May-September precipitation in the Bhutan Himalaya since 1743 as reconstructed from tree ring cellulose delta super(18)O

We developed a 50-year tree ring delta super(18)O chronology for each of three tree species (Juniperus indica, Larix griffithii, and Picea spinulosa) using a total of 12 trees (four trees per species) from the Bhutan Himalaya. Despite originating from different species sampled at two different altit...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2013-08, Vol.118 (15), p.8399-8410
Main Authors: Sano, Masaki, Tshering, Phuntsho, Komori, Jiro, Fujita, Koji, Xu, Chenxi, Nakatsuka, Takeshi
Format: Article
Language:English
Subjects:
Chronology
Correlation
El Nino
Monsoons
Precipitation
Southern oscillation
Tree rings
Trees
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Summary:We developed a 50-year tree ring delta super(18)O chronology for each of three tree species (Juniperus indica, Larix griffithii, and Picea spinulosa) using a total of 12 trees (four trees per species) from the Bhutan Himalaya. Despite originating from different species sampled at two different altitudes, the delta super(18)O chronologies are highly correlated with one another (r=0.76-0.89). Response analyses reveal that tree ring delta super(18)O values are controlled mainly by summer precipitation, irrespective of species. Based on these results, a robust 269-year delta super(18)O chronology was established to reconstruct the amount of May-September precipitation based on data from four larch trees. Our tree ring delta super(18)O data show significant correlations with those from other regions of the Himalaya and the Tibetan Plateau, indicating that common signals related to monsoon activity are recorded in the data. However, at centennial timescales, our data from Bhutan show normal conditions during the 20th century, whereas records from sites in western Nepal and the southern/eastern Tibetan Plateau show weakening trends in monsoon intensity during the last 100-200years; the weakening trends may be the result of a reduction in the meridional sea surface temperature gradient in the Indian Ocean during this time. At continental scales, the tree ring records show that areas more from ocean basins are particularly sensitive to reduced monsoon circulation. Correlation analyses suggest that the El Nino-Southern Oscillation (ENSO) plays an important role in modulating summer precipitation. However, the teleconnected relationship disappears during the period 1951-1970, coinciding with a negative phase of the Pacific Decadal Oscillation (PDO), implying interdecadal modulation of the PDO on the influence of the ENSO on precipitation in Bhutan. Key Points * Tree ring delta-18O data are strongly correlated among different species * No delta-18O trends in Bhutan since 1900 but inland data show reduced rainfall * Link between delta-18O data and ENSO disappears when PDO is in negative phase
ISSN:2169-897X
2169-8996
DOI:10.1002/jgrd.50664