Journals A-Z
All Subjects
Free Journals
sciepub.com
American Journal of Environmental Protection
ISSN (Print): 2328-7241 ISSN (Online): 2328-7233 Website: https://www.sciepub.com/journal/env Editor-in-chief: Mohsen Saeedi, Hyo Choi
Open Access
Journal Browser
Go
Issue 1, Volume 7
Article Metrics
  • 10165
    Views
  • 10190
    Saves
  • 0
    Citations
  • 0
    Likes
Export Article
American Journal of Environmental Protection. 2019, 7(1), 13-16
DOI: 10.12691/env-7-1-3
Open AccessArticle

Environmental Health Assessment Using Sentinel Species near Placencia Lagoon, Belize

Sheila A. Scoville1, , J. Peter Doherty2, Marisa Tellez3, 4 and Sierra McLinn4

1Department of Pathology and Anatomy, Eastern Virginia Medical School, Norfolk, VA USA 23547

2214 84th St, Virginia Beach, VA 23451

3Crocodile Research Coalition

4Ecology and Evolutionary Marine Biology, University of California Santa Barbara, Santa Barbara, CA USA 93106

Pub. Date: March 28, 2019
View Full Text Full Text PDF (276 KB) Full Text ePUB(58 KB)

Cite this paper:
Sheila A. Scoville, J. Peter Doherty, Marisa Tellez and Sierra McLinn. Environmental Health Assessment Using Sentinel Species near Placencia Lagoon, Belize. American Journal of Environmental Protection. 2019; 7(1):13-16. doi: 10.12691/env-7-1-3

Abstract

Unexplained bird deaths discovered around Placencia Lagoon, Belize over a 2-year period sparked an investigation into the environmental health of the lagoon and two of its major tributaries. In this study, conducted from January 23 to February 28, 2018, we assessed avian health within two commercial aquaculture facilities, each with a substantial outflow into the lagoon; a shrimp farm and a tilapia farm. Birds were chosen as our study subjects not only because of previous bird deaths, but also as sentinel species to assess overall possible contamination. Both facilities had previously been affected by die-offs of their cultivated product. The variety of sampled bird species, both year-round and winter residents, fed on small fish, airborne insects, mud-dwelling invertebrates and/or plant material, i.e. seeds and fruits, thereby sampling air, soil and water as possible bioaccumulation vectors. We trapped birds in, or nearby outflow containment ponds which emptied into the lagoon. Additionally, we assessed avian health at two reference locations on Placencia Penninsula, not known for avian health problems. Birds from multiple families representing different ecological niches were captured using two net types. We conducted standard ornithological assessments, measured hematocrit, made an evaluation of ectoparasite load and types, and for shorebirds, examined fecal swabs for parasites. Measured values were compared to published data and a previously established database from data collected elsewhere in the Caribbean. For each of the major sites, an extensive period of evaluation was later followed with a shorter, second evaluation at each location. Except for a single, second-year, Brown Pelican (Pelicanus occidentalis) evaluated one day at the close of the study, 257 birds were found to be healthy on all parameters including hematocrit and parasite load. We observed that the pelican had not been present previously and inferred that its health problems were acquired at another site. This conclusion was corroborated by the concurrent discovery of dead or dying pelicans along the Belize coast near the end of this investigation.

Keywords:
sentinel species avian hematocrit Belize Brown Pelican ectoparasite neotropical migratory birds

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

References:

[1]  National Research Council (U.S.). Committee on Animals as Monitors of Environmental Hazards, "Animals as Sentinels of Environmental Health Hazards: Committee on Animals as Monitors of Environmental Hazards," National Academy Press: 1991, ISBN 0309040469.
 
[2]  Doherty, J.P. (2009) A modern, portable drop net can safely capture a suite of shorebirds. Waterbirds Vol. 32, No.3 pp. 472-475.
 
[3]  The North American Bander’s Study Guide. The North American Banding Council, Publications Committee, 2001.
 
[4]  Minias, P. (2015). The use of haemoglobin concentrations to assess physiological condition in birds: a review. Conserv Physiol 3(1):cov007.
 
[5]  Campbell, T.W. (1994) Cytology. In: Ritchie, B.W., Harrison, G.J., Harrison, L.R. (Eds) Avian Medicine: Principles and Applications. Winger, Lake Worth: pp. 199-221.
 
[6]  Pyle, P. (1997). Identification Guide to North American Birds. Part 1. Slate Creek Press.
 
[7]  Scoville, S.A., J.P. Doherty (2017). Baseline hematocrit values in birds: an important tool for monitoring exposure to polycyclic aromatic hydrocarbons. Environmental Pollution and Protection, Vol. 2, No. 3, pp. 145-152.
 
[8]  Owen, J. C., F. R. Moore (2006) Seasonal differences in immunological condition of three species of thrushes. Condor 108 389-398.
 
[9]  Zaias, J.A., WP Fox, C Cray, NH Altman, (2000). Hematologic plasma protein, and biochemical profiles of brown pelicans (Pelicanus occidentalis) Am J Vet Res 61, 771-774.
 
[10]  Celdran, J., FJ Polo, VI Peinado, G Viscor, and J. Palomeque. (1994). Haemotology of captive herons, egrets, spoonbill, ibis and gallinule. Comp. Biochem. Physiol. 107A 337-341.
 
[11]  Murphy, W.G., (2014). The sex difference in haemoglobin levels in adults -mechanisms, causes, and consequences. Blood Reviews 28 41-47.
 
[12]  Pyle, P. (2008). Identification Guide to North American Birds. Part 2. Slate Creek Press.
 
[13]  Fauquier DA, LJ Flewelling, JM Maucher, M Keller, MJ Kinsel, CK Johnson, M Henry, JG Gannon, JS Ramsdell. (2013). Brevetoxicosis in seabirds naturally exposed to Karenia brevis blooms along the west coast of Florida J Wildlife Diseases. Vol. 49, No. 2 (April 2013) pp. 246-260.
 
Manuscript template