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  2. Books
  3. Introduction to Computer-Intensive Methods of Data Analysis in Biology
  • Cited by 74
Publisher:
Cambridge University Press
Online publication date:
December 2009
Print publication year:
2006
Online ISBN:
9780511616785
DOI:
https://doi.org/10.1017/CBO9780511616785
Subjects:
Mathematics, Mathematical Biology, Life Sciences, Quantitative Biology, Biostatistics and Mathematical Modeling
Information

Book description

This 2006 guide to the contemporary toolbox of methods for data analysis will serve graduate students and researchers across the biological sciences. Modern computational tools, such as Maximum Likelihood, Monte Carlo and Bayesian methods, mean that data analysis no longer depends on elaborate assumptions designed to make analytical approaches tractable. These new 'computer-intensive' methods are currently not consistently available in statistical software packages and often require more detailed instructions. The purpose of this book therefore is to introduce some of the most common of these methods by providing a relatively simple description of the techniques. Examples of their application are provided throughout, using real data taken from a wide range of biological research. A series of software instructions for the statistical software package S-PLUS are provided along with problems and solutions for each chapter.

Reviews

"The strength of the work is its coverage of contemporary, computer-intensive methods and the detailed templates provided for implementing each one. Many people learn most quickly by working through an example that resembles a problem of their own, and so I think this aspect of the book will be widely appreciated."
N. Thompson Hobbs for Ecology

"The author's presentation of the material is meticulous in terms of organization and the use of well-defined notation. Nearly every method presented in the text has accompanying code in S-PLUS. Examples are interesting and most always involve real data. The topics are presented in a delightfully simple and intuitive fashion."
David H. Annis for The American Statistician

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Contents

Contents
References
References
References
Alatalo, R. V. (1982). Bird species distributions in the Galapagos and other archipelagoes: competition or chance?Ecology, 63, 881–7.
Anderson, M. J. and Braak, C. J. F. (2003). Permutation tests for multi-factorial analysis of variance. Journal of Statistical Computation and Simulation, 73, 85–113.
Anderson, T. W. (1958). An Introduction to Multivariate Statistical Analysis. New York: Wiley.
Arditi, R. (1989). Avoiding fallacious significance tests in stepwise regression; a Monte Carlo method applied to a meteorological theory for the Canadian lynx cycle. International Journal of Biometeorology, 33, 24–6.
Armbruster, W. S. (1986). Reproductive interactions between sympatric Dalechampia species: are natural assemblages “random” or organized?Ecology, 67, 522–33.
Armbruster, W. S., Edwards, M. E. and Debevec, E. M. (1994). Floral character displacement generates assemblage structure of Western Australian triggerplants (Stylidium). Ecology, 75, 315–29.
Arvesen, J. N. and Schmitz, T. H. (1970). Robust procedures for variance component problems using the jackknife. Biometrics, 26, 677–86.
Avise, J. C., Reeb, C. A. and Sanders, N. C. (1987). Geographic population and species differences in mitochondrial DNA of mouthbrooding catfishes (Ariidae) and dmersal spawning toadfishes (Batrachoididae). Evolution, 41, 991–1002.
Bartolucci, F., Mira, A. and Scaccia, L. (2004). Answering two biological questions with latent class model via MCMC applied to capture-recapture data. In M. Di Bacco, G. D'Amore, and F. Scalfari, eds., Applied Bayesian Statistical Studies in Biology and Medicine, pp. 7–24. Boston: Kluwer Academic Publishers.
Begin, M. and Roff, D. A. (2004). The effect of temperature and wing morphology on quantitative genetic variation in the cricket, Gryllus firmus, with an appendix examining the statistical properties of the Jackknife-MANOVA method of matrix comparison. Journal of Evolutionary Biology, 17, 1255--67.
Bentzen, P., Leggett, W. C. and Brown, C. G. (1988). Length and restriction site heteroplasmy in the mitochondrial DNA of American shad (Alosa sapidissima). Genetics, 118, 509–18.
Berger, J. O. (1985). Statistical Decision Theory and Bayesian Analysis. New York: Springer-Verlag.
Besag, J. and Clifford, P. (1989). Generalized Monte Carlo significance Tests. Biometrika, 76, 633–42.
Besag, J. and Clifford, P. (1991). Sequential Monte Carlo p-Values. Biometrika, 78, 301–4.
Blau, G. E.Neely, W. B. (1975). Mathematical model building with an application to determine the distribution of Dursban insecticide added to a simulated ecosystem. In Macfadyen, A., ed., Advances in Ecological Research, vol. 9, pp. 133--63. London: Academic Press.
Bliss, C. I. (1935). The calculation of the dosage-mortality curve. Annals of Applied Biology, 22, 220–33.
Bowers, M. A. and Brown, J. H. (1982). Body size and coexistence in desert rodents: chance or community structure?Ecology, 63, 391–400.
Brandl, R. and Topp, W. (1985). Size structure of Pterostichus spp. (Carabidae): aspects of competition. Oikos, 44, 234–8.
Breiman, L., Friedman, J. H., Olshen, R. A. and Stone, C. G. (1984). Classification and Regression Trees. Belmont, California: Wadsworth International Group.
Buonaccorsi, J. P. and Liebhold, A. M. (1988). Statistical methods for estimating ratios and products in ecological studies. Environmental Entomology, 17, 572–80.
Capone, T. A. and Kushlan, J. A. (1991). Fish community structure in dry-season stream pools. Ecology, 72, 983–92.
Carpenter, J. R. (1999). Test inversion bootstrap confidence intervals. Journal of the Royal Statistical Society, B, 61, 159–172.
Case, T. J., Faaborg, J. and Sidell, R. (1983). The role of body size in the assembly of West Indian bird communities. Evolution, 37, 1062–74.
Castledine, B. J. (1981). A Bayesian analysis of multiple-recapture sampling for a closed population. Biometrika, 67, 197–210.
Chambers, J. M. and Hastie, T. J. (1992). Statistical Models. New York: S. Chapman 8 Hall/CRC.
Chemini, C., Rizzoli, A., Merler, S., Furlanello, C. and Genchi, C. (1997). Ixodes ricinus (Acari: Ixodidae) infestation on roe deer (Capreolus capreolus). Trentino, Italian Alps. Parassitologia, 39, 59–63.
Cleveland, W. S., Grosse, E.Shyu, W. M. (1992). Local regression models. In Chambers, J. M., Hastie, T. J., eds., Statistical Models in S. pp. 309–76 London: Chapman and Hall.
Cochran, W. G. (1954). Some methods for strengthening the common χ2 tests. Biometrics, 10, 417–51.
Cole, B. J. (1981). Overlap, regularity, and flowering phenologies. American Naturalist, 117, 993–7.
Connor, E. F. and Simberloff, D. (1979). The assembly of species communities: chance or competition?Ecology, 60, 1132–40.
Connor, E. F. and Simberloff, D. (1986). Competition, scientific method, and null models in ecology. American Scientist, 74, 155–62.
Conover, W. J., Johnson, M. E. and Johnson, M. M. (1981). A comparative study of tests for homogeneity of variances, with applications to the outer continental shelf bidding data. Technometrics, 23, 351–61.
Cordell, H. J. and Carpenter, J. R. (2000). Bootstrap confidence intervals for relative risk parameters in affected-sib-pair data. Genetic Epidemiology, 18, 157–72.
Cordell, H. J. and , J. M. (1997). Confidence intervals for relative risk estimates obtained using affected-sib-pair data. Genetic Epidemiology, 14, 593–98.
Couteron, P., Seghieri, J. and Chadoeuf, J. (2003). A test for spatial relationships between neighbouring plants in plots of heterogeneous plant density. Journal of Vegetation Science, 14, 163–72.
Cox, D. R. and Hinkley, D. V. (1974). Theoretical Statistics. London: Chapman and Hall.
Cox, D. R. and Snell, E. J. (1989). Analysis of Binary Data. London: Chapman and Hall.
Crowley, P. H. (1992). Resampling methods for computation-intensive data analysis in ecology and evolution. Annual Review of Ecology and Systematics, 23, 405–48.
Dalaka, A., Kompare, B., Robnik-Sikonja, M. and Sgardelis, S. P. (2000). Modelling the effects of environmental conditions on apparent photosynthesis of Stipa bromoides by machine learning tools. Ecological Modelling, 129, 245–57.
Damgaard, C. and Weiner, J. (2000). Describing inequality in plant size or fecundity. Ecology, 81, 1139–42.
Davison, A. C. and Hinkley, D. V. (1999). Bootstrap Methods and their Applications. Cambridge: Cambridge University Press.
De'ath, G. and Fabricius, K. E. (2000). Classification and regression trees: a powerful yet simple technique for ecological data analysis. Ecology, 81, 3178–92.
Deely, J. (2004). Comparing two groups or treatments - a Bayesian approach. In Di Bacco, M., D'Amore, G., Scalfari, F., eds., Applied Bayesian Statistical Studies in Biology and Medicine. pp. 89–107. Boston: Kluwer Academic Publishers.
Diamond, J. M. and Gilpin, M. E. (1982). Examination of the “null” model of Connor and Simberloff for species co-occurrences on islands. Oecologia, 52, 64–74.
Dietz, E. J. (1983). Permutation tests for association between two distance measures. Systematic Zoologist, 32, 21–26.
Dillon, R. T. J. (1981). Patterns in the morphology and distribution of gastropods in Oneida lake, New York, detected using computer-generated null hypotheses. American Naturalist, 118, 83–101.
Dixon, P. M., Weiner, J., Mitchell-Olds, T. and Woodley, R. (1987). Bootstrapping the Gini coefficient of inequality. Ecology, 68, 1548–51.
Dobson, A. J. (1983). An Introduction to Statistical Modelling. London: Chapman and Hall.
Draper, N. R. and Smith, H. (1981). Applied Regression Analysis. New York: John Wiley 8 Sons.
Dzeroski, S., and Drumm, D. (2003). Using regression trees to identify the habitat preference of the sea cucumber (Holothuria leucospilota) on Rarontonga, Cook Islands. Ecological Modelling, 170, 219–26.
Edgington, E. S. (1987). Randomization Tests. New York: Marcel Dekker, Inc.
Efron, B. (1979). Computers and the theory of statistics: thinking the unthinkable. Siam Review, 2, 460–80.
Efron, B. (1981). Nonparametric standard errors and confidence intervals. The Canadian Journal of Statistics, 9, 139–72.
Efron, B. (1982). The Jackknife, the Bootstrap and Other Resampling Plans. Philadelphia: Society for Industrial and Applied Mathematics.
Efron, B. (1987). Better bootstrap confidence intervals. Journal of the American Statistical Association, 82, 171–200.
Efron, B., Halloran, E. and Holmes, S. (1996). Bootstrap confidence levels for phylogenetic trees. Proceedings of the National Academy of Science USA 93, 13429–34.
Efron, B. and Morris, C. (1973). Stein's estimation rule and its competitors – an empirical Bayes approach. Journal of the American Statistical Association, 68, 117–30.
Efron, B. and Morris, C. (1977). Stein's paradox in statistics. Scientific American, 119–28.
Efron, B. and Tibshirani, R. J. (1993). An Introduction to the Bootstrap. New York: Chapman and Hall.
Eliason, S. R. (1993). Maximum likelihood estimation. Newbury Park: Sage Publications.
Felsenstein, J. (1985). Confidence limits on phylogenies: an approach using the bootstrap. Evolution, 39, 783–91.
Felsenstein, J. and Kishino, H. (1993). Is there something wrong with the bootstrap on phylogenies? A reply to Hillis and Bull. Systematic Biology, 42, 193–200.
Flury, B. (1988). Common Principal Components and Related Multivariate Models. New York: Wiley.
Fong, D. W. (1989). Morphological evolution of the amphipod Gammarus minus in caves: quantitative genetic analysis. American Midland Naturalist, 121, 361–78.
Garthwaite, P. H. (1996). Confidence intervals from randomization tests. Biometrics, 52, 1387–93.
Gazey, W. J. and Staley, M. J. (1986). Population estimation from mark-recapture experiments using a sequential Bayes algorithm. Ecology, 67, 941–51.
Gelman, A., Carlin, J. B., Stern, H. S. and Rubin, D. B. (1995). Bayesian Data Analysis. London: Chapman and Hall.
George, E. I. and Robert, C. P. (1992). Capture-recapture estimation via Gibbs sampling. Biometrika, 79, 677–83.
Gilpen, M. E. and Diamond, J. M. (1982). Factors contributing to non-randomness in species co-occurrences on islands. Oecologia, 52, 75–84.
Gonzalez, L. and Manly, B. F. J. (1998). Analysis of variance by randomization with small data sets. Environmetrics, 9, 53–65.
Gotelli, N. J. (2000). Null model analysis of species co-occurrence patterns. Ecology, 81, 2606–21.
Gotelli, N. J. and Ellison, A. M. (2004). A Primer of Ecological Genetics. Sunderland: Sinauer Associates, Inc.
Hanski, I. (1982). Structure in bumblebee communities. Annales Zoologici Fennici, 19, 319–26.
Harvey, P. H., Colwell, R. K., Silvertown, J. W. and May, R. M. (1983). Null models in ecology. Annual Reviews of Ecology and Systematics, 14, 189–211.
Hastie, T. J. and Tibshirani, R. J. (1990). Generalized Additive Models. London: Chapman and Hall.
Hellmann, J. J. and Fowler, G. W. (1999). Bias, precision, and accuracy of four measures of species richness. Ecological Applications, 9, 824–34.
Hendrickson, J. A. J. (1981). Community-wide character displacement reexamined. Evolution, 35, 794–810.
Hillis, D. M. and Bull, J. J. (1993). An empirical test of bootstrapping as a method for assessing confidence in phylogenetic analysis. Systematic Biology, 42, 182–92.
Hizer, S. E., Wright, T. M. and Garcia, D. K. (2004). Genetic markers applied in regression tree prediction models. Animal Genetics, 35, 50–2.
Holyoak, M. (1993). The frequency of detection of density dependence in insect orders. Ecological Entomology, 18, 339–47.
Jackson, D. A., Somers, K. M. and Harvey, H. H. (1992). Null models and fish communities evidence of nonrandom patterns. American Naturalist, 139, 930–51.
Jacobsen, N. O. (1984). Estimates of pup production, age at first parturition and natural mortality for hooded seals in the west ice. Fiskeridirektoratet. Skrifter. Serie Havundersoekelser, 17, 483–98.
Jernigan, R. W., Culver, D. C. and Fong, D. W. (1994). The dual role of selection and evolutionary history as reflected in genetic correlations. Evolution, 48, 587–96.
Joern, A. and Lawlor, L. R. (1980). Food and microhabitat utilization by grasshoppers from arid grasslands: comparisons with neutral models. Ecology, 61, 591–9.
Kendall, M. G. and Buckland, W. R. (1982). A Dictionary of Statistical Terms. London: Longman Group Ltd.
Kennedy, P. E.Cade, B. S. (1996). Randomization tests for multiple regression. Communications in Statistics, Simulation and Computing, 25, 923–36.
Kimura, D. K. (1980). Likelihood methods for the von Bertalanffy growth curve. Fishery Bulletin, 77, 765–76.
Knapp, S. J., Bridges, J. W. C. and Yang, M. (1989). Nonparametric confidence estimators for heritability and expected selection response. Genetics, 121, 891–8.
Kochmer, J. P. and Handel, S. N. (1986). Constraints and competition in the evolution of flowering phenology. Ecological Monographs, 56, 303–25.
Krause, A. and Olson, M. (1997). The Basics of S and S-PLUS. New York: Springer.
Lawlor, L. R. (1980). Overlap, similarity, and competition coefficients. Ecology, 6, 245–51.
LeBlanc, M. and Crowley, J. (1992). Relative risk trees for censored survival data. Biometrics, 48, 411–25.
Leonard, T. and Hsu, J. S. J. (2001). Bayesian Methods. Cambridge: Cambridge University Press.
Link, W. A. and Hahn, D. C. (1996). Empirical Bayes estimation of proportions with application to cowbird parasitism rates. Ecology, 77, 2528–37.
Losos, J. B., Naeem, S. and Colwell, R. K. (1989). Hutchinsonian Ratios and Statistical Power. Evolution, 43, 1820–6.
Lynch, M. and Walsh, B. (1998). Genetics and Analysis of Quantitative Traits. Sunderland, MA: Sinauer Associates.
Madigan, D. and York, J. C. (1997). Bayesian methods for estimation of the size of a closed population. Biometrika, 84, 19–31.
Magnuson, J. J., Tonn, W. M., Banerjee, A., Toivonen, J., Sanchez, O. and Rask, M. (1998). Isolation vs. extinction in the assembly of fishes in small northern lakes. Ecology, 79, 2941–56.
Manly, B. F. J. (1991). Randomization and Monte Carlo Methods in Biology. London: Chapman and Hall.
Manly, B. F. J. (1993). A review of computer-intensive multivariate methods in ecology. In Patil, G. P., Rao, C. R., eds., Multivariate Environmental Statistics. pp. 307–46. Amsterdam: Elsevier Science Publishers.
Manly, B. F. J. (1995). A note on the analysis of species co-occurrences. Ecology, 76, 1109–15.
Manly, B. F. J. (1997). Randomization, Bootstrap and Monte Carlo Methods in Biology. New York: Chapman and Hall.
Marshall, R. J. (2001). The use of classification and regression trees in clinical epidemiology. Journal of Clinical Epidemiology, 54, 603–9.
Meyer, J. S., Ingersoll, C. G., McDonald, L. L. and Boyce, M. S. (1986). Estimating uncertainty in population growth rates: jackknife vs. bootstrap techniques. Ecology, 67, 1156–66.
Miller, R. G. (1974). The jackknife – a review. Biometrika, 61, 1–15.
Mingoti, S. A. and Meeden, G. (1992). Estimating the total number of distinct species using presence and absence data. Biometrics, 48, 863–75.
Mooney, C. Z. and Duval, R. D. (1993). Bootstrapping: A nonparametric approach to statistical inference. Newbury Park: Sage Publications.
Mueller, L. D. (1979). A comparison of two methods for making statistical inferences on Nei's measure of genetic distance. Biometrics, 35, 757–63.
Mueller, L. D. and Altenberg, L. (1985). Statistical inference on measures of niche overlap. Ecology, 66, 1204–10.
Negron, J. F. (1998). Probability of infestation and extent of mortality associated with the Douglas-fir beetle in the Colorado Front Range. Forest Ecology and Management, 107, 71–85.
Phillips, P. C. and Arnold, S. J. (1999). Hierarchical comparison of genetic variance-covariance matrices. I. Using the Flury hierarchy. Evolution, 53, 1506–15.
Pleasants, J. M. (1990). Null-model tests for competitive displacement: the fallacy of not focusing on the whole community. Ecology, 71, 1078–84.
Pollard, E. and Lakhani, K. H. (1987). The detection of density-dependence from a series of annual censuses. Ecology, 58, 2046–55.
Potvin, C. and Roff, D. (1996). Permutation tests in ecology: A statistical panacea?Bulletin of the Ecological Society of America, 77, 359
Press, S. J. (1989). Bayesian Statistics: Principles, Models, and Applications. New York: John Wiley 8 Sons.
Quenouille, M. (1949). Approximate tests of correlation in time series. Journal of the Royal Statistical Society, Series B, 11, 18–84.
Ranta, E. (1982a). Animal communities in rock pools. Annales Zoologi Fennici, 19, 337–47.
Ranta, E. (1982b). Species structure of North European bumblebee communities. Oikos, 38, 202–9.
Reichard, S. H. and Hamilton, C. W. (1997). Predicting invasions of woody plants introduced into North America. Conservation Biology, 11, 193–203.
Rejwan, C., Collins, N. C., Brunner, L. J., Shuter, B. J. and Ridgway, M. S. (1999). Tree regression analysis on the nesting habitat of smallmouth bass. Ecology, 80, 341–8.
Ricklefs, R. E., Cochran, D. and Pianka, E. R. (1981). A morphological analysis of the structure of communities of lizards in desert habitats. Ecology, 62, 1474–83.
Roff, D. A. (1997). Evolutionary Quantitative Genetics. New York: Chapman and Hall.
Roff, D. A. (2000). The evolution of the G matrix: selection or drift?Heredity, 84, 135–42.
Roff, D. A. (2002). Comparing G matrices: a MANOVA method. Evolution, 56, 1286–91.
Roff, D. A. and Bentzen, P. (1989). The statistical analysis of mitochondrial DNA polymorphisms: χ2 and the problem of small samples. Molecular Biological Evolution, 6, 539–45.
Roff, D. A.Bradford, M. J. (1996). Quantitative genetics of the trade-off between fecundity and wing dimorphism in the cricketAllonemobius socius. Heredity, 76, 178–85.
Roff, D. A. and Preziosi, R. (1994). The estimation of the genetic correlation: the use of the jackknife. Heredity, 73, 544–8.
Roff, D. A. and Roff, R. J. (2003). Of rats and Maoris: a novel method for the analysis of patterns of extinction in the New Zealand avifauna prior to European contact. Evolutionary Ecology Research, 5, 1–21.
Roff, D. A., Mousseau, T. A. and Howard, D. J. (1999). Variation in genetic architecture of calling song among populations of Allonemobius socius, A. fasciatus and a hybrid population: drift or selection?Evolution, 53, 216–24.
Roff, D. A., Mousseau, T., Møller, A. P., Lope, F. D. and Saino, N. (2004). Geographic variation in the G matrices of wild populations of the barn swallow. Heredity, 93, 8--14.
Sahai, H. and Ageel, M. I. (2000). The Analysis of Variance. Boston: Birkhauser.
Saitoh, T., Bjornstad, O. N. and Stenseth, N. C. (1999). Density dependence in voles and mice: a comparative study. Ecology, 80, 638–50.
Schluter, D. (1988). Estimating the form of natural selection on a quantitative trait. Evolution, 42, 849–61.
Schluter, D. and Nychka, D. (1994). Exploring fitness surfaces. American Naturalist, 143, 597–616.
Schoener, T. W. (1984). Size differences among sympatric, bird-eating hawks: a worldwide survey. In Strong, D. R., Simberloff, D., Abele, and A. B. Thistle L. G., eds., Ecological Communities: Conceptual Issues and the Evidence, pp. 245–81. Princeton, NJ: Princeton University Press.
Segal, M. R. and Bloch, D. A. (1989). A comparison of estimated proportional hazards models and regression trees. Statistics in Medicine, 8, 539–50.
Shackell, N. L., Lemon, R. E. and Roff, D. A. (1988). Song similarity between neighbouring American redstarts (Setophaga ruticilla): a statistical analysis. The Auk, 105, 609–15.
Shaw, R. G. (1991). The comparison of quantitative genetic parameters between populations. Evolution, 45, 143–51.
Shaw, R. G. and Mitchell-Olds, T. (1993). ANOVA for unbalanced data: an overview. Ecology, 74, 1638–45.
Silvertown, J. and Wilson, J. B. (1994). Community structure in a desert perennial community. Ecology, 75, 409–17.
Simons, A. M. and Roff, D. A. (1994). The effect of environmental variability on the heritabilities of traits of a field cricket. Evolution, 48, 1637–49.
Skov, F. (1997). Stand and neighbourhood parameters as determinants of plant species richness in a managed forest. Journal of Vegetation Science, 8, 573–8.
Solow, A. R. (1993). Inferring extinction from sighting data. Ecology, 74, 962–4.
Soltis, P. S. and Soltis, D. E. (2003). Applying the bootstrap in phylogeny reconstruction. Statistical Science, 18, 256–67.
Stratoudakis, Y., Gallego, A. and Morrison, J. A. (1998). Spatial distribution of developmental egg ages within a herring Clupea harengus spawning ground. Marine Ecology-Progress Series, 174, 27–32.
Strong, D. R. J. (1979). Tests of community-wide character displacement against null hypotheses. Evolution, 33, 897–913.
Strong, D. R. J. (1982). Null hypotheses in ecology. In E. Saarinen, ed., Conceptual Issues in Ecology, Dordrecht: D. Reidel, pp. 245–59.
Strong, D. R. J. and Simberloff, D. S. (1981). Straining at gnats and swallowing ratios character displacement. Evolution, 35, 810–12.
Strong, D. R., Simberloff, D., Abele, L. G. and Thistle, A. B. (1984). Ecological communities: conceptual issues and the evidence. Princeton, N.J: Princeton University Press.
Stuart, A., Ord, K. and Arnold, S. (1999). Kendall's Advanced Theory of Statistics. In Classical Inference and the Linear Model. Vol. 2A. London: Arnold.
Braak, C. J. F. (1992). Permutation versus bootstrap significance tests in multiple regression and ANOVA. In G. R. K. –H. Jöckel, W. Sendler, eds., Bootstrapping and related techniques: proceedings of an International Conference held in Trier, Germany, June 4--8, 1990, pp. 79–86. New York: Springer-Verlag.
Tibshirani, R. J. (1988). Variance stabilization and the bootstrap. Biometrika, 75, 433–44.
Tokeshi, M. (1986). Resource utilization, overlap and temporal community dynamics: a null model analysis of an epiphytic chironomid community. The Journal of Animal Ecology, 55, 491–506.
Tukey, J. W. (1958). Bias and confidence in not quite large samples. Annals of Mathematical Statistics, 29, 614.
Venables, W. N. and Ripley, B. D. (2002). Modern Applied Statistics with S. New York: Springer.
Vitt, L. J., Sartorius, S. S., Avila-Pires, T. C. S., Esposito, M. C. and Miles, D. B. (2000). Niche segregation among sympatric Amazonian teiid lizards. Oecologia, 122, 410–20.
Watters, G. and Deriso, R. (2000). Catches per unit of effort of bigeye tuna: a new analysis with regression trees and simulated annealing. Inter-American Tropical Tuna Commission Bulletin, 21, 531–71.
Willis, J. H., Coyne, J. A. and Kirkpatrick, M. (1991). Can one predict the evolution of quantitative characters without genetics?Evolution, 45, 441–4.
Wilson, J. B. (1987). Methods for detecting non-randomness in species co-occurrences: a contribution. Oecologia, 73, 579–82.
Zhou, X.-H., Gao, S. and Hui Siu, L. (1997). Methods for comparing the means of two independent log-normal samples. Biometrics, 53, 1129–35.

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