Capacity of old trees to respond to environmental change

S. Y. Kwun; Thomas N. Buckley; David T. Tissue

Capacity of old trees to respond to environmental change

S. Y. Kwun, Thomas N. Buckley, David T. Tissue

Research output: Contribution to journal › Article

45 Citations (Scopus)

Abstract

Atmospheric carbon dioxide [CO2] has increased dramatically within the current life spans of long-lived trees and old forests. Consider that a 500-year-old tree in the early twenty-first century has spent 70% of its life growing under pre-industrial levels of [CO2], which were 30% lower than current levels. Here we address the question of whether old trees have already responded to the rapid rise in [CO2] occurring over the past 150 years. In spite of limited data, aging trees have been shown to possess a substantial capacity for increased net growth after a period of post-maturity growth decline. Observations of renewed growth and physiological function in old trees have, in some instances, coincided with Industrial Age increases in key environmental resources, including [CO2], suggesting the potential for continued growth in old trees as a function of continued global climate change.

Original language	English
Pages (from-to)	1355-1364
Number of pages	10
Journal	Journal of Integrative Plant Biology
Volume	50
Issue number	11
Publication status	Published - 2008

Keywords

atmospheric carbon dioxide
climatic changes
growth
stomata
tree-rings
trees

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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abstract = "Atmospheric carbon dioxide [CO2] has increased dramatically within the current life spans of long-lived trees and old forests. Consider that a 500-year-old tree in the early twenty-first century has spent 70% of its life growing under pre-industrial levels of [CO2], which were 30% lower than current levels. Here we address the question of whether old trees have already responded to the rapid rise in [CO2] occurring over the past 150 years. In spite of limited data, aging trees have been shown to possess a substantial capacity for increased net growth after a period of post-maturity growth decline. Observations of renewed growth and physiological function in old trees have, in some instances, coincided with Industrial Age increases in key environmental resources, including [CO2], suggesting the potential for continued growth in old trees as a function of continued global climate change.",

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TY - JOUR

T1 - Capacity of old trees to respond to environmental change

AU - Kwun, S. Y.

AU - Buckley, Thomas N.

AU - Tissue, David T.

PY - 2008

Y1 - 2008

N2 - Atmospheric carbon dioxide [CO2] has increased dramatically within the current life spans of long-lived trees and old forests. Consider that a 500-year-old tree in the early twenty-first century has spent 70% of its life growing under pre-industrial levels of [CO2], which were 30% lower than current levels. Here we address the question of whether old trees have already responded to the rapid rise in [CO2] occurring over the past 150 years. In spite of limited data, aging trees have been shown to possess a substantial capacity for increased net growth after a period of post-maturity growth decline. Observations of renewed growth and physiological function in old trees have, in some instances, coincided with Industrial Age increases in key environmental resources, including [CO2], suggesting the potential for continued growth in old trees as a function of continued global climate change.

AB - Atmospheric carbon dioxide [CO2] has increased dramatically within the current life spans of long-lived trees and old forests. Consider that a 500-year-old tree in the early twenty-first century has spent 70% of its life growing under pre-industrial levels of [CO2], which were 30% lower than current levels. Here we address the question of whether old trees have already responded to the rapid rise in [CO2] occurring over the past 150 years. In spite of limited data, aging trees have been shown to possess a substantial capacity for increased net growth after a period of post-maturity growth decline. Observations of renewed growth and physiological function in old trees have, in some instances, coincided with Industrial Age increases in key environmental resources, including [CO2], suggesting the potential for continued growth in old trees as a function of continued global climate change.

KW - atmospheric carbon dioxide

KW - climatic changes

KW - growth

KW - stomata

KW - tree-rings

KW - trees

UR - http://handle.uws.edu.au:8081/1959.7/488060

UR - http://www3.interscience.wiley.com/journal/121481153/abstract

M3 - Article

SN - 1672-9072

VL - 50

SP - 1355

EP - 1364

JO - Journal of Integrative Plant Biology

JF - Journal of Integrative Plant Biology

IS - 11

ER -

Capacity of old trees to respond to environmental change

Abstract

Keywords

UN SDGs

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