The effects of tracheid dimensions on variations in maximum density of Picea glehnii and relationships to climatic factors

Yasue, Koh; Funada, Ryo; Kobayashi, Osamu; Ohtani, Jun

doi:10.1007/pl00009766

Cited by 106 publications

(53 citation statements)

References 25 publications

(35 reference statements)

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“…2). This finding is consistent with other studies of MXD (e.g., Schweingruber 1988;D'Arrigo et al 1992;Davi et al 2003;Frank and Esper 2005;D'Arrigo et al 2009), and is due to the influence of summer climate on the thickness of the cell wall in the latewood of the annual ring (Yasue et al 2000). We select for our reconstruction target the mean monthly July and August temperatures from the Goddard Institute for Space Studies (GISS) Surface Temperature Analysis (GISTEMP; Hansen et al 2010) 1200-km grid cell associated with the Firth River site, since it is continuous, long, represents a large-scale regional mean, and can be readily compared to climate (Fig.…”

Section: Methodssupporting

confidence: 93%

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

et al. 2013

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Northwestern North America has one of the highest rates of recent temperature increase in the world, but the putative ''divergence problem'' in dendroclimatology potentially limits the ability of tree-ring proxy data at high latitudes to provide long-term context for current anthropogenic change. Here, summer temperatures are reconstructed from a Picea glauca maximum latewood density (MXD) chronology that shows a stable relationship to regional temperatures and spans most of the last millennium at the Firth River in northeastern Alaska. The warmest epoch in the last nine centuries is estimated to have occurred during the late twentieth century, with average temperatures over the last 30 yr of the reconstruction developed for this study in the Common Era (CE)] approximately 1.38 6 0.48C warmer than the long-term preindustrial mean (1100-1850 CE), a change associated with rapid increases in greenhouse gases. Prior to the late twentieth century, multidecadal temperature fluctuations covary broadly with changes in natural radiative forcing. The findings presented here emphasize that tree-ring proxies can provide reliable indicators of temperature variability even in a rapidly warming climate.

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Section: Methodssupporting

confidence: 93%

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

et al. 2013

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“…We found spring precipitation to be negatively correlated with TRW, possibly by delaying snowmelt and therefore shortening the growing season (Kirdyanov et al, 2003). Adverse effects of increased cloudiness on photosynthetic activity are likely the reason for slightly negative correlations between summer precipitation and MXD (Yasue et al, 2000). Interestingly, relative humidity, which at this high elevation site may be considered as a proxy of overcast conditions, shows an even stronger negative connection with MXD.…”

Section: Precipitation and Relative Humiditymentioning

confidence: 64%

“…Nevertheless, sunshine directly affects wood density and carbon isotopes, and anatomical studies showed that a decrease in light intensity and duration results in a decline in tracheid dimension and lighter latewood (Yasue et al, 2000). Sunshine hours were here identified as the leading climatic factor controlling δ 13 C variability during the recent calibration period.…”

mentioning

confidence: 68%

Spruce tree-ring proxy signals during cold and warm periods

Esper¹,

Carnelli²,

Kamenik³

et al. 2017

Dendrobiology

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Abstract:The strength and temporal rigidity of climate signals are important characteristics of proxy data used to reconstruct climate variability over pre-instrumental periods. Here, we assess the performance of different tree-ring proxies, including ring width, maximum latewood density, δ 13 C, and δ 18 O, during exceptional cold (1800-1850) and warm periods . The analysis was conducted at a spruce (Picea abies) timberline site in the Swiss Alps in proximity to long homogenized instrumental records to support calibration tests against early temperature and precipitation data. In this cold environment, tree-ring width, maximum latewood density, and δ 18O are mainly controlled by temperature variations. δ 13 C is influenced by various factors including temperature, precipitation, sunshine, and relative humidity. When comparing the response patterns during cold and warm periods, ring width and maximum latewood density revealed temporally stable temperature signals. In contrast, the association between the stable isotopes and climate changed considerably between the early 19th and late 20th centuries. The temperature signal in δ 18O was stronger during the recent warm period, whereas the opposite is true for δ 13 C. In δ 13 C, the temperature signal weakened from the early 19th to the late 20th centuries, but an (inverse) precipitation signal evolved indicating that soil moisture conditions additionally limited recent carbon isotope ratios. An attempt to combine the tree-ring proxies in a multiple regression model did not substantially improve the strength of the dominating temperature signal retained in the latewood density data as this proxy already explained a significant fraction of summer temperature variability. Our findings underscore the importance of split calibration/verification approaches including cold and warm periods, and challenge transfer models based on only late 20th century observational data.

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“…It is plausible that such a reduction could be caused by formation of compression wood on the abaxial side of the branches [1,19]. Compression wood is denser than normal wood [30] and in conifers an increase in wood density is often due to a decrease in tracheid lumen [36]. A decrease in tracheid lumen would also decrease specific conductivity.…”

Section: Spatial Variationmentioning

confidence: 99%

The ?¹³C of Scots pine (Pinus sylvestris L.) needles: spatial and temporal variations

Brendel¹,

Handley²,

Griffiths³

2003

Ann. For. Sci.

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-Spatial variation in carbon isotope composition (d 13 C) within the crown of an individual tree complicates sampling strategies, but a systematic study has allowed constraining factors to be determined. Spatial and temporal variations of the d 13 C of Pinus sylvestris L. needles were investigated on three exposed, south-facing, branches over 17 months (two growing seasons). A positive relationship (about 2‰ m -1 ) was found between needle d 13 C and trunk-needle distance on the branch. Abaxial needles were characterized by less negative d 13 C values (0.5‰) compared with adaxial needles. Both effects were interpreted in terms of branch hydraulic conductivity including the presence of compression wood. A close relationship was found between d 13 C measured in needles and in adjoining branch wood. Correcting the monthly data for spatial variation, a transient increase in needle d 13 C during spring was detected (about 0.6‰), whereas changes in needle d 13 C during summer, autumn and winter were minor and positively related to solar radiation. composition isotopique du carbone / Pinus sylvestris / aiguille / effet de la longueur de la branche / bois de compression

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The effects of tracheid dimensions on variations in maximum density of Picea glehnii and relationships to climatic factors

Cited by 106 publications

References 25 publications

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

Spruce tree-ring proxy signals during cold and warm periods

The ?¹³C of Scots pine (Pinus sylvestris L.) needles: spatial and temporal variations

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The effects of tracheid dimensions on variations in maximum density of Picea glehnii and relationships to climatic factors

Cited by 106 publications

References 25 publications

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

Tree-Ring-Reconstructed Summer Temperatures from Northwestern North America during the Last Nine Centuries*

Spruce tree-ring proxy signals during cold and warm periods

The ?13C of Scots pine (Pinus sylvestris L.) needles: spatial and temporal variations

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The ?¹³C of Scots pine (Pinus sylvestris L.) needles: spatial and temporal variations