Mercury concentrations in the goliath grouper of Belize: an anthropogenic stressor of concern

Evers, DC and Graham, RT and Perkins, CR and Michener, R and Divoll, T (2009) Mercury concentrations in the goliath grouper of Belize: an anthropogenic stressor of concern. Endangered Species Research, 7. pp. 249-256. ISSN 1863-5407

[img]
Preview
PDF
Download (458Kb)
    External Download URL: http://dx.doi.org/10.3354/esr00158

    Abstract

    Global levels of available methylmercury (MeHg) in aquatic ecosystems have increased dramatically over the past century. Recent findings in temperate North America have shown that biological mercury (Hg) hotspots exist, and these hotspots can be related to local emission and effluent sources. Life history traits of the goliath grouper Epinephelus itajara place it as a species at high risk of adverse effects from environmental Hg loads. Muscle Hg analyses for 57 goliath groupers sampled in southern Belize reveal that 40% exceed United States governmental advisory criteria for human health; all individual grouper exceeding these criteria were >55 cm total length. People, particularly from coastal areas in southern Belize, commonly consume goliath grouper. The regular consumption of goliath grouper by sensitive groups of people, such as pregnant women, should be closely monitored, particularly in biological Hg hotspots. Stable isotope analysis for δ13C and δ15N in goliath grouper indicates a broad prey base with a relatively high trophic status. Through biomagnification and bioaccumulation of MeHg, older individuals are therefore at greatest risk of physiological impairment, particularly when performing complex and coordinated behaviors, such as those associated with spawning aggregations. Potential adverse effects of MeHg loads on goliath grouper, including predator avoidance, impaired growth rates, and lowered reproductive success, warrant investigation. This is particularly urgent for the critically endangered goliath grouper because of recent range-wide population declines, loss of spawning aggregations, and our findings, which present compelling evidence that tropical marine ecosystems are sensitive to Hg inputs.

    Item Type: Peer-reviewed Journal Article
    Related URLs:
    Unique ID or DOI: 10.3354/esr00158
    Publisher: Inter Research
    Keywords: Goliath grouper · Mercury · Belize · Stable isotopes · Human health · Conservation
    Subjects: (A) Biodiversity > (AC) Fish > (ACB) Marine
    (Z) Other or Unspecified
    Publication Sources: (3) Other Source > (3D) Other or Unspecified
    Date Deposited: 07 Dec 2010 13:49
    Last Modified: 20 Jan 2011 14:28
    URI: http://eprints.uberibz.org/id/eprint/1094

    Actions (login required)

    View Item