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Social and Economic Geography. 2021, 6(1), 1-12
DOI: 10.12691/seg-6-1-1
Open AccessArticle

The Impact of Homelessness in Social Vulnerability Assessment: A Case Study of Austin, Texas

M. K. Lasode1, , T. E. Chow1, R. R. Hagelman1, R. D. Blanchard1, O. O. Lasode2 and A. E. Iyanda1

1Department of Geography, Texas State University, San Marcos, USA

2Obafemi Awolowo University, Ile-ife, Nigeria

Pub. Date: December 18, 2020
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Cite this paper:
M. K. Lasode, T. E. Chow, R. R. Hagelman, R. D. Blanchard, O. O. Lasode and A. E. Iyanda. The Impact of Homelessness in Social Vulnerability Assessment: A Case Study of Austin, Texas. Social and Economic Geography. 2021; 6(1):1-12. doi: 10.12691/seg-6-1-1

Abstract

Among existing research on social vulnerability, virtually no studies have considered homelessness as a variable in their vulnerability assessments. This study identified the relevance of homelessness as a key index in social vulnerability assessment to inform the public, policymakers and the broader body of literature of its impacts on shaping vulnerability patterns in cities. In this study, the 2018 Homeless data for Austin was disaggregated from the council district level to block group level using dasymetric mapping in Geographic Information System (GIS). Principal Component Analysis (PCA) was used to group highly correlated demographic and socioeconomic variables into factors, which were normalized and summed to model social vulnerability with homeless index (SOVI_H) and without homeless index (SOVI) for each Austin Blockgroup. The result revealed significant differences in geographic patterns between SOVI_H and SOVI. SOVI_H showed hotspots of vulnerabilities in Downtown and East-Austin neighborhoods, depicting a slight shift of social vulnerability westwards of the city. This finding differs from past results of social vulnerabilities in Austin where it used to be predominant in the East. This study showed that incorporating homelessness in identifying social vulnerability can help researchers and other associated organizations identify the most vulnerable groups when conducting social vulnerability assessments.

Keywords:
social vulnerability homelessness natural hazards dasymetric modeling

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References:

[1]  Cutter, S. L.; Finch, C. “Temporal and spatial changes in social vulnerability to natural hazards”. Proceedings of the National Academy of Sciences 105(7): 2301- 2306. 2008.
 
[2]  Cutter, S. L.; Boruff, B. J.; Shirley, W. L. “Social vulnerability to environmental hazards”. Social science quarterly 84(2): 242-261. 2003.
 
[3]  Dwyer, A.; Zoppou, C.; Nielsen O.; Day, S.; Roberts, S. “Quantifying social vulnerability: a methodology for identifying those at risk to natural hazards”. Geoscience Australia Record 2004/14. 2004.
 
[4]  Blaikie, P.; Cannon, T.; Wisner, B. “At Risk: Natural Hazards, People’s Vulnerability, andDisasters”. (Routledge: London, UK.). 1994.
 
[5]  Esobi IC, Lasode MK and Barriguete MOF. “The Impact of COVID-19 on Healthy Eating Habits.” J Clin NutrHeal (2020): 1; 001-002.
 
[6]  Centers for Disease Control and Prevention, Planning for an Emergency: Strategies for Identifying and Engaging At-Risk Groups. A guidance document for Emergency Managers: First edition. Atlanta (GA): CDC; 2017.
 
[7]  Cutter, S. L.; Emrich, C. T. "Moral hazard, social catastrophe: The changing face of vulnerability along the hurricane coasts." The Annals of the American Academy of Political and Social Science, 604(1): 102-112. 2006.
 
[8]  Ballal, A.; Planning, U.E. “THE CITY IS OUR HOME”. The spatial dimensions of urban homelessness. 2011.
 
[9]  Phelan, J.; Link, B. G.; Moore, R. E.; Stueve, A. “The stigma of homelessness: The impact of the label "homeless" on attitudes toward poor persons”. Social psychology quarterly, 323-337. 1997.
 
[10]  Esobi, I. C., M. K. Lasode, C. I. Anyanwu, E. Degbe, MO Flores Barriguete, M. A. Okorie, D. O. Lasode, and S. Okegbe. “Nutritional Impact of COVID-19 and Its Implications on Atherosclerosis.” World 8, no. 1 (2020): 16-21.
 
[11]  Bolin, R.; Bolton, P. “Race, religion, and ethnicity in disaster recovery”. (Monograph No. 42). Boulder: University of Colorado, Institute of Behavioral Science. 1986.
 
[12]  Fothergill, A.; Peek, L. “Poverty and Disasters in the United States: A Review of Recent Sociological Findings”. Natural Hazards 32: 89-110. 2004.
 
[13]  Peacock, W. G.; Morrow, B. H.; Gladwin, H. “Hurricane Andrew: Ethnicity, Gender and the Sociology of Disasters”. American Journal of Sociology 104(5): 1557-1559. 1997.
 
[14]  Zahran, S.; Brody, S. D.; Peacock, W. G.; Vedlitz, A.; Grover, H. “Social vulnerability and the natural and built environment: a model of flood casualties in Texas”. Disasters, 32(4): 537-560. 2008.
 
[15]  Wu, S. Y.; Yarnal, B.; Fisher, A. “Vulnerability of coastal communities to sea level rise: A case study of Cape May County, New Jersey. USA”. Climate Research, 22(3): 255 270. 2002.
 
[16]  Lasode, M.; Esobi, I.; Anyanwu, C.; Lasode, D. "Assessing Urban Land use Change in New Braunfels, Texas from 2013 to 2020.". 2020.
 
[17]  Gaillard, J. C.; Texier, P. “Religions, natural hazards, and disasters: An introduction”. 40(2): 81-84. 2010.
 
[18]  Busch, A. M., The Perils of Participatory Planning: Space, Race, Environmentalism, and History in “Austin Tomorrow”. Journal of Planning History, 15(2), 87-107. 2016.
 
[19]  Bureau, U.S. Census. "U.S. Census website". United States Census Bureau. Retrieved on November 28, 2020.
 
[20]  Oluwadara, Abimbade, Bello Lukuman Kolapo, and Ikechukwu Collins Esobi. "Designing a Framework for Training Teachers on Mobile Learning in Sub-Sahara Africa." (2020).
 
[21]  Bergstrand, K.; Mayer, B.; Brumback, B.; Zhang, Y. “Assessing the relationship between social vulnerability and community resilience to hazards”. Social indicators research,` 122(2), 391-409. 2015.
 
[22]  Nkwunonwo, U. C., “Assessment of Social Vulnerability for Efficient Management of Urban Pluvial Flooding in the Lagos Metropolis of Nigeria”. J Environ Stud 3, 1-11. 2017.
 
[23]  Schmidtlein, M.C.; Deutsch, R.C.; Piegorsch, W.W.; Cutter, S.L. “A sensitivity analysis of the social vulnerability index. Risk Analysis”. An International Journal, 28(4), 1099-1114. 2008.
 
[24]  Mason, V.; Andrews, H.; Upton, D. “The psychological impact of exposure to floods”. Psychology, health & medicine, 15(1), pp.61-73. 2010.
 
[25]  Li, X.; Zhou, W. “Dasymetric mapping of urban population in China based on radiance corrected DMSP-OLS nighttime light and land cover data”. Science of the total environment 643, 1248-1256. 2018.
 
[26]  Requia, W. J.; Koutrakis, P.; Arain, A. “Modeling spatial distribution of population for environmental epidemiological studies: Comparing the exposure estimates using choropleth versus dasymetric mapping”. Environment international, 119: 152-164. 2018.
 
[27]  Holloway, S.; Schumacher, J.; Redmond, R. “Population and Place: Dasymetric Mapping Using Arc/Info”. Cartographic Design Using ArcView and Arc/Info, Missoula: University of Montana, Wildlife Spatial Analysis Lab. 1997.
 
[28]  Lee, Y.J., “Social vulnerability indicators as a sustainable planning tool”. Environmental Impact Assessment Review, 44, pp.31-42. 2014.
 
[29]  Cutter S. L.; Mitchell, J. T.; Scott, M. S. “Revealing the vulnerability of people and places: A case study of Georgetown County, South Carolina”. Annals of the Association of American Geographers 90: 713-37. 2000.
 
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