[AOKI, Y., YAMAUCHI, M. and NAKASHIMA, Y. (1952): Study of identification in Rhus succedanea L. Fukuoka Pref. Forest Exp. Stn.: 1-85 (in Japanese).]Search in Google Scholar
[AOKI, Y., YAMAUCHI, M. and TAKESHITA, K. (1953): Study of identification in Rhus succedanea L. (2) Identification based on fruit shape. Fukuoka Pref. Forest Exp. Stn.: 1-25 (in Japanese).]Search in Google Scholar
[BIERBAUM, R. M. and FERSON, S. (1986): Do symbiotic pea crabs decrease growth rate in mussels? Biol. Bull. 170: 51-61.10.2307/1541380]Search in Google Scholar
[BOOKSTEIN, F. L., STRAUSS, R. E., HUMPHRIES, J. M., CHERONOFF, B., ELDER, R. L. and SMITH, G. R. (1982): A comment upon the uses of Fourier methods in systematics. Syst. Zool. 31: 85-92.10.2307/2413416]Open DOISearch in Google Scholar
[DIAZ, G., ZUCCARELLI, A., PELLIGRA, I. and GHIANI, A. (1989): Elliptic Fourier analysis of cell and nuclear shapes. Comp. Biomed. Res. 22: 405-414.]Search in Google Scholar
[EHRLICH, R. and WEINBERG, B. (1970): An exact method for characterization of grain shape. J. Sed. Pet. 40: 205-212.]Search in Google Scholar
[EHRLICH, R. B., PHARR, JR. and HEALY-WILLIAMS, N. (1983): Comments on the validity of Fourier descriptors in systematics: A Reply to BOOKSTEIN et al. Syst. Zool. 32: 202-206.10.2307/2413281]Open DOISearch in Google Scholar
[FERSON, S., ROHLF, F. J. and KOEHN, R. K. (1985): Measuring shape variation of two-dimensional outlines. Syst. Zool. 34: 59-68.]Search in Google Scholar
[FREEMAN, H. (1974): Computer processing of line drawing images. Comp. Surv. 6: 57-97.10.1145/356625.356627]Search in Google Scholar
[FURUTA, N., NINOMIYA, S., TAKAHASHI, N., OHMORI, H. and UKAI, Y. (1995): Quantitative evaluation of soybean (Glycine max L. Merr.) leaflet shape by principal component scores based on elliptic Fourier descriptor. Breed. Sci. 45: 315-320.]Search in Google Scholar
[GOTO, S., WATANABE, A. and IKEDA, K. (1997): Use of RAPD markers for cultivar identification in Rhus succedanea L. J. Jpn. For. Soc. 79: 229-233 (in Japanese with English summary).]Search in Google Scholar
[IWATA, H., NIIKURA, S., MATSUURA, S., TAKANO, Y. and UKAI, Y. (1998): Evaluation of variation of root shape of Japanese radish (Raphanus sativus L.) based on image analysis using elliptic Fourier descriptors. Euphytica 102: 143-149.10.1023/A:1018392531226]Search in Google Scholar
[IWATA, H., NIIKURA, S., MATSUURA, S., TAKANO, Y. and UKAI, Y. (2000): Diallel analysis of root shape of Japanese radish (Raphanus sativus L.) based on elliptic Fourier descriptors. Breed. Sci. 50: 73-80.]Search in Google Scholar
[IWATA, H. (2001): SHAPE Ver. 1.2. A software package for quantitative evaluation of biological shapes based on elliptic Fourier descriptors. Free program distributed by the author over the internet from the Home Page at http://cse.naro.affrc.go.jp/iwatah/shape/index.html.]Search in Google Scholar
[IWATA, H., NESUMI, H., NINOMIYA, S., TAKANO, Y. and UKAI, Y. (2002a): Diallel analysis of leaf shape variations of citrus varieties based on elliptic Fourier descriptors. Breed. Sci. 52: 89-94.10.1270/jsbbs.52.89]Search in Google Scholar
[IWATA, H., NESUMI, H., NINOMIYA, S., TAKANO, Y. and UKAI, Y. 2002b): The evaluation of genotype environment interactions of citrus leaf morphology using image analysis and elliptic Fourier descriptors. Breed. Sci. 52: 243-252.10.1270/jsbbs.52.243]Search in Google Scholar
[KUHL, F. P. and GIARDINA, C. R (1982): Elliptic Fourier features of a closed contour. Comp. Graph. Image Proc. 18: 236-258.10.1016/0146-664X(82)90034-X]Open DOISearch in Google Scholar
[ROHLF, F. J. and ARCHIE, J.W. (1984): A comparison of Fourier methods for the description of wing shape in mosquitoes (Ritera culicidae). Syst. Zool. 33: 302-317.10.2307/2413076]Open DOISearch in Google Scholar
[WHITE, R. J., RENTICE, H. C. and VERWIST, T. (1988): Automated image acquisition and morphometric description. Can. J. Bot. 66: 450-459.10.1139/b88-070]Open DOISearch in Google Scholar