References

  1. P.S.K. Knappett, V. Escamilla, A. Layton, L.D. McKay, M. Emch, D.E. Williams, R. Huq, J. Alam, L. Farhana, B.J. Mailloux, A. Ferguson, G.S. Sayler, K.M. Ahmed, A. van Geen, Impact of population and latrines on fecal contamination of ponds in rural Bangladesh, Sci. Total Environ., 409 (2011) 3174–3182.
  2. J.O. Back, M.O. Rivett, L.B. Hinz, N. Mackay, G.J. Wanangwa, O.L. Phiri, C.E. Songola, M.A.S. Thomas, S. Kumwenda, M. Nhlema, A.V.M. Miller, R.M. Kalin, Risk assessment to groundwater of pit latrine rural sanitation policy in developing country settings, Sci. Total Environ., 613–614 (2018) 592–610.
  3. P.M. Nyenje, J.W. Foppen, R. Kulabako, A. Muwanga, S. Uhlenbrook, Nutrient pollution in shallow aquifers underlying pit latrines and domestic solid waste dumps in urban slums, J. Environ. Manage., 122 (2013) 15–24.
  4. M. Ferrante, S.S. Signorelli, S.L. Ferlito, A. Grasso, A. Dimartino, C. Copat, Groundwater-based water wells characterization from Guinea Bissau (Western Africa): A risk evaluation for the local population, Sci. Total Environ., 619–620 (2018) 916–926.
  5. L.S. Beukes, T.L.B. King, S. Schmidt, Assessment of pit latrines in a peri-urban community in KwaZulu-Natal (South Africa) as a source of antibiotic resistant E. coli strains, Int. J. Hyg. Environ. Heal., 220 (2017) 1279–1284.
  6. M. Odagiri, A. Schriewer, M.E. Daniels, S. Wuertz, W.A. Smith, T. Clasen, W.-P. Schmidt, Y. Jin, B. Torondel, P.R. Misra, P. Panigrahi, M.W. Jenkins, Human fecal and pathogen exposure pathways in rural Indian villages and the effect of increased latrine coverage, Water Res., 100 (2016) 232–244.
  7. P. Martínez-Santos, M. Martín-Loeches, N. García-Castro, D. Solera, S. Díaz-Alcaide, E. Montero, J. García-Rincón, A survey of domestic wells and pit latrines in rural settlements of Mali: Implications of on-site sanitation on the quality of water supplies, Int. J. Hyg. Environ. Heal., 220 (2017) 1179–1189.
  8. K. O’Reilly, R. Dhanju, A. Goel, Exploring “The Remote” and “The Rural”: Open defecation and latrine use in Uttarakhand, India, World Dev., 93 (2017) 193–205.
  9. J.V. Garn, G.D. Sclar, M.C. Freeman, G. Penakalapati, K.T. Alexander, P. Brooks, E.A. Rehfuess, S. Boisson, K.O. Medlicott, T.F. Clasen, The impact of sanitation interventions on latrine coverage and latrine use: A systematic review and meta-analysis, Int. J. Hyg. Environ. Heal., 220 (2017) 329–340.
  10. P. Ravenscroft, Z.H. Mahmud, M.S. Islam, A.K.M.Z. Hossain, A. Zahid, G.C. Saha, A.H.M. Zulfiquar Ali, K. Islam, S. Cairncross, J.D. Clemens, M.S. Islam, The public health significance of latrines discharging to groundwater used for drinking, Water Res., 124 (2017) 192–201.
  11. A. Sinha, C.L. Nagel, W.P. Schmidt, B. Torondel, S. Boisson, P. Routray, T.F. Clasen, Assessing patterns and determinants of latrine use in rural settings: A longitudinal study in Odisha, India, Int. J. Hyg. Environ. Heal., 220 (2017) 906–915.
  12. B. Augsburg, P.A. Rodríguez-Lesmes, Sanitation and child health in India, World Dev., 107 (2018) 22–39.
  13. M.W. Jenkins, B. Scott, Behavioral indicators of household decision-making and demand for sanitation and potential gains from social marketing in Ghana, Soc. Sci. Med., 64 (2007) 2427–2442.
  14. D. Coffey, D. Spears, S. Vyas, Switching to sanitation: Understanding latrine adoption in a representative panel of rural Indian households, Soc. Sci. Med., 188 (2017) 41–50.
  15. K.M. Lamichhane, R.W. Babcock, Survey of attitudes and perceptions of urine-diverting toilets and human waste recycling in Hawaii, Sci. Total Environ., 443 (2013) 749–756.
  16. A. Ben Yishay, A. Fraker, R. Guiteras, G. Palloni, N.B. Shah, S. Shirrell, P. Wang, Microcredit and willingness to pay for environmental quality: Evidence from a randomized-controlled trial of finance for sanitation in rural Cambodia, J. Environ. Econ. Manage., 86 (2017) 121–140.
  17. H.B. Shakya, N.A. Christakis, J.H. Fowler, Social network predictors of latrine ownership, Soc. Sci. Med., 125 (2015) 129–138.
  18. C. Acey, J. Kisiangani, P. Ronoh, C. Delaire, E. Makena, G. Norman, D. Levine, R. Khush, R. Peletz, Cross-subsidies for improved sanitation in low income settlements: Assessing the willingness to pay of water utility customers in Kenyan cities, World Dev., 115 (2019) 160–177.
  19. W.F. Vásquez, J. Alicea-Planas, Unbundling household preferences for improved sanitation: A choice experiment from an urban settlement in Nicaragua, J. Environ. Manage., 218 (2018) 477–485.
  20. M.W. Jenkins, V. Curtis, Achieving the ‘good life’: Why some people want latrines in rural Benin, Soc. Sci. Med., 61 (2005) 2446–2459.
  21. J. Novotný, F. Ficek, J.K.W. Hill, A. Kumar, Social determinants of environmental health: A case of sanitation in rural Jharkhand, Sci. Total Environ., 643 (2018) 762–774.
  22. D.-X. Zhao, B.-J. He, C. Johnson, B. Mou, Social problems of green buildings: From the humanistic needs to social acceptance, Ren. Sus. Energy Rev., 51 (2015) 1594–1609.
  23. B. He, J. Zhu, Constructing community gardens? Residents’ attitude and behaviour towards edible landscapes in emerging urban communities of China, Urban For Urban Gree, 34 (2018) 154–165.
  24. H. Fu, Z. Li, Z. Liu, Z. Wang, Research on big data digging of hot topics about recycled water use on micro-blog based on particle swarm optimization, Sustainability-Basel, 10 (2018) 2488.
  25. K. Minamoto, C.G.N. Mascie-Taylor, E. Karim, K. Moji, M. Rahman, Short- and long-term impact of health education in improving water supply, sanitation and knowledge about intestinal helminths in rural Bangladesh, Public Health, 126 (2012) 437–440.
  26. B.-J. He, D.-X. Zhao, J. Zhu, A. Darko, Z.-H. Gou, Promoting and implementing urban sustainability in China: An integration of sustainable initiatives at different urban scales, Habitat Int., 82 (2018) 83–93.
  27. P.M. Poortvliet, L. Sanders, J. Weijma, J.R. De Vries, Acceptance of new sanitation: The role of end-users’ pro-environmental personal norms and risk and benefit perceptions, Water Res., 131 (2018) 90–99.
  28. NBSC, China Population & Employment Statistics Yearbook, China Stastics, Beijing, 2017.
  29. Chinaweather, Shaanxi climate, in, China weather, http://shaanxi.weather.com.cn/sxqh/index.shtml.
  30. IMMB, Climatic characteristics of Inner Mongolia, in, China Meteorological Administrattion, http://www.cma.gov.cn/2011xzt/2017zt/20170804/2017080404/201708/t20170805_445568.html, 2017.
  31. MWR, China Water Resources Bulletin, in, MWR, Beijing, 2017, pp. 4–8.
  32. J.U.S. Yoon, Solar home systems for rural India: Survey evidence on awareness and willingness to pay from Uttar Pradesh, Energy Sustain. Dev., (2015) 9.
  33. NBSSOS, Analysis on the current situation of migrant workers in shaanxi province in 2016 - based on the survey of migrant workers’ “export location”, in, NBS Survey Office in Shaanxi, 2016, pp. http://www.nbs-sosn.cn/index.aspx?menuid=4&type=articleinfo&lanmuid=18&infoid=2289&language=cn.
  34. S. Washington, M. Karlaftis, F. Mannering, Statistical and Econometric Methods for Transportation Data Analysis, 2nd ed., CRC Press/Routledge, United States of America, 2010.
  35. J.C. Anderson, S. Hernandez, E.L. Jessup, E. North, Perceived safe and adequate truck parking: A random parameters binary logit analysis of truck driver opinions in the Pacific Northwest, Int. J. Transport Sci. Tec., 7 (2018) 89–102.
  36. NBSPRC, Survey report on peasant workers‘ monitoring in 2017, in, National Bureau of statistics of the People’s Republic of China, http://www.stats.gov.cn/tjsj/zxfb/201804/t20180427_1596389.html, 2017.
  37. D. Hoyos, P. Mariel, J. Fernández-Macho, The influence of cultural identity on the WTP to protect natural resources: Some empirical evidence, Ecol. Econ., 68 (2009) 2372–2381.
  38. A.K.S. Bakopoulou, Polyzos, Investigation of farmers’ willingness to pay for using recycled water for irrigation in Thessaly region, Greece, Desalination, (2010) 6.
  39. R. Uehleke, The role of question format for the support for national climate change mitigation policies in Germany and the determinants of WTP, Energy Econ., 55 (2016) 148–156.
  40. H. Fu, X. Liu, A study on the impact of environmental education on individuals’ behaviors concerning recycled water reuse, Eurasia J. Math, Sci. Technol. Edu., 13 (2017) 6715–6724.
  41. Z. Peng, L. Zhang, J. Yin, H. Wang, Study of impact factors of willingness to pay regarding water reserve of South-to-North Water Diversion Project in Beijing based on Bayesian network model, J. Clean Prod., 184 (2018) 569–578.
  42. K. Dong, X. Zeng, Public willingness to pay for urban smog mitigation and its determinants: A case study of Beijing, China, Atmos Environ., 173 (2018) 355–363.
  43. T.H. Tuan, N.H.D. My, L.T.Q. Anh, N.V. Toan, Using contingent valuation method to estimate the WTP for mangrove restoration under the context of climate change: A case study of Thi Nai lagoon, Quy Nhon city, Vietnam, Ocean Coast Manage., 95 (2014) 198–212.
  44. X. Yang, L. Cheng, C. Yin, P. Lebailly, H. Azadi, Urban residents’ willingness to pay for corn straw burning ban in Henan, China: Application of payment card, J. Clean Prod., 193 (2018) 471–478.
  45. T. Enriquez-Acevedo, C.M. Botero, R. Cantero-Rodelo, A. Pertuz, A. Suarez, Willingness to pay for Beach Ecosystem Services: The case study of three Colombian beaches, Ocean Coast Manage., 161 (2018) 96–104.
  46. E.G.S.E. Antriyandari, Willingness to pay for climate change mitigation: application on big cities in Central Java, Indonesia, Procedia - Soc Behav. Sci., (2016) 7.
  47. C.L. Prithvi Simha, B. Vinnerås, M. Ganesapillai, Farmer attitudes and perceptions to the re–use of fertiliser products from resource–oriented sanitation systems – The case of Vellore, South India, Sci. Total Environ., 2017 (2017) 12.
  48. J.-L. Combes, M. Hamit-Haggar, S. Schwartz, A multilevel analysis of the determinants of willingness to pay to prevent environmental pollution across countries, Soc. Sci. J., (2018).
  49. H. Fu, X. Liu, Research on the phenomenon of chinese residents’ spiritual contagion for the reuse of recycled water based on SC-IAT, Water-Sui, 9 (2017) 846.
  50. F.J. Amador, R.M. González, F.J. Ramos-Real, Supplier choice and WTP for electricity attributes in an emerging market: The role of perceived past experience, environmental concern and energy saving behavior, Energy Econ., 40 (2013) 953–966.
  51. H.H. Osiolo, Willingness to pay for improved energy: Evidence from Kenya, Renew. Energy, 2017 (2017) 9.
  52. K. Wang, J. Wu, R. Wang, Y. Yang, R. Chen, J.E. Maddock, Y. Lu, Analysis of residents’ willingness to pay to reduce air pollution to improve children’s health in community and hospital settings in Shanghai, China, Sci. Total Environ., 533 (2015) 283–289.
  53. D.P. Dupont, Do children matter? An examination of gender differences in environmental valuation, Ecol. Econ., 49 (2004) 273–286.
  54. S. Shao, Z. Tian, M. Fan, Do the rich have stronger willingness to pay for environmental protection? New evidence from a survey in China, World Dev., 105 (2018) 83–94.
  55. D.H. Tifanny Istamto, Erik Lebret, Willingness to pay to avoid health risks from road-traffic-related air pollution and noise across five countries, Sci. Total Environ., (2014) 10.
  56. M. Kabyanga, B.B. Balana, J. Mugisha, P.N. Walekhwa, J. Smith, K. Glenk, Are smallholder farmers willing to pay for a flexible balloon biogas digester? Evidence from a case study in Uganda, Energy Sustain. Dev., 43 (2018) 123–129.