Density of Biogas Power Plants as An Indicator of Bioenergy Generated Transformation of Agricultural Landscapes

Csikós, Nándor; Schwanebeck, Malte; Kuhwald, Michael; Szilassi, Péter; Duttmann, Rainer

doi:10.3390/su11092500

Cited by 19 publications

(14 citation statements)

References 49 publications

(74 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Therefore, biomass was generally obtained from the immediate vicinity of a biogas plant. This finding was confirmed by the research of Csikos et al [29], who found that biogas plants were concentrated in areas where energy crops were largely cultivated. In addition, it has been found that areas with higher biogas technical potential had biogas plants with higher capacities [25].…”

supporting

confidence: 71%

“…Considering CLC changed-maps only report arable land change as one land use type, which limits the analysis for silage maize area changes during various EEGs, the detailed agricultural crops area was derived from regional crop statistic record to facilitate evaluation. To relate dynamic changes in the agricultural landscape to biogas plant installed capacity density, we adopted the approach from Csikos et al[29]. Three impact zones (A, B and C), representing different density categories (low, medium and high) of the installed capacity (kWel./km 2 ) of biogas plants, were delineated using the Kernel Density tool within ArcGIS 10.7 software.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Effects of the German Renewable Energy Act and Environmental, Social and Economic Factors: Biogas Plants Adoption and Agricultural Landscape Change

Yang

Liu

Thrän

et al. 2020

Preprint

View full text Add to dashboard Cite

Background: The German energy transition strategy calls for reform of the German energy sector. Against this background, the Germany Renewable Energy Sources Act, or EEG, was issued in 2000 and is widely regarded as a successful legislation for promoting bioenergy development, as more than 9000 biogas plants were built in Germany until 2017. However, the impact from different EEG periods on regional biogas plants’ development and the long-term influence to regional landscape change are rarely simultaneously studied. Methods: This study aimed to quantitatively analyse the impact of the EEG on promotion the biogas plant development in central Germany (CG) by using the event study econometric technique. A GIS-based spatial analysis was further conducted to provide insight into the changes of the agricultural landscape, which was resulted from the development of biogas plants during the EEG from 2000 to 2014. Results: One of the main findings was that the EEGs had time-varying effects on motivating biogas plants construction and selecting the plants size. The comparison between different EEG emendations suggested that the EEG 2009 was the most successful one in market implementation. Besides, the adoption of the biogas plant in CG was mainly driven by the farmer’s financial incentive and taken as an investment to secure the farming business. At the landscape scale, the expansion of silage maize was remarkable in CG from 2000 to 2014. The silage maize was intensively cultivated in the regions with high biogas plant installed capacity. Since EEG 2009, the regional livestock number increased rapidly, which was also associated with increasing pasture land area in CG. This phenomenon suggested a promising regional animal farming and its potential of manure as biogas feedstock. Conclusions: These findings imply that the policy makers should take the EEG 2009 emendation as reference to promote the marketing of future new renewable energy technologies and cautions should be paid on the potential land conflicts of agricultural-based bioenergy development.

show abstract

supporting

confidence: 71%

mentioning

confidence: 99%

Effects of the German Renewable Energy Act and Environmental, Social and Economic Factors: Biogas Plants Adoption and Agricultural Landscape Change

Yang

Liu

Thrän

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…The silage maize and winter rapes are the dominant land-use types of the energy landscapes. Based on Csikos et al [13], there is a significant positive correlation between the capacity of the biogas power plants and the area of silage maize and rape.…”

Section: Discussionmentioning

confidence: 99%

Impact of Energy Landscapes on the Abundance of Eurasian Skylark (Alauda arvensis), an Example from North Germany

Csikós

Szilassi

2020

Sustainability

Self Cite

View full text Add to dashboard Cite

The increasing use of biomass for energy production is reshaping landscapes into energy landscapes. Our study aims to analyze the impact of the biogas energy landscape on the abundance of Eurasian skylark. The biogas power plants have a high impact on the landscape, because of the energy crops like silage maize and rape. We analyze land-use and land-cover heterogeneity in connection with this bird species in the Federal State of Schleswig-Holstein. Three databases are used: abundance data of a typical farmland bird (Eurasian skylark), Corine land cover, and statistical land-use data from the German Agricultural Structure Survey. Several spatial analyses and statistical analyses were conducted. Generalized linear models are used with model averaging and predicted marginal effects were calculated. We estimate the changes in individuals per km2 by considering six crop types and the Shannon Diversity Index (SDI). The Eurasian skylark abundance has a significant negative correlation with the area of the inland wetlands, the Shannon Diversity Index (SDI), permanent crops, silage maize, and rape. We found significant positive correlation with the pasture, potato, and wheat. The replacement of pastures, Eurasian skylarks’ preferred habitat, with energy crops, mostly silage maize, and the ongoing homogenization of the landscape, negatively affected this species’ distribution in the study area.

show abstract

“…Model I.1 was used to explore the impact of environmental, social and economic factors on the decision to adopt biogas production. Model I.1 was constructed as follows: To spatially study the impacts of environmental, social and economic factors on biogas plant production density, we adopted the impact zone analysis approach of Csikos et al [75]. Using the spatial join function of the ArcGIS 10.7 software, the data used in the empirical analysis on each investigated environmental, social and economic factor except for PPAP was assigned to the corresponding county to create the factor map.…”

Section: Model Specificationmentioning

confidence: 99%

Effects of the German Renewable Energy Sources Act and environmental, social and economic factors on biogas plant adoption and agricultural land use change

Yang

Liu

Thrän

et al. 2020

Preprint

View full text Add to dashboard Cite

Background: The German energy transition strategy calls for a reform of the German energy sector. As a result, the Germany Renewable Energy Sources Act (EEG) was passed in 2000 and is widely regarded as successful legislation for promoting bioenergy development. More than 1,000 biogas plants were constructed in Central Germany (CG) between 2000 and 2014. Despite this, few studies have been conducted for this period that systematically investigate how environmental, social and economic factors, as well as various EEG amendments have impacted biogas production and what the environmental consequence of biogas production development in CG have been. Methods: The impacts of environmental, social and economic factors and different EEG amendments on biogas production decisions in CG were quantified using multivariate linear regression model and the event study econometric technique. A GIS-based spatial analysis was also conducted to provide insight into the changes to agricultural land use that resulted from the development of biogas plants during the EEG period. Results: The main finding was that the income diversification effect resulting from biogas production was the most important factor in a farmer’s decision to adopt biogas production. In addition, all of the EEG amendments had a significant influence on the adoption of biogas production, however EEG III and IV, which tried to promote small-scale plants, were unable to reduce the average size of the plants constructed in these two amendment periods. From a landscape perspective, there was a striking increase in the cultivation of silage maize in CG from 2000 to 2014. Silage maize was intensively cultivated in regions with a high installed biogas plant capacity. Since the first EEG amendment, permanent grassland area slightly increased while arable land area declined in CG. Conclusions: The adoption of biogas production in CG was strongly driven by economic incentives for the farmers, more precisely, by the incentive to diversify their income sources. In addition to increase the subsidy, future EEG amendments should find new measures to encourage the adoption of small-scale biogas plants, which had been unsuccessful in EEG amendments III and IV.

show abstract

Density of Biogas Power Plants as An Indicator of Bioenergy Generated Transformation of Agricultural Landscapes

Cited by 19 publications

References 49 publications

Effects of the German Renewable Energy Act and Environmental, Social and Economic Factors: Biogas Plants Adoption and Agricultural Landscape Change

Effects of the German Renewable Energy Act and Environmental, Social and Economic Factors: Biogas Plants Adoption and Agricultural Landscape Change

Impact of Energy Landscapes on the Abundance of Eurasian Skylark (Alauda arvensis), an Example from North Germany

Effects of the German Renewable Energy Sources Act and environmental, social and economic factors on biogas plant adoption and agricultural land use change

Contact Info

Product

Resources

About