Species lists determined from captures (a) and eDNA metabarcoding (b).* N.D. means that the species was not detected.</p
Environmental DNA (eDNA) metabarcoding is a method to detect taxa from environmental samples. It is ...
Community composition data are essential for conservation management, facilitating identification of...
The extraction and characterization of DNA from aquatic environmental samples offers an alternative,...
The use of environmental DNA (eDNA) methods for community analysis has recently been developed. High...
Detections of species in study lakes detected by multiple capture and eDNA metabarcoding methods.</p
Environmental DNA (eDNA) metabarcoding has emerged as a potentially powerful tool to assess aquatic ...
The ability to properly identify species present in a landscape is foundational to ecology and essen...
In the last few years, the study of environmental DNA (eDNA) has drawn attention for many reasons, i...
We have recently developed and deployed methods for environmental DNA (eDNA) based monitoring of lak...
Assessments of fish communities tend to rely on capture-based methods that, due to sampling biases, ...
Abstract not availableJennifer L.A. Shaw, Laurence J. Clarke, Scotte D.Wedderburn, Thomas C. Barnes,...
The sampling of environmental DNA (eDNA) coupled with cost-efficient and ever-advancing sequencing t...
Environmental DNA (eDNA) techniques refer to utilizing the organisms’ DNA extracted from environment...
Abstract The simultaneous conservation of species richness and evenness is important to effectively ...
Understanding biodiversity in aquatic systems is critical to ecological research and conservation ef...
Environmental DNA (eDNA) metabarcoding is a method to detect taxa from environmental samples. It is ...
Community composition data are essential for conservation management, facilitating identification of...
The extraction and characterization of DNA from aquatic environmental samples offers an alternative,...
The use of environmental DNA (eDNA) methods for community analysis has recently been developed. High...
Detections of species in study lakes detected by multiple capture and eDNA metabarcoding methods.</p
Environmental DNA (eDNA) metabarcoding has emerged as a potentially powerful tool to assess aquatic ...
The ability to properly identify species present in a landscape is foundational to ecology and essen...
In the last few years, the study of environmental DNA (eDNA) has drawn attention for many reasons, i...
We have recently developed and deployed methods for environmental DNA (eDNA) based monitoring of lak...
Assessments of fish communities tend to rely on capture-based methods that, due to sampling biases, ...
Abstract not availableJennifer L.A. Shaw, Laurence J. Clarke, Scotte D.Wedderburn, Thomas C. Barnes,...
The sampling of environmental DNA (eDNA) coupled with cost-efficient and ever-advancing sequencing t...
Environmental DNA (eDNA) techniques refer to utilizing the organisms’ DNA extracted from environment...
Abstract The simultaneous conservation of species richness and evenness is important to effectively ...
Understanding biodiversity in aquatic systems is critical to ecological research and conservation ef...
Environmental DNA (eDNA) metabarcoding is a method to detect taxa from environmental samples. It is ...
Community composition data are essential for conservation management, facilitating identification of...
The extraction and characterization of DNA from aquatic environmental samples offers an alternative,...
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