: quantitative methods for the definition of coenoclines. Vegetatio 29: 89–99.
Google Scholar - Noy-Meir, I. & R.H., Whittaker. 1976. Continuous multivariate methods in community analysis: some problems and developments. Vegetatio 33:
- Noy-Meir, I. & M.P., Austin. 1970. Principal component ordination and simulated vegetation data. Ecology 51: 551–552.
Google Scholar - Noy-Meir, I., D., Walker, & W.T., Williams. 1975. Data transformations in ecological ordination. II. On the meaning of data standardization. J. Ecol. 63: 779–800.
Google Scholar - Orlóci, L. 1973. Ordination by resemblance matrices. (Germ. summ.) In R.H., Whittaker (ed.). Ordination and Classification of Communities. Han db. Veget. Sci. 5: 249–286. Dr. W. Junk B. V., The Hague.
Google Scholar - Orlóci, L. 1975. Multivariate Analysis in Vegetation Research. Dr. W. Junk b.v., The Hague. 276 pp.
Google Scholar - Poincaré, H. 1912. Calcul des probabilités. 2nd ed. Gauthier-Villars, Paris.
Google Scholar - Ramensky, L.G. 1930. Zur Methodik der vergleichenden Bearbeitung und Ordnung von Pflanzenlisten und anderen Objecten, die durch mehrere, verschiedenartige wirkende Faktoren bestimmt werden. Beitr. Biol. Pflanz. 18: 269–304.
Google Scholar - Swan, J.M.A. 1970. An examination of some ordination problems by use of simulated vegetation data. Ecology 51: 89–102.
Google Scholar - Westman, W.E. 1975. Edaphic climax pattern of the pygmy forest region of California. Ecol. Monogr. 45: 109–135.
Google Scholar - Whittaker, R.H. 1956. Vegetation of the Great Smoky Mountains. Ecol. Monogr. 26: 1–80.
Google Scholar - Whittaker, R.H. 1967. Gradient analysis of vegetation. Biol. Rev. 42: 207–264.
Google Scholar - Whittaker, R.H. 1973a. Introduction. (Germ. summ.) In R.H., Whittaker (ed.). Ordination and Classification of Communities. Handb. Veget. Sci. 5: 3–6. Dr. W. Junk b.v., The Hague.
Google Scholar - Whittaker, R.H. 1976b. Direct gradient analysis. (Germ. summ.) In R.H., Whittaker (ed.): Ordination and Classification of Communities. Handb. Veget. Sci. 5: 7–51. Dr. W. Junk b.v., The Hague.
Google Scholar - Whittaker, R.H. & C.W., Fairbanks, 1958. A study of plankton copepod communities in the Columbia Basin, southeastern Washington. Ecology 39: 46–65.
Google Scholar - Whittaker, R.H. & H.G., GauchJr. 1973. Evaluation of ordination techniques. (Germ. Summ.) In R.H., Whittaker (ed.): Ordination and Classification of Communities. Handb. Veget. Sci. 5: 287–321. Dr. W. Junk b.v., The Hague.
Google Scholar - Whittaker, R.H. & H.G., GauchJr. 1976. Evaluation of ordination techniques. In R.H., Whittaker (ed.): Ordination of Plant Communities. Dr. W. Junk b.v., The Hague (in press).
Google Scholar