Relating water use to morphology and environment of Nothofagus from the world’s most southern forests

A pronounced environmental gradient dictates the dominance of Nothofagus in the foothills on the eastern side of the Andes Mountains in Patagonia, Argentina. Below 50° southern latitude, open forests of Nothofagus Antarctica (ñire) dominate the landscape towards the Patagonian steppe where annual ra...

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Bibliographic Details
Published in:Trees
Main Authors: Pfautsch, Sebastian (R17431), Peri, Pablo L., Macfarlane, Craig, Ogtrop, Floris van, Adams, Mark A.
Format: Article in Journal/Newspaper
Language:English
Published: Germany, Springer 2014
Subjects:
070508 - Tree Nutrition and Physiology
820104 - Native Forests
Argentina
Patagonia
Antarc*
Antarctica
Online Access:http://handle.uws.edu.au:8081/1959.7/541409
https://doi.org/10.1007/s00468-013-0935-4
Description
Summary:A pronounced environmental gradient dictates the dominance of Nothofagus in the foothills on the eastern side of the Andes Mountains in Patagonia, Argentina. Below 50° southern latitude, open forests of Nothofagus Antarctica (ñire) dominate the landscape towards the Patagonian steppe where annual rainfall is low. With increasing rates of annual rainfall, corresponding with an increase in elevation, closed forests of N. pumilio (lenga) replace those of ñire. During a short-term study we assessed differences in stand structure and examined environmental, structural and functional traits related to tree water use of ñire and lenga. Sap velocity reached similar maximum rates (95–100 L m-2 sapwood h-1), but whole-tree water use (Q) was significantly lower in ñire (8–13 L day-1 tree-1) compared to lenga (20–90 L day-1 tree-1) resulting in lower stand transpiration (ñire: 0.51 mm day-1; lenga: 3.42 mm day-1) despite similar tree densities. Related to this, wind speed had a particularly significant impact on Q of ñire, but not lenga. The ratio of leaf area to sapwood area (AL/AS) clearly identified ñire to be more structurally proficient at conserving water. While stem diameter (DBH) and crown area (AC) were well related in both species, only lenga exhibited relationships between variables related to tree allometry and physiology (AC/Q, DBH/Q). Our results provide the first ecophysiological characterization of the two Nothofagus species that define important and widespread ecosystems in southern Patagonia (not only below 50°S), and provide useful data to scale water use of both species from tree to stand.

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