Tree-Ring Reconstructions of Asian Monsoon Climate Dynamics View Homepage


Ontology type: schema:MonetaryGrant     


Grant Info

YEARS

2004-2010

FUNDING AMOUNT

5535507.0 USD

ABSTRACT

This award will enable a five-year project using the science of dendrochronology to examine the relationship between the Asian monsoon and the large-scale coupled processes that drive much of its variability. The researchers will examine these interactions on inter-annual to centennial time scales and anticipate that this project will yield information about how the monsoon system has varied over the past several centuries. Specifically, they will investigate the relationship of the Asian Monsoon to the large-scale coupled processes that drive much of its variability; namely air temperatures and sea surface temperatures (SST). The project is motivated by a series of research question such as: "How have the processes responsible for driving much of the observed Asian monsoon climate dynamics varied and interacted on inter-annual to centennial time scales?" and "How have Asian surface air temperatures, Indian Ocean SSTs, and Tropical Pacific SSTs covaried and interacted over the past several centuries?" The Asian monsoon climate system plays a significant role in large-scale climate variability over much of the globe. Due to its considerable importance to global climate and implications for the world's population, a greater understanding of this system, with the ultimate goal being improved prediction on annual to decadal and longer time scales is warranted. This research will help the science community understand climate variability in a densely populated region of the world. On the practical side, improved knowledge of climate variability could be used to improve long-term agricultural planning in the region by buffering agrarian societies against the effects of monsoon variability. The award will support post-doctoral, graduate, and undergraduate students at Columbia University and the Lamont Doherty Earth Observatory and help build scientific capacity, infrastructure, and professional partnerships among Asian colleagues. More... »

URL

http://www.nsf.gov/awardsearch/showAward?AWD_ID=0402474&HistoricalAwards=false

Related SciGraph Publications

  • 2014-11-12. Reconstruction of the springtime East Asian Subtropical Jet and Western Pacific pattern from a millennial-length Taiwanese tree-ring chronology in CLIMATE DYNAMICS
  • 2012-12-05. Tree-ring reconstructed summer temperature anomalies for temperate East Asia since 800 C.E. in CLIMATE DYNAMICS
  • 2012-07-31. Links between Indo-Pacific climate variability and drought in the Monsoon Asia Drought Atlas in CLIMATE DYNAMICS
  • 2011-11-04. On the long-term context of the 1997–2009 ‘Big Dry’ in South-Eastern Australia: insights from a 206-year multi-proxy rainfall reconstruction in CLIMATIC CHANGE
  • 2010-01-07. Spatial drought reconstructions for central High Asia based on tree rings in CLIMATE DYNAMICS
  • 2009-12-11. Reconstructed streamflow for Citarum River, Java, Indonesia: linkages to tropical climate dynamics in CLIMATE DYNAMICS
  • 2009-08-06. Reconstructed droughts for the southeastern Tibetan Plateau over the past 568 years and its linkages to the Pacific and Atlantic Ocean climate variability in CLIMATE DYNAMICS
  • 2009-07-29. Response of regional tree-line forests to climate change: evidence from the northeastern Tibetan Plateau in TREES
  • 2008-12-21. The impact of volcanic forcing on tropical temperatures during the past four centuries in NATURE GEOSCIENCE
  • 2008-08-23. Tree-ring based hydroclimate reconstruction over northern Vietnam from Fokienia hodginsii: eighteenth century mega-drought and tropical Pacific influence in CLIMATE DYNAMICS
  • 2008-06-28. Moisture variability across China and Mongolia: 1951–2005 in CLIMATE DYNAMICS
  • 2007-02-07. Decadal scale droughts over northwestern Thailand over the past 448 years: links to the tropical Pacific and Indian Ocean sectors in CLIMATE DYNAMICS
  • 2006-10-17. Cycles and shifts: 1,300 years of multi-decadal temperature variability in the Gulf of Alaska in CLIMATE DYNAMICS
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