[Bar-Joseph Z., Demaine E.D., Gifford D.K., Jaakkola T. (2001): Fast optimal leaf ordering for hierarchical clustering. Bioinformatics 17(1): 22–29.10.1093/bioinformatics/17.suppl_1.S2211472989]Search in Google Scholar
[Barnard S.T., Pothen A., Simon H.D. (1993): Algorithm for envelope reduction of sparse matrices. In: Proceedings of the 1993 ACM/IEEE Conference on Supercomputing, pages 493–502, New York.10.1145/169627.169790]Search in Google Scholar
[Bartoszek K., Pienaar J., Mostad P., Andersson S., Hansen T.F. (2012): A phylogenetic comparative method for studying multivariate adaptation. Journal of Theoretical Biology 314: 204–215.10.1016/j.jtbi.2012.08.00522940235]Search in Google Scholar
[Bergman P. (2003): Wybrane metody odległości wielocechowych–rys historyczny (Some multivariate distnace methods—a historical perspective, in Polish). In: Metody statystyczne w antropologii, VI Warsztaty Antropologiczne im. Profesora Janusza Charzewskiego (Statistical Methods in Anthropology, the Sixth Prof. Janusz Charzewski Anthropological Workshop), Warsaw.]Search in Google Scholar
[Boryło A., Skwarzec B., Olszewski G. (2012): The radiochemical contamination (210Po and 238U) of zone around phosphogypsum waste heap in Wiślinka (northern Poland). Journal of Environmental Science and Health, Part A 47(5): 675–687.10.1080/10934529.2012.66005222416862]Search in Google Scholar
[Cieśla A. (2009): Effect of hydrotechnical constructions on the Oder river on the phytosociological diversity of riparian habitats in the prawików forest. Forest Research Papers 70(2): 161–174. (in Polish).10.2478/v10111-009-0016-z]Search in Google Scholar
[Czekanowski J. (1909): Zur Differentialdiagnose der Neandertalgruppe. Korespondentblatt der Deutschen Gesellschaft für Anthropologie, Ethnologie und Urgeschichte XL(6/7): 44–47.]Search in Google Scholar
[Dołęgowska S., Migaszewski Z.M., Michalik A. (2013): Hylocomium splendens (Hedw.) B.S.G. and Pleurozium schreberi (Brid.) Mitt. as trace element bioindicators: Statistical comparison of bioaccumulative properties. Journal of Environmental Sciences 25(2): 340–347.10.1016/S1001-0742(12)60040-0]Search in Google Scholar
[Earle D., Hurley C.B. (2015): Advances in dendrogram seriation for applications to visualization. Journal of Computational and Graphical Statistics 24(1): 1–25.10.1080/10618600.2013.874295]Search in Google Scholar
[Everitt B., Hothorn T. (2011): An Introduction to Applied Multivariate Analysis with R. Springer.10.1007/978-1-4419-9650-3]Search in Google Scholar
[Florek K., Łukasiewicz J., Perkał J., Steinhaus H., Zubrzycki S. (1951): Sur la liason et la division des points d’un ensemble fini. Colloquium Mathematicum 2: 282–285.10.4064/cm-2-3-4-282-285]Search in Google Scholar
[Hahsler M., Hornik K., Buchta C. (2008): Getting things in order: An introduction to the R package seriation. Journal of Statistical Software 25(3): 1–34.10.18637/jss.v025.i03]Search in Google Scholar
[Havens T.C., Bezdek J.C., Keller J.M., Popescu M. (2009): Clustering in ordered dissimilarity data. International Journal of Intelligent Systems 24:504–528.10.1002/int.20344]Search in Google Scholar
[Homa M., Mościbrodzka M. (2016): Application of diagram methods and hierarchical agglomerative procedures to assess the risk of investment funds on the Warsaw Stock Exchange. Financial Sciences 4(29): 21–34.10.15611/nof.2016.4.02]Search in Google Scholar
[Jaskulski P., Sołtysiak A. (2004): Diagram Czekanowskiego: pomysł, historia, zastosowania. Prace Naukowe Akademii Ekonomicznej we Wrocławiu. Taksonomia 11(1022): 374–383. (Czekanowski’s Diagram : Idea, History, Implementations, in Polish).]Search in Google Scholar
[Kogan J. (2007): Introduction to Clustering Large and High–Dimensional Data. Cambridge University Press.]Search in Google Scholar
[Krakowiak-Bal A. (2009): Multidimensional comparative analysis of other gainful activities of agricultural holdings in EU countries. Infrastruktura i Ekologia Terenów Wiejskich 7: 129–137.]Search in Google Scholar
[Liiv I. (2010): Seriation and matrix reordering methods: An historical overview. Statistical Analysis and Data Mining 3(2): 70–91.10.1002/sam.10071]Search in Google Scholar
[Paradis E., Schliep K. (2018): ape 5.0: an environment for modern phylogenetics and evolutionary analyses in R. Bioinformatics 35: 526–528.10.1093/bioinformatics/bty63330016406]Search in Google Scholar
[Schwalbe G.A. (1906): Studien zur Vorgeschichte des Menschen. E. Nägele, Stuttgart.10.5962/bhl.title.61918]Search in Google Scholar
[Scrucca L. (2013): GA: A package for genetic algorithms in R. Journal of Statistical Software 53(4):1–37.10.18637/jss.v053.i04]Search in Google Scholar
[Scrucca L. (2017): On some extensions to GA package: hybrid optimisation, parallelisation and islands evolution. The R Journal 9(1): 187–206.10.32614/RJ-2017-008]Search in Google Scholar
[Sołtysiak A. (2000): Przedstawienie Boga–Węża na pieczęciach cylindrycznych z okresu akadyjskiego: analiza ikonograficzna. Studia i Materiały Archeologiczne 10: 189–214. (Depiction of the Serpent God on cylinder seals from the Akkadian era: an iconographic analysis, in Polish).]Search in Google Scholar
[Sołtysiak A., Jaskulski P. (1999): Czekanowski’s diagram. a method of multidimensional clustering. In: New Techniques for Old Times. CAA 98. Computer Applications and Quantitative Methods in Archaeology. Proceedings of the 26th Conference, Barcelona, March 1998, number 757 in BAR International Series, pages 175–184, Oxford.]Search in Google Scholar
[Späth H. (1980): Cluster Analysis Algorithms for Data Reduction and Classification of Objects. Ellis Horwood, Chichester.]Search in Google Scholar
[Stadler T. (2009): On incomplete sampling under birth-death models and connections to the sampling-based coalescent. Journal of Theoretical Biology 261(1): 58–68.10.1016/j.jtbi.2009.07.01819631666]Search in Google Scholar
[Stadler T. (2011): Simulating trees with a fixed number of extant species. Systematic Biology 60(5): 676–684.10.1093/sysbio/syr02921482552]Search in Google Scholar
[Steinhaus H. (1956): Sur la division des corps matériels en parties. Bulletin de l’Academie Polonaise des Sciences IV(12): 801–804.]Search in Google Scholar
[Stołyhwa K. (1907): Czy H. primigenius stanowi gatunek odrębny od H. sapiens? Światowit 8: 10–34. (Is H. primigenius a separate species from H. sapiens?, in Polish. Reprint of “Homo primigenius appartient–il a une espece distincte de Homo sapiens”, published in l’Anthropolgie in 1908).]Search in Google Scholar
[Stołyhwa K. (1908): Czaszka z Nowosiółki jako dowód istnienia w okresie historycznym kształtów pokrewnych z Homo primigenius. Rozprawy Wydziału matematyczno–przyrodnicznego Akademii Umiejętności XLVIII(B): 1–27. (The skull from Nowosiółka as proof of existence during the era of history shapes common with Homo primigenius, in Polish).]Search in Google Scholar
[Szczotka F.A. (1972): On a method of ordering and clustering of objects. Applicationes Mathematicae (Zastosowania Matematyki) XIII(1): 23–34.10.4064/am-13-1-23-34]Search in Google Scholar
[Västerlund A. (2019): Czekanowski’s Diagram: Implementing and exploring Czekanowski’s Diagram with different seriation methods. PhD thesis, Division for Statistics and Machine Learning, Department of Computer and Information Science, Linköping University.]Search in Google Scholar
[Warzecha K. (2015): The use of quantitative methods in research on selected behavioral addictions of young people. Studia Ekonomiczne 247: 121–139.]Search in Google Scholar