Introducing greenswales: a nature-based approach to preserve seasonal channels – Learnings from Chandigarh, India

  • Ankita Sood Indian Institute of Technology Rorkee
  • Arindam Biswas
Keywords: greenswales, pluvial flooding, natural channels, nature-based solutions, urban streams, stormwater management

Abstract


For long, the cities depended on grey infrastructure for draining stormwater. However, incidences of pluvial flooding are increasing, and existing grey infrastructure is unable to take up the additional stormwater load. Consequently, planners are forced to think of new and sustainable alternatives for stormwater management. Natural channels can supplement the stormwater drainage systems, but these channels in cities are reclaimed to provide land for housing and other functions despite their crucial role. This study presents the case of a natural channel in Chandigarh (India) that is redeveloped as a greenspace without compromising its function of stormwater conveyance. We analytically discussed the non-intentional preservation of this seasonal natural channel and introduced a new term, greenswales, for similar arrangements. A greenswale is defined as the stretch of greenspaces laid over a natural channel, ephemeral or intermittent, having stormwater detention and conveyance as primary functions during precipitation. This study's significant finding is that the seasonal natural channels in a city can be safeguarded through the judicious superimposition of green spaces over them. Crucial lessons from this case can guide new developments in utilising natural seasonal channels as a nature-based solution for stormwater management, reducing the load on grey infrastructure and providing the city with a greenspace.

Author Biography

Arindam Biswas

Associate Professor, 

Department of Architecture and Planning 

Indian Institute of Technology Roorkee

India 

References

Anderson, V., Gough, W. A., Zgela, M., Milosevic, D., & Dunjic, J. (2022). Lowering the Temperature to Increase Heat Equity: A Multi-Scale Evaluation of Nature-Based Solutions in Toronto, Ontario, Canada. Atmosphere 2022, Vol. 13, Page 1027, 13(7), 1027. https://doi.org/10.3390/ATMOS13071027>

Bartens, J., Day, S. D., Harris, J. R., Dove, J. E., Wynn, T. M., & Tech, V. (2008). Can urban tree roots improve infiltration through compacted subsoils for stormwater management? March 2014. https://doi.org/10.2134/jeq2008.0117>

Chandigarh Development Authority. (n.d.). Chandigarh Master Plan – 2031. In Chandigarh Master Plan 2031. http://chandigarh.gov.in/cmp2031/physical-infra.pdf>

Chandigarh web portal. (n.d.). Leisure Valley - Chandigarh City. Retrieved August 12, 2022, from https://www.chandigarhcity.com/attractions/leisure-valley/>

Chaudhry, P., Sharma, M. P., Singh, G., & Bansal, A. (2013). Valuation of urban environmental amenities in developing countries: A case study from Chandigarh, India. Global Journal of Science Frontier Research, 13(2).

Chaudhry, P., & Tewari, V. P. (2010). Role of public parks/gardens in attracting domestic tourists: An example from city Beautiful of India. Tourismos, 5(1), 101–110.

Dosskey, M. G., Vidon, P., Gurwick, N. P., Allan, C. J., Duval, T. P., & Lowrance, R. (2010). The role of riparian vegetation in protecting and improving chemical water quality in streams. Journal of the American Water Resources Association, 46(2), 261–277. https://doi.org/10.1111/j.1752-1688.2010.00419.x>

EPA. (2010). Guidance for Federal Land Management in the Chesapeake Bay Watershed. Chapter 3. Urban and Suburban.

European Commission. (2016). Nature-based solutions | European Commission. https://ec.europa.eu/info/research-and-innovation/research-area/environment/nature-based-solutions_en>

Hadley, R. F. (1968). Ephemeral streams. In Geomorphology (pp. 312–314). Springer Berlin Heidelberg. https://doi.org/10.1007/3-540-31060-6_108>

Hammond, M. J., Chen, A. S., Djordjević, S., Butler, D., & Mark, O. (2015). Urban flood impact assessment: A state-of-the-art review. Urban Water Journal, 12(1), 14–29. https://doi.org/10.1080/1573062X.2013.857421>

Hashemnezhad, H., Heidari, A. A., & Hoseini, P. M. (2013). “Sense of place” and “Place attachment.” International Journal of Architecture and Urban Development, 3(1), 5–12.

Huong, H. T. L., & Pathirana, A. (2013). Urbanization and climate change impacts on future urban flooding in Can Tho city, Vietnam. Hydrology and Earth System Sciences, 17(1), 379–394. https://doi.org/10.5194/hess-17-379-2013>

IPCC. (2014). Climate Change 2014 Synthesis Report Summary Chapter for Policymakers. In Ipcc. https://doi.org/10.1017/CBO9781107415324>

Jonathan Glancey. (2015, December 11). BBC - Culture - Is this the perfect city? http://www.bbc.com/culture/story/20151211-is-this-the-perfect-city>

Khaladkar, R. M., Mahajan, P. N., & Kulkarni, J. R. (2009). Alarming rise in the number and intensity of extreme point rainfall events over the Indian region under climate change scenario. August. http://www.indiaenvironmentportal.org.in/files/alarming rise.pdf

Langergraber, G., Castellar, J. A. C., Andersen, T. R., Andreucci, M. B., Baganz, G. F. M., Buttiglieri, G., Canet-Martí, A., Carvalho, P. N., Finger, D. C., Griessler Bulc, T., Junge, R., Megyesi, B., Milošević, D., Oral, H. V., Pearlmutter, D., Pineda-Martos, R., Pucher, B., van Hullebusch, E. D., & Atanasova, N. (2021). Towards a Cross-Sectoral View of Nature-Based Solutions for Enabling Circular Cities. Water 2021, Vol. 13, Page 2352, 13(17), 2352. https://doi.org/10.3390/W13172352>

Langergraber, G., Castellar, J. A. C., Pucher, B., Baganz, G. F. M., Milosevic, D., Andreucci, M. B., Kearney, K., Pineda-Martos, R., & Atanasova, N. (2021). A Framework for Addressing Circularity Challenges in Cities with Nature-Based Solutions. Water 2021, Vol. 13, Page 2355, 13(17), 2355. https://doi.org/10.3390/W13172355>

Li, L., Uyttenhove, P., & Vaneetvelde, V. (2020). Planning green infrastructure to mitigate urban surface water flooding risk – A methodology to identify priority areas applied in the city of Ghent. Landscape and Urban Planning, 194(October 2019), 103703. https://doi.org/10.1016/j.landurbplan.2019.103703>

Madden, K., & Schwartz, A. (2000). How to turn a place around. Project for Public Spaces.

MC Chandigarh. (2017). Storm water drainage. Municipal Corporation Chandigarh, Chandigarh Administration. http://mcchandigarh.gov.in/?q=district-map>

Mcpherson, G. (2017). Performance of two bioswales on urban runoff management. https://doi.org/10.3390/infrastructures2040012>

Miller, J. D., & Hutchins, M. (2017). The impacts of urbanisation and climate change on urban flooding and urban water quality: A review of the evidence concerning the United Kingdom. Journal of Hydrology: Regional Studies, 12(June), 345–362. https://doi.org/10.1016/j.ejrh.2017.06.006>

Najafi, M., & Kamal, M. (2012). The concept of place attachment in environmental psychology. Elixir International Journal, Elixir Sus, 7637–7641.

Ouf, A. S. E.-D., & El-Zafarany, N. A. (2018). Diversity and inclusion in the public space as aspects of happiness and wellbeing. Journal of Urban Research, 28(1), 109–129.

Pearlmutter, D., Pucher, B., Calheiros, C. S. C., Hoffmann, K. A., Aicher, A., Pinho, P., Stracqualursi, A., Korolova, A., Pobric, A., Galvão, A., Tokuç, A., Bas, B., Theochari, D., Milosevic, D., Giancola, E., Bertino, G., Castellar, J. A. C., Flaszynska, J., Onur, M., … Nehls, T. (2021). Closing Water Cycles in the Built Environment through Nature-Based Solutions: The Contribution of Vertical Greening Systems and Green Roofs. Water 2021, Vol. 13, Page 2165, 13(16), 2165. https://doi.org/10.3390/W13162165>

Pitman, S. D., Daniels, C. B., & Ely, M. E. (2015). Green infrastructure as life support: Urban nature and climate change. Transactions of the Royal Society of South Australia, 139(1), 97–112. https://doi.org/10.1080/03721426.2015.1035219>

Prokić, M., Savić, S., & Pavić, D. (2019). Pluvial flooding in Urban Areas Across the European Continent. Geographica Pannonica, 23(4), 216–232. https://doi.org/10.5937/gp23-23508>

Purvis, R. A., Id, R. J. W., Hunt, W. F., Lipscomb, B., Narayanaswamy, K., Mcdaniel, A., Lauffer, M. S., & Libes, S. (2018). Evaluating the water quality benefits of a bioswale in Brunswick County, North Carolina (NC), USA. Water. https://doi.org/10.3390/w10020134>

Ramachandra, T. v, Shivamurthy, V., & Aithal, B. H. (2017). Frequent floods in Bangalore: Causes and remedial measures, ENVIS Technical Report 123 (Issue August). https://doi.org/10.13140/RG.2.2.17517.90088>

Ramaiah, M., & Avtar, R. (2019). Urban green spaces and their need in cities of rapidly urbanizing India: A review. Urban Science, 3(3), 94. https://doi.org/10.3390/urbansci3030094>

Ray, K., Pandey, P., Pandey, C., Dimri, A. P., & Kishore, K. (2019). On the recent floods in India. Current Science, 117(2), 204–218. https://doi.org/10.18520/cs/v117/i2/204-218>

Rosenzweig, C., Solecki, W., Romero-Lankao, P., Mehrotra, S., Dhakal, S., Bowman, T., & Ibrahim, S. Al. (2015). ARC3.2 Summary for city leaders. In Urban Climate Change Research Network (Vol. 6, Issue 3). https://doi.org/10.1080/23298758.1994.10685604>

Satterthwaite, D., Huq, S., Pelling, M., Reid, H., & Lankao, P. R. (2007). Adapting to climate change in urban areas. Human Settlments Group, 58(July), 124. https://doi.org/10.1071/AR06192>

Savić, S., Kalfayan, M., & Dolinaj, D. (2020). Precipitation spatial patterns in cities with different urbanisation types: Case study of Novi Sad (Serbia) as a medium-sized city. Geographica Pannonica, 24(2), 88–99. https://doi.org/10.5937/gp24-25202>

Shehayeb, D. (2008). Safety and security in public space. Crime Prevention and Community Safety, January 2008, 107–112.

Sood, A., & Biswas, A. (2021). Conflict between land reclamation and natural channels: case of Greater Mohali region. 10, 539–556. https://doi.org/10.1016/B978-0-12-823895-0.00031-2>

Suppakittpaisarn, P., Larsen, L., & Sullivan, W. C. (2019). Preferences for green infrastructure and green stormwater infrastructure in urban landscapes: Differences between designers and laypeople. Urban Forestry & Urban Greening, 43, 126378. https://doi.org/10.1016/J.UFUG.2019.126378>

Taylor, L., & Hochuli, D. F. (2017). Defining greenspace: Multiple uses across multiple disciplines. Landscape and Urban Planning, 158, 25–38. https://doi.org/10.1016/J.LANDURBPLAN.2016.09.024>

The World Bank. (2019). Integrating green and gray – Creating next generation infrastructure.

Tingsanchali, T. (2012). Urban flood disaster management. Procedia Engineering, 32, 25–37. https://doi.org/10.1016/j.proeng.2012.01.1233>

U.S. Environmental Protection Agency. (2014). The economic benefits of green infrastructure: A case study of Lancaster, PA. February, 16. http://water.epa.gov/infrastructure/greeninfrastructure/index.cfm#tabs-4>

Xiao, Q., Mcpherson, E. G., Ustin, S. L., Grismer, M. E., & Simpson, J. R. (2000). Winter rainfall interception by two mature open-grown trees in Davis , California. 784(August 1998), 763–784.

Zhou, Q. (2014). A review of sustainable urban drainage systems considering the climate change and urbanization impacts. Water (Switzerland), 6(4), 976–992. https://doi.org/10.3390/w6040976>

Published
2022/12/24
Section
Original Research