Temporal Variation of Atmospheric Fossil and Modern CO<sub>2</sub>Excess at a Central European Rural Tower Station between 2008 and 2014

Major, István; Haszpra, László; Rinyu, László; Futó, István; Bihari, Árpád; Hammer, Samuel; Jull, T.; Molnár, Mihály

doi:10.1017/rdc.2018.79

Cited by 20 publications

(16 citation statements)

References 41 publications

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“…Although weather has changed throughout the history of the earth, in all time scales, it is clear that the current changes have some distinct aspects. For example, currently, the observed concentration of carbon dioxide in the atmosphere far exceeds the natural range of the last 650,000 years, reaching a record 415 ppm, an increase of about 100 ppm from the period prior to the industrial revolution [47]. Another distinct aspect of current climate change is its origin, unlike in the past, where climate change has resulted from natural phenomena, while most current climate change, particularly in the last 50 years, is attributed to human activities [48].…”

Section: The Global Carbon Balancementioning

confidence: 99%

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Nunes

Meireles

Gomes

et al. 2020

Climate

143

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Today, climate change is assumed by many researchers and scholars as a certainty and is presented as the biggest challenge humanity has ever faced. It is commonly accepted that anthropogenic greenhouse gas emissions are the main cause that is accelerating the process. Therefore, it is urgent to find solutions to mitigate climate change, mainly because the intense effects have already been felt, in many cases in the form of the occurrence of extremely violent weather events. Forests are undoubtedly one of the most effective and easiest ways to provide the function of carbon sinks. However, it is essential and convenient to analyze the permanence time of this carbon in forests, because this permanence time depends directly on the forest management model used. This article aims to analyze forest management models from the perspective of carbon residence time in temperate forests, dividing the models into three types, namely carbon conservation models, carbon storage models, and carbon substitution models, according to their ability to contribute to functioning as carbon sinks, thereby contributing to the mitigation of climate change.

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Section: The Global Carbon Balancementioning

confidence: 99%

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Nunes

Meireles

Gomes

et al. 2020

Climate

143

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“…Natural cosmogenic 14 C is produced by the cosmic radiation in the upper atmosphere, where the thermal neutrons absorbed by nitrogen atoms. The natural Δ 14 C level in the biomass and in the atmospheric CO 2 was about 0‰ (0.226 Bq/g carbon) in the preindustrial era and this level close to zero now as well, thanks to the decrease of the atmospheric 14 C bomb-peak and increased fossil emissions (Buzinny 2006;Graven et al 2015;Major et al 2018). 14 C is produced in three main ways in nuclear reactors.…”

Section: Introductionmentioning

confidence: 96%

Variation of ¹⁴C in Japanese Tree Rings Related to the Fukushima Nuclear Accident

et al. 2019

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Radiocarbon (14C) analysis was performed on Japanese cedar (Cryptomeria japonica) tree rings from Koriyama, Fukushima prefecture. Our primary aim was to detect any 14C release from the Fukushima Dai-ichi nuclear power plant accident on 11 March 2011. We also completed and assessed the 14C level in Japanese tree rings for the period of 1990–2014 because of the lack of environmental 14C results in the Japanese island that time. For this reason, we used a trajectory model to investigate the air mass forward and backward trajectories at the area of the power plant and sampling site. The modeling data show that the air masses mainly moved to the Pacific Ocean, both during March 2011 and during the growing season (March–September). During the period 1990–2014 there was no significant 14C excess in any of the samples, but there was a detectable Suess effect in almost every tree ring sample. The average fossil contribution was 0.83 ± 0.01% and the calculated anthropogenic component ratio, the 14C excess varied between +0.5 and –1.6%. The Δ14C value decreased from 150.0‰ to 9.5‰ from 1990–2014, which follows the decline of the 14C bomb peak, in addition to any detectable Suess effect.

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“…The high CH 4 :CO 2 and N 2 O:CO 2 ratios suggest the dominance of biomass burning. Δ 14 CO 2 measurements also indicate the high ratio of "modern" carbon in the excess CO 2 in winter [70]. N 2 O:CO 2 ratio in the first episode in January, and also in February, is above the upper limit calculated from the IPCC 2006 Emission Guideline [3] for wood/wood waste burning in the residential combustion category (0.15 nmol mol −1 ; upper value for N 2 O emission: 15 kg TJ −1 [0.341 kmol TJ −1 ]; lower value for CO 2 emission: 95,000 kg TJ −1 [2159 kmol TJ −1 ]).…”

Section: Correlation Between the Ghg Concentrationsmentioning

confidence: 93%

Estimation of greenhouse gas emission factors based on observed covariance of CO2, CH4, N2O and CO mole fractions

2019

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Background: Covariances among major anthropogenic greenhouse gases were studied during three cold-air pool episodes in the Pannonian Basin to better constrain their emission factors for Europe. Results: On the base of observed covariance between carbon dioxide, methane, carbon monoxide and nitrous oxide atmospheric dry air mole fraction in a region of the Pannonian (Carpathian) Basin during three cold-air pool episodes in January-February 2017, emission factors relative to carbon dioxide were determined. For the determination of the emission of carbon dioxide, a simple boundary-layer budget model was compiled. The model gave 6.3 g m −2 day −1 carbon dioxide emission for the footprint area of the measurements on average for the period of the episodes. The 6.7-13.8 nmol μmol −1 , 0.15-0.31 nmol μmol −1 and 15.0-25.8 nmol μmol −1 ratios for CH 4 :CO 2 , N 2 O:CO 2 and CO:CO 2 , respectively, correspond to 15.3-31.7 mg m −2 day −1 methane, 0.9-2.0 mg m −2 day −1 nitrous oxide and 60.0-103.4 mg m −2 day −1 carbon monoxide emissions for the region. These values are somewhat higher than the officially reported bottom-up annual national averages for Hungary, which are explained by the winter conditions and intensive domestic heating. Conclusions: The study indicated the high share of biomass burning in residential heating in rural environment that results in high carbon monoxide emission relative to that of carbon dioxide. It also indicated that the actual emission factor for nitrous oxide may exceed the range given in the guidelines for inventory compilation, which should be taken into account in reporting. It is shown that even a simple boundary-layer budget model might give realistic emission estimation under cool-air pool episodes.

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Temporal Variation of Atmospheric Fossil and Modern CO₂Excess at a Central European Rural Tower Station between 2008 and 2014

Cited by 20 publications

References 41 publications

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Variation of ¹⁴C in Japanese Tree Rings Related to the Fukushima Nuclear Accident

Estimation of greenhouse gas emission factors based on observed covariance of CO2, CH4, N2O and CO mole fractions

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Temporal Variation of Atmospheric Fossil and Modern CO2Excess at a Central European Rural Tower Station between 2008 and 2014

Cited by 20 publications

References 41 publications

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Forest Contribution to Climate Change Mitigation: Management Oriented to Carbon Capture and Storage

Variation of 14C in Japanese Tree Rings Related to the Fukushima Nuclear Accident

Estimation of greenhouse gas emission factors based on observed covariance of CO2, CH4, N2O and CO mole fractions

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Temporal Variation of Atmospheric Fossil and Modern CO₂Excess at a Central European Rural Tower Station between 2008 and 2014

Variation of ¹⁴C in Japanese Tree Rings Related to the Fukushima Nuclear Accident