Seasonal variation in the temperature response of leaf respiration in Quercus rubra: foliage respiration and leaf properties

Cheng Yuan Xu; K L Griffin

doi:10.1111/j.1365-2435.2006.01161.x

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Seasonal variation in the temperature response of leaf respiration in Quercus rubra: foliage respiration and leaf properties

Journal article

Peer reviewed

Seasonal variation in the temperature response of leaf respiration in Quercus rubra: foliage respiration and leaf properties

Cheng Yuan Xu and K L Griffin

Functional Ecology, Vol.20(5), pp.778-789

2006

DOI: https://doi.org/10.1111/j.1365-2435.2006.01161.x

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Abstract

Biological Sciences

Environmental Sciences

carbohydrates

dark respiration

deciduous forest

nitrogen

thermal acclimation

Summary: 1. Leaf respiratory temperature responses and general leaf properties of Quercus rubra were measured throughout the 2003 growing season in a deciduous forest in the north-eastern USA. Measurements were made in the upper and lower portions of the canopy at two sites with different soil water availability. Correlations among respiration and various leaf properties were examined. 2. At a set temperature (10 and 20 °C), area-based leaf respiration rates were higher in both the early and late growing season than in the mid-growing season (0·50 vs 0·33 µmol CO2 m−2 s−1 at 10 °C, on average). Upper-canopy leaves generally had higher respiration rates than lower-canopy leaves (0·53 vs 0·30 µmol CO2 m−2 s−1 at 10 °C, on average). At the drier site a more significant seasonal pattern in respiration was observed, while at the more mesic site a stronger canopy-position effect was detected. E0, a model variable related to the overall energy of activation of respiration, varied only slightly (52 ± 5 kJ mol−1 K−1), and was not influenced by season, site or canopy position. 3. Leaf properties (specific leaf area, nitrogen, soluble sugars) also varied with season, site and canopy position. Leaf N and reducing monose were positively correlated with leaf respiration rates. After isolating single factors (season, site, canopy position), reducing monose could partially explain the seasonality in respiration (32−79%), and leaf N (Narea) was well correlated with the canopy-position effect. 4. Our results suggest that the temporal and spatial heterogeneities of respiration need to be considered in ecosystem models, but significant simplifications may be made in Q. rubra by assuming a constant temperature coefficient (E0, 52·5 kJ mol−1 in this study) or predicting the base respiration rate (R0) from well understood leaf properties.

Details

Title: Seasonal variation in the temperature response of leaf respiration in Quercus rubra: foliage respiration and leaf properties
Authors: Cheng Yuan Xu (Author) - Columbia University, United States
K L Griffin (Author) - Columbia University, United States
Publication details: Functional Ecology, Vol.20(5), pp.778-789
Publisher: Wiley-Blackwell Publishing Ltd.
Date published: 2006
DOI: 10.1111/j.1365-2435.2006.01161.x
ISSN: 0269-8463
Organisation Unit: University of the Sunshine Coast, Queensland
Language: English
Record Identifier: 99450377402621
Output Type: Journal article

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