Soil [N] modulates soil C cycling in CO<sub>2</sub>‐fumigated tree stands: a meta‐analysis

Dieleman, Wouter; Luyssaert, Sebastiaan; Rey, Ana; Angelis, Paolo De; Barton, Craig V. M.; Broadmeadow, M. S. J.; Broadmeadow, Samantha; Chigwerewe, K. S.; Crookshanks, Meg; Dufrêne, Éric; Jarvis, P. G.; Kasurinen, Anne; Kellomäki, Seppo; Dantec, Valérie Le; Liberloo, Marion; Marek, Michal V.; Medlyn, Belinda E.; Pokorný, Radek; Scarascia‐Mugnozza, Giuseppe; Temperton, Vicky M.; Tingey, David T.; Urban, Otmar; Ceulemans, R.; Janssens, Ivan A.

doi:10.1111/j.1365-3040.2010.02201.x

Cited by 67 publications

(73 citation statements)

References 64 publications

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“…The increase in N tot is a possible consequence of eutrophication. The increase in C org is a possible consequence of humus restoration (Dieleman et al 2010). The slight trend of increase in the content of C org indicated that it might refer to a reliable medium-term prediction but repeated occurrence of unusual values due to the uncertain quality of sampling probably influenced the reduction of the probable development prediction length to five years.…”

Section: Discussionmentioning

confidence: 99%

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Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Samec¹,

Kučera²,

Tuček³

2014

Soil & Water Res.

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Section: Discussionmentioning

confidence: 99%

“…Fluctuations in soil carbon cycles mainly occur due to changes in the balance between above-ground and underground resources (Wang et al 2012). Nevertheless, to specifically estimate soil property changes requires the formulation of models that assume the influence and synergy of both acid deposition and climatic changes (Dieleman et al 2010).…”

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confidence: 99%

Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Samec¹,

Kučera²,

Tuček³

2014

Soil & Water Res.

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“…Indeed Luyssaert et al (2010) suggested that forests continue to sequester carbon in spite of intensive harvesting of wood since growth has outpaced losses from harvesting and heterotrophic respiration. This increase in growth has been attributed to a large fraction of young productive trees (Nabuurs et al, 2003), changes in management and increase in forest area (Ciais et al, 2008), increased CO 2 (Friedlingstein et al, 1995) and temperature (Myneni et al, 1997).…”

Section: Biogeochemistry Of European Forestsmentioning

confidence: 99%

Environmental change impacts on the C- and N-cycle of European forests: a model comparison study

et al. 2013

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Forests are important components of the greenhouse gas balance of Europe. There is considerable uncertainty about how predicted changes to climate and nitrogen deposition will perturb the carbon and nitrogen cycles of European forests and thereby alter forest growth, carbon sequestration and N₂O emission. The present study aimed to quantify the carbon and nitrogen balance, including the exchange of greenhouse gases, of European forests over the period 2010–2030, with a particular emphasis on the spatial variability of change. The analysis was carried out for two tree species: European beech and Scots pine. For this purpose, four different dynamic models were used: BASFOR, DailyDayCent, INTEGRATOR and Landscape-DNDC. These models span a range from semi-empirical to complex mechanistic. Comparison of these models allowed assessment of the extent to which model predictions depended on differences in model inputs and structure. We found a European average carbon sink of 0.160 ± 0.020 kgC m⁻² yr⁻¹ (pine) and 0.138 ± 0.062 kgC m⁻² yr⁻¹ (beech) and N₂O source of 0.285 ± 0.125 kgN ha⁻¹ yr⁻¹ (pine) and 0.575 ± 0.105 kgN ha⁻¹ yr⁻¹ (beech). The European average greenhouse gas potential of the carbon sink was 18 (pine) and 8 (beech) times that of the N₂O source. Carbon sequestration was larger in the trees than in the soil. Carbon sequestration and forest growth were largest in central Europe and lowest in northern Sweden and Finland, N. Poland and S. Spain. No single driver was found to dominate change across Europe. Forests were found to be most sensitive to change in environmental drivers where the drivers were limiting growth, where changes were particularly large or where changes acted in concert. The models disagreed as to which environmental changes were most significant for the geographical variation in forest growth and as to which tree species showed the largest rate of carbon sequestration. Pine and beech forests were found to have differing sensitivities to environmental change, in particular the response to changes in nitrogen and precipitation, with beech forest more vulnerable to drought. There was considerable uncertainty about the geographical location of N₂O emissions. Two of the models BASFOR and LandscapeDNDC had largest emissions in central Europe where nitrogen deposition and soil nitrogen were largest, whereas the two other models identified different regions with large N₂O emission. N₂O emissions were found to be larger from beech than pine forests and were found to be particularly sensitive to forest growth

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“…However, the fertilization effect of CO 2 may be limited by the progressive scarcity of nutrient supplies, especially N (Reich et al 2006;Dieleman et al 2010) or by a lack of positive growth response despite the stimulation of the C assimilation rate induced by CO 2 (Körner 2006;Kirschbaum 2011). Additionally, in natural conditions, the response of an individual can depend on the identity of neighboring species (Lau et al 2010) because processes affecting growth, such as nutrient acquisition, can be contingent on the identity of neighboring species under enhanced levels of CO 2 (Friend et al 2000;Zak et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Response of Fagus sylvatica and Picea abies to the interactive effect of neighbor identity and enhanced CO2 levels

Rolo

Andivia

Pokorný

2015

Trees

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Enhanced levels of CO 2 affected both the nutrition and morphology of both species. The effect of interspecific competition was dependent on the species identity but not on the CO 2 level. AbstractThe interest in adaptive forest strategies to overcome predicted scenarios of climate change is increasing worldwide. An example of these strategies is the introduction of native species into mono-specific plantations. However, to fully consider this option/strategy, a higher understanding of the responses of forest tree species to concurrent biotic and abiotic factors is needed. The aim of the present study was to assess nutritional and morphological adjustments of individuals of European beech (Fagus sylvatica L.) and Norway Spruce (Picea abies (L.) Karst) growing at enhanced levels of CO 2 and with different proportions of con-specific individuals in its vicinity.Individuals that grew at elevated CO 2 levels showed higher values of relative growth rate (RGR), total twig dry biomass and root biomass, and lower values of leaf area ratio, leaf N and Mg concentrations and soil nutrient concentrations. Individuals of Norway spruce growing in the vicinity of high proportions of European beech showed a reduction in the allocation of biomass to foliar tissue and lower values of RGR and root biomass. European beech, by contrast, showed a limited response to Norway spruce presence and higher capacity in the exploitation of space both above-and belowground. In conclusion, the lower response of European beech to both environmental factors suggests that the introduction of European beech into Norway spruce stands could be a feasible option in current forest transition strategies.

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Soil [N] modulates soil C cycling in CO₂‐fumigated tree stands: a meta‐analysis

Cited by 67 publications

References 64 publications

Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Environmental change impacts on the C- and N-cycle of European forests: a model comparison study

Response of Fagus sylvatica and Picea abies to the interactive effect of neighbor identity and enhanced CO2 levels

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Soil [N] modulates soil C cycling in CO2‐fumigated tree stands: a meta‐analysis

Cited by 67 publications

References 64 publications

Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Fluctuations in the properties of forest soils in the Central European highlands (Czech Republic)

Environmental change impacts on the C- and N-cycle of European forests: a model comparison study

Response of Fagus sylvatica and Picea abies to the interactive effect of neighbor identity and enhanced CO2 levels

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Soil [N] modulates soil C cycling in CO₂‐fumigated tree stands: a meta‐analysis