Add to ORKGWe examined the dispersal of larvae (glochidia) of a common unionid mussel species, Actinonaias ligamentina, which need to attach to a host fish in order to develop into juveniles, in a lowland river (Sydenham River, Ontario, Canada). Generally, the decline in the number of glochidia captured with distance from release was best described by an inverse power function. The highest proportion was found in the first net 4 m downstream (range 0.1–3.6%), but a small proportion of glochidia was captured 96 m downstream (0–0.03%). This indicates that infestation of host fish may occur several tens to hundreds of meters downstream of the adults ’ location, even at relatively low flow conditions (mean velocity, 15 cm s21). Dispersal distances increas...
The distribution of organisms can be regulated by local environmental factors and regional processes...
A Lagrangian stochastic larva tracking model based on a 3-dimensional (3D) high resolution wind-driv...
1. Micronecta poweri (Insecta: Corixidae) is potentially sensitive to changes in river flow. A field...
Larval mussels (Family Unionidae) are obligate parasites on fish, and after excystment from their ho...
Larval mussels (Family Unionidae) are obligate parasites on fish, and after excystment from their ho...
Unidirectional water flow results in the downstream-biased, asymmetric dispersal of many riverine or...
Abstract Organisms that live in flowing water need to compensate for downstream displacement. Mobile...
Unidirectional water flow results in the downstream-biased, asymmetric dispersal of many riverine or...
Freshwater mussels (Unionida) dominate the biomass and are important keystone organisms in many riv...
Field and modelling studies of the distribution of mussel larvae and juvenile plantigrade mussels in...
Recruitment of Chondrostoma nasus (Linnaeus 1758) and similar fish species in rivers is related to s...
The larvae of freshwater mussels are obligate ectoparasites on fishes while adults are sedentary and...
Computational models developed to calculate longitudinal advection and dispersion of contaminants in...
We propose a novel ecohydrological model for the invasion of inland waters by the zebra mussel Dreis...
Methods for creating explicit links in environmental flow assessments between changes in physical ha...
The distribution of organisms can be regulated by local environmental factors and regional processes...
A Lagrangian stochastic larva tracking model based on a 3-dimensional (3D) high resolution wind-driv...
1. Micronecta poweri (Insecta: Corixidae) is potentially sensitive to changes in river flow. A field...
Larval mussels (Family Unionidae) are obligate parasites on fish, and after excystment from their ho...
Larval mussels (Family Unionidae) are obligate parasites on fish, and after excystment from their ho...
Unidirectional water flow results in the downstream-biased, asymmetric dispersal of many riverine or...
Abstract Organisms that live in flowing water need to compensate for downstream displacement. Mobile...
Unidirectional water flow results in the downstream-biased, asymmetric dispersal of many riverine or...
Freshwater mussels (Unionida) dominate the biomass and are important keystone organisms in many riv...
Field and modelling studies of the distribution of mussel larvae and juvenile plantigrade mussels in...
Recruitment of Chondrostoma nasus (Linnaeus 1758) and similar fish species in rivers is related to s...
The larvae of freshwater mussels are obligate ectoparasites on fishes while adults are sedentary and...
Computational models developed to calculate longitudinal advection and dispersion of contaminants in...
We propose a novel ecohydrological model for the invasion of inland waters by the zebra mussel Dreis...
Methods for creating explicit links in environmental flow assessments between changes in physical ha...
The distribution of organisms can be regulated by local environmental factors and regional processes...
A Lagrangian stochastic larva tracking model based on a 3-dimensional (3D) high resolution wind-driv...
1. Micronecta poweri (Insecta: Corixidae) is potentially sensitive to changes in river flow. A field...