Contamination and Biomarkers in the Great Blue Heron, an Indicator of the State of the St. Lawrence River

Champoux, Louise; Rodrigue, Jean-Paul; Trudeau, Suzanne; Boily, Monique; Spear, Philip A.; Hontela, Alice

doi:10.1007/s10646-005-0043-3

Cited by 31 publications

(10 citation statements)

References 58 publications

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“…The levels measured were below those associated with detrimental effects [3,23]. Total PCB levels showed no spatial differences as well as no significant difference compared to our previous study [9]. However, the PCB levels were notably low at Dickerson Island, which is located close to three major U.S. superfund sites known as major PCB sources in Massena, New York, USA [24].…”

Section: Discussioncontrasting

confidence: 59%

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Champoux

Moisey

Muir

2009

Enviro Toxic and Chemistry

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The great blue heron (Ardea herodias) has been used as a bioindicator of the state of the St. Lawrence River (Québec, Canada) since 1996. At 5-year intervals, selected breeding colonies along the River and its estuary are visited to estimate reproductive success and determine levels of contamination. Brominated flame retardants are found in many ecosystems and are increasing in concentration in the Great Lakes, which is the source of much of the water for the St. Lawrence River. In 2001 and 2002, in addition to polychlorinated biphenyls (PCBs) and chlorinated pesticides, the levels of polybrominated diphenyl ethers (PBDEs), polychlorinated bornanes (toxaphene) congeners and non-ortho-substituted PCBs were measured for the first time in pools of great blue heron eggs. The PBDE levels in great blue heron eggs (70-1,377 ng/g wet wt) were comparable to those measured in herring gull (Larus argentatus) eggs from the Great Lakes. Toxaphene was detected in great blue heron eggs at levels comparable to those of other major chlorinated pesticides. Major toxaphene congeners were octachlorobornane P44 and the nonachlorobornane P50. Environ.

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Section: Discussioncontrasting

confidence: 59%

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Champoux

Moisey

Muir

2009

Enviro Toxic and Chemistry

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“…They respond more quickly to environmental changes, show their occurrence through vocalization, and are easy to detect and identify [4,34,35]. Previously, seabirds have been used as a bioindicators of pollution [36][37][38][39], oil spills [40,41], contamination in the Antarctic ecosystem [42][43][44], evaluate wetland ecosystem health [45,46], climate change [47], primary productivity [48], and environmental pollution in aquatic system [49][50][51]. This could be that, seabirds may show distinctive habitat preferences and display a variety of adaptations to exploit the marine resources and can be used to determine the marine ecosystem integrity.…”

Section: Seabirds As Bioindicators Of Marine Ecosystemmentioning

confidence: 99%

Seabirds as Bioindicators of Marine Ecosystems

Rajpar¹,

Özdemir²,

Zakaria³

et al. 2018

Seabirds

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Seabirds are those waterbirds that directly or indirectly depend on the marine environment over the waters, i.e., they foraged at sea either near shore or offshore and inhabit in coastal areas, islands, estuaries, wetlands, and ocean islands. They are mostly aerial waterbirds sailing above sea spending much of their time (weeks, months, and even years) in marine environments or floating on the water surface or diving in deep sea in search of food. Seabirds encompass of 65 genera, 222 marine, and 72 partially marine bird species. Seabirds have been used as good indicators (i.e., bioindicators) of marine ecosystems due to cause-effect association with different microclimate and habitats. They exploit broad scale of habitat, quickly respond to environmental changes, they can be detected easily (i.e., they showed their presence through vocalization), easy to identify, can be surveyed efficiently over large spatial scale, e.g., presence, abundance, and influenced by surrounding habitats as compared to other animals. Employing seabird as bioindicators is a cost-effective and informative tool (well defined matrix) to determine the effects of disturbances, contamination, i.e., effects of pollutants, organic substances, and oil-spills of the marine environment. Seabirds are top predators in the marine food chain and key component of the food web. Seabirds may indicate the status of habitat, reduction in food occurrence and abundance, rate of the predation, an effect of weather (climate change), and threats. The other reason could be that, seabirds often closely associate with inter-site more distinctly than other animals and may breed in the same site each year, easy to catch while incubating and during rearing chicks. Hence, it is crucially important to use seabirds as bioindicators within the context of ecological and spatial parameters to determine the effects of disturbances in the marine environment and for effective conservation and better management of seabirds in the future.

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“…As large fish eating birds, they assume the highest trophic level in aquatic ecosystems. Since they have the ability to accumulate pollutants and heavy metals that are non bio degradable [8], they can be used as biomonitors to assess the pollutant levels in aquatic systems [9][10][11][12]. Also, the changing levels of pollutants within lower tropic levels can also be mapped using these indicators [13,14].…”

Section: Introductionmentioning

confidence: 99%

Feathers of Little Egret (<i>Egretta garzetta</i>) Fledglings as a Bio Monitoring Tool for Mercury, Arsenic, Cadmiumand Lead Pollution in Sri Lanka

Jayaratne¹,

Perera²,

Weerakoon³

et al. 2019

IJEE

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The objective of this study is to establish a baseline set of data for heavy metal contaminants in diverse ecosystems in Sri Lanka using bird feathers as a bio monitoring tool. During May to July 2014 heavy metal concentration (Hg, As, Cd and Pb) was assessed in bird feathers and regurgitated materials of Little Egrets (Egretta garzetta) and water collected within the foraging areas at five heronries from three districts of Sri Lanka. A significant variation of Hg and As (p<0.05) was observed. But such a significant variation was not observed for Cd (p>0.05). Only As concentration of regurgitated materials show significantly variation between sites (p<0.05) whereas no significant variation in Hg and Cd (p>0.05). In all sites, for all four metals there were some significant variations of metal concentrations in water. Pb was only detected in water and no more in feathers and regurgitated materials. The concentration of Hg, As, Cd and Pb were generally within the normal background level and mostly below the threshold level that may affect bird survival and reproduction. According to the results of the present study, feathers of Little Egret fledglings can be used as a bio-monitoring tool to measure the bio accumulation of Hg, As and Cd except Pb with combination of metal concentration of their regurgitated materials and water that was collected from the surroundings of heronries.

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Contamination and Biomarkers in the Great Blue Heron, an Indicator of the State of the St. Lawrence River

Cited by 31 publications

References 58 publications

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Seabirds as Bioindicators of Marine Ecosystems

Feathers of Little Egret (<i>Egretta garzetta</i>) Fledglings as a Bio Monitoring Tool for Mercury, Arsenic, Cadmiumand Lead Pollution in Sri Lanka

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Contamination and Biomarkers in the Great Blue Heron, an Indicator of the State of the St. Lawrence River

Cited by 31 publications

References 58 publications

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Polybrominated diphenyl ethers, toxaphenes, and other halogenated organic pollutants in great blue heron eggs

Seabirds as Bioindicators of Marine Ecosystems

Feathers of Little Egret (&lt;i&gt;Egretta garzetta&lt;/i&gt;) Fledglings as a Bio Monitoring Tool for Mercury, Arsenic, Cadmiumand Lead Pollution in Sri Lanka

Contact Info

Product

Resources

About

Feathers of Little Egret (<i>Egretta garzetta</i>) Fledglings as a Bio Monitoring Tool for Mercury, Arsenic, Cadmiumand Lead Pollution in Sri Lanka