Ağır Metal ile Kontamine Toprakta Fungal Mikrobiyomun Metagenomik Analizi

Yazarlar

DOI:

https://doi.org/10.24925/turjaf.v11i9.1671-1677.6261

Anahtar Kelimeler:

Metagenomik Analiz- Fungal Mikrobiyota- Ağır metal- Mikrobiyom- Samsun OSB

Özet

Gelişen sanayi faaliyetleri ile birlikte günümüzün en önemli sorunlarından biri haline gelen ağır metal kontaminasyonu tüm canlı organizmalar için ciddi bir tehdittir. Bazı funguslar ağır metallere karşı direnç mekanizmalarına sahiptir ve bu durum iyileştirme süreçleri için sürdürülebilir bir yaklaşım olarak kabul edilmektedir. Bu çalışmanın amacı ağır metal kontaminasyonunun yüksek oranlarda olduğu alanlardaki dirençli fungal mikrobiyotayı belirleyerek ağır metallerin biyolojik ıslah yaklaşımlarına ışık tutmaktır. Araştırmada yüksek oranda ağır metal kirliliğine sahip Samsun Organize Sanayi Bölgesinden alınan toprak örneklerindeki Cr, Mn, Ni, Cu, Zn, Cd, Pb, As ve V ağır metal oranları ICP-OES ile tespit edilmiştir. Toprak fungal mikrobiyotası ise metagenenomik yeni nesil sekanslama teknolojisi kullanılarak belirlenmiştir. Metagenomik sekanslama için illumina MiSeq teknolojisi, istatistiksel mikrobiyom analizi için QIIME 2 2017,4 kullanılmıştır. Ağır metalle kontamine olmuş çalışma alanında en yüksek oranlarda sırasıyla Mortierella %53,90, Halokirschsteiniothelia %18,01, Rhizopogon %2,74, Cladosporium %,1,88, Aspergillus %1,62 ve Gibberella %1,12 cinsleri tespit edilmiştir. Sonuçlar metal konsantrasyonundaki fazlalığa dirençli taksonların ortamda dominant olduğunu göstermektedir.

Referanslar

Akpasi SO, Anekwe IMS, Tetteh EK, Amune UO, Shoyiga HO, Mahlangu TP, & Kiambi SL. 2023. Mycoremediation as a Potentially Promising Technology: Current Status and Prospects-A Review. Applied Sciences, 13(8):4978.

Alsabhan AH, Perveen K, Alwadi AS. 2022. Heavy metal content and microbial population in the soil of Riyadh Region, Saudi Arabia. Journal of King Saud University-Science, 34 (1):101671.

Antil S, Abraham JS, Sripoorna S, Maurya S, Dagar J, Makhija S, ... & Toteja R.(2023. DNA barcoding, an effective tool for species identification: a review. Molecular Biology Reports, 50(1):761-775.

Bertola M, Ferrarini A, & Visioli G. 2021. Improvement of soil microbial diversity through sustainable agricultural practices and its evaluation by-omics approaches: A perspective for the environment, food quality and human safety. Microorganisms, 9(7):1400.

Bolyen E, Rideout JR, Dillon MR, Bokulich NA, Abnet CC, Al-Ghalith GA, ... & Caporaso JG. 2019. Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2. Nature Biotechnology, 37(8):852-857.

Callahan BJ, McMurdie PJ, Rosen MJ, Han AW, Johnson AJA, & Holmes SP. 2016. DADA2: High-resolution sample inference from Illumina amplicon data. Nature Methods, 13(7):581-583.

Cesur A, Zeren Cetin I, Abo Aisha AES, Alrabiti OBM, Aljama AMO, Jawed AA, ... & Ozel HB. 2021. The usability of Cupressus arizonica annual rings in monitoring the changes in heavy metal concentration in air. Environmental Science and Pollution Research, 28(27): 35642-35648.

Chun SJ, Kim YJ, Cui Y, & Nam KH. 2021. Ecological network analysis reveals distinctive microbial modules associated with heavy metal contamination of abandoned mine soils in Korea. Environmental Pollution, 289:117851.

Cobanoglu H, Sevik H, & Koç İ. 2023. 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 Pollution, 234(2):65.

Cui Z, Zhang X, Yang H, & Sun L. 2017. Bioremediation of heavy metal pollution utilizing composite microbial agent of Mucor circinelloides, Actinomucor sp. and Mortierella sp. Journal of Environmental Chemical Engineering, 5(4):3616-3621.

Datta S, Rajnish KN, Samuel MS, Pugazlendhi A, & Selvarajan E. 2020. Metagenomic applications in microbial diversity, bioremediation, pollution monitoring, enzyme and drug discovery. A review. Environmental Chemistry Letters, 18:1229-1241.

Deshmukh R, Khardenavis AA, & Purohit HJ. 2016. Diverse metabolic capacities of fungi for bioremediation. Indian Journal of Microbiology, 56: 247-264.

Dusengemungu L, Gwanama C, Simuchimba G, & Mubemba B. (2022). Potential of bioaugmentation of heavy metal contaminated soils in the Zambian Copperbelt using autochthonous filamentous fungi. Frontiers in Microbiology, 13:1045671.

Elsunousi AAM, Sevik H, Cetin M, Ozel HB, Ucun Ozel H. 2021 Periodical and regional change of particulate matter and CO2 concentration in Misurata. Environ Monit Assess 193: 707(2021). DOI: 10.1007/s10661-021-09478-0

Ghoma WEO, Sevik H, & Isinkaralar K. 2023. Comparison of the rate of certain trace metals accumulation in indoor plants for smoking and non-smoking areas. Environmental Science and Pollution Research, 1-9.

Huang WL, Wu PC, & Chiang TY. 2022. Metagenomics: Potential for bioremediation of soil contaminated with heavy metals. Ecological Genetics and Genomics, 22:100111.

Isinkaralar K, Isinkaralar O, Koç İ, Özel HB, & Sevik H. 2023. Assessing the possibility of airborne bismuth accumulation and spatial distribution in an urban area by tree bark: A case study in Düzce, Türkiye. Biomass Conversion and Biorefinery, 1-12.

Istanbullu SN, Sevik H, Isinkaralar K, & Isinkaralar O. 2023. Spatial distribution of heavy metal contamination in road dust samples from an urban environment in Samsun, Türkiye. Bulletin of Environmental Contamination and Toxicology, 110(4):78.

Jeyakumar P, Debnath C, Vijayaraghavan R, Muthuraj M. 2023. Trends in bioremediation of heavy metal contaminations. Environmental Engineering Research, 28 (4):2021.631.

Kumar V, & Dwivedi SK. 2021. Mycoremediation of heavy metals: processes, mechanisms, and affecting factors. Environmental Science and Pollution Research, 28(9):10375-10412.

Kuzmina N, Menshchikov S, Mohnachev P, Zavyalov K, Petrova I, Ozel HB, ... & Sevik H. 2023. Change of aluminum concentrations in specific plants by species, organ, washing, and traffic density. BioResources, 18(1):792.

Li X, Zhang X, & Cui Z. 2017. Combined bioremediation for lead in mine tailings by Solanum nigrum L. and indigenous fungi. Chemistry and Ecology, 33(10): 932-948.

Luo ZB, Wu C, Zhang C, Li H, Lipka U, & Polle A. 2014. The role of ectomycorrhizas in heavy metal stress tolerance of host plants. Environmental and Experimental Botany, 108: 47-62.

Morelli M, Bahar O, Papadopoulou KK, Hopkins DL, & Obradović A. 2020. Role of endophytes in plant health and defense against pathogens. Frontiers in Plant Science, 11: 1312.

Priya AK, Gnanasekaran L, Dutta K, Rajendran S, Balakrishnan D, & Soto-Moscoso M. 2022. Biosorption of heavy metals by microorganisms: Evaluation of different underlying mechanisms. Chemosphere, 307: 135957.

Singh V, Singh J, & Mishra V. 2021. Development of a cost-effective, recyclable and viable metal ion doped adsorbent for simultaneous adsorption and reduction of toxic Cr (VI) ions. Journal of Environmental Chemical Engineering, 9(2): 105124.

Singh V, Singh MP, Mishra V. 2020. Bioremediation of toxic metal ions from coal washery effluent Desalin. Water Treat, 197: 300-318:10.5004/dwt.2020.25996

Soanes D, & Richards TA. 2014. Horizontal gene transfer in eukaryotic plant pathogens. Annual Review of Phytopathology, 52: 583-614.

Tu C, Liu Y, Wei J, Li L, Scheckel KG, & Luo Y. 2018. Characterization and mechanism of copper biosorption by a highly copper-resistant fungal strain isolated from copper-polluted acidic orchard soil. Environmental Science and Pollution Research, 25: 24965-24974.

Vaksmaa A, Guerrero-Cruz S, Ghosh P, Zeghal E, Hernando-Morales V, Niemann H. 2023. Role of fungi in bioremediation of emerging pollutants. Frontiers in Marine Science 10:1070905

Wang M, Xu Z, Dong B, Zeng Y, Chen S, Zhang Y, ... & Pei X. 2022. An efficient manganese-oxidizing fungus Cladosporium halotolerans strain XM01: Mn (II) oxidization and Cd adsorption behavior. Chemosphere, 287:132026.

White TJ, Bruns T, Lee SJWT, & Taylor J. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. PCR Protocols: A Guide to Methods and Applications, 18(1):315-322.

Yayla EE, 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):687.

Zhang J, Fan X, Wang X, Tang Y, Zhang H, Yuan Z, ... & Li T. 2022. Bioremediation of a saline-alkali soil polluted with Zn using ryegrass associated with Fusarium incarnatum. Environmental Pollution, 312:119929.

İndir

Yayınlanmış

2023-09-30

Nasıl Atıf Yapılır

Çebi Kılıçoğlu, M. (2023). Ağır Metal ile Kontamine Toprakta Fungal Mikrobiyomun Metagenomik Analizi. Türk Tarım - Gıda Bilim Ve Teknoloji Dergisi, 11(9), 1671–1677. https://doi.org/10.24925/turjaf.v11i9.1671-1677.6261

Sayı

Cilt 11 Sayı 9 (2023)

Bölüm

Araştırma Makalesi

Lisans

Creative Commons License

Bu çalışma Creative Commons Attribution-NonCommercial 4.0 International License ile lisanslanmıştır.