Vasco Diogo scite author profile

In the majority of EU Member States, agricultural land is expected to decrease not only due to land-use changes in favour of urban expansion and afforestation but also to land abandonment processes. The knowledge on location and extent of agricultural land abandonment is relevant for estimating local external effects and adapting policy interventions. Currently, multi-level land-use models are able to capture determined processes of demand-driven redevelopment. However, land abandonment is much more difficult to capture because of its more ambiguous definition and the lack of data on its spatial distribution. This paper presents a method to explicitly model agricultural abandonment as a choice of disinvestment, which in turn is embedded in a utility-based land-use modelling framework that projects land-use changes for the EU and the UK. Validation exercises using observed spatial distribution of abandoned farmland show that the proposed method allows to model abandonment with acceptable accuracy.

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An economic theory-based explanatory model of agricultural land-use patterns: The Netherlands as a case study

Diogo¹,

Koomen²,

Kuhlman

2015

Agricultural Systems

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Exploring the potential of reed as a bioenergy crop in the Netherlands

Kuhlman¹,

Diogo

Koomen

2013

Biomass and Bioenergy

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Assessing potential future urban heat island patterns following climate scenarios, socio-economic developments and spatial planning strategies

Koomen¹,

Diogo²

2015

Mitig Adapt Strateg Glob Change

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Climate change and urban development will exacerbate current urban heat island effects. While most studies acknowledge the importance of projected temperature increases for raising urban temperatures, little attention is paid to the impacts of future changes in urbanisation patterns. Yet, steering urban development may be an effective strategy to further limit increases in the intensity and spreading of the urban heat island effect. We describe a method that allows exploring the impact of urban development scenarios on the urban heat island effect. This paper starts with a basic analysis of the strength of this effect in a temperate climate under relatively favourable conditions based on data from amateur weather stations and own observations. It explains local variation in observed temperatures and quantifies how the urban heat island effect may develop in the coming 30 years. Using the obtained relations, we assess potential future changes building on existing scenarios of climatic and socio-economic changes and a land use simulation model. Our measurements for the Amsterdam region in the Netherlands indicate that the urban heat island effect induces maximum temperature differences with the surrounding countryside of over 3 °C on moderately warm summer days. The simulations of potential future changes indicate that strong local temperature increases are likely due to urban development. Climate change will, on average, have a limited impact on these changes. Large impacts can, however, be expected from the combination of urban development and potentially more frequent occurrences of extreme climatic events such as heat waves. Spatial planning strategies that reduce the lateral spread of urban development will thus greatly help to limit a further increase in urban heat island values.

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The geography of megatrends affecting European agriculture

Debonne

Bürgi

Diogo

et al. 2022

Global Environmental Change

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Vasco Diogo

Modelling agricultural land abandonment in a fine spatial resolution multi-level land-use model: An application for the EU

An economic theory-based explanatory model of agricultural land-use patterns: The Netherlands as a case study

Exploring the potential of reed as a bioenergy crop in the Netherlands

Assessing potential future urban heat island patterns following climate scenarios, socio-economic developments and spatial planning strategies

The geography of megatrends affecting European agriculture

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