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Brad Bjorklund

Brad is a Hydrologist working with the New Jersey Water Science Center Water-Quality Processes Field Team

Science and Products

Estrogen equivalents of surface water and smallmouth bass estrogenic biomarker data in New Jersey, 2016-2017

The data were gathered as a preliminary assessment of estrogenicity under base-flow conditions at over 100 sites (lakes and streams) throughout New Jersey followed by more targeted sampling of smallmouth bass at nine sites with varying levels of estrogenicity. In 2016, 102 sites (lakes and streams) for the preliminary estrogenicity assessment were selected utilizing compiled results of previous mo
By
New Jersey Water Science Center

Location, sampling methods and field conditions of resiliency-mode soil and sediment sampling stations sampled, Sediment-Bound Contaminant Resiliency and Response Strategy pilot study, northeastern United States, 2015

Coastal communities are uniquely vulnerable to sea-level rise (SLR) and severe storms such as hurricanes. These events enhance the dispersion and concentration of natural and anthropogenic chemicals and pathogenic microorganisms that could adversely affect the health and resilience of coastal communities and ecosystems in coming years. The U.S. Geological Survey has developed the Sediment-Bound Co
By
New Jersey Water Science Center

Location, sampling methods and field conditions of response-mode soil and sediment sampling stations sampled, Sediment-Bound Contaminant Resiliency and Response Strategy pilot study, northeastern United States, 2015

Coastal communities are uniquely vulnerable to sea-level rise (SLR) and severe storms such as hurricanes. These events enhance the dispersion and concentration of natural and anthropogenic chemicals and pathogenic microorganisms that could adversely affect the health and resilience of coastal communities and ecosystems in coming years. The U.S. Geological Survey has developed the Sediment-Bound Co
By
New Jersey Water Science Center
Yellow sampling Buoy floating in the reservoir
Deployed Buoy
Deployed Buoy
Yellow sampling Buoy floating in the reservoir

Deployed Buoy

Deployed Buoy

EMM68 buoy deployed on the Spruce Run Reservoir

By
New Jersey Water Science Center
Yellow sampling Buoy floating in the reservoir

Deployed Buoy

Deployed Buoy

EMM68 buoy deployed on the Spruce Run Reservoir

By
New Jersey Water Science Center
Scientist spraying down a boat after sampling around Harmful Algal Blooms
Decontamination
Decontamination
Scientist spraying down a boat after sampling around Harmful Algal Blooms

Decontamination

Decontamination

Hydrographer Jonathan Cohl sprays down the boat and trailer, used to deploy a Harmful Algal Bloom (HAB) water quality monitoring buoy on Lake Hopatcong, with a decontamination solution. This is a very important step between missions when vessels are used in multiple bodies of water.

By
New Jersey Water Science Center
Scientist spraying down a boat after sampling around Harmful Algal Blooms

Decontamination

Decontamination

Hydrographer Jonathan Cohl sprays down the boat and trailer, used to deploy a Harmful Algal Bloom (HAB) water quality monitoring buoy on Lake Hopatcong, with a decontamination solution. This is a very important step between missions when vessels are used in multiple bodies of water.

By
New Jersey Water Science Center
Scientists setting out a monitor for algal bloom
Hopatcong Monitor
Hopatcong Monitor
Scientists setting out a monitor for algal bloom

Hopatcong Monitor

Hopatcong Monitor

USGS scientists Lisa Carper and Jon Cohl deploy a monitoring buoy at Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time.

By
New Jersey Water Science Center
Scientists setting out a monitor for algal bloom

Hopatcong Monitor

Hopatcong Monitor

USGS scientists Lisa Carper and Jon Cohl deploy a monitoring buoy at Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time.

By
New Jersey Water Science Center
Looking a a monitoring Buoy from the boat
Hopatcong Buoy
Hopatcong Buoy
Looking a a monitoring Buoy from the boat

Hopatcong Buoy

Hopatcong Buoy

USGS scientists deploy a monitoring buoy on Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time. USGS scientist Karl Braun is photographed.

By
New Jersey Water Science Center
Looking a a monitoring Buoy from the boat

Hopatcong Buoy

Hopatcong Buoy

USGS scientists deploy a monitoring buoy on Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time. USGS scientist Karl Braun is photographed.

By
New Jersey Water Science Center

Science and Products

Estrogen equivalents of surface water and smallmouth bass estrogenic biomarker data in New Jersey, 2016-2017

The data were gathered as a preliminary assessment of estrogenicity under base-flow conditions at over 100 sites (lakes and streams) throughout New Jersey followed by more targeted sampling of smallmouth bass at nine sites with varying levels of estrogenicity. In 2016, 102 sites (lakes and streams) for the preliminary estrogenicity assessment were selected utilizing compiled results of previous mo
By
New Jersey Water Science Center

Location, sampling methods and field conditions of resiliency-mode soil and sediment sampling stations sampled, Sediment-Bound Contaminant Resiliency and Response Strategy pilot study, northeastern United States, 2015

Coastal communities are uniquely vulnerable to sea-level rise (SLR) and severe storms such as hurricanes. These events enhance the dispersion and concentration of natural and anthropogenic chemicals and pathogenic microorganisms that could adversely affect the health and resilience of coastal communities and ecosystems in coming years. The U.S. Geological Survey has developed the Sediment-Bound Co
By
New Jersey Water Science Center

Location, sampling methods and field conditions of response-mode soil and sediment sampling stations sampled, Sediment-Bound Contaminant Resiliency and Response Strategy pilot study, northeastern United States, 2015

Coastal communities are uniquely vulnerable to sea-level rise (SLR) and severe storms such as hurricanes. These events enhance the dispersion and concentration of natural and anthropogenic chemicals and pathogenic microorganisms that could adversely affect the health and resilience of coastal communities and ecosystems in coming years. The U.S. Geological Survey has developed the Sediment-Bound Co
By
New Jersey Water Science Center
Yellow sampling Buoy floating in the reservoir
Deployed Buoy
Deployed Buoy
Yellow sampling Buoy floating in the reservoir

Deployed Buoy

Deployed Buoy

EMM68 buoy deployed on the Spruce Run Reservoir

By
New Jersey Water Science Center
Yellow sampling Buoy floating in the reservoir

Deployed Buoy

Deployed Buoy

EMM68 buoy deployed on the Spruce Run Reservoir

By
New Jersey Water Science Center
Scientist spraying down a boat after sampling around Harmful Algal Blooms
Decontamination
Decontamination
Scientist spraying down a boat after sampling around Harmful Algal Blooms

Decontamination

Decontamination

Hydrographer Jonathan Cohl sprays down the boat and trailer, used to deploy a Harmful Algal Bloom (HAB) water quality monitoring buoy on Lake Hopatcong, with a decontamination solution. This is a very important step between missions when vessels are used in multiple bodies of water.

By
New Jersey Water Science Center
Scientist spraying down a boat after sampling around Harmful Algal Blooms

Decontamination

Decontamination

Hydrographer Jonathan Cohl sprays down the boat and trailer, used to deploy a Harmful Algal Bloom (HAB) water quality monitoring buoy on Lake Hopatcong, with a decontamination solution. This is a very important step between missions when vessels are used in multiple bodies of water.

By
New Jersey Water Science Center
Scientists setting out a monitor for algal bloom
Hopatcong Monitor
Hopatcong Monitor
Scientists setting out a monitor for algal bloom

Hopatcong Monitor

Hopatcong Monitor

USGS scientists Lisa Carper and Jon Cohl deploy a monitoring buoy at Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time.

By
New Jersey Water Science Center
Scientists setting out a monitor for algal bloom

Hopatcong Monitor

Hopatcong Monitor

USGS scientists Lisa Carper and Jon Cohl deploy a monitoring buoy at Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time.

By
New Jersey Water Science Center
Looking a a monitoring Buoy from the boat
Hopatcong Buoy
Hopatcong Buoy
Looking a a monitoring Buoy from the boat

Hopatcong Buoy

Hopatcong Buoy

USGS scientists deploy a monitoring buoy on Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time. USGS scientist Karl Braun is photographed.

By
New Jersey Water Science Center
Looking a a monitoring Buoy from the boat

Hopatcong Buoy

Hopatcong Buoy

USGS scientists deploy a monitoring buoy on Lake Hopatcong, New Jersey, to monitor water-quality conditions and a harmful algal bloom in near real-time. USGS scientist Karl Braun is photographed.

By
New Jersey Water Science Center
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