Tree-ring chronologies of Himalayan conifers (viz. Pinus, Picea, Abies, Cedrus, etc.) were compiled from more than 300 tree core samples from 11 different sites covering a wide area of the Western Himalaya. Distinct annual growth and little occurrence of double or missing rings are characteristic features of Himalayan conifers. Dating of individual samples was achieved for all sites except for a few from a high elevation glacier which exhibited patches of very narrow rings and a high frequency of resin canals. Moderately high values of common variance and signal-to-noise ratio indicate their usefulness for dendroclimatic studies. Significant improvement of statistical performance is observed for all sites after removing the auto-correlation...
Tree-ring-width data of Himalayan cedar [Cedrus deodara (Roxb.) G. Don] from 11 homogeneous moisture...
A 50-year tree-ring delta O-18 chronology of Abies spectabilis growing close to the tree line (3850...
<p>Chronologies span 1900–2007 for the four species (<i>Abies fargesii</i>, <i>Larix potaninii</i>, ...
Tree-ring samples were collected from six coniferous species in the western Himalayan ranges during ...
Growth rings of conifer trees in the Himalayas have been shown to be potential tools for the reconst...
Ten ring-width based chronologies from Nepal are described and the prospects for further dendroclima...
A 458-year-long regional tree-ring-width index chronology of Himalayan cedar (Cedrus deodara D. Don)...
Altitude is a strong determinant factor in the local climate and is an important factor to consider ...
We describe the development of a tree-ring chronology network in Nepal that is suitable for reconstr...
Dendroclimatic research activities over the westernHimalaya aswell as central and peninsular India h...
Himalayan cedar (Cedrus deodara (D. Don) G. Don) due to its long age and wide ecological amplitude i...
A 50-year tree-ring δ18O chronology of Abies spectabilis growing close to the tree line (3850 m...
A 345-year (AD 1656-2000) ring-width chronology of common yew (Taxus baccata L.) from the western Hi...
Ring-width chronologies of Himalayan cedar (Cedrus deodara (D. Don.) G. Don.), Himalayan pine (Pinus...
Dendroclimatological methods were used to explore the response of conifers to climatic variability ...
Tree-ring-width data of Himalayan cedar [Cedrus deodara (Roxb.) G. Don] from 11 homogeneous moisture...
A 50-year tree-ring delta O-18 chronology of Abies spectabilis growing close to the tree line (3850...
<p>Chronologies span 1900–2007 for the four species (<i>Abies fargesii</i>, <i>Larix potaninii</i>, ...
Tree-ring samples were collected from six coniferous species in the western Himalayan ranges during ...
Growth rings of conifer trees in the Himalayas have been shown to be potential tools for the reconst...
Ten ring-width based chronologies from Nepal are described and the prospects for further dendroclima...
A 458-year-long regional tree-ring-width index chronology of Himalayan cedar (Cedrus deodara D. Don)...
Altitude is a strong determinant factor in the local climate and is an important factor to consider ...
We describe the development of a tree-ring chronology network in Nepal that is suitable for reconstr...
Dendroclimatic research activities over the westernHimalaya aswell as central and peninsular India h...
Himalayan cedar (Cedrus deodara (D. Don) G. Don) due to its long age and wide ecological amplitude i...
A 50-year tree-ring δ18O chronology of Abies spectabilis growing close to the tree line (3850 m...
A 345-year (AD 1656-2000) ring-width chronology of common yew (Taxus baccata L.) from the western Hi...
Ring-width chronologies of Himalayan cedar (Cedrus deodara (D. Don.) G. Don.), Himalayan pine (Pinus...
Dendroclimatological methods were used to explore the response of conifers to climatic variability ...
Tree-ring-width data of Himalayan cedar [Cedrus deodara (Roxb.) G. Don] from 11 homogeneous moisture...
A 50-year tree-ring delta O-18 chronology of Abies spectabilis growing close to the tree line (3850...
<p>Chronologies span 1900–2007 for the four species (<i>Abies fargesii</i>, <i>Larix potaninii</i>, ...