Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems

Mandar Bandekar; Fazel Abdolahpur Monikh; Jukka Kekäläinen; Teemu Tahvanainen; Raine Kortet; Peng Zhang; Zhiling Guo; Jarkko Akkanen; Jari T. T. Leskinen; Miguel A. Gomez-Gonzalez; Gopala Krishna Darbha; Hans-Peter Grossart; Eugenia Valsami-Jones; Jussi V. K. Kukkonen

doi:10.1021/acs.est.2c04892

Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems

Mandar Bandekar, Fazel Abdolahpur Monikh^*, Jukka Kekäläinen, Teemu Tahvanainen, Raine Kortet, Peng Zhang, Zhiling Guo, Jarkko Akkanen, Jari T. T. Leskinen, Miguel A. Gomez-Gonzalez, Gopala Krishna Darbha, Hans-Peter Grossart, Eugenia Valsami-Jones, Jussi V. K. Kukkonen

^*Corresponding author for this work

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Abstract

The smallest fraction of plastic pollution, submicron plastics (SMPs <1 μm) are expected to be ubiquitous in the environment. No information is available about SMPs in peatlands, which have a key role in sequestering carbon in terrestrial ecosystems. It is unknown how these plastic particles might behave and interact with (micro)organisms in these ecosystems. Here, we show that the chemical composition of polystyrene (PS) and poly(vinyl chloride) (PVC)-SMPs influenced their adsorption to peat. Consequently, this influenced the accumualtion of SMPs by Sphagnum moss and the composition and diversity of the microbial communities in peatland. Natural organic matter (NOM), which adsorbs from the surrounding water to the surface of SMPs, decreased the adsorption of the particles to peat and their accumulation by Sphagnum moss. However, the presence of NOM on SMPs significantly altered the bacterial community structure compared to SMPs without NOM. Our findings show that peatland ecosystems can potentially adsorb plastic particles. This can not only impact mosses themselves but also change the local microbial communities.

Original language	English
Pages (from-to)	15661-15671
Number of pages	11
Journal	Environmental Science and Technology
Volume	56
Issue number	22
Early online date	3 Nov 2022
DOIs	https://doi.org/10.1021/acs.est.2c04892
Publication status	Published - 15 Nov 2022

Keywords

mesocosm
Sphagnum moss
poly(vinyl chloride)
polystyrene
gadolinium entrapped particles
accumulation

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BandekarM2022SubmicronFinal published version, 4.82 MBLicence: Creative Commons: Attribution (CC BY)

https://pubs.acs.org/doi/10.1021/acs.est.2c04892Licence: Creative Commons: Attribution (CC BY)

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Bandekar, M., Abdolahpur Monikh, F., Kekäläinen, J., Tahvanainen, T., Kortet, R., Zhang, P., Guo, Z., Akkanen, J., Leskinen, J. T. T., Gomez-Gonzalez, M. A., Krishna Darbha, G., Grossart, H.-P., Valsami-Jones, E., & Kukkonen, J. V. K. (2022). Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems. Environmental Science and Technology, 56(22), 15661-15671. https://doi.org/10.1021/acs.est.2c04892

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title = "Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems",

abstract = "The smallest fraction of plastic pollution, submicron plastics (SMPs <1 μm) are expected to be ubiquitous in the environment. No information is available about SMPs in peatlands, which have a key role in sequestering carbon in terrestrial ecosystems. It is unknown how these plastic particles might behave and interact with (micro)organisms in these ecosystems. Here, we show that the chemical composition of polystyrene (PS) and poly(vinyl chloride) (PVC)-SMPs influenced their adsorption to peat. Consequently, this influenced the accumualtion of SMPs by Sphagnum moss and the composition and diversity of the microbial communities in peatland. Natural organic matter (NOM), which adsorbs from the surrounding water to the surface of SMPs, decreased the adsorption of the particles to peat and their accumulation by Sphagnum moss. However, the presence of NOM on SMPs significantly altered the bacterial community structure compared to SMPs without NOM. Our findings show that peatland ecosystems can potentially adsorb plastic particles. This can not only impact mosses themselves but also change the local microbial communities.",

keywords = "mesocosm, Sphagnum moss, poly(vinyl chloride), polystyrene, gadolinium entrapped particles, accumulation",

author = "Mandar Bandekar and \{Abdolahpur Monikh\}, Fazel and Jukka Kek{\"a}l{\"a}inen and Teemu Tahvanainen and Raine Kortet and Peng Zhang and Zhiling Guo and Jarkko Akkanen and Leskinen, \{Jari T. T.\} and Gomez-Gonzalez, \{Miguel A.\} and \{Krishna Darbha\}, Gopala and Hans-Peter Grossart and Eugenia Valsami-Jones and Kukkonen, \{Jussi V. K.\}",

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month = nov,

day = "15",

doi = "10.1021/acs.est.2c04892",

language = "English",

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pages = "15661--15671",

journal = "Environmental Science and Technology",

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Bandekar, M, Abdolahpur Monikh, F, Kekäläinen, J, Tahvanainen, T, Kortet, R, Zhang, P , Guo, Z, Akkanen, J, Leskinen, JTT, Gomez-Gonzalez, MA, Krishna Darbha, G, Grossart, H-P, Valsami-Jones, E & Kukkonen, JVK 2022, 'Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems', Environmental Science and Technology, vol. 56, no. 22, pp. 15661-15671. https://doi.org/10.1021/acs.est.2c04892

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T1 - Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems

AU - Bandekar, Mandar

AU - Abdolahpur Monikh, Fazel

AU - Kekäläinen, Jukka

AU - Tahvanainen, Teemu

AU - Kortet, Raine

AU - Zhang, Peng

AU - Guo, Zhiling

AU - Akkanen, Jarkko

AU - Leskinen, Jari T. T.

AU - Gomez-Gonzalez, Miguel A.

AU - Krishna Darbha, Gopala

AU - Grossart, Hans-Peter

AU - Valsami-Jones, Eugenia

AU - Kukkonen, Jussi V. K.

PY - 2022/11/15

Y1 - 2022/11/15

N2 - The smallest fraction of plastic pollution, submicron plastics (SMPs <1 μm) are expected to be ubiquitous in the environment. No information is available about SMPs in peatlands, which have a key role in sequestering carbon in terrestrial ecosystems. It is unknown how these plastic particles might behave and interact with (micro)organisms in these ecosystems. Here, we show that the chemical composition of polystyrene (PS) and poly(vinyl chloride) (PVC)-SMPs influenced their adsorption to peat. Consequently, this influenced the accumualtion of SMPs by Sphagnum moss and the composition and diversity of the microbial communities in peatland. Natural organic matter (NOM), which adsorbs from the surrounding water to the surface of SMPs, decreased the adsorption of the particles to peat and their accumulation by Sphagnum moss. However, the presence of NOM on SMPs significantly altered the bacterial community structure compared to SMPs without NOM. Our findings show that peatland ecosystems can potentially adsorb plastic particles. This can not only impact mosses themselves but also change the local microbial communities.

AB - The smallest fraction of plastic pollution, submicron plastics (SMPs <1 μm) are expected to be ubiquitous in the environment. No information is available about SMPs in peatlands, which have a key role in sequestering carbon in terrestrial ecosystems. It is unknown how these plastic particles might behave and interact with (micro)organisms in these ecosystems. Here, we show that the chemical composition of polystyrene (PS) and poly(vinyl chloride) (PVC)-SMPs influenced their adsorption to peat. Consequently, this influenced the accumualtion of SMPs by Sphagnum moss and the composition and diversity of the microbial communities in peatland. Natural organic matter (NOM), which adsorbs from the surrounding water to the surface of SMPs, decreased the adsorption of the particles to peat and their accumulation by Sphagnum moss. However, the presence of NOM on SMPs significantly altered the bacterial community structure compared to SMPs without NOM. Our findings show that peatland ecosystems can potentially adsorb plastic particles. This can not only impact mosses themselves but also change the local microbial communities.

KW - mesocosm

KW - Sphagnum moss

KW - poly(vinyl chloride)

KW - polystyrene

KW - gadolinium entrapped particles

KW - accumulation

U2 - 10.1021/acs.est.2c04892

DO - 10.1021/acs.est.2c04892

M3 - Article

SN - 1382-3124

VL - 56

SP - 15661

EP - 15671

JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 22

ER -

Submicron Plastic Adsorption by Peat, Accumulation in Sphagnum Mosses and Influence on Bacterial Communities in Peatland Ecosystems

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Keywords

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