Artículos de revistas
Dissecting the Space-Time Structure of Tree-Ring Datasets Using the Partial Triadic Analysis
Godefroid, Martin; Rossi, Jean Pierre; Sergent, Anne Sophie; Rozenberg, Philippe; Paques, Luc; Martinez Meier, Alejandro; et al.; Dissecting the Space-Time Structure of Tree-Ring Datasets Using the Partial Triadic Analysis; Public Library of Science; Plos One; 9; 9; 9-2014; 1-13; e108332
Rossi, Jean Pierre
Ruiz Diaz, Manuela
Sergent, Anne Sophie
Martinez Meier, Alejandro
Tree-ring datasets are used in a variety of circumstances, including archeology, climatology, forest ecology, and wood technology. These data are based on microdensity profiles and consist of a set of tree-ring descriptors, such as ring width or early/latewood density, measured for a set of individual trees. Because successive rings correspond to successive years, the resulting dataset is a ring variables × trees × time datacube. Multivariate statistical analyses, such as principal component analysis, have been widely used for extracting worthwhile information from ring datasets, but they typically address two-way matrices, such as ring variables × trees or ring variables × time. Here, we explore the potential of the partial triadic analysis (PTA), a multivariate method dedicated to the analysis of three-way datasets, to apprehend the space-time structure of tree-ring datasets. We analyzed a set of 11 tree-ring descriptors measured in 149 georeferenced individuals of European larch (Larix decidua Miller) during the period of 1967–2007. The processing of densitometry profiles led to a set of ring descriptors for each tree and for each year from 1967–2007. The resulting three-way data table was subjected to two distinct analyses in order to explore i) the temporal evolution of spatial structures and ii) the spatial structure of temporal dynamics. We report the presence of a spatial structure common to the different years, highlighting the inter-individual variability of the ring descriptors at the stand scale. We found a temporal trajectory common to the trees that could be separated into a high and low frequency signal, corresponding to inter-annual variations possibly related to defoliation events and a long-term trend possibly related to climate change. We conclude that PTA is a powerful tool to unravel and hierarchize the different sources of variation within tree-ring datasets.