Abstract
The measurement of heavy metal concentrations in plants is important both for determining their ability to remove these pollutants from the air to increase its quality, and for the monitoring of air quality. Previous studies have mostly focused on the use of annual leaves of broadleaved species as biomonitors. In this study, the aim was to determine the heavy metal accumulation of the perennial needles of some conifers. In almost all the species studied, concentrations of heavy metals were found to increase with the age of the tree, but this increase was not linear. There were significant differences between the species in terms of heavy metal accumulation. The highest concentrations were for Fe in Pinus nigra, Zn in Picea pungens, Pb in Pinus sylvestris, and for all the other heavy metals in Abies bornmülleriana. This study indicates that A. bornmülleriana is particularly useful as a biomonitor for many heavy metals, and also has the potential to remove heavy metals from the air.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aksoy A, Demirezen D (2006) Fraxinus excelsior as a biomonitor of heavy metal pollution. Pol J Environ Stud 15(1):27–33
Aksoy A, Sahin U (1999) Elaeagnus angustifolia L. as a biomonitor of heavy metal pollution. Turk J Bot 23(2):83–88
Anicic M, Spasic T, Tomasevic M, Rajsic S, Tasic M (2011) Trace elements accumulation and temporal trends in leaves of urban deciduous trees (Aesculus hippocastanum and Tilia ssp.). Ecol Indic 11(3):824–830
Beramendi-Orosco LE, Rodriguez-Estrada ML, Morton-Bermea O, Romero FM, Gonzalez-Hernandez G, Hernandez-Alvarez E (2013) Correlations between metals in tree-rings of Prosopis julifora as indicators of sources of heavy metal contamination. Appl Geochem 39:78–84
Ceburnis D, Steinnes E (2000) Conifer needles as bio-monitors of atmospheric heavy metal deposition: comparison with mosses and precipitation role of the canopy. Atmos Environ 34(25):4265–4271
Celik A, Kartal AA, Kaska Y (2005) Determining the heavy metal pollution in Denizli (Turkey) by using Robinia pseudo-acacia L. Environ Int 31(1):105–112
Cetin M (2016a) A change in the amount of CO2 at the center of the examination halls: case study of Turkey. Stud Ethno-Med 10(2):146–155
Cetin M (2016b) Determination of bioclimatic comfort areas in landscape planning: a case study of Cide coastline. Turk J Agric Food Sci Technol 4(9):800–804
Cetin M (2016c) Sustainability of urban coastal area management: a case study on Cide. J Sustain For 35(7):527–541
Cetin M (2016d) Changes in the amount of chlorophyll in some plants of landscape studies. Kastamonu Univ J For Fac 16(1):239–245
Cetin M (2017) Change in amount of chlorophyll in some interior ornamental plants. Kastamonu Univy J Eng Sci 3(1):11–19
Cetin M, Sevik H (2016a) The change of air quality in Kastamonu city in terms of particulate matter and CO2 amount. Oxid Commun 39(4-II):3394–3401
Cetin M, Sevik H (2016b) Measuring the impact of selected plants on indoor CO2 concentrations. Pol J Environ Stud 25(3):973–979
Cetin M, Sevik H, Isınkaralar K (2017a) Changes in the particulate matter and CO2 concentrations based on the time and weather conditions: the case of Kastamonu. Oxid Commun 40(1-II):477–485
Cetin M, Sevik H, Saat A (2017b) Indoor air quality: the samples of Safranbolu Bulak Mencilis Cave. Fresen Environ Bull 26(10):5965–5970
Cocozza C, Ravera S, Cherubini P, Lombardi F, Marchetti M, Tognetti R (2016) Integrated biomonitoring of airborne pollutants over space and time using tree rings, bark, leaves and epiphytic lichens. Urban For Urban Green 17:177–191
Conti ME, Cecchetti G (2001) Biological monitoring: lichens as bioindicators of air pollution assessment-a review. Environ Pollut 114(3):471–492
El-Hasan T, Al-Omari H, Jiries A, Al-Nasir F (2002) Cyprees tree (Cupressus semervirens L.) bark as an indicator for heavy metal pollution in the atmosphere of Amman City, Jordan. Environ Int 28(6):513–519
Fujiware F, Gomez OR, Dawidowski L, Perelman P, Faggi A (2011) Metals associated with airborne particulate matter in road dust and tree bark collected in a mega city (Buenos Aires, Argentina). Ecol Indic 11(2):240–247
Gao W, Jiang W, Xiong T, Sun S, Gao R (2015) The sources apportionment of heavy metal pollution base on tree ring in Jinan. In: Intelligent Computation Technology and Automation (ICICTA), 8th International Conference, 14 June 2015. IEEE, pp 1040–1043
Gratani L, Crescente MF, Varone L (2008) Long-term monitoring of metal pollution by urban trees. Atmos Environ 42(35):8273–8277
Monaci F, Moni F, Lonciotti E, Grechi D, Bargagli R (2000) Biomonitoring of airborne metals in urban environments: new tracers of vehicle emission, in place of lead. Environ Pollut 107(3):321–327
Norouzi S, Khademi H (2015) Source identification of heavy metals in atmospheric dust using Platanus orientalis L. leaves as bioindicator. Eurasian J Soil Sci 4(3):144
Oliva SR, Mingorance MD (2006) Assessment of airborne heavy metal pollution by aboveground plant parts. Chemosphere 65(2):177–182
Ozel HB, Ucun Ozel H, Varol T (2015) Using leaves of oriental plane (Platanus orientalis L.) to determine the effects of heavy metal pollution caused by vehicles. Pol J Environ Stud 24(6):2569–2575
Ozturk S, Bozdogan E (2014) Determination of the perceived quality of urban life in new and traditional housing textures. Fresen Environ Bull 23(10):2415–2421
Ozturk S, Bozdogan E (2015) The contribution of urban road trees on improving the air quality in an urban area. Fresen Environ Bull 24(5A):1822–1829
Panyushkina IP, Shishov VV, Grachev AM, Knorre AA, Kirdyanov AV, Leavitt SW, Vaganov EA, Chebykin EP, Zhuchenko NA, Hughes MK (2016) Trends in elemental concentrations of tree rings from the Siberian Arctic. Tree-Ring Res 72(2):67–77
Petrova S, Yurukova L, Velcheva I (2014) Possibilities of using deciduous tree species in trace element biomonitoring in an urban area (Plovdiv, Bulgaria). Atmos Pollut Res 5(2):196–202
Piczak K, Lesniewicz A, Zyrnicki W (2003) Metal concentrations in deciduous tree leaves from urban areas in Poland. Environ Monit Assess 86(3):273–287
Sawidis T, Breuste J, Mitrovic M, Pavlovic P, Tsigaridas K (2011) Trees as bioindicator of heavy metal pollution in three European cities. Environ Pollut 159(12):3560–3570
Sevik H, Cetin M, Belkayali N (2015) Effects of forests on amounts of CO2: case study of Kastamonu and Ilgaz Mountain National Parks. Pol J Environ Stud 24(1):253–256
Sevik H, Cetin M, Belkayali N (2016a) Determination of characteristics factors of grafted natural varieties in landscaping: a case study of black pine (Pinus nigra) clone. Oxid Commun 39(3-II):2820–2831
Sevik H, Cetin M, Kapucu O (2016b) Effect of light on young structures of Turkish fir (Abies nordmanniana subsp. bornmulleriana). Oxid Commun 39(1-II):485–492
Sevik H, Cetin M, Kapucu O, Aricak B, Canturk U (2017) Effects of light on morphologic and stomatal characteristics of Turkish fir needles (Abies nordmanniana subsp. bornmulleriana Mattf.) Fresen Environ Bull 26(11):6579–6587
Tomasevic M, Anicic M (2010) Trace element content in urban tree leaves and SEM-EDAX characterization of deposited particles. Phys Chem Technol 8(1):1–13
Turkish Statistic (2017) Turkish Statistical Institue. https://biruni.tuik.gov.tr/medas/?kn=89&locale=tr. Accessed 05 May 2017
Ugolini F, Tognetti R, Raschi A, Bacci L (2013) Quercus ilex L. as bioaccumulator for heavy metals in urban areas: effectiveness of leaf washing with distilled water and considerations on the trees distance from traffic. Urban For Urban Green 12(4):576–584
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Turkyilmaz, A., Sevik, H. & Cetin, M. The use of perennial needles as biomonitors for recently accumulated heavy metals. Landscape Ecol Eng 14, 115–120 (2018). https://doi.org/10.1007/s11355-017-0335-9
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11355-017-0335-9