Widening the analysis of Energy Return on Investment (EROI) in agro-ecosystems: Socio-ecological transitions to industrialized farm systems (the Vallès County, Catalonia, c.1860 and 1999)

Widening the analysis of Energy Return on Investment (EROI) in agro-ecosystems: Socio-ecological transitions to industrialized farm systems (the Vallès County, Catalonia, c.1860 and 1999)

•Our aim is to compare energetic dynamics of past and present farm systems.•A single EROI is not enough to assess the functioning of agro-ecosystems.•Our new indicators account also for unharvested biomass and not only outputs.•Biomass reused appears to have a key role in solar based agro-ecosystems...

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Bibliographic Details
Published in:Ecological modelling Vol. 336; pp. 13 - 25
Main Authors: Galán, E., Padró, R., Marco, I., Tello, E., Cunfer, G., Guzmán, G.I., González de Molina, M., Krausmann, F., Gingrich, S., Sacristán, V., Moreno-Delgado, D.
Format: Journal Article
Language:English
Published: Elsevier B.V 24-09-2016
Subjects:
Agricultural systems
Agro-ecosystems
agroecosystems
Biodiversitat
Biodiversity
Biomass
Catalonia
Ecologia del paisatge
Ecology
energy flow
Energy Return on Investment (EROI)
EROI
farmers
Farming
farming systems
Farms
forests
fossil fuels
GCV
Heterogeneity
industrialization
Integrated land use management
Land use
Landscape ecology
Landscapes
NPP
Return on investment
Sistemes agrícoles
Socio-ecological systems
Ús del sòl
Spain
Spain, Catalonia
Socio-ecological systems
Catalonia
Agro-ecosystems
Energy Return on Investment (EROI)
EROI
Integrated land use management
GCV
NPP
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Summary:•Our aim is to compare energetic dynamics of past and present farm systems.•A single EROI is not enough to assess the functioning of agro-ecosystems.•Our new indicators account also for unharvested biomass and not only outputs.•Biomass reused appears to have a key role in solar based agro-ecosystems. Energy balances of farm systems have overlooked the role of energy flows that remain within agro-ecosystems. Yet, such internal flows fulfil important socio-ecological functions, including maintenance of farmers themselves and agro-ecosystem structures. Farming can either give rise to complex landscapes that favour associated biodiversity, or the opposite. This variability can be understood by assessing several types of Energy Returns on Investment (EROI). Applying these measures to a farm system in Catalonia, Spain in 1860 and in 1999, reveals the expected decrease in the ratio of final energy output to total and external inputs. The transition from solar-based to a fossil fuel based agro-ecosystem was further accompanied by an increase in the ratio of final energy output to biomass reused, as well as an absolute increase of Unharvested Phytomass grown in derelict forestland. The study reveals an apparent link between reuse of biomass and the decrease of landscape heterogeneity along with its associated biodiversity.
Bibliography:http://dx.doi.org/10.1016/j.ecolmodel.2016.05.012
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0304-3800
1872-7026
DOI:10.1016/j.ecolmodel.2016.05.012