Total mercury and methylmercury concentrations over a gradient of contamination in earthworms living in rice paddy soil

Abeysinghe, Kasun S.; Yang, Xiao-Dong; Goodale, Eben; Anderson, Christopher W. N.; Bishop, Kevin; Cao, Axiang; Feng, Xinbin; Liu, Shengjie; Mammides, Christos; Meng, Bo; Quan, Rui-Chang; Sun, Jing; Qiu, Guangle

doi:10.1002/etc.3643

Research article2017Peer reviewed

Total mercury and methylmercury concentrations over a gradient of contamination in earthworms living in rice paddy soil

Abeysinghe, Kasun S.; Yang, Xiao-Dong; Goodale, Eben; Anderson, Christopher W. N.; Bishop, Kevin; Cao, Axiang; Feng, Xinbin; Liu, Shengjie; Mammides, Christos; Meng, Bo; Quan, Rui-Chang; Sun, Jing; Qiu, Guangle

Abstract

Mercury (Hg) deposited from emissions or from local contamination, can have serious health effects on humans and wildlife. Traditionally, Hg has been seen as a threat to aquatic wildlife, because of its conversion in suboxic conditions into bioavailable methylmercury (MeHg), but it can also threaten contaminated terrestrial ecosystems. In Asia, rice paddies in particular may be sensitive ecosystems. Earthworms are soil-dwelling organisms that have been used as indicators of Hg bioavailability; however, the MeHg concentrations they accumulate in rice paddy environments are not well known. Earthworm and soil samples were collected from rice paddies at progressive distances from abandoned mercury mines in Guizhou, China, and at control sites without a history of Hg mining. Total Hg (THg) and MeHg concentrations declined in soil and earthworms as distance increased from the mines, but the percentage of THg that was MeHg, and the bioaccumulation factors in earthworms, increased over this gradient. This escalation in methylation and the incursion of MeHg into earthworms may be influenced by more acidic soil conditions and higher organic content further from the mines. In areas where the source of Hg is deposition, especially in water-logged and acidic rice paddy soil, earthworms may biomagnify MeHg more than was previously reported. It is emphasized that rice paddy environments affected by acidifying deposition may be widely dispersed throughout Asia. (C) 2016 SETAC

Keywords

Biomagnification; Earthworms; Ecotoxicology; Mercury biomonitoring; Soil contamination

Published in

Environmental Toxicology and Chemistry
2017, Volume: 36, number: 5, pages: 1202-1210
Publisher: WILEY

SLU Authors

Bishop, Kevin
- Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences
- Uppsala University

Sustainable Development Goals

SDG15 Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss
SDG3 Ensure healthy lives and promote well-being for all at all ages

UKÄ Subject classification

Environmental Sciences

Publication identifier

DOI: https://doi.org/10.1002/etc.3643

Permanent link to this page (URI)

https://res.slu.se/id/publ/90556