TY - JOUR
T1 - Climatic signals in tree rings of Burkea africana and Pterocarpus angolensis from semiarid forests in Namibia
AU - Fichtler, Esther
AU - Trouet, Valerie
AU - Beeckman, Hans
AU - Coppin, Pol
AU - Worbes, Martin
N1 - Funding Information:
Acknowledgements The study was partly financed by a scholarship of the Federal German Environmental Foundation (DBU) and partly by a grant from the Institute for the Promotion of Innovation by Science and Technology in Flanders (IWT). The samples were provided by the Directorate of Forestry of the Republic of Namibia in the frame of a Namibia–Finland Forestry Programme. We are grateful for the precipitation data provided by Sharon E. Nicholson. We thank F. De Ridder and J. Schöngart for their help in executing the spectral analysis and finally two anonymous reviewers for their valuable comments.
PY - 2004/7
Y1 - 2004/7
N2 - Tree-ring studies contribute worldwide to the understanding of climate and its relation to tree growth. Long tree-ring chronologies serve as climate proxies for the reconstruction of past, pre-instrument climate and its recent change. In tropical regions, the availability of exactly dated tree-ring chronologies is limited. The dendroclimatic potential of two dominant species from dry forests in northern Namibia was examined in the study presented in this paper. Both species (Burkea africana Hook and Pterocarpus angolensis DC) were sampled at two sites (ca. 900 km apart), and the response to several climatic variables, including ENSO indices, is studied. All specimens showed distinct growth rings and cross-dating between radii was successful for all trees. Species-specific mean curves were built for both sites. The mean curves of different species of the same site synchronised significantly, allowing the construction of a site-specific chronology. Synchronisation between sites was not possible, but spectral analysis of the chronologies implied that both show similar long-term (6.7 year) oscillation patterns. B. africana is more sensitive to rainfall variation than P. angolensis at both sites. Growth response to rainfall was positive, but a time-lag in the reaction occurred between the sites, corresponding to the time-lag of the beginning of the rainy season. Air temperature showed a negative correlation with stem increment at both sites. The response at the westernmost site to two ENSO indices indicates a tree growth decrease during El Niño years, which are generally dry in southern Africa.
AB - Tree-ring studies contribute worldwide to the understanding of climate and its relation to tree growth. Long tree-ring chronologies serve as climate proxies for the reconstruction of past, pre-instrument climate and its recent change. In tropical regions, the availability of exactly dated tree-ring chronologies is limited. The dendroclimatic potential of two dominant species from dry forests in northern Namibia was examined in the study presented in this paper. Both species (Burkea africana Hook and Pterocarpus angolensis DC) were sampled at two sites (ca. 900 km apart), and the response to several climatic variables, including ENSO indices, is studied. All specimens showed distinct growth rings and cross-dating between radii was successful for all trees. Species-specific mean curves were built for both sites. The mean curves of different species of the same site synchronised significantly, allowing the construction of a site-specific chronology. Synchronisation between sites was not possible, but spectral analysis of the chronologies implied that both show similar long-term (6.7 year) oscillation patterns. B. africana is more sensitive to rainfall variation than P. angolensis at both sites. Growth response to rainfall was positive, but a time-lag in the reaction occurred between the sites, corresponding to the time-lag of the beginning of the rainy season. Air temperature showed a negative correlation with stem increment at both sites. The response at the westernmost site to two ENSO indices indicates a tree growth decrease during El Niño years, which are generally dry in southern Africa.
KW - Burkea africana
KW - El Niño Southern Oscillation
KW - Pterocarpus angolensis
KW - Semiarid Africa
KW - Tree rings
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U2 - 10.1007/s00468-004-0324-0
DO - 10.1007/s00468-004-0324-0
M3 - Article
AN - SCOPUS:3242699723
SN - 0931-1890
VL - 18
SP - 442
EP - 451
JO - Trees - Structure and Function
JF - Trees - Structure and Function
IS - 4
ER -