12.8: Chapter 12 References

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Asner, G., Martin, R., Keith, L., Heller, W., Hughes, M., Vaughn, N., … & Balzotti, C. (2018). A spectral mapping signature for the Rapid Ohia Death (ROD) pathogen in Hawaiian forests. Remote Sensing, 10(3), 404.

Bewick, V., Cheek, L., Ball, J. (2004). Statistics review 9: One-way analysis of variance. Critical Care 8:130–136.

Bewick, V., Cheek, L., Ball, J. (2004). Statistics review 9: One-way analysis of variance. Critical Care 8:130-136.

Boake, C. R. B. (1989). Repeatability: its role in evolutionary studies of mating behavior. Evolutionary Ecology 3:173-182.

Burton, P., Gurrin, L., Sly, P. (1998). Extending the simple linear regression model to account for correlated responses : An introduction to generalized estimating equations and multi-level mixed modelling. Statistics in Medicine 17:1261-1291.

Cohen, B. H. (2002). Calculating a factorial ANOVA from means and standard deviations. Understanding Statistics 1:191-203.

Corn, C. A., Hiesey, W. M. (1973). Altitudinal ecotypes in Hawaiian Metrosideros. No 10, US International Biology Program.

de Villemereuil, P., Gaggiotti, O. E., Mouterde, M., & Till-Bottraud, I. (2016). Common garden experiments in the genomic era: new perspectives and opportunities. Heredity, 116(3), 249.

Dohm, M. R. (2002). Repeatability estimates do not always set an upper limit to heritability. Functional Ecology 16:273-280.

Guisan,A., Edwards, Jr., T. C., Hastie, T. (2002). Generalized linear and generalized additive models in studies of species distributions: setting the scene. Ecological Modeling 157:89-100.

Hayes, A. F., & Cai, L. (2007). Using heteroskedasticity-consistent standard error estimators in OLS regression: An introduction and software implementation. Behavior Research Methods, 39(4), 709–722.

Holm, S. (1979). A simple sequentially rejective multiple test procedure. Scandinavian journal of statistics, 65-70.

Hunter, J. E., Schmidt. F. L. (2000). Fixed effects vs. random effects meta-analysis models: Implications for cumulative research knowledge. International Journal of Selection and Assessment 8:275-292.

Jafari, M., & Ansari-Pour, N. (2019). Why, when and how to adjust your P values?. Cell Journal (Yakhteh), 20(4), 604.

Jeanmougin, M., de Reynies, A., Laetitia, M., Paccard, C., Nuel, G., Guedj, M. (2010). Should we abandon the t-test in the analysis of gene expression microarray data: a comparison of variance modeling strategies. PloS One 5:e12336.

Jinyuan, L. I. U., Wan, T. A. N. G., Guanqin, C. H. E. N., Yin, L. U., & Changyong, F. E. N. G. (2016). Correlation and agreement: overview and clarification of competing concepts and measures. Shanghai archives of psychiatry, 28(2), 115.

Lessells, B., & Boag, P. T. (1987). Unrepeatable repeatabilities: A common mistake. Auk 104:116-121.

Liljequist, D., Elfving, B., & Skavberg Roaldsen, K. (2019). Intraclass correlation–A discussion and demonstration of basic features. PloS one, 14(7), e0219854.

Matthews, J. N., Altman, D. G., Campbell, M. J., Royston, P. (1990). Analysis of serial measurements in medical research. BMJ 300:230-235.

McGraw, K. O., & Wong, S. P. (1996). Forming inferences about some intraclass correlation coefficients. Psychological methods, 1(1), 30.

Mitch, W. E., & Walser, M. (1977). Effects of oral neomycin and kanamycin in chronic uremic patients: II. Nitrogen balance. Kidney international, 11(2), 123-127.

Moore, T. J., Conlin, P. R. , Ard, J., Svetkey, L. P. (2001). DASH (Dietary Approaches to Stop Hypertension) Diet Is Effective Treatment for Stage 1 Isolated Systolic Hypertension. Hypertension 38: 155-158.

Nakagawa, S., Cuthill, I. C. (2007). Effect size, confidence interval and statistical significance: a practical guide for biologists. Biological Reviews 82:591-605.

Nuismer, S. L., Gandon, S. (2008). Moving beyond common-garden and transplant designs: Insight into the causes of local adaptation in species interactions. American Naturalist 171:658-668.

Okada, K. (2013). Is omega squared less biased? A comparison of three major effect size indices in one-way ANOVA. Behaviormetrika, 40(2), 129-147. (cited in Daniel Lakens blog)

Ruxton, G. D., & Beauchamp, G. (2008). Time for some a priori thinking about post hoc testing. Behavioral ecology, 19(3), 690-693.

Shrout, P. E., Fleiss, J. L. (1979). Intraclass correlations: uses in assessing rater reliability. Psychological Bulletin 86:420-428.

Sokal, R. R., Rohlf, F. J. (1995). Biometry: The principles and practices of statistics in biological research, 3rd ed. WH Freeman.

Tobert, J. A., & Newman, C. B. (2016). Statin tolerability: In defence of placebo-controlled trials. European journal of preventive cardiology, 23(8), 891-896.

Whitley, E., Ball, J. (2002). Statistics review 5: Comparison of means. Critical Care 6:424-428.

Wolak, M. E., Fairbairn, D. J., & Paulsen, Y. R. (2012). Guidelines for estimating repeatability. Methods in Ecology and Evolution, 3(1), 129-137.

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