Plasticity in physiological traits in conifers: Implications for response to climate change in the western U.S

Grulke, N.E.

Plasticity in physiological traits in conifers: Implications for response to climate change in the western U.S

2010

Grulke, N.E.

Population variation in ecophysiological traits of four co-occurring montane conifers was measured on a large latitudinal gradient to quantitatively assess their potential for response to environmental change. White fir (Abies concolor) had the highest variability, gross photosynthetic rate (Pg), and foliar carbon (C) and nitrogen (N) content. Despite low water use efficiency (WUE), stomatal conductance (gs) of fir was the most responsive to unfavorable environmental conditions. Pinus lambertiana exhibited the least variability in Pg and WUE, and is likely to be the most vulnerable to environmental changes. Pinus ponderosa had an intermediate level of variability, and high needle growth at its higher elevational limits. Pinus Jeffreyi also had intermediate variability, but high needle growth at its southern latitudinal and lower elevational limits. The attributes used to assess tree vigor were effective in predicting population vulnerability to abiotic (drought) and biotic (herbivore) stresses. Variability in ecophysiological attributes of western U.S. conifers suggests relative capacity of species and populations to respond to environmental change.

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AGROVOC Keywords

abies concolor altitude altitude california carbon carbon chemistry climate change conifer needles gas exchange latitude metabolism mexico nitrogen nitrogen content oregon photosynthesis photosynthesis physiology pinus jeffreyi pinus ponderosa plant ecology stomatal conductance tracheophyta water weather

Bibliographic information

Published in

Environmental pollution

Volume 158 Issue 6 Pagination 2032 - 2042 ISSN 0269-7491

Publisher

Elsevier Ltd

Other Subjects

Plant physiological phenomena; Water use efficiency; Meteorology and climatology; Ecosystem; Southwestern states; Pinus lambertiana; Plant leaves; Plant stomata; Tree growth; Forestry related; Growth & development; Plant physiology and biochemistry

Language

English

Note

In the special section: advances of air pollution science: from forest decline to multiple-stress effects on forest ecosystem services / edited by marcus schaub, rainer matyssek and gerhard wieser.

Paper presented at the international conference on air polllution and climate change at contrasting altitude and latitude, held september 7-12, 2009, murten, switzerland.

Includes references

Type

Text; Journal Article

In AGRIS since: 2024-02-27

Format: MODS

Data Provider

This bibliographic record has been provided by National Agricultural Library

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Links

DOI https://handle.nal.usda.gov/10113/45233

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