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Estimates and relationships between aboveground and belowground resource exchange surface areas in a Sitka spruce managed forest

2010; Oxford University Press; Volume: 30; Issue: 6 Linguagem: Inglês

10.1093/treephys/tpq022

1758-4469

Ann Butler, Nicolas Barbier, Jan Čermák, Jan Koller, C. Thornily, C. McEvoy, Bruce Nicoll, Mike Perks, J. Grace, Patrick Meir,

Plant Water Relations and Carbon Dynamics

Our knowledge of the nature of belowground competition for moisture and nutrients is limited. In this study, we used an earth impedance method to determine the root absorbing area of Sitka spruce (Picea sitchensis (Bong.) Carr.) trees, making measurements in stands of differing density (2-, 4- and 6-m inter-tree spacing). We compared absorbing root area index (RAIabsorbing; based on the impedance measure) with fine root area index (RAIfine; based on estimates of total surface area of fine roots) and related these results to investment in conductive roots. Root absorbing area was a near-linear function of tree stem diameter at 1.3 m height. At the stand level, RAIabsorbing, which is analogous to and scaled with transpiring leaf area index (maximum stomatal pore area per unit ground area; LAItranspiring), increased proportionally with basal area across the three stands. In contrast, RAIfine was inversely propotional to basal area. The ratio of RAIabsorbing to LAItranspiring ranged from 7.7 to 17.1, giving an estimate of the relative aboveground versus belowground resource exchange areas. RAIabsorbing provides a way of characterizing ecosystem functioning as a physiologically meaningful index of belowground absorbing area.