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Evaluation of urban ecological sustainability in arid lands (case study: Yazd-Iran)

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Nowadays, the world is facing rapid urbanization and increasing desertification. Therefore, urban planning in these regions should be based on comprehensive understanding of the constraints and vulnerabilities of arid lands. In this study, the sustainability condition of a rapidly growing city in a dry landscape, Yazd, Iran, was assessed using a previously developed framework. The framework is based on the conceptual principle of close relations between structure and function and is comprised of three main components and 16 metrics. By evaluating the status and trends of these metrics, and using the analytical hierarchy process method, the score of Yazd sustainability was determined as 0.28 out of 1.0, indicating the city is far from a state of sustainability. Current urban development policies in this region exacerbate unstable conditions. Given the constraints on achieving urban sustainability in arid regions, physical urban development should be aligned with local ecological potential. In the process of urban growth, local knowledge and ecological values in these areas must be protected. Applying this sustainability assessment process in other dryland cities will improve this evaluative framework and help achieve rational principles for sustainable urban development strategies in arid lands.

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Source Yazd Department of Environment

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  1. Achilleosa, S., Al-Ozairic, E., Alahmad, B., Garshick, E., Neophytou, A. M., Bouhamrai, W., et al. (2019). Acute effects of air pollution on mortality: A 17-year analysis in Kuwait. Environment International,126, 476–483.

  2. Akbari, M., Ownegh, M., Asgari, H., Sadoddin, A., & Khosravi, H. (2016). Drought monitoring based on the SPI and RDI indices under climate change scenarios (case study: Semi-arid areas of West Golestan Province). Ecopersia,4, 1585–1602.

  3. Alberti, M. (2005). The effects of urban pattern on ecosystem function. Integration Regional Science Review,28, 168–190.

  4. Alberti, M., & Marzluff, J. (2004). Ecological resilience in urban ecosystems linking urban patterns to human and ecological functions. Urban Ecosystems,7(3), 241–265.

  5. Alberti, M., Marzluff, J. M., Shulenberger, E., Gordon, B., Ryan, C., & Zumbrunnen, C. (2003). Integrating humans into ecology: Opportunities and challenges for studying urban ecosystems. BioScience,53(12), 1169–1179.

  6. Archsmith, J., Heyes, A., & Saberian, S. (2018). Air quality and error quantity: Pollution and performance in a high-skilled, quality-focused occupation. Journal of the Association of Environmental and Resource Economists,5, 827–863.

  7. Arid Land and Desert Research Institute, Y. U. (2016). Studying and identification of the sources of dust in Yazd Province. Yazd: Department of Environment.

  8. Arnold, C. L., & Gibbons, J. C. (1996). Impervious surface coverage: The emergence of a key environmental indicator. Journal of the American Planning Association,62, 243.

  9. Baker, L. A., Brazel, A. T., & Westerhoff, P. (2004). Environmental consequences of rapid urbanization in warm, arid lands: Case study of Phoenix, Arizona (USA). In C. Marchettini, A. Brebbia, E. Tiezzi, & L. C. Wadh (Eds.), The sustainable city III, urban regeneration (pp. 155–164). Boston: WIT Press.

  10. Beatley, T. (2010). Biophilic cities: Integrating nature into urban design and planning (2nd None ed. edition ed.). Washington, D.C: Island Press.

  11. Beatley, T., & Peter, N. (2013). Biophilic cities are sustainable, resilient cities. Sustainability,5, 3328–3345.

  12. Boustani, F. (2008). Sustainable water utilization in arid region of Iran by Qanats. Proceedings of the World Academy of Science, Engineering and Technology,33, 213–216.

  13. Burkhardt, J., Bayham, J., Wilson, A., Carter, E., Berman, J. D., O’Dell, K., et al. (2019). The effect of pollution on crime: Evidence from data on particulate matter and ozone. Journal of Environmental Economics and Management,98, 102267.

  14. Chen, Y. H. (2004). Analysis on advantages and disadvantages of large scale, long distance and transbasin diversion. Water Resource and Protection,59(2), 48–50.

  15. Dadvand, P., Bartoll, X., Basagaña, X., Dalmau-Bueno, A., Martinez, D., Ambros, A., et al. (2016). Green spaces and general health: roles of mental health status, social support, and physical activity. Environment International,91, 161–167.

  16. Decuyper, M., Chávez, R. O., Copini, P., & Sass, K. (2016). A multi-scale approach toassess the effect of groundwater extraction on Prosopis tamarugo in the Atacama Desert. Arid Environment,131, 25–34.

  17. Department of Environment, D. o. E._Yazd. (2018). Report of the number of days of Yazd air quality in 20152018. Yazd: Department of Environment-Yazd. https://yazd.doe.ir/Portal/Home/Default.aspx.

  18. Flores, A., Pickett, S., Zipperer, W., Pouyat, R., & Piranid, R. (1998). Adopting a modern ecological view of the metropolitan landscape: The case of a greenspace system for the New York City region. Landscape and Urban Planning,39, 295–308.

  19. Forman, R. T. (1995). Land mosaics: The ecology of landscapes and regions. Cambridge: Cambridge University Press.

  20. Gidlow, C. J., Jones, M. V., Hurst, G., Masterson, D., Clark-Carter, D., Tarvainen, M. P., et al. (2016). Where to put your best foot forward:psychophysiological responses to walking in natural and urban environments. Journal of Environmental Psychology,45, 22–29.

  21. Grimm, N. B., Grove, J. G., Pickett, S. T., & Redman, C. L. (2000). Integrated approaches to long-term studies of urban ecological systems. BioScience,50(7), 571–584.

  22. Hammon 1 Consultant Company. (2016). Landuse planning—Yazd province—Natural resources and environment. Yazd: Yazd Management and Planning Organization.

  23. Hartig, T., Mitchell, R., de Vries, S., & Frumkin, H. (2014). Nature and health. Annual Review of Public Health,35, 207–228.

  24. Hassan, A. G., Fullen, M. A., & Oloke, D. (2019). Problems of drought and its management in Yobe State, Nigeria. Weather and Climate Extremes,23, 100192.

  25. Hiremath, R. B., Balachandra, P., Kumar, B., Bansode, S. S., & Murali, J. (2013). Indicator-based urban sustainability—A review. Energy for Sustainable Development,17, 555–563.

  26. Hyewon, L., Kim, H., Yasushi, H., Youn-Hee, L., & Seungmuk, Y. (2013). Effect of Asian dust storms on daily mortality in seven metropolitan cities of Korea. Atmospheric Environment,79, 510–517.

  27. IPCC, & IPCC. (2014). Climate change 2014. Impacts, adaptation, and vulnerability. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge: Cambridge University Press.

  28. Kremer, P., Haase, A., & Haasec, D. (2019). The future of urban sustainability: Smart, efficient, green or just? Introduction to the special issue. Sustainable Cities and Society,51, 101761.

  29. Krutmann, J., Morita, A., & Chung, J. H. (2012). Sun exposure: What molecular photodermatology tells us about its good and bad sides. Journal of Investigative Dermatology,132, 976–984.

  30. Lictevout, E., & Faysse, N. (2018). A doubly invisible aquifer: Hydrogeological studies and actors strategies in the pampa del Tamarugal aquifer, northern Chile. Water Alternatives (WaA),11, 592–606.

  31. Liu, J. G., Zang, C. F., Tian, S. Y., Yang, H., Jia, S. F., You, L. Z., et al. (2013). Water conservancy projects in China: Achievements, chalenges and way forward. Global Environmental Change,23, 633–643.

  32. Liu, T., Zhang, Y. H., Xu, Y. J., Lin, H. L., & Xu, X. J. (2014). The effects of dust haze on mortality are modified by seasons and individual characteristics in Guangzhou, China. Environmental Pollution,187, 116–123.

  33. Lundy, L., & Wade, R. (2011). Integrating sciences to sustain urban ecosystem services. Progress in Physical Geography,35, 653–669.

  34. Mac-Mary, S., Sainthillier, J. M., Jeudy, A., Sladen, C., Williams, C., & Bell, M. (2010). Assessment of cumulative exposure to UVA through the study of asymmetrical facial skin aging. Clinical Interventions in Aging,5, 277–284.

  35. Massuel, S., & Riaux, J. (2017). Groundwater overexploitation: Why is the red flag waved? Case study on the Kairouan plain aquifer (central Tunisia). Hydrogeol,25, 1607–1620.

  36. McCabe, S., Joldersma, T., & Li, C. (2010). Understanding the benefits of social tourism: Linking participation to subjective well-being and quality of life. International Journal of Tourism Research,12, 761–773.

  37. McGarigal, K., Cushman, S. A., & Ene, E. (2012). FRAGSTATS v4: Spatial Pattern Analysis Program for Categorical and Continuous Maps. Computer software program produced by the authors at the University of Massachusetts, Amherst. Retrieved from https://www.umass.edu/landeco/research/fragstats/fragstats.html. Accessed 6 Feb 2019.

  38. Ministry of Roads and Urban Development. (2018). Report of master plan of Yazd. Yazd: Ministry of Roads and Urban Development.

  39. O’Loingsigh, T., McTainsh, G. H., Tews, E. K., Strong, C. L., Leys, J. F., Shinkfield, P., et al. (2014). The Dust Storm Index (DSI): A method for monitoring broadscale wind erosion using meteorological records. Aeolian Research,12, 29–40.

  40. Parsonsa, D. J., Reyb, D., Tanguyc, M., & Holmanb, I. P. (2019). Regional variations in the link between drought indices and reported agricultural impacts of drought. Agricultural Systems,173, 119–129.

  41. Pataki, D. E., Carreiro, M. M., Cherrier, J., Grulke, N. E., Jennings, V., & Pinceti, S. (2011). Coupling biogeochemical cycles in urban environments: Ecosystem services, green solutions, and misconceptions. Frontiers in Ecology and the Environment,9, 27–36.

  42. Phillis, Y. A., Kouikoglou, V. S., & Verdugo, C. (2017). Urban sustainability assessment and ranking of cities. Computers, Environment and Urban Systems,64, 254–265.

  43. Pickett, S., Cadenasso, M. L., Grove, J. M., Nilon, C. H., Pouyat, R. V., Zipperer, W. C., et al. (2001). Urban ecological systems linking terrestrial ecological physica and socioeconomic components. Annual Review of Ecology and Systematics,32, 127–157.

  44. Pozdnyakov, D. V., Korosov, A. A., Petrova, N. A., & Grassle, H. (2013). Multi-year satellite observations of Lake Ladoga’s biogeochemical dynamics in relation to the lake’s trophic status. Journal of Great Lakes Research,39, 34–45.

  45. Querola, X., Tobíasa, A., Péreza, N., Karanasiou, A., Amatoa, F., Stafoggiab, M., et al. (2019). Monitoring the impact of desert dust outbreaks for air quality for health studies. Environment International,130, 104867.

  46. Raed Fawzi, M. A., & Monjur, M. (2018). Urban sustainability assessment framework development: The ranking and weighting of Iraqi indicators using analytic hierarchy process (AHP). Sustainable Cities and Society,44, 356–366.

  47. Regional Water Company of Yazd. (2018). Regional water company of Yazd-census and information. Retrieved from http://www.yzrw.ir/SC.php?type=static&id=21. Accessed 8 May 2019.

  48. Roberts, S. M., Oke, T. R., Grimmond, C. S., & Voogt, J. A. (2006). Comparison of four methods to estimate urban heat storage. Journal of Applied Meteorology and Climatology,45(12), 1766–1781.

  49. Saati, T. L. (1990). How to make a decision: The analytic hierarchy process. European Journal of Operational Research,48(1), 9–26.

  50. Saaty, T. L. (1980). The analytic hierarchy process. New York: McGraw-Hill.

  51. Shanahan, D. F., Fuller, R. A., Bush, R., Lin, B. B., & Gaston, K. J. (2015). The health benefits of urban nature: How much do we need. BioScience,65(5), 476–485.

  52. Sible, E., Cooper, A., Malkia, K., Bruder, K., Watkins, S. C., Fofanov, Y., et al. (2015). Survey of viral populations within Lake Michigan nearshore waters at four Chicago area beaches. Data in Brief,5, 9–12.

  53. Statistical center of Iran. (2016). Census of population and housing-Yazd. https://www.amar.org.ir/. Accessed 9 Feb 2018.

  54. Taha, H. (1995). Urban climates and heat islands: Albedo, evapotranspiration, and anthropogenic heat. Energy and Buildings,25(2), 99–103.

  55. Tratalos, J., Fuller, R. A., Warren, P. H., Davies, R. G., & Gaston, K. J. (2007). Urban form, biodiversity potential and ecosystem servises. Landscape and Urban Planning,83, 308–317.

  56. UN-Habitat. (2015). The city prosperity initiative: Global city report. UN-Habitat. https://cpi.unhabitat.org/sites/default/files/resources/CPI_2015%20Global%20City%20Report._0.pdf. Accessed 8 Feb 2019.

  57. United Nations. (2019). (UN) Retrieved from https://www.un.org/en/events/desertification_decade/whynow.shtml. Accessed 16 May 2019.

  58. U.S. Geological Survey. (2019). Earth explorer-home. Retrieved from https://earthexplorer.usgs.gov/.Accessed 2 Aug 2019.

  59. Vicente-Serrano, S. M., Beguería, S., Gimeno, L., Eklundh, L., Giuliani, G., Weston, D., et al. (2012). Challenges for drought mitigation in Africa: The potential use of geospatial data and drought information systems. Applied Geography,34, 471–486.

  60. Viguiera, B., Jourdec, H., Leonardic, V., Danielea, L., Batiot-Guilhec, C., Favreauc, G., et al. (2019). Water table variations in the hyperarid Atacama Desert: Role of the increasing groundwater extraction in the pampa del tamarugal (Northern Chile). Journal of Arid Environments,168, 9–16.

  61. Wai, K.-M., Yu, P. K., & Chan, P.-M. (2017). Urban UV environment in a sub-tropical megacity—A measurement and modelling study. Results in Physics,7, 2705–2710.

  62. Wen, Z. (2016). Eco-environmental impact of inter-basin water transfer projects: A review. Environmental Science and Pollution Research,23, 12867–12879.

  63. White, M. P., Alcock, I., Grelier, J., Wheeler, B. W., Hartig, T., Warber, S. L., et al. (2019). Spending at least 120 minutes a week in nature is associated with good health and wellbeing. Scientific Reports,9, 7730.

  64. Wilhite, D. A., Sivakumar, M. V., & Pulwarty, R. (2014). Managing drought risk in a changing climate: The role of national drought policy. Weather and Climate Extremes,3, 4–13.

  65. World Health Organization (WHO). (2019). Ultraviolet radiation (UV). Retrieved from: https://www.who.int/uv/intersunprogramme/activities/uv_index/en/. Accessed 8 Oct 2019.

  66. Wu, J. G. (2013). Landscape sustainability science: Ecosystem services and human well-being in changing landscapes. Landscape Ecology,28, 999–1023.

  67. Wu, J. (2014). Urban ecology and sustainability: The state-of-the-science and future directions. Landscape and Urban Planning,125, 209–221.

  68. Wu, J. G., Jenerette, G. D., Buyantuyev, A., & Redman, C. (2011). Quantifying spatio temporal patterns of urbanization: The case of the two fastest growing metropolitan regions in the United States. Ecological Complexity,8, 1–8.

  69. Wu, J. G., & Wu, T. (2013). Ecological resilience as a foundation for urban design and sustainability. In S. T. Pickett, M. L. Cadenasso, & B. P. McGrath (Eds.), Resilience in urban ecology and design: Linking theory and practice for sustainable cities. New York: Springer.

  70. Xiao, Q., McPherson, E. G., Simpson, J. R., & Ustin, S. L. (2007). Hydrologic processes at the urban residential scale. Hydrological Processes,21(16), 2174–2188.

  71. Yan, L., Duarte, F., Wang, D., Zheng, S., & Ratti, C. (2019). Exploring the effect of air pollution on social activity in China using geotagged social media check-in data. Cities,91, 116–125.

  72. Young, R. F. (2010). Managing municipal green space for ecosystem services. Urban Forestry and Urban Greening,9, 313–321.

  73. Zhang, H., Cheng, J., Wu, Z., Li, C., Qin, J., & Liu, T. (2018). Effects of impervious surface on the spatial distribution of urban waterlogging risk spots at multiple scales in Guangzhou, South China. Sustainability,10, 1589.

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Correspondence to Parastoo Parivar.

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Parivar, P., Quanrud, D., Sotoudeh, A. et al. Evaluation of urban ecological sustainability in arid lands (case study: Yazd-Iran). Environ Dev Sustain (2020). https://doi.org/10.1007/s10668-020-00637-w

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  • Arid lands
  • Urban biophysical structure
  • Urban ecosystem dynamic
  • Citizens’ security and satisfaction