Nick Beresford & David Copplestone Centre for Ecology & Hydrology - Lancaster 1 st – 3 rd...

Nick Beresford & David Copplestone

RESRAD-BIOTA

Centre for Ecology & Hydrology - Lancaster 1st – 3rd April 2014

RESRAD-BIOTA Code which implements the USDOE’s

Graded approach (replaces BCG-calculator) Part of the RESRAD suite of models Freshwater and terrestrial ecosystems Database contains 46 radionuclides Four organisms – terrestrial animal,

terrestrial plant, riparian animal and aquatic animal

Can create organisms & simple foodchains

www.radioecology-exchange.org

Availability and documentation

Available at no cost for download on-line Comparatively well documented Being maintained and upgraded Training available

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RESRAD-BIOTA

www.ead.anl.gov/resrad/home2/

USDOE Graded Approach

BDAC

Series of paper in: Woodhead, D.S. (Ed.), 2003. Protection of the environment from ionising radiation. Journal of Environmental Radioactivity, 66.

RESRAD-BIOTA v’s ERICATerms used

Tiers are Levels CRs are Bivs EMCLs are BCGs (Biota Concentration

Guides) DCCs are DCFs (Dose Conversion Factor)

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www.ceh.ac.uk/PROTECT

RESRAD-BIOTA Level

USDOE - benchmarksBased on NCRP & IAEA set dose limits for protection of:

Aquatic animals - 10 mGy d-1

Terrestrial plants - 10 mGy d-1

Terrestrial animals - 1 mGy d-1

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RESRAD-BIOTA - BCGs

Estimated assuming: Infinitely large (internal) and small (external)

geometries for dose calculations Daughter T1/2’s up to 100 y included All terrestrial organisms 100% in soil; aquatic

100% water-sediment interface ‘Maximum’ CR values or 95th percentile CR

values predicted using a kinetic-allometric approach

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LEVEL 1

Screening assessment - Levels 1

Cs-137 water 10 Bq/l sediment 1000 Bq/kg

Am-241 sediment 1000 Bq/kg

Cf-252 water 1 Bq/kg

Use 10 µGy/h screening level (2.4E-4 Gy/d)

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Level 1

Run the freshwater and terrestrial scenarios from the ERICA Tier 1 practical Use ERICA screening value 10 µGy/h Leave out the radionuclides which are not

included in RESRAD

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Radionuclide Freshwater (Bq/l)H-3 4Co-60 0.3Cs-137 0.3Pu-239 0.04

Radionuclide Soil (Bq/kg)Cs-137 10Am-241 0.3Pu-239 170Co-60 0.1Sr-90 1.3

Level 2

Level 2

Site specific CR values available for aquatic animal: Co 1500; Cs 9000; H 0.25; Pu 200

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Radionuclide Freshwater (Bq/l)H-3 4Co-60 0.3Cs-137 0.3Pu-239 0.04

Level 3

RESRAD-BIOTA

Also uses CRs (or Bivs), but:

RESRAD-BIOTA Can use kinetic-allometric approach with simple

foodchains for terrestrial/riparian vertebrates

Soil contamination

Fugitive dust

Vegetation

Soil invertebrate

Herbivorous mammals

Herbivorous birds

Carnivorous mammals

Water

contamination

Root uptake

What is Allometry?

Size effects rates of all biological structures and processes from cellular metabolism to population dynamics

The dependence of a biological variable Y on a body mass M is typically characterised by an allometric scaling law of the form:

Y = aMb

where a and b are constants

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What is Allometry?

b most often = ‘quartile values’:

metabolic rates scale as M0.75

M0.75 is often referred to as metabolic live-weight

life-span scales as M0.25 food, water and inhalation rates scale as M0.75

All potential useful for radioecological models, but:www.radioecology-exchange.org

Allometric – radioecological parameters

For (some) radionuclides both the biological half-life (often M0.25) and transfer from diet (M-

0.75) have been found to scale allometrically RESRAD-BIOTA uses allometric relationships

for radionuclide biological half-lives and a number of other animal parameters (e.g. food & water intake, life-span, inhalation rate) for terrestrial and riparian vertebrates

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Allometric calculations, e.g. Cs

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kg/d

T1/2 =13.22*(mass0.237)

Allometric calculations, e.g. Cs

kg/d

T1/2 =13.22*(mass0.237)

Ff=8.89*(mass-0.73)

Transfer coefficient Ff ( d kg-1) = Equilibrium activity concentration in animal (Bq kg-1 FW)

Daily intake of radionuclide (Bq d-1)

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Allometric calculations, e.g. Cs

kg/d

T1/2 =13.22*(mass0.237)

Ff=8.89*(mass-0.73)

DMI=0.0551*(mass0.74)

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Allometric calculations, e.g. Cs

kg/d

T1/2 =13.22*(mass0.237)

Ff=8.89*(mass-0.73)

DMI=0.0551*(mass0.74)

Allometric calculations, e.g. Cs

kg/d

T1/2 =13.22*(mass0.237)

Ff=8.89*(mass-0.73)

DMI=0.0551*(mass0.74)

Bq/kg = Ff x DMI

Transfer coefficient Ff ( d kg-1) = Equilibrium activity concentration in animal (Bq kg-1 FW)

Daily intake of radionuclide (Bq d-1)

Create an organism and foodchain

RESRAD-BIOTA Level 3 Soil activity concentrations are available:

Cs-137 1000 Bq/kg

Pu-239 550 Bq/kg Water concentration:

Cs-137 1 Bq/kg

Pu-239 1E-3 Bq/kg Alpha RBE=10; Cut-off half-life=180 Dormouse characteristics:

Size – 9x3x3 cm

Weight - 30 g

Occupancy – 50% in soil/50% on soil

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RESRAD-BIOTA Level 3

Diet – 70 % seeds and 30 % invertebrates

Concentration ratios for dormouse dietSeed

Cs-137 0.7

Pu-239 5E-3

Invertebrate

Cs-137 0.13

Pu-239 0.1

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