Effect of nitrogen on the seasonal course of growth and maintenance respiration in stems of Norway spruce trees

Stockfors, Jan; Linder, Sune

doi:10.1093/treephys/18.3.155

Cited by 153 publications

(148 citation statements)

References 35 publications

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“…This is necessary for estimating the growth respiration coefficient by the periodic-growth method. In Stockfors and Linder [46], it was noted that the lag between growth and respiration peaks varied between 10 and 20 days for Picea abies. A possible explanation for this phenomenon is the lag between diameter growth and increase in dry matter caused by a delay in wall thickening and lignification [50].…”

Section: Seasonal Variations In Respirationmentioning

confidence: 97%

“…[2,41]: growth respiration, which provides the energy needed to synthesise new tissues, is a function of wood growth; and maintenance respiration, which maintains existing living cells, is usually a function of biomass [36], sapwood volume [19], surface area [46] or nitrogen content [28]. This separation in two components is necessary to understand how stand development, climate and management affect forest carbon cycling.…”

Section: Introductionmentioning

confidence: 99%

“…(2) The distribution of living cells within the stem can affect maintenance respiration rates [45,46]. (3) The transport and storage of carbohydrates in the stem and in the branches can cause variations in respiration rates as it was shown by Malkina et al [29] and Lavigne [18].…”

Section: Introductionmentioning

confidence: 99%

“…More information is also needed to be able to choose the best unit to scale up stem or branch respiration to stand level, because this unit can have a large impact on the final results. Hitherto, the most common units have been surface area [18,46] or sapwood volume [36], but sapwood fresh mass [49] or sapwood dry mass and nitrogen content [28,[37][38][39][40] have also been used to express maintenance respiration. Sprugel et al [43] suggested that sapwood volume was a better calculation base, because respiration rates per unit volume are rather constant within coniferous species.…”

Section: Introductionmentioning

confidence: 99%

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Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

et al. 2002

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-Stem respiration of adult beech (Fagus sylvatica L.) trees was measured in the field in eastern France at several levels in the crown and along the stem. Strong variations in respiration rates throughout the season and within the trees were mainly caused by gradients in stem temperature, growth rates and distribution of living cells. The higher respiration rates, were measured in the upper crown. During the non-growing season, maintenance respiration ranged between 7.2 and 528 µmol m -3 s -1 at breast height and in the upper crown, respectively. Q 10 increased along the stem from 1.

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Section: Seasonal Variations In Respirationmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

et al. 2002

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“…However, some studies found CO 2 effl ux rates lower than predicted from bark surface or sap wood temperature during daytime, which suggests an inner transport of CO 2 dissolved in the transpiration stream, as maybe ongoing bark photosynthesis could be excluded (Edwards & McLaughlin 1978, Kaipiainen et al 1998, Stockfors & Linder 1998. It is assumed that a portion of the CO 2 produced by the living respiring cells might dissolve in the sap and is transported vertically in the xylem along with the transpirational water uptake instead of moving laterally through the stem into the respiration chamber (Kaipiainen et al 1998) and hence this measured CO 2 efflux might not be equal to the respiration rate (Saveyn et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Effects of xylem water transport on CO2 efflux of woody tissue in a tropical tree, Amazonas State, Brazil

Kunert

Cárdenas

2012

Hoehnea

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-(Effects of xylem water transport on CO 2 effl ux of woody tissue in a tropical tree, Amazonas State, Brazil). We assessed the effect of xylem sap fl ux on radial CO 2 effl ux of woody tissue of a tropical trees species growing in the Center of Manaus (Amazonas State, Brazil). An open chamber system was used to constantly measure diurnal changes in CO 2 effl ux over several days. Xylem sap fl ux was monitored additionally. We found a strong relationship between temperature and woody tissue respiration rates during night time. CO 2 effl ux rates were reduced up to 35% during daytime most probably due to vertical water uptake within the tree trunks. The results suggest a distinct daytime depression of the CO 2 effl ux compared with a night time temperature relationship. Xylem sap fl ux appears to be a major infl uence on CO 2 effl ux rates. The reductions in CO 2 effl ux will become most distinct during periods with a high evaporative demand and predictions of CO 2 effl ux by the temperature/fl ux relation are critical during these periods. Key words: daytime depression, sap fl ux, temperature dependency, woody tissue respiration RESUMEN -(Efectos del transporte de agua por el xilema en la afl uencia de CO 2 en el tejido leñoso de un árbol tropical, Estado del Amazonas, Brasil). Evaluamos el efecto del fl ujo de la savia del xilema en la afl uencia del CO 2 radial en tejidos leñosos de una especie de árbol tropical en el centro de Manaos (Amazonas, Brasil). Un sistema de cámara abierta fue usado constantemente para medir cambios diarios en la afl uencia del CO 2 durante varios días. Al mismo tiempo, se midió el fl ujo de la savia del xilema. Encontramos una fuerte relación entre las tazas de temperatura y la respiración del tejido leñoso durante el periodo nocturno. Las tazas de afl uencia de CO 2 se redujeron hasta un 35% durante el día, probablemente debido a la absorción vertical del agua dentro de los troncos. Los resultados sugieren una depresión de la afl uencia del CO 2 específi ca durante el día comparada con la relación de la temperatura durante la noche. El fl ujo de la savia del dilema parece tener una infl uencia más fuerte en las tazas de afl uencia del CO 2 . Las reducciones en la afl uencia del CO 2 serán más marcadas durante periodos con una alta demanda de evaporación y las predicciones de la afl uencia del CO 2 dadas por la relación de temperatura/fl ujo son críticas durante dichos periodos. Palabras-clave: dependencia en la temperatura, depresión diurna, fl ujo de savia, respiración de tejido leñoso 1.

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The carbon isotope composition of CO₂ respired by trunks: comparison of four sampling methods

Damesin

Barbaroux

Berveiller

et al. 2005

Rapid Comm Mass Spectrometry

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The (13)C natural abundance of CO(2) respired by plants has been used in the laboratory to examine the discrimination processes that occur during respiration. Currently, field measurements are being expanded to interpret the respiration delta(13)C signature measured at ecosystem and global levels. In this context, forests are particularly important to consider as they represent 80% of the continental biomass. The objective of this investigation was to compare four methods of sampling the CO(2) respired by trunks for the determination of its carbon isotope composition: three in situ methods using chambers placed on the trunk, and one destructive method using cores of woody tissues. The in situ methods were based either on a Keeling plot approach applied at the tissue level or on an initial flush of the chamber with nitrogen or with CO(2)-free air. In parallel, we investigated the possibility of an apparent discrimination during tissue respiration by comparing the delta(13)C signature of the respired CO(2) and that of the organic matter. The study was performed on six tree species widely distributed in temperate and mediterranean areas. The four methods were not significantly different when overall means were considered. However, considering the individual data, the Keeling plot approach and the nitrogen flush methods gave fairly homogeneous results, whereas the CO(2)-free air method produced more variable results. The core method was not correlated with any of the chamber methods. Regardless of the methodology, the respired CO(2) generally was enriched in (13)C relative to the total organic matter. This apparent enrichment during respiration was variable, reaching as much as 3-5 per thousand. This study showed that, on the whole, the different sampling techniques gave similar results, but one should be aware of the variability associated with each method.

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Effect of nitrogen on the seasonal course of growth and maintenance respiration in stems of Norway spruce trees

Cited by 153 publications

References 35 publications

Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

Effects of xylem water transport on CO2 efflux of woody tissue in a tropical tree, Amazonas State, Brazil

The carbon isotope composition of CO₂ respired by trunks: comparison of four sampling methods

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Effect of nitrogen on the seasonal course of growth and maintenance respiration in stems of Norway spruce trees

Cited by 153 publications

References 35 publications

Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

Spatial and seasonal variations in stem respiration of beech trees (Fagus sylvatica)

Effects of xylem water transport on CO2 efflux of woody tissue in a tropical tree, Amazonas State, Brazil

The carbon isotope composition of CO2 respired by trunks: comparison of four sampling methods

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The carbon isotope composition of CO₂ respired by trunks: comparison of four sampling methods