International audienceSpatial patterns of water chemistry along stream networks can be quantified using synoptic or "snapshot" sampling. The basic idea is to sample stream water at many points over a relatively short period of time. Even for intense sampling campaigns, the number of sample points is limited and interpolation methods, like kriging, are commonly used to produce continuous maps of water chemistry based on the point observations from the synoptic sampling. Interpolated concentrations are influenced heavily by how distance between points along the stream network is defined. In this study, we investigate different ways to define distance and test these based on data from a snapshot sampling campaign in a 37-km2 watershed in the C...
For ecological and environmental data, prior inquiries into spatial sampling designs have considered...
With the increasing degradation of rivers worldwide, an understanding of spatial and temporal patter...
Human activity has polluted freshwater ecosystems across the planet, harming biodiversity, human hea...
Spatial patterns of water chemistry along stream networks can be quantified using synoptic or “snaps...
Direct monitoring of stream water chemistry is an increasingly important tool for securing stream wa...
Incorporating landscape characteristics in a distance metric for interpolating between observations ...
Geostatistical models are typically based on symmetric straight-line distance, which fails to repres...
1. Geostatistical models based on Euclidean distance fail to represent the spatial configuration, co...
Understanding surface water quality is a critical step towards protecting human health and ecologica...
1. Biodiversity, water quality and ecosystem processes in streams are known to be influenced by the ...
We develop spatial statistical models for stream networks that can estimate relationships between a ...
The Clean Water Act requires that state and local agencies assess all river miles for potential impa...
In the United States, probability-based water quality surveys are typically used to meet the require...
International audienceProtecting water quality at catchment scales is complicated by the high spatio...
For ecological and environmental data, prior inquiries into spatial sampling designs have considered...
With the increasing degradation of rivers worldwide, an understanding of spatial and temporal patter...
Human activity has polluted freshwater ecosystems across the planet, harming biodiversity, human hea...
Spatial patterns of water chemistry along stream networks can be quantified using synoptic or “snaps...
Direct monitoring of stream water chemistry is an increasingly important tool for securing stream wa...
Incorporating landscape characteristics in a distance metric for interpolating between observations ...
Geostatistical models are typically based on symmetric straight-line distance, which fails to repres...
1. Geostatistical models based on Euclidean distance fail to represent the spatial configuration, co...
Understanding surface water quality is a critical step towards protecting human health and ecologica...
1. Biodiversity, water quality and ecosystem processes in streams are known to be influenced by the ...
We develop spatial statistical models for stream networks that can estimate relationships between a ...
The Clean Water Act requires that state and local agencies assess all river miles for potential impa...
In the United States, probability-based water quality surveys are typically used to meet the require...
International audienceProtecting water quality at catchment scales is complicated by the high spatio...
For ecological and environmental data, prior inquiries into spatial sampling designs have considered...
With the increasing degradation of rivers worldwide, an understanding of spatial and temporal patter...
Human activity has polluted freshwater ecosystems across the planet, harming biodiversity, human hea...