Abstract
Heavy metals (HMs) in air pollution seriously threaten the environment. Although plant species are known as good biomonitors, it has not been determined which HM is absorbed by which plant and organs and how much traffic is caused. The objectives are to determine (a) if the HMs examined here are transferred between the annual tree rings and (b) originate from the traffic, and (c) the variation of these HMs’ concentrations by wood, outer bark, and inner bark within these organs and density of the traffic. In this study, annual growth rings of Cedrus sp. tree located in Kastamonu city center, Türkiye, were used to determine the variation of cadmium (Cd), nickel (Ni), and zinc (Zn) by organ and traffic density through the last 39 years. As a result, Cd, Ni, and Zn concentrations in outer bark on the roadside were approx. 22.3, 9.6, and 2.5 folds of the concentration in the outer bark on the opposite side. Compared to the values obtained from wood, the concentrations obtained from outer bark were approx. 16.5 folds for Cd, 3.2 folds for Ni, and 5.1 folds for Zn. The results reveal that Cd, Ni, and Zn elements can diffuse into the air due to traffic, their accumulation potential in the cedar tree’s woods is relatively high, and their transfer in the wood is limited. In conclusion, the usage potential of this species is high to monitor and reduce the change of Cd, Ni, and Zn in the air from the past to the present.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data Availability
Not applicable.
References
Alaqouri, H. A. A., Genc, C. O., Aricak, B., Kuzmina, N., Menshikov, S., & Cetin, M. (2020). The possibility of using scots pine needles as biomonitor in determination of heavy metal accumulation. Environmental Science and Pollution Research, 27(16), 20273–20280.
Aricak, B., Cetin, M., Erdem, R., Sevik, H., & Cometen, H. (2019). The change of some heavy metal concentrations in scotch pine (Pinus sylvestris) depending on traffic density, organelle and washing. Applied Ecology and Environmental Research, 17(3), 6723–6734.
Aricak, B., Cetin, M., Erdem, R., Sevik, H., & Cometen, H. (2020). The usability of scotch pine (Pinus sylvestris) as a biomonitor for traffic-originated heavy metal concentrations in Turkey. Polish Journal of Environmental Studies, 29(2), 1051–1057.
Canturk, U., & Kulaç, Ş. (2021). The effects of climate change scenarios on Tilia ssp Turkey. Environmental Monitoring and Assessment, 193(12), 1–15.
Cesur, A., Cetin, I. Z., Aisha, A. E. S. A., Alrabiti, O. B. M., Aljama, M. O., Jawed, A. A., Cetin, M., Sevik, H., & Ozel, H. B. (2021). The usability of Cupressus arizonica annual rings in monitoring the changes in heavy metal concentration in air. Environmental Science and Pollition Research, 28(27), 35642–35648.
Cesur, A., Zeren Cetin, I., Cetin, M., Sevik, H., & Ozel, H. B. (2022). The use of Cupressus arizonica as a biomonitor of Li, Fe, and Cr pollution in Kastamonu. Water, Air, & Soil Pollution, 233(6), 1–9.
Cetin, M., Aljama, A. M. O., Alrabiti, O. B. M., Adiguzel, F., Sevik, H., & Zeren Cetin, I. (2022). Using topsoil analysis to determine and map changes in Ni, Co pollution. Water, Air, & Soil Pollution, 233(8), 1–11.
Çetin, M., Dönmez, A. H., & Türkkan, F. (2020). An investigation on employees’ methods of coping with stress in the COVID-19 outbreak process. Turkish Studies (Electronic), 15(6).
Chen, S., Yao, Q., Chen, X., Liu, J., Chen, D., Ou, T., Liu, J., Dong, Z., Zheng, Z., & Fang, K. (2021). Tree-ring recorded variations of 10 heavy metal elements over the past 168 years in southeastern China. Elementa; Science of the Anthropocene, 9(1), 00075.
Çiftci, H., Caliskan, C. E., Aslanhan, E., & Aktoklu, E. (2021). Monitoring of heavy metal pollution by using Populus nigra and Cedrus libani. Sigma Journal of Engineering and Natural Sciences, 39(4), 367–373.
Cimboláková, I., Uher, I., Laktičová, K. V., Vargová, M., Kimáková, T., & Papajová, I. (2019). Heavy metals and the environment. In Ivan, U. (Ed.), Environental factors affecting human health. (pp 1–31). Intechopen.
EEA (European Environment Agency) (2020). Health and environment, including air and noise pollution — Putting EEA’s work in the spotlight. Retrieved August 21, 2021, from https://www.eea.europa.eu/articles/health-and-environment-including-air
Elsunousi, A. A. M., Sevik, H., Cetin, M., Ozel, H. B., & Ucun Ozel, H. (2021). Periodical and regional change of particulate matter and CO2 concentration in misurata. Environmental Monitoring and Assessment, 193(11), 1–15.
Erdem, R., Cetin, M., Aricak, B., & Sevik, H. (2023). The change of the concentrations of B and Na in some forest soils depending on plant species. Forestist (In press). https://doi.org/10.5152/forestist.2022.22061
Ghoma, W. E. O., Sevik, H., & Isinkaralar, K. (2022). Using indoor plants as biomonitors for detection of toxic metals by tobacco smoke. Air Quality, Atmosphere and Health, 15, 415–424.
Gratani, L., Crescente, M. F., & Varone, L. (2008). Long-term monitoring of metal pollution by urban trees. Atmospheric Environment, 42(35), 8273–8277.
Isinkaralar, K. (2022a). Atmospheric deposition of Pb and Cd in the Cedrus atlantica for environmental biomonitoring. Landscape Ecological Engineering, 18, 341–350.
Isinkaralar, K. (2022b). Some atmospheric trace metals deposition in selected trees as a possible biomonitor. Romanian Biotechnological Letters, 27(1), 3227–3236.
Isinkaralar, K., Koc, I., Erdem, R., & Sevik, H. (2022). Atmospheric Cd, Cr, and Zn deposition in several landscape plants in Mersin, Türkiye. Water, Air and Soil Pollution, 233(4), 1–10.
Karacocuk, T., Sevik, H., Isinkaralar, K., Turkyilmaz, A., & Cetin, M. (2022). The change of Cr and Mn concentrations in selected plants in Samsun city center depending on traffic density. Landscape and Ecological Engineering, 18, 75–83.
Key, K., Kulaç, Ş, Koç, İ, & Sevik, H. (2022). Determining the 180-year change of Cd, Fe, and Al concentrations in the air by using annual rings of Corylus colurna L. Water, Air and Soil Pollution, 233(7), 1–13. https://doi.org/10.1007/s11270-022-05741-3
Key, K., & Kulaç, Ş. (2022). Proof of concept to characterize historical heavy metal concentrations from annual rings of Corylus colurna: Determining the changes of Pb, Cr, and Zn concentrations in atmosphere in 180 years in North Turkey. Air Quality, Atmosphere and Health, 15, 1623–1633.
Khattak, M. I., & Jabeen, R. (2012). Detection of heavy metals in leaves of Melia azedarach and Eucalyptus citriodora as biomonitoring tools in the region of Quetta valley. Pakistan Journal of Botany, 44(2), 675–681.
Koç, İ. (2021). Using Cedrus atlantica’s annual rings as a biomonitor in observing the changes of Ni and Co concentrations in the atmosphere. Environmental Science and Pollution Research, 28(27), 35880–35886.
Koç, İ. (2022a). Do various conifers respond differently to water stress? A comparative study of white pine, concolor and balsam fir. Kastamonu University Journal of Forestry Faculty, 22(1), 1–16.
Koç, İ. (2022b). Determination of the near-future biocomfort zones in Samsun province by global climate change scenarios. Kastamonu University Journal of Forestry Faculty, 22(2), 181–192.
Koç, İ. (2022c). Comparison of gas exchange parameters of two maple species (Acer negundo and Acer pseudoplatanus) seedlings under drought stress. Journal of Bartın Faculty of Forestry, 24(1), 65–76.
Koç, İ, Nzokou, P., & Cregg, B. (2022). Biomass allocation and nutrient use efficiency in response to water stress: Insight from experimental manipulation of balsam fir, concolor fir and white pine transplants. New Forests, 53(5), 915–933.
Koç, İ. (2019). Conifers response to water stress: Physiological responses and effects on nutrient use physiology. Dissertation, Michigan State University, USA
Kravkaz Kuscu, İS., Kılıç Bayraktar, M., & Tunçer, B. (2022). Determination of heavy metal (Cr Co, and Ni) accumulation in selected vegetables depending on traffic density. Water, Air, & Soil Pollution, 233(6), 1–10.
Kuzmina, N., Menshchikov, S., Mohnachev, P., Zavyalov, K., Petrova, I., Ozel, H. B., Aricak, B., Onat, S. M., & Sevik, H. (2023). Change of aluminum concentrations in specific plants by species, organ, washing, and traffic density. BioResources, 18(1), 792–803.
Lageard, J. G. A., Howell, J. A., Rothwell, J. J., & Drew, I. B. (2008). The utility of Pinus sylvestris L. in dendrochemical investigations: Pollution impact of lead mining and smelting in Darley Dale, Derbyshire UK. Environmental Pollution, 153(2), 284–294.
Lee, K. H., Luong, T. H., Jang, K. S., Choi, W. J., Park, G. S., Ohga, S., & Oga, S. (2015). Analysis of tree–ring chemistry to interpret variations in tree–ring growth of Larix leptolepis and Cryptomeria japonica in relation to atmospheric environmental changes in Southern Korea. Journal of the Faculty of Agriculture, Kyushu University, 60, 33–42.
Lepp, N. W. (1975). The potential of tree-ring analysis for monitoring heavy metal pollution patterns. Environmental Pollution, 9(1), 49–61.
Liu, Y., Ta, W., Cherubini, P., Liu, R., Wang, Y., & Sun, C. (2018). Elements content in tree rings from Xi’an, China and environmental variations in the past 30 years. Science of the Total Environment, 619, 120–126.
Martin, J. A. R., Gutiérrez, C., Torrijos, M., & Nanos, N. (2018). Wood and bark of Pinus halepensis as archives of heavy metal pollution in the Mediterranean Region. Environmental Pollution, 239, 438–447.
Mu’taz, M., & Mandiwana, K. L. (2007). The use of Aleppo pine needles as a bio-monitor of heavy metals in the atmosphere. Journal of Hazardous Materials, 148(1–2), 43–46.
Mulenga, C., Clarke, C., & Meincken, M. (2022). Bioaccumulation of Cu, Fe, Mn and Zn in native Brachystegia longifolia naturally growing in a copper mining environment of Mufulira. Zambia. Environmental Monitoring and Assessment, 194(1), 1–13.
Nechita, C., Iordache, A. M., Lemr, K., Levanič, T., & Pluhacek, T. (2021). Evidence of declining trees resilience under long term heavy metal stress combined with climate change heating. Journal of Cleaner Production, 317, 128428.
Pearson, C. L., Manning, S. W., Coleman, M., & Jarvis, K. (2006). A dendrochemical study of Pinus sylvestris from Siljansfors experimental forest, central Sweden. Journal of Applied Geochemistry, 21(10), 1681–1691.
Ram, S. S., Majumder, S., Chaudhuri, P., Chanda, S., Santra, S. C., Maiti, P. K., Sudarshan, M., & Chakraborty, A. (2014). Plant canopies: Bio-monitor and trap for re-suspended dust particulates contaminated with heavy metals. Mitigation and Adaptation Strategies for Global Change, 19(5), 499–508.
Riaz, M., Kamran, M., Fang, Y., Wang, Q., Cao, H., Yang, G., Deng, L., Wang, Y., Zhou, Y., Anastopoulos, I., & Wang, X. (2021). Arbuscular mycorrhizal fungi-induced mitigation of heavy metal phytotoxicity in metal contaminated soils: A critical review. Journal of Hazardous Materials, 402, 123919.
Saat, A., Mohamed, N. A., Hamzah, Z., & Hamzah, S. (2016). Application of moss as bio-monitor for heavy metals deposition in Port Dickson, Malaysia. Jurnal Teknologi, 78(6–6), 41–46.
Savas, D. S., Sevik, H., Isinkaralar, K., Turkyilmaz, A., & Cetin, M. (2021). The potential of using Cedrus atlantica as a biomonitor in the concentrations of Cr and Mn. Environmental Science and Pollution Research, 28, 55446–55453.
Sawidis, T., Breuste, J., Mitrovic, M., Pavlovic, P., & Tsigaridas, K. (2011). Trees as bioindicator of heavy metal pollution in three European cities. Environmental Pollution, 159(12), 3560–3570.
Seven, T., Darende, B. N., & Ocak, S. (2018). Hava ve toprakta ağır metal kirliliği. National Journal of Environment and Scientific Research, 1(2), 91–103.
Sevik, H., Cetin, M., Ozel, H. B., & Pinar, B. (2019a). Determining toxic metal concentration changes in landscaping plants based on some factors. Air Quality, Atmosphere and Health, 12(8), 983–991.
Sevik, H., Ozel, H. B., Cetin, M., Özel, H. U., & Erdem, T. (2019b). Determination of changes in heavy metal accumulation depending on plant species, plant organism, and traffic density in some landscape plants. Air Quality, Atmosphere and Health, 12(2), 189–195.
Sevik, H., Cetin, M., Ozel, H. U., Ozel, H. B., Mossi, M. M. M., & Cetin, I. Z. (2020). Determination of Pb and Mg accumulation in some of the landscape plants in shrub forms. Environmental Science and Pollution Research, 27(2), 2423–2431.
Shahid, M., Dumat, C., Khalid, S., Schreck, E., Xiong, T., & Niazi, N. K. (2017). Foliar heavy metal uptake, toxicity and detoxification in plants: A comparison of foliar and root metal uptake. Journal of Hazardous Materials, 325, 36–58.
Sulayman, A. F., Abdu, H., Saidu, A. A., Ahmad, F., Suleiman, J. Z., & Saleh, I. (2021). Bark of neem tree (Azadirachta indica) as bioindicator for deposition of heavy metals around Katsina Steel Rolling Company in Katsina Township. Current Approaches in Science and Technology Research, 3, 9–18.
Sulhan, O. F., Sevik, H., & Isinkaralar, K. (2022). Assessment of Cr and Zn deposition on Picea pungens Engelm. in urban air of Ankara, Türkiye. Environment, Development and Sustainability, 1–20. https://doi.org/10.1007/s10668-022-02647-2
Turkyilmaz, A., Sevik, H., Isinkaralar, K., & Cetin, M. (2018). Using Acer platanoides annual rings to monitor the amount of heavy metals accumulated in air. Environmental Monitoring and Assessment, 190(10), 1–11.
Turkyilmaz, A., Sevik, H., Isinkaralar, K., & Cetin, M. (2019). Use of tree rings as a bioindicator to observe atmospheric heavy metal deposition. Environmental Science and Pollution Research, 26(5), 5122–5130.
Turkyilmaz, A., Cetin, M., Sevik, H., Isinkaralar, K., & Saleh, E. A. A. (2020). Variation of heavy metal accumulation in certain landscaping plants due to traffic density. Environment, Development and Sustainability, 22(3), 2385–2398.
Varol, T., Canturk, U., Cetin, M., Ozel, H. B., & Sevik, H. (2021). Impacts of climate change scenarios on European ash tree (Fraxinus excelsior L.) in Turkey. Forest Ecology and Management, 491, 119199.
Varol, T., Cetin, M., Ozel, H. B., Sevik, H., & Zeren Cetin, I. (2022). The effects of climate change scenarios on Carpinus betulus and Carpinus orientalis in Europe. Water, Air, and Soil Pollution, 233, 45.
Wani, W., Masoodi, K. Z., Zaid, A., Wani, S. H., Shah, F., Meena, V. S., Wani, S. A., & Mosa, K. A. (2018). Engineering plants for heavy metal stress tolerance. Rendiconti Lincei. Scienze Fisiche e Naturali, 29(3), 709–723.
Watmough, S. A. (1997). An evaluation of the use of dendrochemical analysis on environmental monitoring. Environmental Reviews, 5(3–4), 181–201.
Watmough, S. A., & Hutchinson, T. C. (2003). A comparison of temporal patterns in trace metal concentration in tree rings of four common European tree species adjacent to a Cu-Cd refinery. Water, Air, and Soil Pollution, 146(1), 225–241.
WHO (2021). Air pollution. Retrieved August 21, 2021. https://www.who.int/health-topics/air-pollution#tab=tab_1.
Yavuzer, H., & Etem, O. (2018). Salix fragilis L. (Gevrek Söğüt)’in ağır metal kirlenmesinde biomonitör olarak değerlendirilmesi. Anadolu University Journal of Science and Technology C-Life Sciences and Biotechnology, 7(2), 122–129.
Yayla, E. E., Sevik, H., & Isinkaralar, K. (2022). Detection of landscape species as a low-cost biomonitoring study: Cr, Mn, and Zn pollution in an urban air quality. Environmental Monitoring and Assessment, 194(10), 1–10.
Yigit, N. (2019). Determination of heavy metal accumulation in air through annual rings: The case of Malus floribunda species. Applied Ecology and Environmental Research, 17(2), 2755–2764.
Zhang, X. (2019). The history of pollution elements in Zhengzhou, China recorded by tree rings. Dendrochronologia, 54, 71–77.
Acknowledgements
This study is produced from the MSc thesis titled as “Determination of Heavy Metal Accumulation in Atmosphere by Being Aid of Annual Rings” conducted at Kastamonu University, Institute of Science, Department of Sustainable Agriculture and Natural Plant.
Author information
Authors and Affiliations
Contributions
HC: design, raw material collection, performed the analysis, writing. HS: design, raw material collection, performed the analysis, and reviewing. İK: data analysis, writing, reviewing and editing. All authors read and approved the final manuscript.
Corresponding author
Ethics declarations
Ethics Approval and Consent to Participate
Not applicable.
Consent for Publication
Not applicable.
Competing Interests
The authors declare no competing interests.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Cobanoglu, H., Sevik, H. & Koç, İ. Do Annual Rings Really Reveal Cd, Ni, and Zn Pollution in the Air Related to Traffic Density? An Example of the Cedar Tree. Water Air Soil Pollut 234, 65 (2023). https://doi.org/10.1007/s11270-023-06086-1
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s11270-023-06086-1