| Sonstiges: |
- Nachgewiesen in: MEDLINE
- Sprachen: English
- Publication Type: Journal Article
- Language: English
- [Environ Sci Pollut Res Int] 2023 Nov; Vol. 30 (53), pp. 113758-113773. <i>Date of Electronic Publication: </i>2023 Oct 18.
- MeSH Terms: Soil Pollutants* / analysis ; Metals, Heavy* / analysis ; Ants* ; Animals ; Acetylcholinesterase ; Environmental Pollution ; Soil / chemistry ; Plants ; Environmental Monitoring / methods ; Environmental Biomarkers ; Risk Assessment ; China
- References: Abrahim GMS, Parker RJ (2008) Assessment of heavy metal enrichment factors and the degree of contamination in marine sediments from Tamaki Estuary, Auckland. New Z Environ Monit Assess 136(1–3):227–238. ; Adviento-Borbe MAA, Doran JW, Drijber RA, Dobermann A (2006) Soilelectrical conductivity and water content affect nitrous oxide and carbon dioxide emissions in intensively managed soils. J Environ Qual 35(6):1999–2010. ; Allen SE, Grimshaw HM, Parkinson JA, Quarmby C, Roberts JD (1976) Chemical analysis of ecological materials. Edited by SB Chapman. ; Arias ME, González-Pérez JA, González-Vila FJ, Ball AS (2005) Soil health: A new. ; Atayese MO, Eigbadon AI, Oluwa KA, Adesodun JK (2010) Heavy metal contamination of Amaranthus grown along major highways in Lagos. ; Augustyniak M, Babczyńska A, Migula P, Wilczek G, Łaszczyca P, Kafel A, Augustyniak M (2005) Joint effects of dimethoate and heavy metals on metabolic responses in a grasshopper (Chorthippus brunneus) from a heavy metal’s pollution gradient. Comp Biochem Physiol c: Toxicol Pharmacol 141(4):412–419. ; Bandyopadhyay S (2022) Plant-assisted metal remediation in mine-degraded land: a scient metric review. Int J Environ Sci Technol 19(8):8085–8112. ; Behrooz RD, Tashakor M, Asvad R, Esmaili-Sari A, Kaskaoutis DG (2022) Characteristics and health risk assessment of mercury exposure via indoor and outdoor household dust in three Iranian cities. Atmosphere 13(4):583. ; Benson WH, DiGiulio RT (1992) Biomarkers in hazard assessments of contaminated sediments. In: G. A. Burton Jr. (Eds.), Sediment toxicity assessment. Lewis, Boca Raton, FL, USA 241–265. ; Black CA (1965) Methods of soil analysis. Am Soc Agron 771–1572. ; Boulos L (1999) Flora of Egypt: Azollaceae– Oxalidaceae. I, Al-Hadara Publ., Cairo, Egypt. 419. ; Boulos L (2000) Flora of Egypt, vol II. Al-Hadara Publishing, Cairo, p 352. ; Boulos L (2002) Flora of Egypt: Verbenaceae Compositae, vol III. Al-Hadara Publishing, Cairo, Egypt, p 373. ; Boulos L (2005) Flora of Egypt, vol IV. Al Hadara Publishing, Cairo, Egypt, p 617. ; Boulos L (2008) Flora and vegetation of the deserts of Egypt. Fl Med 18:341–359. ; Bohn A (1979) Trace metals in fucoid algae and purple sea urchins near a high Arcticlead/zinc ore deposit. Mar Pollut Bull 10(11):325–327. ; Bradl H, Kim C, Kramar U, Stüben D (2005) Interactions of heavy metals, in Bradl HB (Ed) Heavy metals in the environment: origin, interaction and remediation. Elsevier Academic Press; Amsterdam, 28–148. ; Bream AS, El Surtasi EI, Mahmoud MA, Hamza YI (2019) Industrial pollution evaluation through enzymatic biomarkers at different localities of El-Sadat Industrial City Menofia, Egypt. Egyptian Acad J Biol Sci A, Entomol 12(3):19–36. ; Brower JE, Zar JH (1984) Field and laboratory methods for general ecology. C. Brown Publishers Dubuque, lowa, Wm, p 226. ; Caeiro S, Costa MH, Ramos TB, Fernandes F, Silveira N, Coimbra A, Painho M (2005) Assessing heavy metal contamination in Sado Estuary sediment: an index analysis approach. Ecol Ind 5(2):151–169. ; Carter MR, Gregorich EG (2008) Soil sampling and methods of analysis. In: MacCarthy P (ed) Soil sampling and methods of analysis Canadian Society of Soil Science. CRC Press, USA. Chemistry, p 2. ; Chehregani A, Malayeri B, Golmohammadi R (2005) Effect of heavy metals on the developmental stages of ovules and embryonic sac in Euphorbia cheirandenia. Pak J Biol Sci 8:622–625. ; Chen TB, Zheng YM, Lei M, Huang ZC, Wu HT, Chen H, Tian QZ (2005) Assessment of heavy metal pollution in surface soils of urban parks in Beijing China. Chemosphere 60(4):542–551. ; Chen H, Teng Y, Lu S, Wang Y, Wang J (2015) Contamination features and health risk of soil heavy metals in China. Sci Total Environ 512:143–153. ; Chonokhuu S, Batbold C, Chuluunpurev B, Battsengel E, Dorjsuren B, Byambaa B (2019) Contamination and health risk assessment of heavy metals in the soil of major cities in Mongolia. Int J Environ Res Public Health 16(14):2552. ; Danesino C (2009) Environmental indicators for heavy metals pollution: soils and higher plants. Scientifica Acta 3(2):23–26. ; Dankoub Z, Ayoubi S, Khademi H, Sheng-Gao LU (2012) Spatial distribution of magnetic properties and selected heavy metals in calcareous soils as affected by land use in the Isfahan region. Central Iran Pedosphere 22(1):33–47. ; David T (1989) Bio-indicator in air pollution research. In: Washington DC (ed) Application and Constraints biologic markers of air pollution stress and damage in forests. Nation Academics Press, pp 73–80. ; Domingues I, Agra AR, Monaghan K, Soares AMVM, Nogueira AJA (2010) Cholinesterase and glutathione-S-transferase activities in freshwater invertebrates as biomarkers to assess pesticide contamination. Environ Toxicol Chem 29:2–18. ; Emenike EC, Iwuozor KO, Anidiobi SU (2021) Heavy metal pollution in aquaculture: sources, impacts and mitigation techniques. Biol Trace Element Res 1–17. ; EPA (2007) Reducing methane missions during completion operations, 2007 natural gas STAR production technology workshop, Glenwood Springs, CO, September 11, 2007. http://epa.gov/gasstar/documents/workshops/glenwood-2007/04_recs.pd. ; Farombi EO, Adelowo OA, Ajimoko YR (2007) Biomarkers of oxidative stress and heavy metal levels as indicators of environmental pollution in African catfish (Clarias gariepinus) from Nigeria Ogun River. Int J Environ Res Public Health 4(2):158–165. ; Field CB, Barros VR, Mastrandrea MD, Mach KJ, Abdrabo MK, Adger N, Yohe GW (2014) Summary for policymakers In Climate change 2014: impacts, adaptation, and vulnerability. Part A: global and sectoral aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (1–32). Cambridge University Press. ; Galgani F, Bocquene G (1991) Semi-automated colorimetric and enzymatic assays for aquatic organisms using microplate readers. Water Res 25(2):147–150. https://doi.org/10.1016/0043-1354(91)90023-j). ; Gill TS, Tewari H, Pande J (1991) In vivo and in vitro effects of cadmium on selected enzymes in different organs of the fish Barbus conchonius Ham (Rosy barb). Comp Biochem Physiol Part C: Comp Pharmacol 100(3):501–505. ; Grant DF, Matsumura F (1989) Glutathione S-transferase 1 and 2 in susceptible and resistant insecticide resistant Aedes aegypti. Pestic Biochem Physiol 33:132–143. ; Guo G, Wu F, Xie F, Zhang R (2012) Spatial distribution and pollution assessment of heavy metals in urban soils from southwest China. J Environ Sci 24(3):410–418. ; Habig WH, Pabst MJ, Jakoby WB (1974) Glutathione S-transferases: the first enzymatic step in mercapturic acid formation. J Biol Chem 249(22):7130–7139. ; Hakanson L (1980) An ecological risk index for aquatic pollution control A Sedimentological. Approach Water Res 14(8):975–1001. ; Hesse PR (1971) A textbook of soil chemical analysis. John Murray, London. ; Huggett RJ, Kimerle RA, Mehrle PM Jr, Bergman HL (1992) Biomarkers-biochemical, physiological, and histological markers of anthropogenic stress. Lewis, Boca Raton, FL. ; Hussain R, Khattak SA, Shah MT, Ali L (2015) Multistatistical approaches for environmental geochemical assessment of pollutants in soils of Gadoon Amazai Industrial Estate, Pakistan. J Soils Sediments 15:1119–1129. ; Jackson ML (1962a) Soil chemical analysis. Constable and Co Itd London, UK. ; Jackson ML (1967) Soil chemical analysis. Prentice-Hall of India private, New Delhi, India, p 498. ; Jackson ML (1962b): (Eds.), Soil chemical analysis. Constable and Co. Itd., London. ; Jebali A, Hadj Alouane AB, Ladet P (2006) Operating rooms scheduling. Int J Prod Econ 99(1–2):52–62. https://doi.org/10.1016/j.ijpe.2004.12.006. ; Jamal SN, Iqbal MZ, Athar M (2006) Effect of aluminum and chromium on the growth and germination of mesquite (Prosopis julifloraswartz.) DC. Int J Environ Sci Technol 3:173–176. ; Kabata-Pendias A, Mukherjee AB (2007) Trace elements from soil to human. Springer Science & Business Media. challenge for microbiologists and chemists. Int Microbiol 8(1):13–21. ; Kamel N, Jebali J, Banni M, Khedher SB, Chouba L, Boussetta H (2012) Biochemical responses and metals levels in Rudita pesdecussatus after exposure to treated municipal effluents. Ecotoxicol Environ Saf 82:40–46. ; Karki D, Verma A (2020) Pollution assessment of heavy metals in groundwater and agricultural soil in tailing of Zawar mines, Udaipur, Rajasthan. EQA-Int J Environ Qual 38:37–47. ; Kassas MA (1972) A brief history of land use in Mareotis region. Egypt Minerva Biologica 1:167–174. ; Kekane SS, Chavan RP, Shinde DN, Patil CL, Sagar SS (2015) A review on physico-chemical properties of soil. Int J Chem Studies 3(4):29–32. ; Keshav Krishna A, Rama Mohan K (2016) Distribution, correlation, ecological and health risk assessment of heavy metal contamination in surface soils around an industrial area, Hyderabad, India. Environ Earth Sci 75:1–17. ; Khan S, Cao Q, Zheng YM, Huang YZ, Zhu YG (2008) Health risks of heavy metals in contaminated soils and food crops irrigated with wastewater in Beijing China. Environ Pollut 152(3):686–692. ; Klik BK, Gusiatin ZM, Kulikowska D (2020) Suitability of environmental indices in assessment of soil remediation with conventional and next generation washing agents. Sci Rep 10(1):1–14. ; Knedel M, Böttger R (1967) Eine kinetische Methode zur Bestimmung der Aktivität der Pseudocholinesterase (Acylcholin-acylhydrolase 3.1. 1.8.). KlinischeWochenschrift 45(6):325–327. ; Lagadic L, Caquet T, Ramade F (1994) The role of biomarkers in environmental assessment (5). Invertebr Populations Communities Ecotoxicol 3(3):193–208. ; Lavado R, Ureña R, Martin-Skilton R, Torreblanca A, Del Ramo J, Raldúa D, Porte C (2006) The combined use of chemical and biochemical markers to assess water quality along the Ebro River. Environ Pollut 139(2):330–339. ; Leitenmaier B, Küpper H (2013) Compartmentation and complexation of metals in hyperaccumulator plants. Front Plant Sci 4:374. ; Liu WH, Zhao JZ, Ouyang ZY, Söderlund L, Liu GH (2005) Impacts of sewage irrigation on heavy metal distribution and contamination in Beijing, China. Environ Int 31(6):805–812. ; Lu A, Wang J, Qin X, Wang K, Han P, Zhang S (2012) Multivariate and geostatistical analyses of the spatial distribution and origin of heavy metals in the agricultural soils in Shunyi, Beijing, China. Sci Total Environ 425:66–74. ; Machender G, Dhakate R, Prasanna L, Govil PK (2011) Assessment of heavy metal contamination in soils around Balanagar industrial area, Hyderabad, India. Environ Earth Sci 63:945–953. ; Maja MM, Ayano SF (2021) The impact of population growth on natural resources and farmers’ capacity to adapt to climate change in low-income countries. Earth Syst Environ 5:271–283. ; Mandal A, Voutchkov M (2011) Heavy metals in soils around the Cement Factory in Rockfort, Kingston, Jamaica. Int J Geosci 2:48–54. ; Matschullat J (2000) Arsenic in the geosphere—a review. Sci Total Environ 249:297–312. ; Mayer FL, Versteeg DJ, McKee MJ, Folmar LC, Graney RL, McCume DC, Bergman HL (1992) Physiological and nonspecific biomarkers. In: Biomarkers: biochemical, physiological, and histological markers of anthropogenic stress, 5–86. ; Mazurek R, Kowalska J, Gąsiorek M, Zadrożny P, Józefowska A, Zaleski T, Orłowska K (2017) Assessment of heavy metals contamination in surface layers of Roztocze National Park Forest soils (SE Poland) by indices of pollution. Chemosphere 168:839–850. ; McCarthy J, Shugart L (1990) Biological markers of environmental contamination. In: McCarthy JF, Shugart LR (eds) Biomarkers of environmental contamination. Lewis, Boca Raton, FL, USA, pp 3–14. ; Migula P, Laszczyca P, Augustyniak M, Wilczek G, Rozp E, Kafel A, Woloszyn M (2004) Antioxidative defense enzymes in beetles from a metal pollution gradient. Biologia (bratislava) 59:645–654. ; Muller G (1969) Index of geoaccumulation in sediments of the Rhine River. GeoJournal 2:108–118. ; Pachauri RK, Allen MR, Barros VR, Broome J, Cramer W, Christ R, van Y Pserle JP (2014). Climate change 2014: synthesis report. Contribution of Working Groups I, II and III to the fifth assessment report of the Intergovernmental Panel on Climate Change (p. 151). Ipcc. ; Parmar TK, Rawtani D, Agrawal YK (2016) Bioindicators: the natural indicator of environmental pollution. Front Life Sci 9(2):110–118. ; Pena-Lopis S, Dolores Ferrando M, Pena JB (2003) Fish tolerance to organoohosphate- induced oxidative stress is dependent on the glutathione metabolism and enhanced by N-acetylcycteine. Aquat Toxicol 65(4):337–360. ; Perdigão A, da Silva Pereira JL (2021) Effects of biochar in soil and water remediation: a review. Biodegradation Technology of Organic and Inorganic Pollutants. ; Pereira LR, Cabette HSR, Juen L (2012) The use of aquatic insects of the order Trichoptera as bioindicators of habitat integrity. In Annales de Limnologie-Int J Limnol 48:303–313. ; Piper CS (1947) Soil and plant analysis: a laboratory manual of methods for the examination of soils and the determination of the inorganic constituents of plants. Interscience Publishers, Inc, New York. ; Popova E (2016) Accumulation of heavy metals in the “soil-plant” system. In AIP Conference Proceedings 1772(1):050006 (AIP Publishing LLC). ; Praet NV, Jonge MD, Blust R, Stoks R, Bervoets L (2014) Behavioural, physiological and biochemical markers in damselfly larvae (Ischnura elegans) to assess effects of accumulated metal mixtures. Sci Total Environ 470–471:208–215. ; Praveena SM, Radojevic M, Abdullah MH (2007) The assessment of mangrove sediment quality in Mengkabong Lagoon: an index analysis approach. Int J Environ Sci Ed 2(3):60–68. ; Pulford ID, Watson C (2003) Phytoremediation of heavy metal-contaminated land by trees—a review. Environ Int 29(4):529–540. ; Rahman SH, Khanam D, Adyel TM, Islam MS, Ahsan MA, Akbor MA (2012) Assessment of heavy metal contamination of agricultural soil around Dhaka Export Processing Zone (DEPZ), Bangladesh: implication of seasonal variation and indices. Appl Sci 2(3):584–601. ; Reimann C, de Caritat P (1998) Chemical elements in the environment. SpringerVerlag, Berlin, Heidelberg, New York, p 398. ; Richards LA (1954): Diagnosis & improvement of saline and alkaline, soils. U. S. Department Agr. Handbook 66. ; Rowell DL (1994) Soil science methods and applications. Longman Publishers, Singapore, p 350. ; Santos MVS, da Silva Júnior JB, de Carvalho CEV, dos Santos Vergílio C, Hadlich GM, de Santana CO, de Jesus TB (2020) Geochemical evaluation of potentially toxic elements determined in surface sediment collected in an area under the influence of gold mining. Mar Pollut Bull 158:111384. ; Schulte EE (1999) Soil and applied chlorine; College of Agriculture and Life Sciences, University of Wisconsin-Madison; University of Wisconsin Extension, Cooperative Extension: Madison. WI, USA. ; Shukla RS, Chandel PS (1989) Plant ecology and soil science. S.Chand. & Company LTD., Ram Nagar, New Delhi. ; Singh SP, Coronella JA, Benes H, Cochrane BJ, Zimniak P (2001) Catalytic function of Drosophila melanogaster glutathione S-transferase DmGSTS1–1 (GST- 2) in conjugation of lipid peroxidation end products. Eur J Biochem 268:2912–2923. ; Singh P, Purakayastha TJ, Mitra S, Bhowmik A, Tsang DC (2020) River water irrigation with heavy metal load influences soil biological activities and risk factors. J Environ Manage 270:110517. ; Singh SP, Singh MK (2020). Soil pollution and human health. Plant responses to soil pollution 205–220. ; Soni M (2016) Analysis of soil samples for its physicochemical parameters from Abohar city. Pharma Innov J 5:37–39. ; Soriano A, Pallarés S, Pardo F, Vicente AB, Sanfeliu T, Bech J (2012) Deposition of heavy metals from particulate settleable matter in soils of an industrialized area. J Geochem Explor 113:36–44. ; Stone D, Jepson P, Laskowski R (2002) Trends in detoxification enzymes and heavy metal accumulation in ground beetles (Coleoptera: Carabidae) inhabiting a gradient of pollution. Comp Biochem Physiol c: Toxicol Pharmacol 132(1):105–112. ; Sun Y, Zhou Q, Xie X, Liu R (2010) Spatial, sources and risk assessment of heavy metal contamination of urban soils in typical regions of Shenyang. China. J Hazard Mater 174(1–3):455–462. ; Sun H, Wu W, Guo J, Xiao R, Jiang F, Zheng L, Zhang G (2016) Effects of nickel exposure on testicular function, oxidative stress, and male reproductive dysfunction in Spodoptera litura Fabricius. Chemosphere 148:178–187. ; Tackholm V (1947) Students flora of Egypt. Cairo University, Beirut, p 562. ; Taghipour M, Ayoubi S, Khademi H (2011) Contribution of lithologic and anthropogenic factors to surface soil heavy metals in western Iran using multivariate geostatistical analyses. Soil and Sediment Contamination: An I. ; Tarrio J, Jaffor M, Ashraf M (1991) Levels of selected heavy metals in commercial fish from five freshwater lake Pakistan. Toxicol Environ Chem 33:133–140. ; Taylor SR, McLennan SM (1995) The geochemical evolution of the continental crust. Rev Geophys 33(2):241–265. ; Terriere LC (1984) Induction of detoxication enzymes in insects. Annu Rev Entomol 29(1):71–88. ; Tomlinson DL, Wilson JG, Harris CR, Jeffrey DW (1980) Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index. Helgoländermeeresuntersuchungen 33:566–575. ; Walkley A, Black I (1934) An examination of the Degtjareff method for determining organic carbon in soils: effect of variations in digestion conditions and of inorganic soil constituents. Soil Sci 63:251–263. ; Wei B, Yang L (2010) A review of heavy metal contaminations in urban soils, urban road dusts and agricultural soils from China. Microchem J 94(2):99–107. ; Wilczek G, Babczyńska A, Wilczek P, Doleżych B, Migula P, Młyńska H (2008) Cellular stress reactions assessed by gender and species in spiders from areas variously polluted with heavy metals. Ecotoxicol Environ Saf 70(1):127–137. ; Xiaozhen L, Yinghong L (2010) Diet influences the detoxification enzyme activity of Bactrocera tau. Tephritidae, Walker) (Diptera. ; Xu ZB, Zou XP, Zhang N, Feng QL, Zheng SC (2015) Detoxification of insecticides, allelochemicals and heavy metals by glutathione S-transferase SlGSTE1 in the gut of Spodoptera litura. Insect Science 22(4):503–511. ; Yaashikaa PR, Kumar PS, Jeevanantham S, Saravanan R (2022) A review on bioremediation approach for heavy metal detoxification and accumulation in plants. Environ Pollut 301:119035. ; Yang F, Tang C, Antonietti M (2021) Natural and artificial humic substances to manage minerals, ions, water, and soil microorganisms. Chem Soc Rev 50(10):6221–6239. ; Zatta P, Ibn-Lkhayat-Idrissi M, Zambenedetti P, Kilyen M, Kiss T (2002) In vivo and in vitro effects of aluminum on the activity of mouse brain acetylcholinesterase. Brain Res Bull 59(1):41–45. ; Zeng F, Ali S, Zhang H, Ouyang Y, Qiu B, Wu F, Zhang G (2011) The influence of pH and organic matter content in paddy soil on heavy metal availability and their uptake by rice plants. Environ Pollut 159:84–91. ; Zhang MK, Liu ZY, Wang H (2010) Use of single extraction methods to predict bioavailability of heavy metals in polluted soils to rice. Commun Soil Sci Plant Anal 41(7):820–831.
- Contributed Indexing: Keywords: Cataglyphis savignyi; Detoxification enzyme activities; Floral coverage; Industrial activities
- Substance Nomenclature: 0 (Soil Pollutants) ; EC 3.1.1.7 (Acetylcholinesterase) ; 0 (Soil) ; 0 (Metals, Heavy) ; 0 (Environmental Biomarkers)
- Entry Date(s): Date Created: 20231018 Date Completed: 20231123 Latest Revision: 20231216
- Update Code: 20231216
- PubMed Central ID: PMC10663209
|
