Your search keyword '"Kristina Seftigen"' showing total 3 results

1. Partly decoupled tree-ring width and leaf phenology response to 20th century temperature change in Sweden

Author

Petter Stridbeck, Jesper Björklund, Mauricio Fuentes, Björn E. Gunnarson, Anna Maria Jönsson, Hans W. Linderholm, Fredrik Charpentier Ljungqvist, Cecilia Olsson, David Rayner, Eva Rocha, Peng Zhang, and Kristina Seftigen

Subjects

Ecology, Plant Science

Published

2022

2. The utility of bulk wood density for tree-ring research

Author

Tom De Mil, Patrick Fonti, Georg von Arx, Petter Stridbeck, Jesper Björklund, Anna Neycken, and Kristina Seftigen

Subjects

0106 biological sciences, Offset (computer science), 010504 meteorology & atmospheric sciences, Ecology, Sample (material), Tree allometry, Soil science, Plant Science, Dendroclimatology, 15. Life on land, 01 natural sciences, %22">Pinus , Dendrochronology, Proxy (statistics), Intensity (heat transfer), 010606 plant biology & botany, 0105 earth and related environmental sciences, Mathematics

Abstract

Bulk wood density measurements are recognized for their utility in ecology, industry, and biomass estimations. In tree-ring research, microdensitometric techniques are widely used, but their ability to determine the correct central tendency has been questioned. Though rarely used, it may be possible to use bulk wood density as a tool to check the accuracy of and even correct microdensitometric measurements. Since measuring bulk wood density in parallel with X-ray densitometry is quickly and easily done, we suspect that its omission is largely due to a lack of awareness of the procedure and/or its importance. In this study, we describe a simple protocol for measuring bulk wood density tailored for tree-ring researchers and demonstrate a few possible applications. To implement real-world examples of the applications, we used a sample of existing X-ray and Blue Intensity (BI) measurements from 127 living and dead Pinus sylvestris trees from northern Sweden to produce new measurements of bulk wood density. We can confirm that the central tendency in this sample material is offset using X-ray densitometry and that the diagnosis and correction of X-ray density is easily done using bulk wood density in linear transfer functions. However, this approach was not suitable for our BI measurements due to heavy discoloration. Nevertheless, we were able to use bulk wood density to diagnose and improve the use of deltaBI (latewood BI – earlywood BI) with regard to its overall trends and multi-centennial variability in a dendroclimatological application. Moreover, we experimented with percent of latewood width, scaled with bulk wood density, as a time- and cost-effective proxy for annual ring density. Although our reconstruction only explains about half of the variation in ring density, it is most likely superior to using fixed literature values of density in allometric equations aimed at biomass estimations. With this study, we hope to raise new awareness regarding the versatility and importance of bulk wood density for dendrochronology by demonstrating its simplicity, relevance, and applicability.

Published

2021

3. Dendroclimatic potential of dendroanatomy in temperature-sensitive Pinus sylvestris

Author

Georg von Arx, Patrick Fonti, Jesper Björklund, Kristina Seftigen, and Daniel Nievergelt

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, Resolution (electron density), Plant Science, Atmospheric sciences, 01 natural sciences, %22">Pinus , Environmental science, Temperature sensitive, Intensity (heat transfer), Tree line, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

The most frequently and successfully used tree-ring parameters for the study of temperature variations are ring width and maximum latewood density (MXD). MXD is preferred over ring width due to a more prominent association with temperature. In this study we explore the dendroclimate potential of dendroanatomy based on the first truly well replicated dataset. Twenty-nine mature living Pinus sylvestris trees were sampled in North-eastern Finland at the cool and moist boreal forest zone, close to the latitudinal tree line, where ring width, X-ray MXD as well as the blue intensity counterpart MXBI were compared with dendroanatomical parameters. Maximum radial cell wall thickness as well as anatomical MXD and latewood density appeared to be the most promising parameters for temperature reconstruction. In fact, these parameters compare favorably to MXD derived from X-ray techniques as well as MXBI, in terms of shared variation and temperature correlations across frequencies and over time. The reasons for these results are thought to be the unprecedentedly high measurement resolution of the anatomical technique, which provide the optimal resolution – the cell – whereas X-ray techniques have a slightly lower resolution and BI techniques even lower. While the results of this study are encouraging, further tests on longer and multigenerational chronologies are required to more generally and fully assess the dendroclimate potential of anatomical parameters.

Published

2020