Usoda skrb vzbujajočih onesnaževal v jezerih, nastalih v vrtačah, Florida, ZDA
DOI:
https://doi.org/10.3986/ac.v49i2-3.8007Ključne besede:
jezero v vrtači, skrb vzbujajoča onesnaževala, Florida, krasPovzetek
Zakrasele karbonatne platforme, kot je Florida, zaznamujejo hitra stopnja infiltracije, visoka prepustnost podlage in neposredna povezava z vodonosniki prek številnih vrtač. Kombinacija teh fizikalnih lastnosti prispeva k visoki občutljivosti podtalnice in vodonosnikov na kontaminacijo s skrb vzbujajočimi sintetičnimi kemikalijami. Uporaba greznic spodbuja vnos teh onesnaževal v okolje. Da bi proučili vpliv kemikalij na kraško pokrajino, so bili vzorci vode, sedimenta in vegetacije odvzeti v jezeru, nastalem v vrtači in obdanem s stanovanji, ki so opremljena z greznicami. Glavno vprašanje tega raziskovalnega projekta je, kaj se dogaja z onesnaževali iz grezničnih odplak v vodnem zajetju vrtače. Za analizo vzorcev je bila izvedena masna spektrometrija s tekočinsko kromatografijo. Ugotovljeno je bilo, da je sorazmerna količina kemikalij odvisna od 1) hidrofobnosti in polarnosti spojine, 2) mesta vzorčenja, 3) topografskega gradienta in 4) za vegetacijo, povezanosti vrste vzorca s sedimentom. Hidrogeološke študije so pokazale, da so vrtače na tem območju povezane z vodonosnikom, ki je pod njimi. Posledično skrb vzbujajoča onesnaževala predstavljajo tveganje za onesnaženje podtalnice. Ta študija je prikaz razmer v sušni sezoni Floride, to je najverjetneje obdobje z najmanjšo kontaminacijo. Vzorčenje bi bilo treba opraviti v tudi deževnem obdobju, ko izpiranje onesnaževal iz greznic lahko poveča koncentracije onesnaževal, tako v jezeru kot v vodonosnikih, kar je posebno problematično zaradi uporabnosti vode iz vodnjaka v prehranske namene. Čeprav je bila študija izvedena na Floridi, verjamemo, da so naše ugotovitve in priporočila splošno uporabni, saj se greznice uporabljajo v številnih kraških predelih sveta.
Prenosi
Literatura
Anumol, T., Merel, S. & Snyder, S., n.d.: High Sensitivity HPLC Analysis of Contaminants of Emerging Concern (CECs) in Water Using the Agilent 6460 Triple Quadrupole LC/MS System.
Aubertheau, E., Stalder, T., Mondamert, L., Ploy, M.-C., Dagot, C. & Labanowski, J., 2016: Impact of wastewater treatment plant discharge on the contamination of river biofilms by pharmaceuticals and antibiotic resistance - Science of The Total Environment, 579, 1387–1398.
Batley, G. E. & Simpson, S. L., 2016: Sediment sampling, sample preparation and general analysis. In Sediment quality assessment: a practical guide, 15-46. CSIRO.
Blair, B. D., Crago, J. P., Hedman, C. J., Treguer, R. J. F., Magruder, C., Royer, L. S. & Klaper, R. D., 2013: Evaluation of a model for the removal of pharmaceuticals, personal care products, and hormones from wastewater - Science of the Total Environment, 444, 515–521.
Bloomfield, J. P., Williams, R. J., Gooddy, D. C., Cape, J. N. & Guha, P., 2006: Impacts of climate change on the fate and behaviour of pesticides in surface and groundwater—a UK perspective - Science of the Total Environment, 369, 163–177.
Carrara, C., Ptacek, C. J., Robertson, W. D., Blowes, W., Moncur, M. C. & Backus, S., 2008: Fate of Pharmaceutical and Trace Organic Compounds in Three Septic System Plumes, Ontario, Canada - Environmental Science & Technology, 42(8), 2805–2811.
Chen, F., Yao, Q., & Zhou, X., 2015: The Influence of Suspended Solids on the Combined Toxicity of Galaxolide and Lead to Daphnia magna - Bulletin of Environmental Contamination & Toxicology, 95(1), 73–79.
Conn, K. E., Lowe, K. S., Drewes, J. E., Hoppe-Jones, C. & Tucholke, M. B., 2010: Occurrence of pharmaceuticals and consumer product chemicals in raw wastewater and septic tank effluent from single-family homes - Environmental Engineering Science, 27(4), 347-356.
Dalrymple, O. K., 2005: Experimental determination of the octanol-water partition coefficient for acetophenone and atrazine - Physical & Chemical Principles of Environmental Engineering, 6933-05.
Del Rosario, K. L., Mitra, S., Humphrey, C. P. & O’Driscoll, M. A., 2014: Detection of pharmaceuticals and other personal care products in groundwater beneath and adjacent to onsite wastewater treatment systems in a coastal plain shallow aquifer - Science of the Total Environment, 487(1), 216–223.
DiNardo, J. C. & Downs, C. A., 2018: Dermatological and environmental toxicological impact of the sunscreen ingredient oxybenzone/benzophenone-3 - Journal of Cosmetic Dermatology, 17(1), 15-19.
Dodgen, L.K., Kelly, W.R., Panno, S.V., Taylor, S.J., Armstrong, D.L., Wiles, K.N., Zhang, Y. & Zheng, W., 2017: Characterizing pharmaceutical, personal care product, and hormone contamination in a karst aquifer of southwestern Illinois, USA, using water quality and stream flow parameters - Science of the Total Environment, 578, 281-289.
Dodgen, L. K. & Zheng, W., 2016: Effects of reclaimed water matrix on fate of pharmaceuticals and personal care products in soil - Chemosphere, 156, 286–293.
Ebele, A. J., Abou-Elwafa Abdallah, M. & Harrad, S., 2017: Pharmaceuticals and personal care products (PPCPs) in the freshwater aquatic environment - Emerging Contaminants, 3(1), 1-16.
Ebrahimi, P., Spooner, J., Weinberg, N. & Plettner, E., 2013: Partition, sorption and structure activity relation study of dialkoxybenzenes that modulate insect behavior - Chemosphere, 93(1), 54–60.
Fairbairn, D.J., Karpuzcu, M.E., Arnold, W.A., Barber, B.L., Kaufenberg, E.F., Koskinen, W.C., Novak, P.J., Rice, P.J. & Swackhamer, D.L., 2015: Sediment–water distribution of contaminants of emerging concern in a mixed use watershed - Science of the Total Environment, 505, 896-904.
Ferrer, I., Thurman, E. M. & Zweigenbaum, J., n.d.: Ultrasensitive EPA Method 1694 with the Agilent 6460 LC/MS/MS with Jet Stream Technology for Pharmaceuticals and Personal Care Products in Water.
Godfrey, E., Woessner, W. W. & Benotti, M. J., 2007: Pharmaceuticals in on‐site sewage effluent and ground water, western Montana - Groundwater, 45(3), 263-271.
Google Maps (2019) Study Area in Riverview Florida located at 27°50'09.5"N 82°16'46.4"W. Retrieved from https://www.google.com/maps/@27.8351735,-82.2785955,626m/data=!3m1!1e3
Goswami, L., Vinoth Kumar, R., Borah, S. N., Arul Manikandan, N., Pakshirajan, K. & Pugazhenthi, G., 2018: Membrane bioreactor and integrated membrane bioreactor systems for micropollutant removal from wastewater: A review - Journal of Water Process Engineering, 26, 314–328.
Groshart, C. P., Okkeman, P. C. & Pijnenburg, A. M. C. M., 2001: Chemical study on bisphenol A. Rapportnr.: 2001.027.
Gutiérrez, F., Parise, M., De Waele, J. & Jourde, H., 2014: A review on natural and human-induced geohazards and impacts in karst - Earth-Science Reviews. 138, 61-88
Haber, J. D. & Mayfield, G., 2003: Sinkhole Formation at Lake Grady, Florida. In Karst Studies in West Central Florida: USF Seminar in Karst Environments (pp. 53-64). Tampa, FL: The University of South Florida and the Southwest Florida Water Management District.
Hansch, C., Leo, A. & Hoekman, D. H., 1995: Exploring QSAR: fundamentals and applications in chemistry and biology (Vol. 557). Washington, DC: American Chemical Society.
Hindle, R., (n.d.). Improved Analysis of Trace Hormones in Drinking Water by LC/MS/MS (EPA 539) using the Agilent 6460 Triple Quadrupole LC/MS. (Epa 539).
Jiskra, J., Claessens, H. A., Cramers, C. A. & Kaliszan, R., 2002: Quantitative structure–retention relationships in comparative studies of behavior of stationary phases under high-performance liquid chromatography and capillary electrochromatography conditions - Journal of Chromatography A, 977(2), 193–206.
Katz, B. G., Griffin, D. W., McMahon, P. B., Harden, H. S., Wade, E., Hicks, R. W. & Chanton, J. P., 2010: Fate of effluent-borne contaminants beneath septic tank drainfields overlying a karst aquifer - Journal of environmental quality, 39(4), 1181-1195..
Kaufmann, G. & Dreybrodt, W., 2007: Calcite dissolution kinetics in the system CaCO3-H2O-CO2 at high undersaturation - Geochimica et Cosmochimica Acta. 71(6), 1398-1410.
Kwon, Y., 2002: Handbook of Essential Pharmacokinetics, Pharmacodynamics and Drug Metabolism for Industrial Scientists. Springer US.
Ma, B., Arnold, W. A. & Hozalski, R. M., 2018: The relative roles of sorption and biodegradation in the removal of contaminants of emerging concern (CECs) in GAC-sand biofilters - Water Research 146, 67-76.
Mohsen-Nia, M., Ebrahimabadi, A. H. & Niknahad, B., 2012: Partition coefficient n-octanol/water of propranolol and atenolol at different temperatures: Experimental and theoretical studies - The Journal of Chemical Thermodynamics, 54, 393–397.
Nakada, N., Hanamoto, S., Jürgens, M. D., Johnson, A. C., Bowes, M. J. & Tanaka, H., 2016: Assessing the population equivalent and performance of wastewater treatment through the ratios of pharmaceuticals and personal care products present in a river basin: Application to the River Thames basin, UK - Science of the Total Environment, 575, 1100–1108.
Nanjundaiah, S., Mutturi, S. & Bhatt, P., 2017: Modeling of caffeine degradation kinetics during cultivation of Fusarium solani using sucrose as co-substrate - Biochemical Engineering Journal, 125, 73-80.
Pedersen, S.N., Pedersen, K.L., Hojrup, P., Andersen, J.S., Roepstorff, P., Knudsen, J., Depledge, M.H., 1994. Purifi- cation and characterization of cadmium-induced MT from the shore crab Carcinus maenas. Biochem. J. 297, 609–614.
Petrie, B., Smith, B. D., Youdan, J., Barden, R. & Kasprzyk-Hordern, B., 2017: Multi-residue determination of micropollutants in Phragmites australis from constructed wetlands using microwave assisted extraction and ultra-high-performance liquid chromatography tandem mass spectrometry - Analytica Chimica Acta, 959, 91–101.
Phillips, J. D., 1989: An evaluation of the factors determining the effectiveness of water quality buffer zones - Journal of Hydrology, 107(1), 133–145.
Plácido, N.S., Carlos, A.L., Galvão, J.U., Souza, R.L., Soares, C.M., Mattedi, S., Fricks, A.T. & Lima, Á.S., 2018: Protic ionic liquids as a constituent of biphasic systems based on acetonitrile: Phase diagram and alkaloid partitioning - Separation and Purification Technology 200, 318-326.
Prosser, R. S., & Sibley, P. K., 2015: Human health risk assessment of pharmaceuticals and personal care products in plant tissue due to biosolids and manure amendments, and wastewater irrigation - Environment international, 75, 223-233.
Ricart, M., Guasch, H., Alberch, M., Barceló, D., Bonnineau, C., Geiszinger, A., Ferrer, J., Ricciardi, F., Romaní, A.M., Morin, S. & Proia, L., 2010: Triclosan persistence through wastewater treatment plants and its potential toxic effects on river biofilms - Aquatic Toxicology, 100(4), pp.346-353.
Rodil, R., Quintana, J. B., López-Mahía, P., Muniategui-Lorenzo, S. & Prada-Rodríguez, D., 2009: Multi-residue analytical method for the determination of emerging pollutants in water by solid-phase extraction and liquid chromatography-tandem mass spectrometry - Journal of Chromatography A, 1216(14), 2958-2969
Rushing, B., Wooten, A., Shawky, M. & Selim, M. I., 2016: Comparison of LC-MS and GC-MS for the Analysis of Pharmaceuticals and Personal Care Products in Surface Water and Treated Wastewaters - Current Trends in Mass Spectrometry, 14(3), 8-14.
Schnoor, J. L., Light, L. A., McCutcheon, S. C., Wolfe, N. L. & Carreia, L. H., 1995: Phytoremediation of organic and nutrient contaminants - Environmental science & technology, 29(7), 318A-323A.
Serra-Roig, M. P., Jurado, A., Diaz-Cruz, M. S., Vazquez-Sune, E., Pujades, E. & Barcelo, D., 2016: Occurrence, fate and risk assessment of personal care products in rive-groundwater interface - Science of the Total Environment, 568, 829–837.
Singh, S. P., Azua, A., Chaudhary, A., Khan, S., Willett, K. L. & Gardinali, P. R., 2010: Occurrence and distribution of steroids, hormones and selected pharmaceuticals in South Florida coastal environments - Ecotoxicology, 19(2), 338-350.
Simpson, S. & Batley, G., 2016: Sediment Quality Assessment: A Practical Guide Second Edition. Csiro Publishing.
Stuart, M., Lapworth, D., Crane, E. & Hart, A., 2012: Review of risk from potential emerging contaminants in UK groundwater - Science of the Total Environment 16, 1-21.
Subedi, B., Codru, N., Dziewulski, D.M., Wilson, L.R., Xue, J., Yun, S., Braun-Howland, E.,
Minihane, C. & Kannan, K., 2015: A pilot study on the assessment of trace organic contami-nants including pharmaceuticals and personal care products from on-site wastewater treatment systems along Skaneateles Lake in New York State, USA - Water Research., 72, 28– 39.
Svenningsen, H., Henriksen, T., Priemé, A. & Johnsen, A. R., 2011: Triclosan affects the microbial community in simulated sewage-drain-field soil and slows down xenobiotic degradation - Environmental Pollution, 159(6), 1599-1605.
Swartz, C. H., Reddy, S., Benotti, M.J., Yin, H.F., Barber, L.B., Brownawell, B.J. & Rudel, R.A., 2006: Steroid estrogens, nonylphenol ethoxylate metabolites, and other wastewater con-taminants in groundwater affected by a residential septic system on Cape Cod, MA - Environmental Science and Technology, 40, 4894– 4902.
Tihansky, A. B., 1999: Sinkholes, west-central Florida. Land subsidence in the United States: US geological survey circular, 1182, 121-140.
Tollefsen, K. E., Nizzetto, L. & Huggett, D. B., 2012: Presence, fate and effects of the intense sweetener sucralose in the aquatic environment - Science of the Total Environment, 438, 510-516.
World Health Organization, 1998: Flame retardants: tris (chloropropyl) phosphate and tris (2-chloroethyl) phosphate.
Wilcox, J.D., Bahr, J.M., Hedman, C.J., Hemming, J.D.C., Barman, M.A.E. & Bradbury, K.R., 2009: Removal of organic wastewater contaminants in septic systems using advanced treat-ment technologies – Journal of Environmental Quality, 38, 149– 156.
Wu, X., Ernst, F., Conkle, J. L. & Gan, J., 2013: Comparative uptake and translocation of pharmaceutical and personal care products (PPCPs) by common vegetables - Environment International, 60, 15-22.
Wu, X., Dodgen, L. K., Conkle, J. L. & Gan, J., 2015: Plant uptake of pharmaceutical and personal care products from recycled water and biosolids: A review - Science of the Total Environment, 536, 655–666.
Yang, X., Flowers, R.C., Weinberg, H.S. & Singer, P.C., 2011: Occurrence and removal of pharmaceuticals and personal care products (PPCPs) in an advanced wastewater reclamation plant - Water Research, 45, 5218– 5228.
Zhang, S., Wang, Z. & Chen, J., 2019: Physiologically based toxicokinetics (PBTK) models for pharmaceuticals and personal care products in wild common carp (Cyprinus carpio) - Chemosphere, 220, 793–801.
Zhou, S., Di Paolo, C., Wu, X., Shao, Y., Seiler, T.-B. & Hollert, H., 2019: Optimization of screening-level risk assessment and priority selection of emerging pollutants – The case of pharmaceuticals in European surface waters - Environment International, 128, 1–10.
Prenosi
Objavljeno
Kako citirati
Številka
Rubrike
Licenca
To delo je licencirano pod Creative Commons Priznanje avtorstva-Nekomercialno-Brez predelav 4.0 mednarodno licenco.
Avtorji jamčijo, da je delo njihova avtorska stvaritev, da v njem niso kršene avtorske pravice tretjih oseb ali kake druge pravice. V primeru zahtevkov tretjih oseb se avtorji zavezujejo, da bodo varovali interese založnika ter da bodo povrnili morebitno škodo.
Podrobneje v rubriki: Prispevki