RationaleWe evaluated the applicability of tree-ring C-13 and O-18 values in bulk wood - instead of the more time and lab-consuming -cellulose C-13 and O-18 values, to assess climate and physiological signals across multiple sites and for six tree species along a latitudinal gradient (35 degrees 97'N to 45 degrees 20'N) of the northeastern United States.MethodsWood cores (n=4 per tree) were sampled from ten trees per species. Cores were cross-dated within and across trees at each site, and for the last 30years. Seven years, including the driest on record, were selected for this study. The C-13 and O-18 values were measured on two of the ten trees from the bulk wood and the -cellulose. The offsets between materials in C-13 and O-18 values were assessed. Correlation and multiple regression analyses were used to evaluate the strength of the climate signal across sites. Finally the relationship between C-13 and O-18 values in bulk wood vs -cellulose was analyzed to assess the consistency of the interpretation, in terms of CO2 assimilation and stomatal conductance, from both materials.ResultsWe found offsets of 1.1 and 5.6 parts per thousand between bulk and -cellulose for C-13 and O-18 values, respectively, consistent with offset values reported in the literature. Bulk wood showed similar or stronger correlations to climate parameters than -cellulose for the investigated sites. In particular, temperature and vapor pressure deficit and standard precipitation-evaporation index (SPEI) were the most visible climate signals recorded in C-13 and O-18 values, respectively. For most of the species, there was no relationship between C-13 and O-18 values, regardless of the wood material considered.ConclusionsExtraction of -cellulose was not necessary to detect climate signals in tree rings across the four investigated sites. Furthermore, the physiological information inferred from the dual isotope approach was similar for most of the species regardless of the material considered.
Guerrieri R., Jennings K., Belmecheri S., Asbjornsen H., Ollinger S. (2017). Evaluating climate signal recorded in tree-ring δ13C and δ18O values from bulk wood and α-cellulose for six species across four sites in the northeastern US. RAPID COMMUNICATIONS IN MASS SPECTROMETRY, 31(24), 2081-2091 [10.1002/rcm.7995].
Evaluating climate signal recorded in tree-ring δ13C and δ18O values from bulk wood and α-cellulose for six species across four sites in the northeastern US
Guerrieri R.
;
2017
Abstract
RationaleWe evaluated the applicability of tree-ring C-13 and O-18 values in bulk wood - instead of the more time and lab-consuming -cellulose C-13 and O-18 values, to assess climate and physiological signals across multiple sites and for six tree species along a latitudinal gradient (35 degrees 97'N to 45 degrees 20'N) of the northeastern United States.MethodsWood cores (n=4 per tree) were sampled from ten trees per species. Cores were cross-dated within and across trees at each site, and for the last 30years. Seven years, including the driest on record, were selected for this study. The C-13 and O-18 values were measured on two of the ten trees from the bulk wood and the -cellulose. The offsets between materials in C-13 and O-18 values were assessed. Correlation and multiple regression analyses were used to evaluate the strength of the climate signal across sites. Finally the relationship between C-13 and O-18 values in bulk wood vs -cellulose was analyzed to assess the consistency of the interpretation, in terms of CO2 assimilation and stomatal conductance, from both materials.ResultsWe found offsets of 1.1 and 5.6 parts per thousand between bulk and -cellulose for C-13 and O-18 values, respectively, consistent with offset values reported in the literature. Bulk wood showed similar or stronger correlations to climate parameters than -cellulose for the investigated sites. In particular, temperature and vapor pressure deficit and standard precipitation-evaporation index (SPEI) were the most visible climate signals recorded in C-13 and O-18 values, respectively. For most of the species, there was no relationship between C-13 and O-18 values, regardless of the wood material considered.ConclusionsExtraction of -cellulose was not necessary to detect climate signals in tree rings across the four investigated sites. Furthermore, the physiological information inferred from the dual isotope approach was similar for most of the species regardless of the material considered.File | Dimensione | Formato | |
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