Monitoring Results For Sockeye Salmon and Steelhead Trout Collected Summer 2014

The Integrated Fukushima Ocean Radionuclide Monitoring (InFORM) project is a network involving academic, governmental, and non-governmental organizations, as well as citizen scientists. InFORM is acquiring data to support a thorough radiological impact assessment for Canada’s west coast stemming from the Fukushima Dai-ichi nuclear power plant (FD-NPP) accident, and to effectively communicate these results to the public. The first measurements undertaken as part of the InFORM project to look for Fukushima derived radionculides were made on 19 fish in collaboration with the Nisga’a First Nation. Sockeye salmon (Oncorhynchus nerka) and Steelhead Trout (Oncorhynchus mykiss) were caught off the west coast of Canada in Summer 2014 as they were returning to the Nass River in northern BC.

Measurements of radioactive elements in these fish are reported in the data table below and are available for download through Health Canada:

Sample

137-Cs (Bq/kg)

134-Cs (Bq/kg)

40-K (Bq/kg)

210-Po (Bq/kg)

Steelhead #1

< 1.5

< 1.3

155 (23)

 

Steelhead #2

< 1.4

< 1.3

136 (21)

 

Steelhead #3

< 1.4

< 1.4

126 (22)

1.7 (0.5)

Steelhead #4

< 1.4

< 1.3

146 (22)

 

Steelhead #5

< 1.4

< 1.4

135 (21)

 

Steelhead #6

< 0.9

< 1.8

158 (29)

 

Steelhead #7

< 1.3

< 1.3

125 (21)

 

Steelhead #8

< 1.4

< 1.3

113 (20)

1.3 (0.4)

Steelhead #9

< 1.5

< 1.4

136 (21)

 

Steelhead #10

< 1.3

< 1.2

113 (21)

 

Sockeye #1

< 1.9

< 1.8

187 (29)

 

Sockeye #2

< 1.4

< 1.4

175 (23)

 

Sockeye #3

< 1.3

< 1.3

148 (21)

<0.2

Sockeye #4

< 1.4

< 1.3

160 (22)

 

Sockeye #5

< 1.4

< 1.3

149 (22)

 

Sockeye #6

< 1.3

< 1.4

129 (22)

 

Sockeye #8

< 1.4

< 1.3

130 (22)

 

Sockeye #9

< 1.3

< 1.3

142 (22)

0.5 (0.2)

Sockeye #10

< 1.4

< 1.4

112 (23)

 

 

 

 

 

 

Samples Combined (average)

0.27 (0.04)

< 0.18

168 (5)

0.9 (0.3)

Numbers with “<” indicate that levels were below the detection limit of the analysis and numbers inside parenthesis “( )” report the uncertainty associated with the measurement.

What are we measuring and why?

The triple meltdowns at the Fukushima Dai-ichi nuclear power plant (NPP) released many different radioisotopes to the environment, however only a very few of these are both measurable and unique to Fukushima. A reliable finger-print radioisotope for Fukushima is Cesium-134 (134-Cs half life ~ 2 years). This is because 134-Cs is only produced in nuclear reactors and it has a relatively short half-life, so that 134-Cs from other human sources, like the Chernobyl NPP disaster in 1986, are no longer present in the environment. Other isotopes such as Cesium-137 (137-Cs half life ~30 years) are not positive indicators of Fukushima since they were also a products of atmospheric testing in the 20th century and Chernobyl and are still present in the environment from these legacy sources.

 

How scientists talk about radioactivity in the environment

Scientists use a variety of units to measure radioactivity. A commonly used unit is the Becquerel (Bq for short) which represents an amount of radioactive material where one atom decays per second and has units of inverse time (per second). Another unit commonly used is disintegrations per minute (dpm) where the number of atoms undergoing radioactive decay in one minute are counted (so 1 Bq = 60 dpm). The measurements above represent that numbers of Bq detected in a kilogram of fish flesh.

 

Measurements of Sockeye Salmon and Steelhead Trout

We measured the activities of cesium radioisotopes 134-Cs and 137-Cs that were released in large quantities from the Fukushima Dai-ichi Nuclear Power Plant disaster in 2011. We also measured naturally occurring radioisotopes Potassium-40 (40-K) and Polonium-210 (210-Po) that always contribute doses of radiation to human consumers of marine fish. Samples of sockeye salmon and steelhead returning to the Nass River in northern BC, obtained from the Nisga’a First Nation, were analyzed and none were found to contain detectable levels of Fukushima derived radionuclides. By adding together the signals obtained for all of the samples we calculate an average activity concentration of 0.27 Bq/kg for 137-Cs.  This represents residual 137-Cs in the North Pacific largely from atmospheric nuclear weapons testing in the last century.  At present, Fukushima derived radionuclides cannot be detected. Nuclear weapons testing fallout (137-Cs) can be detected in BC fish at levels that represent a fraction of the radiation exposure owing to naturally occurring radionuclides neither of which represent a dangerous health risk to consumers in Canada.  Results for a further ~80 fish collected this summer and fall from various returning runs up and down the BC coast will be reported as samples are analyzed.

 

The Importance of Salmon to Canadians

Pacific salmon are economically, culturally, and ecological significant species to British Columbia. On an annual basis, the commercial, recreational, and First Nation salmon fisheries contribute over $600 million in revenues. They are an important food source to First Nations and coastal communities, and numerous animal species such as endangered Killer Whales, Gray Wolf, Grizzly Bear, seabirds, and insects. They provide nutrients to freshwater ecosystems and riparian habitats through the decomposition of their carcass.

There are six species of Pacific salmon in British Columbia. During the first year of the project, InFORM will focus primarily on Sockeye Salmon (Oncorhynchus nerka) and Steelhead Trout (Oncorhynchus mykiss), though other salmon species have and will be examined. Both species typically spend 2-3 years in the North Pacific Ocean prior to returning to their natal streams and venture further west than any other salmon species (Figure 1-2). On an annual basis, 1-10 million Sockeye Salmon are commercially harvested for human consumption and ceremonial purposes. In contrast, the fishery for Steelhead Trout is primarily catch and release due to conservation concerns for this species, particularly in Southern British Columbia. Although wild Steelhead Trout are not frequently consumed in Canada, their extensive westward migration that brings them close to the coast of Japan makes them an ideal canary species for monitoring radiation levels in salmon species originating from British Columbia.

Figure 1. Approximate range for the distribution of Sockeye Salmon in the North Pacific Ocean originating from North America and Asia. Source: http://www.pac.dfo-mpo.gc.ca/fm-gp/species-especes/salmon-saumon/facts-infos/sockeye-rouge-eng.html
Figure 1. Approximate range for the distribution of Sockeye Salmon in the North Pacific Ocean originating from North America and Asia. Source: http://www.pac.dfo-mpo.gc.ca/fm-gp/species-especes/salmon-saumon/facts-infos/sockeye-rouge-eng.html

 

steelhead_trout_small
Figure 2. Approximate range for the distribution of Steelhead Trout in the North Pacific Ocean originating from British Columbia (red) and Washington, Oregon, and California (green). Source: http://www.pac.dfo-mpo.gc.ca/fm-gp/species-especes/salmon-saumon/facts-infos/steel-arc-eng.html

Technical Information Regarding Sample Analyses

  • 19 fish samples, flesh only (9 Sockeye Salmon and 10 Steelhead Trout) were obtained from the Nisga’a First Nation
  • A sub-sample of ~125g of wet mass (average wet mass (measured) = 126.67 g) was taken and placed in a sample counting container
  • Gamma-radiation emitting isotopes were measured by gamma spectroscopy using a high purity germanium detector and each sample being counted for 6 hours
    • Planar BE5030 high purity germanium (HPGe) detector with relative counting efficiency of 46%
    • counting geometry = Parkway Jar (Polyethylene, active volume = 129 mL) placed in a polyacrylate sample holder (2.95 mm thickness)
    • counting efficiency was determined by applying an empirical efficiency curve, determined from a multi-nuclide (12) standard (Eckert and Ziegler Analytics, SRS: 79535-411) of similar density (1.15 g/cm^3, Parkway Jar format) spanning energies of 46.5 – 1836.1 KeV
    • true coincidence summing (where applicable) is accomplished by extracting detailed decay scheme data from the UniSampo-Shaman nuclide library
  • Spectral summation was done by adding all the spectrum into a single one and then reanalysed using UniSampo-Shaman gamma spectral analysis software from Baryon Oy, Ltd., Finland, with decay correction to the catch date of August 28, 2014

 

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