Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns

Danyang Tao; Chengzhang Li; Yajing Sun; Yuefei Ruan; Qianqian Jin; Jiaji Sun; Yichun Lu; Brian C. W. Kot; Paul K. S. Lam; Fengchang Wu; Jia He; John P. Giesy; Kurunthachalam Kannan; Bo Liang; Wenhua Liu; Lin Zhang; Yunsong Mu; Kenneth M. Y. Leung; Yuhe He

doi:10.1021/acs.est.5c17767

Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns

Danyang Tao, Chengzhang Li, Yajing Sun, Yuefei Ruan, Qianqian Jin, Jiaji Sun, Yichun Lu, Brian C. W. Kot, Paul K. S. Lam, Fengchang Wu, Jia He, John P. Giesy, Kurunthachalam Kannan, Bo Liang^*, Wenhua Liu, Lin Zhang, Yunsong Mu, Kenneth M. Y. Leung, Yuhe He^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

Liquid crystal monomers (LCMs), critical substances of liquid crystal displays in consumer electronics, are persistent pollutants, posing potential threats to marine ecosystems. Despite their bioaccumulative potential, their occurrence and possible biological impacts on marine megafauna remain understudied. We investigated LCM occurrence in Indo-Pacific humpback dolphins (Sousa chinensis) and finless porpoises (Neophocaena phocaenoides) collected from the South China Sea (2007–2021) and assessed their toxicity through in vitro assays using established dolphin cell lines. By employing robust source-tracing methodologies, we provide the first evidence that LCMs from household electronics and coastal e-waste accumulate in cetacean tissues, including blubber, muscle, and, critically, brain tissues, demonstrating blood–brain barrier penetration, a previously undocumented phenomenon of LCMs in mammalian wildlife. The temporal trend of LCM burden in porpoise blubber is correlated with shifts in global liquid crystal display production. Transcriptomic profiling revealed LCM-induced DNA damage, cell cycle arrest, and impaired cell division in cetacean cells. These findings suggest that LCMs may pose potential risks to the nervous system and other organs of marine mammals, warranting further investigation into their toxicological effects and possible implications for human health. By bridging critical gaps among everyday electronics, LCM contamination, and marine conservation, this study highlights the need for urgent regulatory actions and improved e-waste governance to mitigate ecological and public health risks. © 2026 The Authors. Published by American Chemical Society.

Original language	English
Pages (from-to)	7437-7448
Number of pages	12
Journal	Environmental Science and Technology
Volume	60
Issue number	9
Online published	25 Feb 2026
DOIs	https://doi.org/10.1021/acs.est.5c17767
Publication status	Published - 10 Mar 2026

Funding

Y.H. acknowledges support from the National Natural Science Foundation of China (42177223), Research Grants Council of Hong Kong (CityU 11311222, 11300723), Marine Ecology and Enhancement Fund (MEEF2021002), and Marine Conservation and Enhancement Fund (MCEF22002). B.L. acknowledges support from STU Scientific Research Initiation Grant (NTF23039) and the National Science Foundation for Young Scientists of China (4200615). W.L. acknowledges support from the Key Program of Marine Economy Development (Six Marine Industries) Special Foundation of the Department of Natural Resources of Guangdong Province (GDNRC[2022]48). K.M.Y.L. acknowledges support from the Innovation and Technology Commission (ITC) of the Hong Kong SAR Government, which provides regular research funding to the State Key Laboratory of Marine Environmental Health (SKLMP 9448002). However, any opinions, findings, conclusions, or recommendations expressed in this publication do not reflect the views of the Hong Kong SAR Government or the ITC.

Research Keywords

DNA damage
E-waste
Indo-Pacific cetaceans
Liquid crystal monomers (LCMs)
Tissue enrichment

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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Tao, D., Li, C., Sun, Y., Ruan, Y., Jin, Q., Sun, J., Lu, Y., Kot, B. C. W., Lam, P. K. S., Wu, F., He, J., Giesy, J. P., Kannan, K., Liang, B., Liu, W., Zhang, L., Mu, Y., Leung, K. M. Y., & He, Y. (2026). Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns. Environmental Science and Technology, 60(9), 7437-7448. https://doi.org/10.1021/acs.est.5c17767

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title = "Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns",

abstract = "Liquid crystal monomers (LCMs), critical substances of liquid crystal displays in consumer electronics, are persistent pollutants, posing potential threats to marine ecosystems. Despite their bioaccumulative potential, their occurrence and possible biological impacts on marine megafauna remain understudied. We investigated LCM occurrence in Indo-Pacific humpback dolphins (Sousa chinensis) and finless porpoises (Neophocaena phocaenoides) collected from the South China Sea (2007–2021) and assessed their toxicity through in vitro assays using established dolphin cell lines. By employing robust source-tracing methodologies, we provide the first evidence that LCMs from household electronics and coastal e-waste accumulate in cetacean tissues, including blubber, muscle, and, critically, brain tissues, demonstrating blood–brain barrier penetration, a previously undocumented phenomenon of LCMs in mammalian wildlife. The temporal trend of LCM burden in porpoise blubber is correlated with shifts in global liquid crystal display production. Transcriptomic profiling revealed LCM-induced DNA damage, cell cycle arrest, and impaired cell division in cetacean cells. These findings suggest that LCMs may pose potential risks to the nervous system and other organs of marine mammals, warranting further investigation into their toxicological effects and possible implications for human health. By bridging critical gaps among everyday electronics, LCM contamination, and marine conservation, this study highlights the need for urgent regulatory actions and improved e-waste governance to mitigate ecological and public health risks. {\textcopyright} 2026 The Authors. Published by American Chemical Society.",

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author = "Danyang Tao and Chengzhang Li and Yajing Sun and Yuefei Ruan and Qianqian Jin and Jiaji Sun and Yichun Lu and Kot, {Brian C. W.} and Lam, {Paul K. S.} and Fengchang Wu and Jia He and Giesy, {John P.} and Kurunthachalam Kannan and Bo Liang and Wenhua Liu and Lin Zhang and Yunsong Mu and Leung, {Kenneth M. Y.} and Yuhe He",

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Tao, D, Li, C, Sun, Y, Ruan, Y , Jin, Q , Sun, J , Lu, Y , Kot, BCW, Lam, PKS, Wu, F, He, J, Giesy, JP, Kannan, K, Liang, B, Liu, W, Zhang, L, Mu, Y, Leung, KMY & He, Y 2026, 'Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns', Environmental Science and Technology, vol. 60, no. 9, pp. 7437-7448. https://doi.org/10.1021/acs.est.5c17767

TY - JOUR

T1 - Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns

AU - Tao, Danyang

AU - Li, Chengzhang

AU - Sun, Yajing

AU - Ruan, Yuefei

AU - Jin, Qianqian

AU - Sun, Jiaji

AU - Lu, Yichun

AU - Kot, Brian C. W.

AU - Lam, Paul K. S.

AU - Wu, Fengchang

AU - He, Jia

AU - Giesy, John P.

AU - Kannan, Kurunthachalam

AU - Liang, Bo

AU - Liu, Wenhua

AU - Zhang, Lin

AU - Mu, Yunsong

AU - Leung, Kenneth M. Y.

AU - He, Yuhe

PY - 2026/3/10

Y1 - 2026/3/10

N2 - Liquid crystal monomers (LCMs), critical substances of liquid crystal displays in consumer electronics, are persistent pollutants, posing potential threats to marine ecosystems. Despite their bioaccumulative potential, their occurrence and possible biological impacts on marine megafauna remain understudied. We investigated LCM occurrence in Indo-Pacific humpback dolphins (Sousa chinensis) and finless porpoises (Neophocaena phocaenoides) collected from the South China Sea (2007–2021) and assessed their toxicity through in vitro assays using established dolphin cell lines. By employing robust source-tracing methodologies, we provide the first evidence that LCMs from household electronics and coastal e-waste accumulate in cetacean tissues, including blubber, muscle, and, critically, brain tissues, demonstrating blood–brain barrier penetration, a previously undocumented phenomenon of LCMs in mammalian wildlife. The temporal trend of LCM burden in porpoise blubber is correlated with shifts in global liquid crystal display production. Transcriptomic profiling revealed LCM-induced DNA damage, cell cycle arrest, and impaired cell division in cetacean cells. These findings suggest that LCMs may pose potential risks to the nervous system and other organs of marine mammals, warranting further investigation into their toxicological effects and possible implications for human health. By bridging critical gaps among everyday electronics, LCM contamination, and marine conservation, this study highlights the need for urgent regulatory actions and improved e-waste governance to mitigate ecological and public health risks. © 2026 The Authors. Published by American Chemical Society.

AB - Liquid crystal monomers (LCMs), critical substances of liquid crystal displays in consumer electronics, are persistent pollutants, posing potential threats to marine ecosystems. Despite their bioaccumulative potential, their occurrence and possible biological impacts on marine megafauna remain understudied. We investigated LCM occurrence in Indo-Pacific humpback dolphins (Sousa chinensis) and finless porpoises (Neophocaena phocaenoides) collected from the South China Sea (2007–2021) and assessed their toxicity through in vitro assays using established dolphin cell lines. By employing robust source-tracing methodologies, we provide the first evidence that LCMs from household electronics and coastal e-waste accumulate in cetacean tissues, including blubber, muscle, and, critically, brain tissues, demonstrating blood–brain barrier penetration, a previously undocumented phenomenon of LCMs in mammalian wildlife. The temporal trend of LCM burden in porpoise blubber is correlated with shifts in global liquid crystal display production. Transcriptomic profiling revealed LCM-induced DNA damage, cell cycle arrest, and impaired cell division in cetacean cells. These findings suggest that LCMs may pose potential risks to the nervous system and other organs of marine mammals, warranting further investigation into their toxicological effects and possible implications for human health. By bridging critical gaps among everyday electronics, LCM contamination, and marine conservation, this study highlights the need for urgent regulatory actions and improved e-waste governance to mitigate ecological and public health risks. © 2026 The Authors. Published by American Chemical Society.

KW - DNA damage

KW - E-waste

KW - Indo-Pacific cetaceans

KW - Liquid crystal monomers (LCMs)

KW - Tissue enrichment

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DO - 10.1021/acs.est.5c17767

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SN - 0013-936X

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JO - Environmental Science and Technology

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ER -

Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns

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GRF: Toxicokinetics and Toxicodynamics of an Emerging Group of E-waste Pollutants Liquid Crystal Monomers in Zebrafish

GRF: Occurrence and Environmental Risk of Liquid Crystal Monomers - An Emerging Group of E-waste Pollutants Found in Municipal Wastewater

Cite this

Liquid Crystal Monomers Released from LCD Displays Accumulate in Endangered Marine Cetaceans Triggering Health Concerns

Abstract

Funding

Research Keywords

Publisher's Copyright Statement

Access Output

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Projects

GRF: Toxicokinetics and Toxicodynamics of an Emerging Group of E-waste Pollutants Liquid Crystal Monomers in Zebrafish

GRF: Occurrence and Environmental Risk of Liquid Crystal Monomers - An Emerging Group of E-waste Pollutants Found in Municipal Wastewater

Cite this