Uma Comparison of overexploitation of Bauru Aquifer in the years 2002 and 2012

Authors

DOI:

https://doi.org/10.33448/rsd-v9i10.9176

Keywords:

Urbanization; Subterranean water; Geostatistics.

Abstract

The urbanization process, in addition to transforming the characteristics of the natural landscape and promoting impacts on the environment, directly interferes with soil parameters, especially hydrological ones, such as waterproofing, reducing the conditions of infiltration and recharge of underground water sources. Excessive exploitation of groundwater already poses risks to public supply in some Brazilian municipalities, requiring the implementation of appropriate management methods to ensure the sustainable use of this water resource. This work aimed to identify the lowering of the potentiometric level in the period from 2002 to 2012 of an area of ​​227 km² of the Bauru Aquifer located in the central region of the Municipality of São José do Rio Preto - SP. For this, data were collected from 625 wells in the SIAGAS (Groundwater Information System) and in the DAEE (Department of Water and Electricity) in Araraquara. To analyze the data, a geostatistical analysis was performed using the Surfer software. There was a decrease of 0.47 m year-1 in the potentiometric level of the study area, due, among other factors, to an intense increase in well drilling.

References

Ahmadi, S. H., Sedghamiz, A (2007). Geostatistical analysis of spatial and temporal variations of groundwater level. Environ Monit Assess, 129(1), 277-294.

Belmonte, A. C., et al (1999). GIS tools applied tothe sustainable management of water resources: application to the aquifer system 08-29. Agricultural Water Management, 40(1), 207-220.

Berrittella, M., et al. (2007) The economic impact of restricted water supply: a computable general equilibrium analysis. Water research, 1(41), 1799-1813.

Bromley, J., et al. (2001) Problems of sustainable groundwater management in an area of over-exploitation: The Upper Guadiana Catchment, Central Spain. Water Resources Development, 17(3), 379-396.

Bui, D. D., et. al. (2012) Spatio-temporal analysis of recent groundwater-level trends in the Red River Delta, Vietnam. Hydrogeology Journal, 1(20), 1635-1650.

Fao, C. D. R. (2003) Groundwater management the search for practical approaches. Rome: Natural Resources Management and Environment Department, 55 p.

Foster, S., Lawrence, A., Morris, B. (1999) Groundwater in urban development: assessing management needs and formulating policy strategies. The World Bank: Washington, 74 p.

Gonçalves, J. A. C., et. al. (2019) Disponibilidade de águas superficiais e subterrâneas na bacia do Rio do peixe – ItabiraMG. Research, Society and Development, 8(12), 1-17.

Gupta, A., Babel, M. S. (2005) Challenges for sustainable management of groundwater use in Bangkok, Thailand. Water Resources Development, 21(3), 453-464.

Hirata, R., Ucci, M. S., Wahnfried, I., & Viviani-Lima, J. B. (2012). Explotação do Sistema Aquífero Guarani em Araraquara. Geologia USP. Série Científica, 12(2), 115-127.

Hoque, M. A., Hoque, M. M., Ahmed, K. M. (2007) Declining groundwater level and aquifer dewatering in Dhaka metropolitan area, Bangladesh: causes and quantification. Hydrogeology Journal, 1(15), 1523-1534.

IBGE (2010) – Instituto Brasileiro de Geografia e Estatística: <http://www.ibge.go v.br/home/estatistica/populacao/censo2010/default_uf.shtm>. Censo demográfico.

Iritani, M. A., Ezaki, S. (2008) As águas subterrâneas do Estado de São Paulo. São Paulo: SMA 104 p.

Iritani, M. A., et al. (2011) Projeto ambiental estratégico aquíferos: síntese das atividades período 2007/2010. São Paulo: Instituto Geológico, 134 p.

Lollo, J. A. (2016). A influência do uso e ocupação do solo na qualidade da água. Gestão E Qualidade Dos Recursos Hídricos, 20.

Lopes, A. P. (2019). Floricultura e apropriação de recursos hídricos: uma análise da utilização das águas subterrâneas para a produção de flores em Holambra-SP. Holos Environment, 19(3), 424-440.

Molina, J. L., et al. (2009) Aquifers overexploitation in SE Spain: A proposal for the integrated analysis of water management. Water Resources Management, 1(23), 2737-2760.

Oliveira, J. N. (2002) Ferramental de gestão de águas subterrâneas para a cidade de São José do Rio Preto, SP. 127 f. Tese (Doutorado em Hidráulica e Saneamento) – Universidade de São Paulo, São Carlos.

Penner, G. C., Martins, R. T. A. A., Gonçalves, M. M. (2020) Estudo comparativo de métodos de recarga natural do aquífero livre em uma microbacia hidrográfica. Research, Society and Development, 9(9), 1-15.

Ramos, C. A., & Vieira, R. (2018). Análise da Legislação de Uso e Ocupação do Solo Referente à Gestão do Aquífero Guarani no Município de Ribeirão Preto–São Paulo. Águas Subterrâneas.

Rocha, G. A. (Coord.) (2005) Mapa de águas subterrâneas do Estado de São Paulo. São Paulo: Conselho Estadual de Recursos Hídricos. Escala 1: 1.000.000.

Rocha, G. S., Pinheiro, A. V. R., Costa, C. E. A. S. (2020) Gestão dos Recursos Hídricos no Município de Parauapebas (PA): Avaliação dos Usos, Alteração dos Cenários e Possíveis Impactos. Research, Society and Development, 9(4), 1-15.

Santin, J. R., & Goellner, E. (2013). A Gestão dos Recursos Hídricos e a Cobrança pelo seu Uso. Sequência (Florianópolis), (67), 199-221.

SEADE – Fundação Sistema Estadual de Análise de Dados. Recuperado de <http://www.seade.gov.br/>. Acesso em: 6 fev. 2012.

Shamsudduha, M. et al. (2009) Recent trends in groundwater levels in a highly seasonal hydrological system: the Ganges-Brahmaputra-Meghna Delta. Hydrol. Earth Syst. Sci., 1(13), 2373-2385.

Ta’any, R. A., Tahboub, A. B., Saffarini, G. A. (2009) Geostatistical analysis of spatiotemporal variability of groundwater level fluctuations in Amman-Zarqa basin, Jordan: a case study. Environ Geol, 1(57), 525-535.

Todd, D. K., Mays, L. W. (2005) Groundwater Hydrology. (3a ed.) Hoboken: John Wiley & Sons, Inc., 2005. 636 p.

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Published

21/10/2020

How to Cite

LOURENCETTI, J.; FELIZARDO, L. M. .; AMORIM FARIA, G. .; MARCONATO PRATES, M.; OLIVEIRA, J. N. de . Uma Comparison of overexploitation of Bauru Aquifer in the years 2002 and 2012. Research, Society and Development, [S. l.], v. 9, n. 10, p. e8479109176, 2020. DOI: 10.33448/rsd-v9i10.9176. Disponível em: https://www.rsdjournal.org/index.php/rsd/article/view/9176. Acesso em: 25 apr. 2024.

Issue

Vol. 9 No. 10

Section

Engineerings

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Copyright (c) 2020 Josiane Lourencetti; Lucas Menezes Felizardo; Glaucia Amorim Faria; Marcelo Marconato Prates; Jefferson Nascimento de Oliveira

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