Order amid sparse data: Patterns of lake level changes in North America during the Late Quaternary

S. P. Harrison*, R. S. Clymo, H. Southall

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review


    Water-level fluctuations in closed-basin lakes can be used to reconstruct past hydrological changes, and the recognition of spatially coherent patterns in lake behavior provides evidence for changes in climate. The geological records of water level in many lakes, particularly those in arid regions, are by nature incomplete. The fragmentary nature of the data poses special problems for comparison of records and identification of regions where lakes behave similarly. An unconventional method of assessing similarity in the behavior of lakes is used with multidimensional scaling to place lakes in a low-dimensional space. Weights are used to reflect the amount of information available for each particular comparison. The similarity measure is based on evidence for changes in lake depth between successive time intervals and on independent evidence for the direction of change at any given time. Groups (clusters) of lakes in the low-dimensional space are identified by mutual proximity. The method was applied to a set of 65 Late Quaternary lake-level records from North America. About one-third of the lakes had too little weight to be placeable, about one-third were in clusters, and about one-third showed unique behavior. Those lakes which clustered showed four distinct types of record, characteristic of well-defined geographic regions. This ability to distinguish spatially coherent patterns on internal evidence alone strengthens the basis for using lake-level records for regional palaeoclimatic reconstructions.

    Original languageEnglish
    Pages (from-to)167-188
    Number of pages22
    JournalMathematical Geology
    Issue number3
    Publication statusPublished - Apr 1988


    • climatic change
    • cluster recognition
    • dissimilarity coefficient
    • missing data
    • multidimensional scaling


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