TY - JOUR
T1 - Continental threat
T2 - How many common carp (Cyprinus carpio) are there in Australia?
AU - Stuart, I. G.
AU - Fanson, B. G.
AU - Lyon, J. P.
AU - Stocks, J.
AU - Brooks, S.
AU - Norris, A.
AU - Thwaites, L.
AU - Beitzel, M.
AU - Hutchison, M.
AU - Ye, Q.
AU - Koehn, J. D.
AU - Bennett, A. F.
N1 - Publisher Copyright:
© 2020 The Author(s)
PY - 2021/2
Y1 - 2021/2
N2 - Common carp (Cyprinus carpio) are one of the world's most destructive vertebrate pests. In Australia, they dominate many aquatic ecosystems
causing a severe threat to aquatic plants, invertebrates, water
quality, native fish and social amenity. The Australian Government is
considering release of cyprinid herpesvirus-3 (CyHV-3) as a control
measure and consequently a robust, continental-scale estimate of the carp
population and biomass is essential to inform planning and risk
management. Here, we pioneer a novel model-based approach to provide the
first estimate of carp density (no/ha) and biomass density (kg/ha) at
river reach/waterbody, basin and continental scales. We built a spatial
layer of rivers and waterbodies, classified aquatic habitats and calculated the area of each throughout the range of carp in Australia. We then developed a database of fishery-independent electrofishing
catch-per-unit-effort (CPUE) for habitat types, containing catch
information for 574,145 carp caught at 4831 sites. Eastern Australia
accounted for 96% of carp biomass and 92% of the total available wetted
habitat area (16,686 km2) was
occupied. To correct these data for variable detection efficiencies, we
used existing electrofishing data and undertook additional field
experiments to establish relationships between relative and absolute
abundances. We then scaled-up site-based estimates to habitat types to
generate continental estimates. The number of carp was estimated at
199.2 M (95%Crl: 106 M to 357.6 M) for an ‘average’ hydrological
scenario and 357.5 M (95%Crl: 178.9 M to 685.1 M) for a ‘wet’
hydrological scenario. In eastern Australia, these numbers correspond
with biomasses of 205,774 t (95%Crl: 117,532–356,482 t) (average
scenario) and 368,357 t (95%Crl: 184,234–705,630 t) (wet scenario). At a
continental scale the total biomass was estimated at 215,456 t for an
‘average’ hydrological scenario. Perennial lowland
rivers had the highest CPUE and greatest biomass density (up to
826 kg/ha) and the modelled biomass exceeded a density-impact threshold
of 80–100 kg/ha in 54% of wetlands and 97% of stream area in large
lowland rivers. The continental-scale biomass estimates provide a
baseline for focusing national conservation strategies to reduce carp
populations below thresholds needed to restore aquatic ecosystems at a
range of spatial scales.
AB - Common carp (Cyprinus carpio) are one of the world's most destructive vertebrate pests. In Australia, they dominate many aquatic ecosystems
causing a severe threat to aquatic plants, invertebrates, water
quality, native fish and social amenity. The Australian Government is
considering release of cyprinid herpesvirus-3 (CyHV-3) as a control
measure and consequently a robust, continental-scale estimate of the carp
population and biomass is essential to inform planning and risk
management. Here, we pioneer a novel model-based approach to provide the
first estimate of carp density (no/ha) and biomass density (kg/ha) at
river reach/waterbody, basin and continental scales. We built a spatial
layer of rivers and waterbodies, classified aquatic habitats and calculated the area of each throughout the range of carp in Australia. We then developed a database of fishery-independent electrofishing
catch-per-unit-effort (CPUE) for habitat types, containing catch
information for 574,145 carp caught at 4831 sites. Eastern Australia
accounted for 96% of carp biomass and 92% of the total available wetted
habitat area (16,686 km2) was
occupied. To correct these data for variable detection efficiencies, we
used existing electrofishing data and undertook additional field
experiments to establish relationships between relative and absolute
abundances. We then scaled-up site-based estimates to habitat types to
generate continental estimates. The number of carp was estimated at
199.2 M (95%Crl: 106 M to 357.6 M) for an ‘average’ hydrological
scenario and 357.5 M (95%Crl: 178.9 M to 685.1 M) for a ‘wet’
hydrological scenario. In eastern Australia, these numbers correspond
with biomasses of 205,774 t (95%Crl: 117,532–356,482 t) (average
scenario) and 368,357 t (95%Crl: 184,234–705,630 t) (wet scenario). At a
continental scale the total biomass was estimated at 215,456 t for an
‘average’ hydrological scenario. Perennial lowland
rivers had the highest CPUE and greatest biomass density (up to
826 kg/ha) and the modelled biomass exceeded a density-impact threshold
of 80–100 kg/ha in 54% of wetlands and 97% of stream area in large
lowland rivers. The continental-scale biomass estimates provide a
baseline for focusing national conservation strategies to reduce carp
populations below thresholds needed to restore aquatic ecosystems at a
range of spatial scales.
KW - Biomass
KW - Common carp
KW - Cyprinus carpio
KW - Density
KW - Invasive species
KW - Pest management
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U2 - 10.1016/j.biocon.2020.108942
DO - 10.1016/j.biocon.2020.108942
M3 - Article
AN - SCOPUS:85100186705
SN - 0006-3207
VL - 254
JO - Biological Conservation
JF - Biological Conservation
M1 - 108942
ER -