Siyez Buğdayına (Triticum monococcum) Metal İşleme Sıvısı Etkilerinin ICP-OES Yöntemiyle Değerlendirilmesi
Atık metal işleme sıvısına maruz bırakılan siyez buğdayında metal birikim seviyeleri gövde ve kökte ICP-OES ölçümleri le ayrı ayrı belirlenmiştir. Kökte özellikle demir, manganez ve krom kontrol grubuna göre deneme gruplarında metal işleme sıvısının miktarına bağlı olarak iki katına kadar yükselmiştir. Gövdedeki demir, mangan ve alüminyum iki kat artmış, ayrıca çinko ve nikel de artış eğilimi gözlenmiştir. Siyez buğdayının büyümesi önemli derecede engellenmiştir. Metal işleme sıvısı oranı arttıkça bitkinin gelişimi azaldı, 1MS/20 su deneme grubunda bitki canlılığını kaybetmiştir. Ekosistemde yağmur suyu, yüzey suları ve akiferler için atık metal işleme sıvısı ciddi bir tehdit oluşturabilir.
Evaluation of the Effects of Metal Working Fluid on Siyez Wheat (Triticum monococcum) by ICP-OES Method
The metal accumulation levels in the Siyez wheat exposed to the waste metal processing fluid were determined separately by ICP-OES measurements on the stem and root. According to the amount of metalworking fluid in the experimental groups, the root was up to twice as high as the iron, manganese and chromium control group. The iron, manganese and aluminium in the plant stem increased twice, and also the increase tendency of zinc and nickel was observed. The growth of the Siyez wheat has been significantly inhibited. As the metal processing fluid ratio increased, the development of the plant decreased. 1MS / 20 Water lost its plant viability in the experimental group. In the ecosystem, waste metal processing liquids for rainwater, surface waters and aquifers can pose a serious threat.
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- Abdulkadir A, Ajayi A, Hassan MI. 2015. Evaluating the
chemical composition and the molar heat capacities of a
white aluminum dross Energy Proced. 75: 2099-2105.
- Al Juhaiman JA. 2010. Estimating Aluminum leaching from
Aluminum cook wares in different meat extracts and milk. J.
Saudi Chem. Soc. 14: 131–137.
- Al-Wakeel KZ , Abd El Monem H, Khalil MM. 2015.
Removal of divalent manganese from aqueous solution
using glycine modified chitosan resin. J. Environ. Chem.
Eng. 3: 179-186.
- Alzahrani HR, Kumakli H, Ampiah E, Mehari T, Thornton AJ,
Babyak CM, Fakayode SO. 2017. Determination of macro,
essential trace elements, toxic heavy metal concentrations,
crude oil extracts and ash composition from Saudi Arabian
fruits and vegetables having medicinal values. Arab. J.
Chem. 7: 906–913.
- Bosch AC, O'Neill B, Sigge GO, Kerwath SE, Hoffman LC.
2016. Heavy metals in marine fish meat and consumer
health: a review. J. Sci. Food Agric. 96: 32-48.
- Chenga C, Phippsa D, Alkhaddarb RM. 2005. Treatment of
spent metalworking fluids. Water Res. 39: 4051–4063.
- Chowdhury S, Mazumder MA, Al-Attas O, Husain T. 2016.
Heavy metals in drinking water: occurrences, implications,
and future needs in developing countries. Sci. Total Environ.
569: 476-488.
- Clarens AF, Hayes KF, Skerlos SJ. 2006. Feasibility of
Metalworking Fluids Delivered in Supercritical Carbon
Dioxide. Journal of Manufacturing Processes. 8: 47-53.
- Connolly EL, Guerinot ML. 2002. Iron stress in plants.
Genome Biol. 3: 1024.1–1024.4
- Cyprowski M, Piotrowska M, Zakowska Z, Szadkowska-
Stanczyk I. 2007. Microbial and endotoxin contamination of
water-soluble metalworking fluids. Int. J. Occup. Med.
Environ. Health. 4: 365-371.
- Duan H , Hu J, Tan Q, Liu L, Wang Y, Li J. 2016. Systematic
characterization of generation and management of e-waste in
China. Environ. Sci. Pollut. Res. Int. 23: 1929-1943.
- Durairaj V, Hoda M, Shakya G, Pajaniradje S, Babu P,
Rajagopalan R. 2014. Phytochemical screening and analysis
of antioxidant properties of aqueous extract of wheatgrass.
Asian Pacific Journal of Tropical Medicine. 7: 398-404.
- Grace EJ, MacFarlane GR. 2016. Assessment of
bioaccumulation of metals to chicken eggs from residential
backyards, Sci. Total Environ. 563: 256-260.
- Greeley M. Rajagopalan N. 2004. Impact of environmental
contaminants on machining properties of metalworking
fluids. Tribology International. 37: 327–332.
- Hardisson A, Revert C, González-Weller D, Gutiérrez A, Paz S,
Rubio C. 2017. Aluminium exposure through the diet.
HSOA J. Food Sci. Nutr. 3: 1–10.
- Kampfenkel K, Montagu MV, Inzé D. 1995. Effects of iron
excess on Nicotiana plumbagnifolia plants: implications to
oxidative stress. Plant Physiol. 107: 725-735.
- Kara İ, Tunc D, Sayin F. 2018. Study on the performance of
metakaolin based geopolymer for Mn(II) and Co(II)
removal. Applied Clay Science. 161: 184-193.
- Karagoz A, and Zencirci N. 2005. Variation in wheat (Triticum
spp.) landraces from different altitudes of three regions of
Turkey. Genetic Resources and Crop Evolution. 52: 775-785.
- Lamas GA, Navas-Acien A, Mark DB, Lee KL. 2016. Heavy
metals, cardiovascular disease, and the unexpected benefits
of chelation therapy. J. Am. Coll. Cardiol. 67: 2411-2418.
- Marienfeld S, Schmohl N, Klein M, Schroder WH, Kuhn
AJ, Horst WJ. 2000. Localisation of aluminium in root tips
of Zea mays and Vicia faba, J. Plant Physiol. 156: 666-671.
- Mohanty ML, Pattnaik MM, Mishra AK, Patra HK. 2011.
Chromium bioaccumulation in rice grown in contaminated
soil and irrigated mine wastewater–a case study at South
Kaliapani chromite mine area, Orissa, India, Int. J.
Phytoremediation. 5: 397–409.
- Papaioannoua D, Kalavrouziotis IK, Koukoulakis PH,
Papadopoulos F, Psoma P. 2018. Interrelationships of metal
transfer factor under wastewater reuse and soil pollution.
Journal of Environmental Management. 15: 328-336.
- Pekol S. 2014. Ecotoxicological assessment of metalworking
fluids using the Allium cepa test procedure. Chemistry and
Ecology. 30: 66-75.
- Pekol S. 2018. X-ray fluorescence spectrometry characteristics
of oily waste water from steel processing and an evaluation
of its impact on the environment. Environ Sci Pollut Res.
25: 17100-17108.
- Pirgozliev V, Rose SP, Pellny T, Amerah AM, Wickramasinghe
M, Ulker M, Rakszegi M, Bedo Z, Shewry PR, Lovegrove
A. 2015. Energy utilization and growth performance of
chickens fed novel wheat inbred lines selected for different
pentosan levels with and without xylanase supplementation.
Poultry Science. 94: 232- 239.
- Salamini F, Ozkan H, Brandolini A, Schafer-Pregl R, Martin W.
2002. Genetics and geography of wild cereal domestication
in the near east. Nature Reviews Genetics. 3: 429-441.
- Silva S, Pinto-Carnide O, Martins-Lopes P, Matos M, Guedes-
Pinto H, Santos C. 2010. Differential aluminium changes on
nutrient accumulation and root differentiation in an Al
sensitive vs. tolerant wheat. Environ. Exp. Bot. 68: 91-98.
- Sorachoti K, Pangkumhang B, Tanboonchuy V, Tulaphol S,
Grisdanurak N. 2017. Reversible adsorption of
metalworking fluids (MWFs) on Cu-BTC metal organic
framework. Chinese Journal of Chemical Engineering. 25:
768–774.
- Wang Y, Qiao M, Liu Y, Zhu Y. 2012. Health risk assessment
of heavy metals in soils and vegetables from wastewater
irrigated area, Beijing-Tianjin city cluster, China. J. Environ.
Sci. 4: 690-698.