Abstract
Groundwater pollution seriously threatens water resource safety due to high-intensity land use throughout the world. However, the relationship between groundwater pollution characteristics and land use in alluvial plains is still unclear. In this study, the effects of land use on shallow groundwater quality and human health risk were investigated via two sampling campaigns in a typical alluvial plain, namely, Jianghan Plain, China. Results show that the shallow groundwater in this area was polluted by nitrogen (with average concentrations of 5.12 mg/L in the dry season and 4.46 mg/L in the rainy season) and phosphorus (0.29 and 0.13 mg/L in the two seasons, respectively). The nutrient concentrations during the dry season were significantly higher than those during the rainy season (p < 0.05). Correlation analysis indicated that the concentration of nutrients was significantly positively correlated with cultivated land and negatively correlated with water and residence, suggesting that land use patterns can affect the groundwater quality. The best buffer where land use patterns affect the total N concentration was about 1000 m for cultivated land and water, while the optimal ranges for ammonium N were about 1000 and 2500 m for the areas, respectively. For the total phosphorus, a radius of 2000 m leads to the best fitting effect on both areas. Human health risk assessment showed that the total health risk indexes in about 75% of the samples were higher than 1, indicating the potential risk of the shallow groundwater in this area to human health. The results indicate that land use patterns will greatly affect the shallow groundwater quality. Thus, adjusting the land use pattern can improve the water quality and reduce health risks. Identification and selection of appropriate management solutions for the groundwater protection should be based on not only water quality problems but also surface land use patterns.
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References
Aeschbach-Hertig W, Gleeson T (2012) Regional strategies for the accelerating global problem of groundwater depletion. Nat Geosci 5:853–861
Ahmadi SH, Sedghamiz A (2007) Geostatistical analysis of spatial and temporal variations of groundwater level. Environ Monit Assess 129:277–294
Aklil A, Mouflih M, Sebti S (2004) Removal of heavy metal ions from water by using calcined phosphate as a new adsorbent. J Hazard Mater 112:183–190
Alley WM, Healy RW, LaBaugh JW et al (2002) Flow and storage in groundwater systems. Science 296:1985–1990
APHA (1998) Standard methods for the examination of water and wastewater, 20th edn. American Public Health Association, Washington
Arnaez J, Larrea V, Ortigosa L (2004) Surface runoff and soil erosion on unpaved forest roads from rainfall simulation tests in northeastern Spain. Catena 57:1–14
Baattrup-Pedersen A, Hoffmann CC, Audet J, Andersen HE, Riis T, Larsen SE, Kronvang B (2014) Groundwater nitrogen and the distribution of groundwater-dependent vegetation in riparian areas in agricultural catchments. Ecol Eng 66:111–119
Ban X, Wu Q, Pan B, du Y, Feng Q (2014) Application of composite water quality identification index on the water quality evaluation in spatial and temporal variations: a case study in Honghu Lake, China. Environ Monit Assess 186:4237–4247
Bartelt-Hunt S, Snow DD, Damon-Powell T et al (2011) Occurrence of steroid hormones and antibiotics in shallow groundwater impacted by livestock waste control facilities. J Contam Hydrol 23:94–103
Bawa R, Dwivedi P (2019) Impact of land cover on groundwater quality in the Upper Floridan Aquifer in Florida, United States. Environ Pollut 252:1828–1840
Briand JF, Jacquet S, Bernard C et al (2003) Health hazards for terrestrial vertebrates from toxic cyanobacteria in surface water ecosystems. Vet Res 34:361–377
Chen S, Wu W, Hu K, Li W (2010) The effects of land use change and irrigation water resource on nitrate contamination in shallow groundwater at county scale. Ecol Complex 7:131–138
Cheong JY, Hamm SY, Lee JH, Lee KS, Woo NC (2012) Groundwater nitrate contamination and risk assessment in an agricultural area, South Korea. Environ Earth Sci 66:1127–1136
Conley DJ, Paerl HW, Howarth RW, Boesch DF, Seitzinger SP, Havens KE, Lancelot C, Likens GE (2009) Controlling eutrophication: nitrogen and phosphorus. Science 323:1014–1015
Dai Z, Du J, Zhang X et al (2010) Variation of riverine material loads and environmental consequences on the Changjiang (Yangtze) Estuary in recent decades (1955–2008). Environ Sci Technol 45:223–227
Dieng NM, Orban P, Otten J et al (2017) Temporal changes in groundwater quality of the Saloum coastal aquifer. J Hydrol: Regional Studies 9:163–182
Ding X, Shen Z, Hong Q, Yang Z, Wu X, Liu R (2010) Development and test of the export coefficient model in the upper reach of the Yangtze River. J Hydrol 383:233–244
Doell P, Mueller Schmied H, Schuh C et al (2014) Global-scale assessment of groundwater depletion and related groundwater abstractions: combining hydrological modeling with information from well observations and GRACE satellites. Water Resour Res 50:5698–5720
Du Y, Ma T, Deng Y et al (2017) Sources and fate of high levels of ammonium in surface water and shallow groundwater of the Jianghan Plain, Central China. Environ Sci-Process Impacts 19:161–172
Elouear Z, Bouzid J, Boujelben N, Feki M, Jamoussi F, Montiel A (2008) Heavy metal removal from aqueous solutions by activated phosphate rock. J Hazard Mater 156:412–420
Fang J, Rao S, Zhao S (2005) Human-induced long-term changes in the lakes of the Jianghan Plain, Central Yangtze. Front Ecol Environ 3:186–192
Gallagher TL, Gergel SE (2017) Landscape indicators of groundwater nitrate concentrations: an approach for trans-border aquifer monitoring. Ecosphere 8:e02047
Gao Y, Yu G, Luo C, Zhou P (2012) Groundwater nitrogen pollution and assessment of its health risks: a case study of a typical village in rural-urban continuum, China. PLoS One 7:e33982
Goldberg S (2006) Geochemistry, groundwater and pollution. Vadose Zone J 5:256–270
Helena B, Pardo R, Vega M et al (2000) Temporal evolution of groundwater composition in an alluvial aquifer (Pisuerga River, Spain) by principal component analysis. Water Res 34:807–816
Huang S, Wang Y, Ma T, Tong L, Wang YY, Liu CR, Zhao L (2015) Linking groundwater dissolved organic matter to sedimentary organic matter from a fluvio-lacustrine aquifer at Jianghan Plain, China by EEM-PARAFAC and hydrochemical analyses. Sci Total Environ 529:131–139
Irvine DJ, Cranswick RH, Simmons CT, Shanafield MA, Lautz LK (2015) The effect of streambed heterogeneity on groundwater-surface water exchange fluxes inferred from temperature time series. Water Resour Res 51:198–212
Irvine DJ, Briggs MA, Lautz LK, Gordon RP, McKenzie JM, Cartwright I (2017) Using diurnal temperature signals to infer vertical groundwater-surface water exchange. Groundwater 55:10–26
Jampani M, Huelsmann S, Liedl R, Sonkamble S, Ahmed S, Amerasinghe P (2018) Spatio-temporal distribution and chemical characterization of groundwater quality of a wastewater irrigated system: a case study. Sci Total Environ 636:1089–1098
Jia Y, Xi B, Jiang Y, Guo H, Yang Y, Lian X, Han S (2018) Distribution, formation and human-induced evolution of geogenic contaminated groundwater in China: a review. Sci Total Environ 643:967–993
Jia X, O’Connor D, Hou D et al (2019) Groundwater depletion and contamination: Spatial distribution of groundwater resources sustainability in China. Sci Total Environ 672:551–562
Johnson TD, Belitz K (2009) Assigning land use to supply wells for the statistical characterization of regional groundwater quality: correlating urban land use and VOC occurrence. J Hydrol 370:100–108
Keery J, Binley A, Crook N, Smith JWN (2007) Temporal and spatial variability of groundwater–surface water fluxes: development and application of an analytical method using temperature time series. J Hydrol 336:1–16
Kulabako NR, Nalubega M, Thunvik R (2007) Study of the impact of land use and hydrogeological settings on the shallow groundwater quality in a peri-urban area of Kampala, Uganda. Sci Total Environ 381:180–199
Kurunc A, Ersahin S, Sonmez NK et al (2016) Seasonal changes of spatial variation of some groundwater quality variables in a large irrigated coastal Mediterranean region of Turkey. Sci Total Environ 554:53–63
Lawniczak AE, Zbierska J, Nowak B, Achtenberg K, Grześkowiak A, Kanas K (2016) Impact of agriculture and land use on nitrate contamination in groundwater and running waters in central-west Poland. Environ Monit Assess 188:172
Li PY, Hui Q, Wu JH (2010) Groundwater quality assessment based on improved water quality index in Pengyang County, Ningxia, Northwest China. J Chemother 7:S209–S216
Lowrance R (1992) Groundwater nitrate and denitrification in a coastal plain riparian forest. J Environ Qual 21:401–405
Lu GY, Wong DW (2008) An adaptive inverse-distance weighting spatial interpolation technique. Comput Geosci 34:1044–1055
Ma J, Ding Z, Wei G, Zhao H, Huang T (2009) Sources of water pollution and evolution of water quality in the Wuwei basin of Shiyang river, Northwest China. J Environ Manag 90:1168–1177
Meinikmann K, Hupfer M, Lewandowski J (2015) Phosphorus in groundwater discharge-a potential source for lake eutrophication. J Hydrol 524:214–226
Momot O, Synzynys B (2005) Toxic aluminium and heavy metals in groundwater of middle Russia: health risk assessment. Int J Environ Res Public Health 2:214–218
Morrice JA, Valett HM, Dahm CN et al (1997) Alluvial characteristics, groundwater–surface water exchange and hydrological retention in headwater streams. Hydrol Process 11:253–267
Niu B, Wang H, Loáiciga HA, Hong S, Shao W (2017) Temporal variations of groundwater quality in the Western Jianghan Plain, China. Sci Total Environ 578:542–550
Nolan BT, Hitt KJ, Ruddy BC (2002) Probability of nitrate contamination of recently recharged groundwaters in the Conterminous United States. Environ Sci Technol 36:2138–2145
Pastén-Zapata E, Ledesma-Ruiz R, Harter T et al (2014) Assessment of sources and fate of nitrate in shallow groundwater of an agricultural area by using a multi-tracer approach. Sci Total Environ 470:855–864
Rao VVSG, Rao GT, Surinaidu L et al (2013) Assessment of geochemical processes occurring in groundwaters in the coastal alluvial aquifer. Environ Monit Assess 185:8259–8272
Schaefer MV, Ying SC, Benner SG, Duan Y, Wang Y, Fendorf S (2016) Aquifer arsenic cycling induced by seasonal hydrologic changes within the Yangtze River basin. Environ Sci Technol 50:3521–3529
Smith JWN, Surridge BWJ, Haxton TH, Lerner DN (2009) Pollutant attenuation at the groundwater–surface water interface: a classification scheme and statistical analysis using national-scale nitrate data. J Hydrol 369:392–402
Sophocleous M (2002) Interactions between groundwater and surface water: the state of the science. Hydrogeol J 10:52–67
Su X, Wang H, Zhang Y (2013) Health risk assessment of nitrate contamination in groundwater: a case study of an agricultural area in Northeast China. Water Resour Manag 27:3025–3034
Sun R, Cheng X, Chen L (2018) A precipitation-weighted landscape structure model to predict potential pollution contributions at watershed scales. Landsc Ecol 33:1603–1616
Vidon P, Hill AR (2004) Denitrification and patterns of electron donors and acceptors in eight riparian zones with contrasting hydrogeology. Biogeochemistry 71:259–283
Wang K, Dickinson RE (2012) A review of global terrestrial evapotranspiration: observation, modeling, climatology, and climatic variability. Rev Geophys 50:1–54
Wick K, Heumesser C, Schmid E (2012) Groundwater nitrate contamination: factors and indicators. J Environ Manag 111:178–186
Wongsanit J, Teartisup P, Kerdsueb P, Tharnpoophasiam P, Worakhunpiset S (2015) Contamination of nitrate in groundwater and its potential human health: a case study of lower Mae Klong river basin, Thailand. Environ Sci Pollut Res 22:11504–11512
Wu J, Sun Z (2016) Evaluation of shallow groundwater contamination and associated human health risk in an alluvial plain impacted by agricultural and industrial activities, mid-west China. Expo Health 8:311–329
Yao L, Wang Y, Tong L et al (2015) Seasonal variation of antibiotics concentration in the aquatic environment: a case study at Jianghan Plain, central China. Sci Total Environ 527:56–64
Zhang Y, Ma R, Li Z (2014) Human health risk assessment of groundwater in Hetao Plain (Inner Mongolia Autonomous Region, China). Environ Monit Assess 186:4669–4684
Zhang T, Ban X, Wang XL, Cai X, Li E, Wang Z, Yang C, Zhang Q, Lu X (2017) Analysis of nutrient transport and ecological response in Honghu Lake, China by using a mathematical model. Sci Total Environ 575:418–428
Zhou Y, Wang Y, Li Y, Zwahlen F, Boillat J (2013) Hydrogeochemical characteristics of central Jianghan Plain, China. Environ Earth Sci 68:765–778
Zhu B, Wang T, You X et al (2008) Nutrient release from weathering of purplish rocks in the Sichuan Basin. China Pedosphere 18:257–264
Zhu B, Wang T, Kuang F, Luo Z, Tang J, Xu T (2009) Measurements of nitrate leaching from a hillslope cropland in the Central Sichuan Basin, China. Soil Sci Soc Am J 73:1419–1426
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This work was supported by the National Natural Science Foundation of China (NSFC: 41601545; 41571202; 41671512) and Youth Innovation Promotion Association, Chinese of Academy of Sciences (2018369).
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Liu, X., Wang, X., Zhang, L. et al. Impact of land use on shallow groundwater quality characteristics associated with human health risks in a typical agricultural area in Central China. Environ Sci Pollut Res 28, 1712–1724 (2021). https://doi.org/10.1007/s11356-020-10492-x
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DOI: https://doi.org/10.1007/s11356-020-10492-x