BACKGROUND AND AIMS: Teak forms xylem rings that potentially carry records of carbon sequestration and climate in the tropics. These records are only useful when the structural variations of tree rings and their periodicity of formation are known. METHODS: The seasonality of ring formation in mature teak trees was examined via correlative analysis of cambial activity, xylem and phloem formation, and climate throughout 1·5 years. Xylem and phloem differentiation were visualized by light microscopy and scanning electron microscopy. KEY RESULTS: A 3 month dry season resulted in semi-deciduousness, cambial dormancy and formation of annual xylem growth rings (AXGRs). Intra-annual xylem and phloem growth was characterized by variable intensity. Morphometric features of cambium such as cambium thickness and differentiating xylem layers were positively correlated. Cambium thickness was strongly correlated with monthly rainfall (R(2) = 0·7535). In all sampled trees, xylem growth zones (XGZs) were formed within the AXGRs during the seasonal development of new foliage. When trees achieved full leaf, the xylem in the new XGZs appeared completely differentiated and functional for water transport. Two phloem growth rings were formed in one growing season. CONCLUSIONS: The seasonal formation pattern and microstructure of teak xylem suggest that AXGRs and XGZs can be used as proxies for analyses of the tree history and climate at annual and intra-annual resolution.
BACKGROUND AND AIMS: Teak forms xylem rings that potentially carry records of carbon sequestration and climate in the tropics. These records are only useful when the structural variations of tree rings and their periodicity of formation are known. METHODS: The seasonality of ring formation in mature teak trees was examined via correlative analysis of cambial activity, xylem and phloem formation, and climate throughout 1·5 years. Xylem and phloem differentiation were visualized by light microscopy and scanning electron microscopy. KEY RESULTS: A 3 month dry season resulted in semi-deciduousness, cambial dormancy and formation of annual xylem growth rings (AXGRs). Intra-annual xylem and phloem growth was characterized by variable intensity. Morphometric features of cambium such as cambium thickness and differentiating xylem layers were positively correlated. Cambium thickness was strongly correlated with monthly rainfall (R(2) = 0·7535). In all sampled trees, xylem growth zones (XGZs) were formed within the AXGRs during the seasonal development of new foliage. When trees achieved full leaf, the xylem in the new XGZs appeared completely differentiated and functional for water transport. Two phloem growth rings were formed in one growing season. CONCLUSIONS: The seasonal formation pattern and microstructure of teak xylem suggest that AXGRs and XGZs can be used as proxies for analyses of the tree history and climate at annual and intra-annual resolution.
Authors: Nele Schmitz; Elisabeth M R Robert; Anouk Verheyden; James Gitundu Kairo; Hans Beeckman; Nico Koedam Journal: Ann Bot Date: 2007-11-15 Impact factor: 4.357
Authors: Steven L Voelker; Barbara Lachenbruch; Frederick C Meinzer; Peter Kitin; Steven H Strauss Journal: Plant Cell Environ Date: 2011-02-11 Impact factor: 7.228
Authors: Flurin Babst; M Ross Alexander; Paul Szejner; Olivier Bouriaud; Stefan Klesse; John Roden; Philippe Ciais; Benjamin Poulter; David Frank; David J P Moore; Valerie Trouet Journal: Oecologia Date: 2014-08-14 Impact factor: 3.225
Authors: Annemarie H Eckes-Shephard; Fredrik Charpentier Ljungqvist; David M Drew; Cyrille B K Rathgeber; Andrew D Friend Journal: Front Plant Sci Date: 2022-03-23 Impact factor: 5.753