Application of RothC model to predict soil organic carbon stock on agricultural soils of Slovakia

Barančíková, Gabriela; Halas, J.; Gutteková, M.; Makovníková, Jarmila; Nováková, Martina; Skalský, Rastislav; Tarasovičová, Zuzana

doi:10.17221/23/2009-swr

Cited by 33 publications

(15 citation statements)

References 17 publications

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“…And Dieye et al (2012) analyzed the sensitivity of the GEMS SOC model in response to LUC (Dieye et al 2012); the GEMS model was also developed from the CENTURY model (Metherell 1993). Barancikova et al (2010) and Francaviglia et al (2012) used the ROTHC model to simulate the changes in agricultural land's SOC pools (Barančíková et al 2010;Francaviglia et al 2012). SOC cannot only be affected by LUC, but also by climate change, which will be revisited in Section "Biogeochemical Process of the Effect on Climate Regulation Services".…”

Section: Biogeochemical Process Related To Soil Carbonmentioning

confidence: 99%

Reviews on Impact Assessments of Land-Use Change on Key Ecosystem Services

Deng

Huang

et al. 2015

Springer Geography

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It is commonly acknowledged that land-use change (LUC) and climate change have exerted significant effects on ecosystem services which are essential and vital to human well-being. This chapter conducted a revisit to relevant researches on the impacts of LUC on human well-being via specifically altering the ecosystem provisioning services and climate regulation services. As to the issues related to ecosystem provisioning services, first, the explorations on the influences of LUC on ecosystem provisioning services were reviewed, including the researches on the influences of LUC on agro-ecosystem services and forest and/or grassland ecosystem services. Then, the quantitative identification of the impacts of LUC on ecosystem provisioning services was commented on. In light of enhanced observation and valuation methods, several approaches to ecosystem 2 X. Deng et al.services and improved models for assessing those ecosystem services were analyzed. The major indicators used to uncover the influences of LUC on human well-being were summarized including the increase of inputs and the reduction of outputs in production and the augmented health risk induced by the irrational land uses. Finally, the research gaps were uncovered and several research directions to address these gaps were proposed. As to climate regulation services, the research efforts in the drivers of and their corresponding effects on climate regulation services are briefly identified. Then, we explicitly reviewed the researches on the effects of LUC and climate change on climate regulation services, especially focused on the certain methods and models used to quantify the effects on the major drivers of climate regulation services. After that, the effects of LUC and climate change on human well-being via climate regulation services were revisited and commented accordingly. Finally, we discussed the current research gaps and proposed some research prospects in future studies.

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Section: Biogeochemical Process Related To Soil Carbonmentioning

confidence: 99%

Reviews on Impact Assessments of Land-Use Change on Key Ecosystem Services

Deng

Huang

et al. 2015

Springer Geography

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“…Relations between temperature and carbon stock were confirmed using RothC model in Slovak conditions (Barančíková et al 2010). The same model was also used for evaluation of spatial distribution of carbon sequestration rate in cultivated soils of Slovakia (Tarasovičová et al 2009).…”

Section: Agriculture (Poľnohospodárstvo) 57 2011 (3): 85−95mentioning

confidence: 86%

Evaluation of Adaptive Measures to Reduce Climate Change Impact on Soil Organic Carbon Stock In Žitný Ostrov Region

Takáč¹,

Šiška²,

Píš³

2011

Agriculture (Polnohospodárstvo)

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2 Slovak University of agriculture in nitra TAKÁČ, J. -ŠIŠKA, B. -PÍŠ, V.: evaluation of adaptive measures to reduce climate change impact on soil organic carbon stock in Žitný ostrov region. Agriculture (Poľnohospodárstvo), vol. 57, 2011, no. 3, pp. 85-95. RNDr. Jozef Takáč, PhD., RNDr. Vladimír Píš, PhD., Soil Science and Conservation Research Institute, 827 13 Bratislava, Gagarinova 10, Slovak Republic. e-mail: j.takac@vupop.sk doc. RNDr. Bernard Šiška, CSc., Slovak University of Agriculture in Nitra, faculty of european Studies and Regional Development, 949 76 Nitra, Tr. A. Hlinku 2, Slovak Republic Key words: soil organic carbon, climate change, adaptive measures, crop residuals, irrigation Climate change impacts on soil organic carbon sequestration rate were simulated by agroecological model DAISY. Daily meteorological data for the Danubian Lowland up to 2100 were generated according to emission scenarios SReS A2 and B1 using general circulation model CGCM3.1. effect of gradual increase of CO 2 concentration in the atmosphere was taken into account. Various crop rotations as well as various management practices including irrigation and crop residuals incorporation were considered in three variants: i/ rainfed, residuals not incorporated, ii/ irrigated, residuals not incorporated, iii/ summer crops irrigated and residuals incorporated. Modelling outputs confirm that conventional rainfed agro-technical practices without incorporation of crop residues resulted to significant loss of soil organic carbon in soil profile towards more distanced time slices. The irrigation and the incorporation of crop residuals including stems and leaves can reduce soil organic carbon losses. If it is combined with proper crop rotation the soil organic carbon stock in soil profile can even increase. 85Agriculture (Poľnohospodárstvo), 57, 2011 (3): 85−95

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“…Among all the nine models, ROTHC and CENTURY are two of the most widely used and tested SOM models. Shrestha 2012) used the ROTHC model to simulate the changes in agricultural land's SOC pools [60,61]. SOC cannot only be affected by LUC, but also by climate change, which will be revisited in Section 3.1.…”

Section: Biogeochemical Process Related With Soil Carbonmentioning

confidence: 99%

“…And as mentioned in Section 2.1.3, SOC can also be affected by climate change. In many SOM models, climate data are important part as the input data into the models, and SOC changes in response to climate changes under different climate scenarios which derived from GCMs and other climate models were usually analyzed [60,61,98]. What is more, as the biogeochemical process of carbon sequestration is complex, it is difficult to take into account of all influencing factors; Zhan et al (2012) used a panel data model and decomposition analyses to figure out the subtle effects of climatic, demographic, geographic, and economic factors, which revealed the importance of climatic factors in carbon sequestration [99].…”

Section: Biogeochemical Process Of the Effect On Climate Regulationmentioning

confidence: 99%

Critical Studies on Integrating Land-Use Induced Effects on Climate Regulation Services into Impact Assessment for Human Well-Being

Deng

Huang

et al. 2013

Advances in Meteorology

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It is commonly acknowledged that land use changes (LUC) and climate changes have exerted significant effects on ecosystem services which are essential and vital to human well-being. Among all the services provided by ecosystem, climate regulation services are relatively sensitive to LUC and climate changes. This study aims to comprehensively review studies on the complex effects of LUC and climate changes on climate regulation services and further integrates the effects on climate regulation services into impact assessment for human well-being. In this study, we firstly introduced research efforts in which the drivers of and their corresponding effects on climate regulation services are briefly identified. Then, we explicitly reviewed the researches on the effects of LUC and climate changes on climate regulation services, especially focused on the certain methods and models used to quantify the effects on the major drivers of climate regulation services. After that, the effects of LUC and climate changes on human well-being via climate regulation services were revisited and commented accordingly. Finally, this paper discussed the current research gaps and proposed some research prospects in future studies.

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Application of RothC model to predict soil organic carbon stock on agricultural soils of Slovakia

Cited by 33 publications

References 17 publications

Reviews on Impact Assessments of Land-Use Change on Key Ecosystem Services

Reviews on Impact Assessments of Land-Use Change on Key Ecosystem Services

Evaluation of Adaptive Measures to Reduce Climate Change Impact on Soil Organic Carbon Stock In Žitný Ostrov Region

Critical Studies on Integrating Land-Use Induced Effects on Climate Regulation Services into Impact Assessment for Human Well-Being

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