Conceptual advancement of socio-ecological modelling of ecosystem services for re-evaluating Brownfield land

Kolosz, Ben; Athanasiadis, Ioannis N.; Cadisch, Georg; Dawson, Terence P.; Giupponi, Carlo; Honzák, Miroslav; Martínez‐López, Javier; Marvuglia, Antonino; Mojtahed, Vahid; Ogutu, Keroboto B. Z.; Delden, Hedwig van; Villa, Ferdinando; Balbi, Stefano

doi:10.1016/j.ecoser.2018.08.003

Cited by 24 publications

(27 citation statements)

References 111 publications

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“…A recent review of studies that have modelled interactions between multiple ES found that a large proportion did so from the perspective of co-occurring production synergies and trade-offs, but that the examination of flows, and the identification and quantification of explicit functional relationships remain largely unexplored (Agudelo et al 2020). Ultimately, simultaneously modelling multiple ES continues to be difficult in part because of methodological inadequacies and the complexity of the ecological processes involved (Kolosz et al 2018). Our approach provides a new framework that can help address these challenges.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, we are limited in the generalizations we can make, especially as they pertain to the specific locations, LULC- and ecosystem-relevance of the potential for connectivity ‘hotspots’. Investigating a limited number of ES is common among studies that model interactions among ES (Agudelo et al 2020), with data limitations, complexity of socio-ecological process involved, and methodological gaps cited as barriers to inclusion of all ES (Kolosz et al 2018). However, our choice to test only three ES was motivated by our goal to provide a straightforward case study of how each of the three broad ES categories (i.e., non ‘supporting’; MEA 2005) can be represented in the same study.…”

Section: Appendicesmentioning

confidence: 99%

“…In spite of the growing knowledge around the complex interactions and feedbacks between ES and the related suite of biotic and abiotic mechanisms and the cruciality of incorporating this into decision-making (Qiu and Turner 2013, Dee et al 2017), spatial modelling of the diverse functional connections between multiple ES (e.g., Cui et al 2012, Kolosz et al 2018, Agudelo et al 2020) from several broad ES categories at the regional scale remains limited (Field et al 2017). Several approaches used in ecological connectivity studies to identify potential spatial linkages across a landscape are promising in their applicability multi-ES assessment.…”

Section: Introductionmentioning

confidence: 99%

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Mapping the functional connectivity of ecosystem services supply across a regional landscape

Field

Parrott

2021

Preprint

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Sustainably managing multifunctional landscapes for production of multiple ecosystem services (ES) requires thorough understanding of the interactions between ES and the ecological processes that drive them. We build upon landscape connectivity theory to present a spatial approach for assessing functional connections between multiple ES at the landscape scale. We demonstrate application of the approach using existing ES supply mapping data for plant agriculture, waterflow regulation, and landscape aesthetics. The connections we observed between these three ES revealed high-value multifunctional linkages on the landscape that were not necessarily predictable from supply area mapping, nor from land use or land cover data. By providing spatial information on ES connectivity, our approach enables local and regional environmental planning and management that takes full consideration of the complex, multi-scale interactions between ecological processes, land use and land cover, and ecosystem service supply on a landscape.

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Section: Discussionmentioning

confidence: 99%

Section: Appendicesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mapping the functional connectivity of ecosystem services supply across a regional landscape

Field

Parrott

2021

Preprint

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“…There is often no real valid relation between spot-oriented sampling or monitoring regarding up-scaling approaches to regional or global scales, but vice versa, also no real attempts to down-scale and validate outcomes from global assessments and modelling approaches with regard to their local reliability (e.g. Kolosz et al 2018;Le Clec'h et al 2018;Malenovský et al 2019). Most of the modelling approaches in land use sciences are purely data driven and miss making use of such theoretical frameworks as provided by the socialecological system concept (Colding and Barthel 2019).…”

Section: Challenges In Research Practicementioning

confidence: 99%

Upcoming Challenges in Land Use Science—An International Perspective

Fürst

2020

Human-Environment Interactions

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This chapter provides an overview on relevant concepts, such as ecosystem services, sustainability, multifunctionality and social-ecological systems/frameworks applied in land use sciences. Current discussions, political debates and challenges in terms of methodological aspects, actor enrolment or project design are raised. Future research topics particularly related to the often non-coherent UN Sustainable Development Goals and their mutual trade-offs are raised and challenges in how to advance land use science are provided. An outlook is provided how co-development of knowledge and co-design of land use system research could be conceived in the future. Keywords Land use science • Social-ecological systems • Co-development • Co-design • Integrated modelling and assessment

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“…In addition, based on another laboratory study, Kim and Lee [81] observed maximum CO 2 sequestration capacity of 195 kg for one tonne of bottom ash. If the 6.8 and 1.7 million tonnes of fly and bottom ashes, respectively, being produced annually in Malaysia [73] would be used for the first 10 cm of land associated with the country's future developments (e.g., using lands associated with construction of highway [14,82]), more than 9000 ha of land could be designed for inorganic CO 2 sequestration, and 500,000 tonnes of CO 2 could be captured. This figure accounts for 0.2% of the country's projected total CO 2 emission in 2020.…”

Section: Malaysia's Capacity For Using Soil Mineral Carbonationmentioning

confidence: 99%

Sequestering Atmospheric CO2 Inorganically: A Solution for Malaysia’s CO2 Emission

et al. 2018

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Malaysia is anticipating an increase of 68.86% in CO2 emission in 2020, compared with the 2000 baseline, reaching 285.73 million tonnes. A major contributor to Malaysia’s CO2 emissions is coal-fired electricity power plants, responsible for 43.4% of the overall emissions. Malaysia’s forest soil offers organic sequestration of 15 tonnes of CO2 ha−1·year−1. Unlike organic CO2 sequestration in soil, inorganic sequestration of CO2 through mineral carbonation, once formed, is considered as a permanent sink. Inorganic CO2 sequestration in Malaysia has not been extensively studied, and the country’s potential for using the technique for atmospheric CO2 removal is undefined. In addition, Malaysia produces a significant amount of solid waste annually and, of that, demolition concrete waste, basalt quarry fine, and fly and bottom ashes are calcium-rich materials suitable for inorganic CO2 sequestration. This project introduces a potential solution for sequestering atmospheric CO2 inorganically for Malaysia. If lands associated to future developments in Malaysia are designed for inorganic CO2 sequestration using demolition concrete waste, basalt quarry fine, and fly and bottom ashes, 597,465 tonnes of CO2 can be captured annually adding a potential annual economic benefit of €4,700,000.

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Conceptual advancement of socio-ecological modelling of ecosystem services for re-evaluating Brownfield land

Cited by 24 publications

References 111 publications

Mapping the functional connectivity of ecosystem services supply across a regional landscape

Mapping the functional connectivity of ecosystem services supply across a regional landscape

Upcoming Challenges in Land Use Science—An International Perspective

Sequestering Atmospheric CO2 Inorganically: A Solution for Malaysia’s CO2 Emission

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