@article{fdi:010040852, title = {{T}ree-rings and the climate of {N}ew {C}aledonia ({SW} pacific) preliminary results from {A}raucariacae}, author = {{L}ieubeau, {V}incent and {G}enthon, {P}ierre and {S}tievenard, {M}. and {N}asi, {R}. and {M}asson-{D}elmotte, {V}.}, editor = {}, language = {{ENG}}, abstract = {{T}he dendroclimatologic potential of some {A}raucariacae of {N}ew {C}aledonia (including {A}gathis, or kauris, and {A}raucaria) is assessed using ring thickness and delta {O}-18 measurements. {N}ew {C}aledonia is a group of islands in the {SW} {P}acific that are currently under influence of {ENSO} events. {E}ndemic to {N}ew {C}aledonia, the long-living species of {A}gathis lanceolata and {A}. ovata, growing on poor ultramafic-detived soils may provide valuable proxies for the local climate and for {ENSO}. {T}hese trees present visible growth bands of changing thickness along their circumference. {H}owever, several bands are locally absent, and the growth axis is generally offset with respect to the geometrical axis of the tree. {T}his led us to compute so-called composite ring thickness profiles, accounting for the geometry of growth bands on the whole surface of a tree disk. {O}ur computational method involves 10 optical density profiles measured along 10 equally spaced radii drawn from the bark toward the growth axis, and 10 to 20 master rings, that can be easily identified on the whole disk. {G}rowth bands visible on less than 5 radii were discarded. {O}ur method is similar to the cross-dating method used by dendrochronologists, except that it is applied here to a single tree disk. {O}ur samples consist of three disks of {A}. lanceolata, one disk of {A}. ovata, and one disk of {A}raucaria columnaris. {M}ultiple regressions have been computed between composite profiles and climatic variables i.e. monthly and yearly temperatures and rainfall amounts. {T}he best correlation is found between the width of the ring growing between {J}uly (n-1) and {J}une (n) with the rainfalls of {J}une (n), {J}une (n-1) and {J}une (n-2). {M}onthly rainfalls allow to explain between 20% to 50% of the ring thickness variance, a result similar to that obtained with other studies on {A}gathis of {N}ew {Z}ealand. {N}o temperature parameter appears in the most stable regressions. 30 measurements of tree ring cellulose delta {O}-18 have been conducted on one single disk selected for the strong climate-ring width correlation. {W}hile earlier studies have used 6180 measurements to identify seasonal cycles in tropical woods and date the rings, our data suggest that the direct use of delta {O}-18 is misleading due to false rings that do not correspond to a complete growth year. {W}hen these false rings are identified from the disk analysis and discarded, a fair visual correlation with the total rainfall during the growth season is obtained. {T}his requires information that cannot be found in single growth band thickness profiles, for example as obtained by coring. {T}hus, {A}raucariacae of {N}ew {C}aledonia may present a valuable potential for dendroclimatology. {H}owever, reconstructing a chronology of this region will require more extensive sampling and possibly an account of additional species.}, keywords = {dendrochronology ; kauri ; {ENSO} ; delta {O} 18 ; rainfall ; {N}ew {C}aledonia}, booktitle = {}, journal = {{P}alaeogeography {P}alaeoclimatology {P}alaeoecology}, volume = {253}, numero = {3-4}, pages = {477--489}, ISSN = {0031-0182}, year = {2007}, DOI = {10.1016/j.palaeo.2007.06.019}, URL = {https://www.documentation.ird.fr/hor/fdi:010040852}, }