Mika Hayashi scite author profile

The March 2011 Mega-Tsunami in eastern Japan damaged at different degrees the black pine (Pinus thunbergii) forests along the coast. In order to evaluate the recovery of black pine four years later, tree-ring samples from 9 trees for the period 2002-2014 were analyzed for ring growth and stable isotopes (δC, δN and δO). The results showed that annual tree-ring width decreased approximately 70 % from the year 2011 to 2014 compared to the period previous to the tsunami (2002-2010). The multiple isotopic analyses showed that the reduction in growth was caused by soil salinity that prompted stomatal closure and an abrupt increase of tree-ring δC. Sea water deposition in the soil did not affect tree-ring δO values. Two years after the tsunami, decreasing tree-ring δC values caused by apparently photosynthetic recovery did not translate into radial tree-growth, indicating a possible shift in carbon allocation to foliage and mainly roots as a defense mechanism to sodium toxicity. The dual δC-δO model explains neither the limited growth nor the subsequent recovery in δC. Similarly tree-ring δN indicated that there was no difference in nitrogen availability before and after the tsunami, suggesting that nutrients were not a limitation but rather soil salinity.

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Nitrogen isotope pattern in Mongolian larch stands at the southern Eurasian boreal forest boundary

Hayashi

Caceres

Nobori

et al. 2018

Isotopes in Environmental and Health Studies

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In the last decades a drastic increase in air temperature but a stable precipitation regime in Mongolia has led to gradual drying conditions. Thus, we evaluated the effect of spatial and climatic characteristics on the soil-plant nitrogen dynamics in three representative larch stands (Larix sibirica) with different geographical and climatic conditions using stable nitrogen isotopes. The results showed significant differences in the soil inorganic N content among sites and consequently a different isotopic composition in the plant-soil system. Litter, bark and wood had the lowest δN values for all sites, slightly higher δN values for needles, while the highest δN values were observed for roots and soil. These differences could be the result of the larch stands age themselves, but were in agreement with the spatial and climatic characteristics of the sites. Based on the δN value a higher reliance on ectomycorrhizal fungi (ECMF) was observed in the warmest and driest site, while lower dependency was shown in the cooler northern site with higher soil inorganic N content. In both sites, the rate of air temperature increase has been similar in the last decades; however, their soil-plant N dynamics showed different characteristics.

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Solubility Parameters for Fractionation of Extracted Citrus-Peel Components

Ota¹,

Hayashi²,

Satō

et al. 2015

KAGAKU KOGAKU RONBUNSHU

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Mika Hayashi

Nitrogen resorption and fractionation during leaf senescence in typical tree species in Japan

Improvement of chemical analysis of antibiotics

Evaluation of the effect of the 2011 Tsunami on coastal forests by means of multiple isotopic analyses of tree-rings

Nitrogen isotope pattern in Mongolian larch stands at the southern Eurasian boreal forest boundary

Solubility Parameters for Fractionation of Extracted Citrus-Peel Components

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