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EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS

Yıl 2023, , 64 - 72, 26.07.2023
https://doi.org/10.18036/estubtdc.1172036

Öz

Depending on atmospheric and industrial pollution, heavy metals can accumulate in the soil and affect the ecosystem. Heavy metals are a ubiquitous group of environmental chemicals and are not biodegradable. Plants are important biological controllers of environmental pollution. Elemental analysis in plants is among the alternative effective methods used for ecological research. In this study, the usability of plant species such as Verbascum diversifolium and Alcea calvertii, whose heavy metal content was determined, as biomonitors was investigated. The mineral content measurements of the extracts prepared from the leaves and flowers of the examined plant species were made with an Inductively Coupled Plasma Optical Emission Spectrophotometer (ICP-OES). Heavy metal (Cd, Pb, Cr, As, Zn, Ni) concentrations in plant extracts were determined. In our study, it was determined that the heavy metal tolerance of these two plant species was high. It is thought that it will be important to determine plant species resistant to heavy metals, to clean nature and to prevent human-induced heavy metal pollution from becoming a major problem for all living things in the future.

Destekleyen Kurum

Fırat Üniversitesi Bilimsel Araştırmalar Birimi

Proje Numarası

SYO.18.06

Kaynakça

  • [1] Boamah KB, Du J, Boamah AJ, Appiah K. A study on the causal effect of urban population growth and international trade on environmental pollution: evidence from China. Environmental Science and Pollution Research 2018;25: 5862-5874.
  • [2] Collin S, Baskar A, Geevarghese DM, Ali MNVS, Bahubali P, Choudhary R, Swamiappan, S. Bioaccumulation of lead (Pb) and its effects in plants: A review. Journal of Hazardous Materials Letters 2022; 100064.
  • [3] Kilicoglu C, Cetin M, Aricak B, Sevik H. Integrating multicriteria decision-making analysis for a GIS-based settlement area in the district of Atakum, Samsun, Turkey. Theoretical and Applied Climatology 2021;143(1-2): 379-388.
  • [4] Wu X, Cobbina SJ, Mao G, Xu H, Zhang Z, Yang L. A review of toxicity and mechanisms of individual and mixtures of heavy metals in the environment. Environmental Science and Pollution Research 2016;23: 8244-8259.
  • [5] Bellis DJ, Satake K, Inagaki M, Zeng J, Oizumi T. Seasonal and long-term change in lead deposition in central Japan: evidence for atmospheric transport from continental Asia. Science of the total environment 2005;341(1-3): 149-158.
  • [6] Demirezen D, Aksoy A. Heavy metal levels in vegetables in Turkey are within safe limits for Cu, Zn, Ni and exceeded for Cd and Pb. Journal of food quality 2006;29(3):252-265.
  • [7] Bozdogan E. Heavy metal concentration in leaves of Melia azedarach as a biomonitor of traffic-related air pollution. Oxid. Communic 2016;39: 756-764.
  • [8] Ristorini M, Astolfi ML, Frezzini MA, Canepari S, Massimi L. Evaluation of the efficiency of Arundo donax L. leaves as biomonitors for atmospheric element concentrations in an urban and industrial area of central Italy. Atmosphere 2020;11(3): 226.
  • [9] Yavuzer H, Osma E. Salix Fragilis L. (Gevrek Söğüt)’ İn Ağır Metal Kirlenmesinde Biomonitör Olarak Değerlendirilmesi. Anadolu University Journal of Science and Technology C-Life Sciences and Biotechnology 2018;7(2): 122-129.
  • [10] Topyıldız M, Yarsan E. Çevresel Kirliliğin İzlenmesinde Biyoindikatör Canlılar. Türk Veteriner Hekimleri Birliği Dergisi 2014; (1-2): 83-93.
  • [11] Nouri J, Khorasani N, Lorestani B, Karami M, Hassani AH, Yousefi N. Accumulation of heavy metals in soil and uptake by plant species with phytoremediation potential. Environmental earth sciences 2009;59: 315-323.
  • [12] Turkyilmaz A, Cetin M, Sevik H, Isinkaralar K, Saleh EAA. Variation of heavy metal accumulation in certain landscaping plants due to traffic density. Environment, Development and Sustainability 2020; 22(3): 2385-2398.
  • [13] Taylan ZS, Özkoç HB. Potansiyel ağır metal kirliliğinin belirlenmesinde akuatik organizmaların biokullanılabilirliliği. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 2007;9(2): 17-33.
  • [14] Yücel E, Edirnelioğlu E, Soydam S, Çelik S, Çolak G. Porsuk çayında ağır metal kirlilik düzeylerinin Myriophyllum spicatum Başaklı Sucivanperçemi bitkisi ile biyomonitörlenmesi. Biyolojik Çeşitlilik ve Koruma 2010;3(2): 133-144 .
  • [15] Drozdova I, Machs E, Kalimova I, Terentyeva L, Bech J, Roca N, Latypov I. Accumulation of potentially toxic elements by plants of North Caucasian Alyssum species and their molecular phylogenetic analysis. Environmental Geochemistry and Health 2021;43: 1617-1628.
  • [16] Mabberley DJ. Mabberley’splant-book (3th ed.). Cambridge University Press, Cambridge: XVIII 2008; p 1021.
  • [17] Uzunhisarcıklı ME. Yetersiz veri DD kategorisinde bulunan iki Alcea L. Malvaceae türünün yeni IUCN kategorileri ve taksonomisi . Biyolojik Çeşitlilik ve Koruma 2009;2 (2): 90-95.
  • [18] Sevik H, Cetin M, Ozel HB, Akarsu H, Zeren Cetin I. Analyzing of usability of tree-rings as biomonitors for monitoring heavy metal accumulation in the atmosphere in urban area: a case study of cedar tree (Cedrus sp.). Environmental Monitoring and Assessment 2020;192: 1-11.
  • [19] Sevik H, Cetin M, Ozel HB, Ozel S, Zeren Cetin I. Changes in heavy metal accumulation in some edible landscape plants depending on traffic density. Environmental monitoring and assessment, 2020;192: 1-9.
  • [20] Sevik H, Cetin M, Ucun Ozel H, Ozel, HB., Mossi MMM, Zeren Cetin I. Determination of Pb and Mg accumulation in some of the landscape plants in shrub forms. Environmental Science and Pollution Research 2020;27: 2423-2431.
  • [21] Khan S, Haque M, Arakawa O, Onoue Y. The influence of nitrogen and phosphorus on the growth of adiatom Skeletonema costatum (Greville) Cleve, Journal Profile: Bangladesh Journal of Fisheries Research 1998;2(1):23-29.
  • [22] FAO/WHO. List of Maximum Levels Recommended for Contaminants by the Joint FAO/WHO Codex Alimentarius Commission. 2nd Edition, FAO/WHO, Rome, 1984;1-8.
  • [23] WHO. “Enviromental Health Criteria 135, Cadmium” Enviromental Aspects, IPCS International Programme on Chemical Safety, Geneva, 1992.
  • [24] Kaya I, Gülser F. Determining heavy metal contents of hollyhock (Alcea rosea L.) in roadside soils of a Turkish lake basin. Polish Journal of Environmental Studies 2018;27(5).
  • [25] Yener SH. Alcea Pallida Waldst. Et kıt. Ile Hibicus Syriacus L.’Nin (Malvaceae) Biomonitor Özellikleri (Doctoral dissertation, Marmara Universitesi) 2007.
  • [26] Idrees M, Rafiq S, Ullah S, Jan FA, Khan MN, Mabood F. Heavy metals level of medicinal plants collected from selected district in Khyber-Pakthtunkhwa, Pakistan. Farmacia 2018;66(5): 861-865.
  • [27] Chaplygin V, Chernikova N, Fedorenko G, Fedorenko A, Minkina T, Nevidomskaya D, Beschetnikov V. Influence of soil pollution on the morphology of roots and leaves of Verbascum thapsus L. Environmental Geochemistry and Health 2022;44(1): 83-98.
  • [28] Tunçtürk M, Tunçtürk R, Eryiğit T. Some Chemical Contents of Verbascum orientale (L.) All. Species Spreading in Van Region. Current Perspectives on Medicinal and Aromatic Plants (CUPMAP) 2018;1(1): 36-41.
  • [29] Eren A, Mert M. Ağır metal (Ni, Cd ve Cu) uygulamalarının Andız Otu, Fener Otu ve Sığırkuyruğu bitkilerinin büyüme ve gelişmesi üzerine etkisi. Türkiye Tarımsal Araştırmalar Dergisi 2017;4(1): 50-58.
  • [30] Güleryüz G, Arslan H, İzgi B, Güçer Ş. Element content (Cu, Fe, Mn, Ni, Pb, and Zn) of the ruderal plant Verbascum olympicum Boiss. from east mediterranean. Zeitschrift für Naturforschung C 2006;61(5-6): 357-362.
  • [31] Lokeshappa B, Shivpuri K, Tripathi V, Dikshit AK. Assessment of toxic metals in agricultural produce. Food and public Health, 2012;2(1): 24-29.
  • [32] Zhang J, Zhao N, Liu C, Yang H, Li M, Yu G, He N. C:N:P stoichiometry in China's forests: from organs to ecosystems. Functional Ecology 2018;32(1): 50-60.
  • [33] Zhao N, Yu G, Wang Q, Wang R, Zhang J, Liu C, He N. Conservative allocation strategy of multiple nutrients among major plant organs: from species to community. Journal of Ecology 2020;108(1): 267-278.
  • [34] Hmeer AIA. Bazı Bitkilerde Ağır Metal Konsantrasyonlarının Yetişme Ortamına Bağlı Değişimi, Kastamonu Üniversitesi Fen Bilimleri Enstitüsü Çevre Mühendisliği Anabilim Dalı (Doctoral dissertation, Yüksek Lisans Tezi) 2020.
  • [35] Bozdogan Sert E, Turkmen M, Cetin M. Heavy metal accumulation in rosemary leaves and stems exposed to traffic-related pollution near Adana-İskenderun Highway (Hatay, Turkey). Environmental monitoring and assessment 2019;191(9): 1-12.
  • [36] Nowell LH, Capel PD, Dileanis PD. Pesticides in stream sediment and aquatic biota: distribution, trends, and governing factors. CRC Press 2019.

EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS

Yıl 2023, , 64 - 72, 26.07.2023
https://doi.org/10.18036/estubtdc.1172036

Öz

Depending on atmospheric and industrial pollution, heavy metals can accumulate in the soil and affect the ecosystem. Plants are important biological controllers of environmental pollution. Elemental analysis in plants is among the alternative effective methods used for ecological research. In this study, the usability of plant species such as Verbascum diversifolium and Alcea calvertii, whose heavy metal content was determined, as biomonitors was investigated. The mineral content measurements of the extracts prepared from the leaves and flowers of the examined plant species were made with an Inductively Coupled Plasma Optical Emission Spectrophotometer (ICP-OES). Heavy metal (Cd, Pb, Cr, As, Zn, Ni) concentrations in plant extracts were determined. In our study, it was determined that the heavy metal tolerance of these two plant species was high. It is thought that it will be important to determine plant species resistant to heavy metals, to clean nature and to prevent human-induced heavy metal pollution from becoming a major problem for all living things in the future.

Proje Numarası

SYO.18.06

Kaynakça

  • [1] Boamah KB, Du J, Boamah AJ, Appiah K. A study on the causal effect of urban population growth and international trade on environmental pollution: evidence from China. Environmental Science and Pollution Research 2018;25: 5862-5874.
  • [2] Collin S, Baskar A, Geevarghese DM, Ali MNVS, Bahubali P, Choudhary R, Swamiappan, S. Bioaccumulation of lead (Pb) and its effects in plants: A review. Journal of Hazardous Materials Letters 2022; 100064.
  • [3] Kilicoglu C, Cetin M, Aricak B, Sevik H. Integrating multicriteria decision-making analysis for a GIS-based settlement area in the district of Atakum, Samsun, Turkey. Theoretical and Applied Climatology 2021;143(1-2): 379-388.
  • [4] Wu X, Cobbina SJ, Mao G, Xu H, Zhang Z, Yang L. A review of toxicity and mechanisms of individual and mixtures of heavy metals in the environment. Environmental Science and Pollution Research 2016;23: 8244-8259.
  • [5] Bellis DJ, Satake K, Inagaki M, Zeng J, Oizumi T. Seasonal and long-term change in lead deposition in central Japan: evidence for atmospheric transport from continental Asia. Science of the total environment 2005;341(1-3): 149-158.
  • [6] Demirezen D, Aksoy A. Heavy metal levels in vegetables in Turkey are within safe limits for Cu, Zn, Ni and exceeded for Cd and Pb. Journal of food quality 2006;29(3):252-265.
  • [7] Bozdogan E. Heavy metal concentration in leaves of Melia azedarach as a biomonitor of traffic-related air pollution. Oxid. Communic 2016;39: 756-764.
  • [8] Ristorini M, Astolfi ML, Frezzini MA, Canepari S, Massimi L. Evaluation of the efficiency of Arundo donax L. leaves as biomonitors for atmospheric element concentrations in an urban and industrial area of central Italy. Atmosphere 2020;11(3): 226.
  • [9] Yavuzer H, Osma E. Salix Fragilis L. (Gevrek Söğüt)’ İn Ağır Metal Kirlenmesinde Biomonitör Olarak Değerlendirilmesi. Anadolu University Journal of Science and Technology C-Life Sciences and Biotechnology 2018;7(2): 122-129.
  • [10] Topyıldız M, Yarsan E. Çevresel Kirliliğin İzlenmesinde Biyoindikatör Canlılar. Türk Veteriner Hekimleri Birliği Dergisi 2014; (1-2): 83-93.
  • [11] Nouri J, Khorasani N, Lorestani B, Karami M, Hassani AH, Yousefi N. Accumulation of heavy metals in soil and uptake by plant species with phytoremediation potential. Environmental earth sciences 2009;59: 315-323.
  • [12] Turkyilmaz A, Cetin M, Sevik H, Isinkaralar K, Saleh EAA. Variation of heavy metal accumulation in certain landscaping plants due to traffic density. Environment, Development and Sustainability 2020; 22(3): 2385-2398.
  • [13] Taylan ZS, Özkoç HB. Potansiyel ağır metal kirliliğinin belirlenmesinde akuatik organizmaların biokullanılabilirliliği. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 2007;9(2): 17-33.
  • [14] Yücel E, Edirnelioğlu E, Soydam S, Çelik S, Çolak G. Porsuk çayında ağır metal kirlilik düzeylerinin Myriophyllum spicatum Başaklı Sucivanperçemi bitkisi ile biyomonitörlenmesi. Biyolojik Çeşitlilik ve Koruma 2010;3(2): 133-144 .
  • [15] Drozdova I, Machs E, Kalimova I, Terentyeva L, Bech J, Roca N, Latypov I. Accumulation of potentially toxic elements by plants of North Caucasian Alyssum species and their molecular phylogenetic analysis. Environmental Geochemistry and Health 2021;43: 1617-1628.
  • [16] Mabberley DJ. Mabberley’splant-book (3th ed.). Cambridge University Press, Cambridge: XVIII 2008; p 1021.
  • [17] Uzunhisarcıklı ME. Yetersiz veri DD kategorisinde bulunan iki Alcea L. Malvaceae türünün yeni IUCN kategorileri ve taksonomisi . Biyolojik Çeşitlilik ve Koruma 2009;2 (2): 90-95.
  • [18] Sevik H, Cetin M, Ozel HB, Akarsu H, Zeren Cetin I. Analyzing of usability of tree-rings as biomonitors for monitoring heavy metal accumulation in the atmosphere in urban area: a case study of cedar tree (Cedrus sp.). Environmental Monitoring and Assessment 2020;192: 1-11.
  • [19] Sevik H, Cetin M, Ozel HB, Ozel S, Zeren Cetin I. Changes in heavy metal accumulation in some edible landscape plants depending on traffic density. Environmental monitoring and assessment, 2020;192: 1-9.
  • [20] Sevik H, Cetin M, Ucun Ozel H, Ozel, HB., Mossi MMM, Zeren Cetin I. Determination of Pb and Mg accumulation in some of the landscape plants in shrub forms. Environmental Science and Pollution Research 2020;27: 2423-2431.
  • [21] Khan S, Haque M, Arakawa O, Onoue Y. The influence of nitrogen and phosphorus on the growth of adiatom Skeletonema costatum (Greville) Cleve, Journal Profile: Bangladesh Journal of Fisheries Research 1998;2(1):23-29.
  • [22] FAO/WHO. List of Maximum Levels Recommended for Contaminants by the Joint FAO/WHO Codex Alimentarius Commission. 2nd Edition, FAO/WHO, Rome, 1984;1-8.
  • [23] WHO. “Enviromental Health Criteria 135, Cadmium” Enviromental Aspects, IPCS International Programme on Chemical Safety, Geneva, 1992.
  • [24] Kaya I, Gülser F. Determining heavy metal contents of hollyhock (Alcea rosea L.) in roadside soils of a Turkish lake basin. Polish Journal of Environmental Studies 2018;27(5).
  • [25] Yener SH. Alcea Pallida Waldst. Et kıt. Ile Hibicus Syriacus L.’Nin (Malvaceae) Biomonitor Özellikleri (Doctoral dissertation, Marmara Universitesi) 2007.
  • [26] Idrees M, Rafiq S, Ullah S, Jan FA, Khan MN, Mabood F. Heavy metals level of medicinal plants collected from selected district in Khyber-Pakthtunkhwa, Pakistan. Farmacia 2018;66(5): 861-865.
  • [27] Chaplygin V, Chernikova N, Fedorenko G, Fedorenko A, Minkina T, Nevidomskaya D, Beschetnikov V. Influence of soil pollution on the morphology of roots and leaves of Verbascum thapsus L. Environmental Geochemistry and Health 2022;44(1): 83-98.
  • [28] Tunçtürk M, Tunçtürk R, Eryiğit T. Some Chemical Contents of Verbascum orientale (L.) All. Species Spreading in Van Region. Current Perspectives on Medicinal and Aromatic Plants (CUPMAP) 2018;1(1): 36-41.
  • [29] Eren A, Mert M. Ağır metal (Ni, Cd ve Cu) uygulamalarının Andız Otu, Fener Otu ve Sığırkuyruğu bitkilerinin büyüme ve gelişmesi üzerine etkisi. Türkiye Tarımsal Araştırmalar Dergisi 2017;4(1): 50-58.
  • [30] Güleryüz G, Arslan H, İzgi B, Güçer Ş. Element content (Cu, Fe, Mn, Ni, Pb, and Zn) of the ruderal plant Verbascum olympicum Boiss. from east mediterranean. Zeitschrift für Naturforschung C 2006;61(5-6): 357-362.
  • [31] Lokeshappa B, Shivpuri K, Tripathi V, Dikshit AK. Assessment of toxic metals in agricultural produce. Food and public Health, 2012;2(1): 24-29.
  • [32] Zhang J, Zhao N, Liu C, Yang H, Li M, Yu G, He N. C:N:P stoichiometry in China's forests: from organs to ecosystems. Functional Ecology 2018;32(1): 50-60.
  • [33] Zhao N, Yu G, Wang Q, Wang R, Zhang J, Liu C, He N. Conservative allocation strategy of multiple nutrients among major plant organs: from species to community. Journal of Ecology 2020;108(1): 267-278.
  • [34] Hmeer AIA. Bazı Bitkilerde Ağır Metal Konsantrasyonlarının Yetişme Ortamına Bağlı Değişimi, Kastamonu Üniversitesi Fen Bilimleri Enstitüsü Çevre Mühendisliği Anabilim Dalı (Doctoral dissertation, Yüksek Lisans Tezi) 2020.
  • [35] Bozdogan Sert E, Turkmen M, Cetin M. Heavy metal accumulation in rosemary leaves and stems exposed to traffic-related pollution near Adana-İskenderun Highway (Hatay, Turkey). Environmental monitoring and assessment 2019;191(9): 1-12.
  • [36] Nowell LH, Capel PD, Dileanis PD. Pesticides in stream sediment and aquatic biota: distribution, trends, and governing factors. CRC Press 2019.
Toplam 36 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapısal Biyoloji
Bölüm Makaleler
Yazarlar

Tuba Türkoğlu 0000-0001-6481-6218

Semra Türkoğlu 0000-0002-1418-7895

Proje Numarası SYO.18.06
Yayımlanma Tarihi 26 Temmuz 2023
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Türkoğlu, T., & Türkoğlu, S. (2023). EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi - C Yaşam Bilimleri Ve Biyoteknoloji, 12(2), 64-72. https://doi.org/10.18036/estubtdc.1172036
AMA Türkoğlu T, Türkoğlu S. EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS. Estuscience - Life. Temmuz 2023;12(2):64-72. doi:10.18036/estubtdc.1172036
Chicago Türkoğlu, Tuba, ve Semra Türkoğlu. “EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum Diversifolium AND Alcea Calvertii PLANTS”. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi - C Yaşam Bilimleri Ve Biyoteknoloji 12, sy. 2 (Temmuz 2023): 64-72. https://doi.org/10.18036/estubtdc.1172036.
EndNote Türkoğlu T, Türkoğlu S (01 Temmuz 2023) EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS. Eskişehir Teknik Üniversitesi Bilim ve Teknoloji Dergisi - C Yaşam Bilimleri Ve Biyoteknoloji 12 2 64–72.
IEEE T. Türkoğlu ve S. Türkoğlu, “EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS”, Estuscience - Life, c. 12, sy. 2, ss. 64–72, 2023, doi: 10.18036/estubtdc.1172036.
ISNAD Türkoğlu, Tuba - Türkoğlu, Semra. “EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum Diversifolium AND Alcea Calvertii PLANTS”. Eskişehir Teknik Üniversitesi Bilim ve Teknoloji Dergisi - C Yaşam Bilimleri Ve Biyoteknoloji 12/2 (Temmuz 2023), 64-72. https://doi.org/10.18036/estubtdc.1172036.
JAMA Türkoğlu T, Türkoğlu S. EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS. Estuscience - Life. 2023;12:64–72.
MLA Türkoğlu, Tuba ve Semra Türkoğlu. “EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum Diversifolium AND Alcea Calvertii PLANTS”. Eskişehir Teknik Üniversitesi Bilim Ve Teknoloji Dergisi - C Yaşam Bilimleri Ve Biyoteknoloji, c. 12, sy. 2, 2023, ss. 64-72, doi:10.18036/estubtdc.1172036.
Vancouver Türkoğlu T, Türkoğlu S. EVALUATION OF HEAVY METALS CONCENTRATIONS OF Verbascum diversifolium AND Alcea calvertii PLANTS. Estuscience - Life. 2023;12(2):64-72.