Green Infrastructure for Climate Adaptation in African Cities

Lindley, Sarah; Gill, Susannah; Cavan, Gina; Yeshitela, Kumelachew; Nebebe, Alemu; Woldegerima, Tekle; Kibassa, Deusdedit; Shemdoe, Riziki; Renner, Florian; Buchta, Katja; Abo-El-Wafa, Hany; Printz, Andreas; Sall, Fatimatou; Coly, Adrien; Ndour, Ndèye Marème; Feumba, Rodrigue Aimé; Zogning, Maurice O. M.; Tonyé, Emmanuel; Youssoufou, OUEDRAOGO; Samari, Saïdou Bani; Sankara, Bakary T.

doi:10.1007/978-3-319-03982-4_4

Cited by 24 publications

(16 citation statements)

References 34 publications

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“…Evidence suggests that GI relevant typologies can be constructed and used to delineate appropriate land units for analysis (Lindley et al, 2015). However, the complex and heterogeneous nature of African development (Lupala, 2002;Mosha & Mosha, 2012) mean that many zones are in practice 'mixed', especially when applied to intermediate 'neighbourhood' scale geographies across large cities.…”

Section: Part 1: Urban Gi and Urban Ecosystem Services As Guiding Framentioning

confidence: 99%

“…However, the complex and heterogeneous nature of African development (Lupala, 2002;Mosha & Mosha, 2012) mean that many zones are in practice 'mixed', especially when applied to intermediate 'neighbourhood' scale geographies across large cities. For some of the five African cities analysed in (Lindley et al, 2015), characterisation using Urban Morphology Types resulted in some very large zones and difficulties in distinguishing between urban and rural. In addition, there is the issue of availability of appropriate, contemporary data at sufficiently high resolution and lack of access to appropriate resources and capacities locally to undertake data analysis in the frequencies required to generate updates to match the rapid state of flux in many African urban areas, particularly where urban sprawl results in large increments in the physical sizes of cities (Seto, Guneralp, & Hutyra, 2012).…”

Section: Part 1: Urban Gi and Urban Ecosystem Services As Guiding Framentioning

confidence: 99%

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Rethinking urban green infrastructure and ecosystem services from the perspective of sub-Saharan African cities

Lindley

Pauleit

Yeshitela

et al. 2018

Landscape and Urban Planning

Self Cite

111

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providing relevant details, so we can investigate your claim. context-specific conceptual, theoretical and empirical foundations is a problem which must be addressed. Drawing on papers from a Special Issue centred on urban green infrastructure and urban ecosystem services in sub-Saharan Africa, we consider what concepts and frameworks are in use and what needs to be considered when framing future research. We also synthesise key messages from the Special Issue and draw together themes to help create a new research agenda for the international research community.

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Section: Part 1: Urban Gi and Urban Ecosystem Services As Guiding Framentioning

confidence: 99%

Section: Part 1: Urban Gi and Urban Ecosystem Services As Guiding Framentioning

confidence: 99%

Rethinking urban green infrastructure and ecosystem services from the perspective of sub-Saharan African cities

Lindley

Pauleit

Yeshitela

et al. 2018

Landscape and Urban Planning

Self Cite

111

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“…However, in most cases there are still quite a few natural areas within the city borders in Russia that actually continue to exist as self-sustaining ecosystems. Sometimes, this phenomenon is found in some other cities, particularly in Africa and South America: Rio-de-Janeiro (Illarionova 2018), Dar-es-Salaam (Lindley 2015), Caracas (Werner 2011). Our method offers a convenient way to assess whether measures directed at the formation of a comfortable urban environment are developed proportionally to the measures for green infrastructure sustainability improvement.…”

Section: Discussionmentioning

confidence: 99%

Green infrastructure indicators for urban planning: applying the integrated approach for Russian largest cities

Климанова

Illarionova

2020

GES

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Modern approaches to urban planning assume the dualistic nature of urban green infrastructure (GI). On the one hand, green infrastructure is as an integrated network of natural and semi-natural areas, featuring a delivery of various benefits to humans. On the other hand, GI is multifunctional and provides the residents by complex of ecosystem services to be user-oriented. Most official reports and programs use common indicators that do not characterize distribution, dynamics or state of GI. In our research, we assessed the quality of GI in 15 largest Russian cities by using an integrated assessment of 13 indicators that make up three groups: the ones 1) characterizing general GI availability; 2) supporting a comfortable urban environment («recreational indicators»); and 3) forming a stable ecosystem («integrity indicators»). The cities were ranked by values of every indicator from 1 to 15 and then the results were summed and normalized to get a total mark (max. 100). To assess the development of GI elements of each group, we also ranked cities separately by values of different groups indicators. Thus, our study revealed that satisfactory marks for both recreational and integrity indicators have Ufa, Nizhny Novgorod, Kazan, Ekaterinburg, Perm and Voronezh. In contrast, Saint Petersburg, being a densely built-up city in an auspicious natural zone, got the worst result. According to the final assessment, the quality of green infrastructure in Krasnoyarsk, a large industrial city, and four cities from the steppe zone (Rostov-on-Don, Samara, Omsk, Novosibirsk) is also unsatisfactory. Our method does not cover all GI aspects (like vegetation health) and since it is based solely on remote sensing data and statistics data, there is definitely a room for improvement. However, this method, while being relatively quick and simple to accomplish, allows to assess not only general availability of GI, but its quality and distribution as well, which are essential for urban spatial planning.

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“…Recent attention to the challenges facing cities in poorer regions has increased markedly in recent years as the urgency of taking action and prioritising interventions in resource-scarce contexts has become more evident. Such analyses and policy agendas are increasingly focusing on the potential contributions of restored and conserved ecosystem services, including 'soft engineering' and diverse forms of urban greening within integrated strategies to reduce vulnerability, enhance resilience and promote urban transformation (for example, Birkmann and von Teichman, 2010;Carmin et al, 2012;Cartwright et al, 2012;UNEP, 2012;Bulkeley and Tuts, 2013;Silver et al, 2013;Birkmann et al, 2014;Friend et al, 2014;Kernaghan and da Silva, 2014;Adelekan et al, 2015;Cartwright, 2015;Lindley et al, 2015;Simon and Leck, 2015). One particular socio-technical approach to addressing these related urban sustainability challenges is represented by eco-cities, smart cities and smart grids (see below).…”

Section: Disaster Risk Reduction (Drr) and Climate Change Approachesmentioning

confidence: 99%

“…What these perspectives share is a concern to demonstrate the importance of well-functioning urban nutrient and other cycles and hence to imbue them with positive value for planners and decision-makers as well as ordinary residents, not least in relation to DRR and ecosystem-based climate change mitigation and adaptation (Plate 3.5). Although often challenging, this is seen as the best way to argue for their conservation, enhancement and expansion (for example, Ten Brink, 2011; Gómez-Baggethun and Barton, 2013;Van Zoest and Hopman, 2014;Elmqvist et al, 2015;Lindley et al, 2015;Luederitz et al, 2015).…”

Section: Disaster Risk Reduction (Drr) and Climate Change Approachesmentioning

confidence: 99%

Rethinking sustainable cities: Accessible, green and fair

Simon¹

2016

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This book is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 license (http://creativecommons.org/ licenses/by-nc/4.0/) which permits adaptation, alteration, reproduction and distribution for non-commercial use, without further permission provided the original work is attributed. The derivative works do not need to be licensed on the same terms. British Library Cataloguing in Publication DataA catalogue record for this book is available from the British Library.Library of Congress Cataloging-in-Publication Data A catalog record for this book has been requested.

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Green Infrastructure for Climate Adaptation in African Cities

Cited by 24 publications

References 34 publications

Rethinking urban green infrastructure and ecosystem services from the perspective of sub-Saharan African cities

Rethinking urban green infrastructure and ecosystem services from the perspective of sub-Saharan African cities

Green infrastructure indicators for urban planning: applying the integrated approach for Russian largest cities

Rethinking sustainable cities: Accessible, green and fair

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