Lourens Poorter1. 1. Forest Ecology and Forest Management Group, Center for Ecosystem Studies, Wageningen University, P.O. Box 47, 6700 AA Wageningen, The Netherlands. lourens.poorter@wur.nl
Abstract
BACKGROUND AND AIMS: The volume of tree stems is made up of three components: solid wood, gas and water. These components have important consequences for the construction costs, strength and stability of trees. Here, the importance of stem components for sapling growth and survival in the field was investigated, and then these stem components were related to two important life history axes of variation: the light requirements for regeneration and the adult stature of the species. METHODS: Stem fractions of wood, gas and water were determined for saplings and adults of respectively 30 and 58 Bolivian tropical moist-forest species. Sapling height growth and survival were monitored for 2 years in the field as indicators of sapling performance. KEY RESULTS: Sapling stems consisted of 26 % wood (range 7-36 % for species), 59 % water (range 49-88 %), and 15 % gas (range 0-38 %) per unit volume. The wood fraction was the only determinant of sapling performance and was correlated with increased survival and decreased growth rate across species. The wood fraction decreased with light requirements of the species, probably because a high wood fraction protects shade-tolerant species against pathogens and falling debris. The gas fraction increased with the light requirements and adult stature of the species; probably as an aid in realizing a rapid height growth and accessing the canopy in the case of light-demanding species, and for rapidly attaining stability and a large reproductive size in the case of tall species. The water fraction was not correlated with the life history variation of tree species, probably because it leads to increased stem loading and decreased stability. CONCLUSIONS: The wood fraction might partially explain the growth-survival trade-off that has been found across tropical tree species. The wood and gas fractions are closely related to the regeneration light requirements of the species. Tall species have a high gas fraction, probably not only because gas is a cheap filler, but also because it might lead to an increased stability of these tall trees.
BACKGROUND AND AIMS: The volume of tree stems is made up of three components: solid wood, gas and water. These components have important consequences for the construction costs, strength and stability of trees. Here, the importance of stem components for sapling growth and survival in the field was investigated, and then these stem components were related to two important life history axes of variation: the light requirements for regeneration and the adult stature of the species. METHODS: Stem fractions of wood, gas and water were determined for saplings and adults of respectively 30 and 58 Bolivian tropical moist-forest species. Sapling height growth and survival were monitored for 2 years in the field as indicators of sapling performance. KEY RESULTS: Sapling stems consisted of 26 % wood (range 7-36 % for species), 59 % water (range 49-88 %), and 15 % gas (range 0-38 %) per unit volume. The wood fraction was the only determinant of sapling performance and was correlated with increased survival and decreased growth rate across species. The wood fraction decreased with light requirements of the species, probably because a high wood fraction protects shade-tolerant species against pathogens and falling debris. The gas fraction increased with the light requirements and adult stature of the species; probably as an aid in realizing a rapid height growth and accessing the canopy in the case of light-demanding species, and for rapidly attaining stability and a large reproductive size in the case of tall species. The water fraction was not correlated with the life history variation of tree species, probably because it leads to increased stem loading and decreased stability. CONCLUSIONS: The wood fraction might partially explain the growth-survival trade-off that has been found across tropical tree species. The wood and gas fractions are closely related to the regeneration light requirements of the species. Tall species have a high gas fraction, probably not only because gas is a cheap filler, but also because it might lead to an increased stability of these tall trees.
Authors: L Poorter; S J Wright; H Paz; D D Ackerly; R Condit; G Ibarra-Manríquez; K E Harms; J C Licona; M Martínez-Ramos; S J Mazer; H C Muller-Landau; M Peña-Claros; C O Webb; I J Wright Journal: Ecology Date: 2008-07 Impact factor: 5.499
Authors: Ian J Wright; David D Ackerly; Frans Bongers; Kyle E Harms; Guillermo Ibarra-Manriquez; Miguel Martinez-Ramos; Susan J Mazer; Helene C Muller-Landau; Horacio Paz; Nigel C A Pitman; Lourens Poorter; Miles R Silman; Corine F Vriesendorp; Cam O Webb; Mark Westoby; S Joseph Wright Journal: Ann Bot Date: 2006-04-04 Impact factor: 4.357
Authors: Demetrius Lira-Martins; Carlos Alberto Quesada; Stanislav Strekopytov; Emma Humphreys-Williams; Bruno Herault; Jon Lloyd Journal: Front Plant Sci Date: 2022-04-04 Impact factor: 6.627
Authors: Charles A Nock; Daniela Geihofer; Michael Grabner; Patrick J Baker; Sarayudh Bunyavejchewin; Peter Hietz Journal: Ann Bot Date: 2009-05-19 Impact factor: 4.357