Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us?

Mercia Barcellos da Costa; João Marcos Schuab; Cristina Maria dos Santos Sad; Enrique Ronald Yapuchura Ocaris; Mariana Beatriz Paz Otegui; Daniel Gosser Motta; Karina Machado Menezes; Felipe Barcellos Caniçali; Antônio Augusto Lopes Marins; Gustavo Zambon Dalbó; Mateus Marçal; Bruno Fioresi Paqueli; Gabriela Carvalho Zamprogno

doi:10.1016/j.jhazmat.2024.135190

Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us?

Mercia Barcellos da Costa, João Marcos Schuab, Cristina Maria dos Santos Sad, Enrique Ronald Yapuchura Ocaris, Mariana Beatriz Paz Otegui, Daniel Gosser Motta, Karina Machado Menezes, Felipe Barcellos Caniçali, Antônio Augusto Lopes Marins, Gustavo Zambon Dalbó, Mateus Marçal, Bruno Fioresi Paqueli, Gabriela Carvalho Zamprogno

Producción científica: Artículo Científico › Artículo original › revisión exhaustiva

7 Citas (Scopus)

Resumen

The World Health Organization categorizes air pollution as the presence of one or more contaminants in the atmosphere such as smoke, dust, and particulate matter like microplastics, which are considered a priority pollutant. However, only a few studies have been developed on atmospheric pollution, and knowledge about MPs in the atmosphere is still limited. Spider webs have been tested and used as a passive sampling approach to study anthropogenic pollution. Despite this, studies on microplastic contamination using spiderwebs as samplers are scarce. Thus, this study uses spider webs as passive indicators to investigate air quality regarding microplastic contamination in an urbanized area. Therefore, 30 sampling points were selected, and webs of Nephilingis cruentata were collected. The spider webs were dipped in KOH 10 %. After digestion, the solution was washed and sieved through a 90 µm geological sieve. The remaining material was transferred to a Petri dish with filter paper, quantified, and identified by type and color. The chemical composition of the polymers was determined using Raman spectroscopy. 3138 microplastics were identified (2973 filaments and 165 fragments). The most frequent colors were blue and black. Raman spectroscopy revealed five types of polymers: Isotactic Polypropylene, Polyethylene Terephthalate, Polyurethane, Polyamide, and Direct Polyethylene.

Idioma original	Inglés estadounidense
-	135190
Publicación	Journal of Hazardous Materials
Volumen	477
DOI	https://doi.org/10.1016/j.jhazmat.2024.135190
Estado	Indizado - 15 set. 2024
Publicado de forma externa	Sí

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© 2024 Elsevier B.V.

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Costa, M. B. D., Schuab, J. M., Sad, C. M. D. S., Ocaris, E. R. Y., Otegui, M. B. P., Motta, D. G., Menezes, K. M., Caniçali, F. B., Marins, A. A. L., Dalbó, G. Z., Marçal, M., Paqueli, B. F., & Zamprogno, G. C. (2024). Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us? Journal of Hazardous Materials, 477, Artículo 135190. https://doi.org/10.1016/j.jhazmat.2024.135190

@article{b55a3ba8c85e47c59e52e1b81692aafc,

title = "Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us?",

abstract = "The World Health Organization categorizes air pollution as the presence of one or more contaminants in the atmosphere such as smoke, dust, and particulate matter like microplastics, which are considered a priority pollutant. However, only a few studies have been developed on atmospheric pollution, and knowledge about MPs in the atmosphere is still limited. Spider webs have been tested and used as a passive sampling approach to study anthropogenic pollution. Despite this, studies on microplastic contamination using spiderwebs as samplers are scarce. Thus, this study uses spider webs as passive indicators to investigate air quality regarding microplastic contamination in an urbanized area. Therefore, 30 sampling points were selected, and webs of Nephilingis cruentata were collected. The spider webs were dipped in KOH 10 \%. After digestion, the solution was washed and sieved through a 90 µm geological sieve. The remaining material was transferred to a Petri dish with filter paper, quantified, and identified by type and color. The chemical composition of the polymers was determined using Raman spectroscopy. 3138 microplastics were identified (2973 filaments and 165 fragments). The most frequent colors were blue and black. Raman spectroscopy revealed five types of polymers: Isotactic Polypropylene, Polyethylene Terephthalate, Polyurethane, Polyamide, and Direct Polyethylene.",

keywords = "Anthropogenic impacts, Plastic pollution, Raman spectroscopy, Urban Ecology, Urban air quality",

author = "Costa, \{Mercia Barcellos da\} and Schuab, \{Jo{\~a}o Marcos\} and Sad, \{Cristina Maria dos Santos\} and Ocaris, \{Enrique Ronald Yapuchura\} and Otegui, \{Mariana Beatriz Paz\} and Motta, \{Daniel Gosser\} and Menezes, \{Karina Machado\} and Cani{\c c}ali, \{Felipe Barcellos\} and Marins, \{Ant{\^o}nio Augusto Lopes\} and Dalb{\'o}, \{Gustavo Zambon\} and Mateus Mar{\c c}al and Paqueli, \{Bruno Fioresi\} and Zamprogno, \{Gabriela Carvalho\}",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier B.V.",

year = "2024",

month = sep,

day = "15",

doi = "10.1016/j.jhazmat.2024.135190",

language = "American English",

volume = "477",

journal = "Journal of Hazardous Materials",

issn = "0304-3894",

publisher = "Elsevier B.V.",

}

Costa, MBD, Schuab, JM, Sad, CMDS, Ocaris, ERY, Otegui, MBP, Motta, DG, Menezes, KM, Caniçali, FB, Marins, AAL, Dalbó, GZ, Marçal, M, Paqueli, BF & Zamprogno, GC 2024, 'Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us?', Journal of Hazardous Materials, vol. 477, 135190. https://doi.org/10.1016/j.jhazmat.2024.135190

TY - JOUR

T1 - Microplastic atmospheric pollution in an urban Southern Brazil region

T2 - What can spider webs tell us?

AU - Costa, Mercia Barcellos da

AU - Schuab, João Marcos

AU - Sad, Cristina Maria dos Santos

AU - Ocaris, Enrique Ronald Yapuchura

AU - Otegui, Mariana Beatriz Paz

AU - Motta, Daniel Gosser

AU - Menezes, Karina Machado

AU - Caniçali, Felipe Barcellos

AU - Marins, Antônio Augusto Lopes

AU - Dalbó, Gustavo Zambon

AU - Marçal, Mateus

AU - Paqueli, Bruno Fioresi

AU - Zamprogno, Gabriela Carvalho

PY - 2024/9/15

Y1 - 2024/9/15

N2 - The World Health Organization categorizes air pollution as the presence of one or more contaminants in the atmosphere such as smoke, dust, and particulate matter like microplastics, which are considered a priority pollutant. However, only a few studies have been developed on atmospheric pollution, and knowledge about MPs in the atmosphere is still limited. Spider webs have been tested and used as a passive sampling approach to study anthropogenic pollution. Despite this, studies on microplastic contamination using spiderwebs as samplers are scarce. Thus, this study uses spider webs as passive indicators to investigate air quality regarding microplastic contamination in an urbanized area. Therefore, 30 sampling points were selected, and webs of Nephilingis cruentata were collected. The spider webs were dipped in KOH 10 %. After digestion, the solution was washed and sieved through a 90 µm geological sieve. The remaining material was transferred to a Petri dish with filter paper, quantified, and identified by type and color. The chemical composition of the polymers was determined using Raman spectroscopy. 3138 microplastics were identified (2973 filaments and 165 fragments). The most frequent colors were blue and black. Raman spectroscopy revealed five types of polymers: Isotactic Polypropylene, Polyethylene Terephthalate, Polyurethane, Polyamide, and Direct Polyethylene.

AB - The World Health Organization categorizes air pollution as the presence of one or more contaminants in the atmosphere such as smoke, dust, and particulate matter like microplastics, which are considered a priority pollutant. However, only a few studies have been developed on atmospheric pollution, and knowledge about MPs in the atmosphere is still limited. Spider webs have been tested and used as a passive sampling approach to study anthropogenic pollution. Despite this, studies on microplastic contamination using spiderwebs as samplers are scarce. Thus, this study uses spider webs as passive indicators to investigate air quality regarding microplastic contamination in an urbanized area. Therefore, 30 sampling points were selected, and webs of Nephilingis cruentata were collected. The spider webs were dipped in KOH 10 %. After digestion, the solution was washed and sieved through a 90 µm geological sieve. The remaining material was transferred to a Petri dish with filter paper, quantified, and identified by type and color. The chemical composition of the polymers was determined using Raman spectroscopy. 3138 microplastics were identified (2973 filaments and 165 fragments). The most frequent colors were blue and black. Raman spectroscopy revealed five types of polymers: Isotactic Polypropylene, Polyethylene Terephthalate, Polyurethane, Polyamide, and Direct Polyethylene.

KW - Anthropogenic impacts

KW - Plastic pollution

KW - Raman spectroscopy

KW - Urban Ecology

KW - Urban air quality

UR - https://www.scopus.com/pages/publications/85199409963

U2 - 10.1016/j.jhazmat.2024.135190

DO - 10.1016/j.jhazmat.2024.135190

M3 - Original Article

C2 - 39053063

AN - SCOPUS:85199409963

SN - 0304-3894

VL - 477

JO - Journal of Hazardous Materials

JF - Journal of Hazardous Materials

M1 - 135190

ER -

Microplastic atmospheric pollution in an urban Southern Brazil region: What can spider webs tell us?

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