Gary Shenk (Former Employee)
Science and Products
Filter Total Items: 22
METRIC: An interactive framework for integrated visualization and analysis of monitored and expected load reductions for nitrogen, phosphorus, and sediment in the Chesapeake Bay watershed METRIC: An interactive framework for integrated visualization and analysis of monitored and expected load reductions for nitrogen, phosphorus, and sediment in the Chesapeake Bay watershed
Reductions of nitrogen, phosphorus, and sediment loads have been the focus of watershed restoration in many regions for improving water quality, including the Chesapeake Bay. Watershed models and riverine monitoring data can provide important information on the progress of load reductions but do not always generate consistent interpretations. A new framework for integrated visualization...
Authors
Qian Zhang, Gary W. Shenk, Gopal Bhatt, Isabella Bertani
Increasing phosphorus loss despite widespread concentration decline in US rivers Increasing phosphorus loss despite widespread concentration decline in US rivers
The loss of phosphorous (P) from the land to aquatic systems has polluted waters and threatened food production worldwide. Systematic trend analysis of P, a nonrenewable resource, has been challenging, primarily due to sparse and inconsistent historical data. Here, we leveraged intensive hydrometeorological data and the recent renaissance of deep learning approaches to fill data gaps and
Authors
Wei Zhi, Hubert Baniecki, Jiangtao Liu, Elizabeth W. Boyer, Chaopeng Shen, Gary W. Shenk, Xiaofeng Liu, Li Li
Integrating monitoring and modeling information to develop an indicator of watershed progress toward nutrient reduction goals Integrating monitoring and modeling information to develop an indicator of watershed progress toward nutrient reduction goals
Eutrophication has been a major environmental issue in many coastal and inland ecosystems, which is primarily attributed to excessive anthropogenic inputs of nutrients. Restoration efforts have therefore focused on the reduction of watershed nutrient loads, including in the Chesapeake Bay (USA). To facilitate watershed management, watershed models are often developed and used to assess...
Authors
Qian Zhang, Gary W. Shenk, Gopal Bhatt, Isabella Bertani
Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model
The Chesapeake Bay Program’s Watershed Model (CBWM) has been used as an accounting tool for the Chesapeake Bay Total Maximum Daily Load (TMDL). However, some of the fundamental parameters that underpin the watershed model may not represent local watershed characteristics at all scales. Significant investments have been made by state and local governments, and other local stakeholders...
Authors
Karl Berger, Katherine C. Filippino, Gary W. Shenk, Normand Goulet, Michael Lookenbill, Douglas L. Moyer, Gregory E. Noe, Aaron J. Porter, James Shallenberger, Bryant Thomas, Guido Yactayo
Water quality impacts of climate change, land use, and population growth in the Chesapeake Bay watershed Water quality impacts of climate change, land use, and population growth in the Chesapeake Bay watershed
The 2010 Chesapeake Bay Total Maximum Daily Load was established for the water quality and ecological restoration of the Chesapeake Bay. In 2017, the latest science, data, and modeling tools were used to develop revised Watershed Implementation Plans (WIPs). In this article, we examine the vulnerability of the Chesapeake Bay watershed to the combined pressures of climate change and...
Authors
Gopal Bhatt, Lewis C. Linker, Gary W. Shenk, Isabella Bertani, Richard Tian, Jessica Rigelman, Kyle E. Hinson, Peter Claggett
Impacts and uncertainties of climate-induced changes in watershed inputs on estuarine hypoxia Impacts and uncertainties of climate-induced changes in watershed inputs on estuarine hypoxia
Multiple climate-driven stressors, including warming and increased nutrient delivery, are exacerbating hypoxia in coastal marine environments. Within coastal watersheds, environmental managers are particularly interested in climate impacts on terrestrial processes, which may undermine the efficacy of management actions designed to reduce eutrophication and consequent low-oxygen...
Authors
Kyle E. Hinson, Marjorie A. M. Friedrichs, Raymond G. Najjar, Maria Herrmann, Zihao Bian, Gopal Bhatt, Pierre St-Laurent, Hanqin Tian, Gary W. Shenk
Science and Products
Filter Total Items: 22
METRIC: An interactive framework for integrated visualization and analysis of monitored and expected load reductions for nitrogen, phosphorus, and sediment in the Chesapeake Bay watershed METRIC: An interactive framework for integrated visualization and analysis of monitored and expected load reductions for nitrogen, phosphorus, and sediment in the Chesapeake Bay watershed
Reductions of nitrogen, phosphorus, and sediment loads have been the focus of watershed restoration in many regions for improving water quality, including the Chesapeake Bay. Watershed models and riverine monitoring data can provide important information on the progress of load reductions but do not always generate consistent interpretations. A new framework for integrated visualization...
Authors
Qian Zhang, Gary W. Shenk, Gopal Bhatt, Isabella Bertani
Increasing phosphorus loss despite widespread concentration decline in US rivers Increasing phosphorus loss despite widespread concentration decline in US rivers
The loss of phosphorous (P) from the land to aquatic systems has polluted waters and threatened food production worldwide. Systematic trend analysis of P, a nonrenewable resource, has been challenging, primarily due to sparse and inconsistent historical data. Here, we leveraged intensive hydrometeorological data and the recent renaissance of deep learning approaches to fill data gaps and
Authors
Wei Zhi, Hubert Baniecki, Jiangtao Liu, Elizabeth W. Boyer, Chaopeng Shen, Gary W. Shenk, Xiaofeng Liu, Li Li
Integrating monitoring and modeling information to develop an indicator of watershed progress toward nutrient reduction goals Integrating monitoring and modeling information to develop an indicator of watershed progress toward nutrient reduction goals
Eutrophication has been a major environmental issue in many coastal and inland ecosystems, which is primarily attributed to excessive anthropogenic inputs of nutrients. Restoration efforts have therefore focused on the reduction of watershed nutrient loads, including in the Chesapeake Bay (USA). To facilitate watershed management, watershed models are often developed and used to assess...
Authors
Qian Zhang, Gary W. Shenk, Gopal Bhatt, Isabella Bertani
Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model Using local monitoring results to inform the Chesapeake Bay Program’s Watershed Model
The Chesapeake Bay Program’s Watershed Model (CBWM) has been used as an accounting tool for the Chesapeake Bay Total Maximum Daily Load (TMDL). However, some of the fundamental parameters that underpin the watershed model may not represent local watershed characteristics at all scales. Significant investments have been made by state and local governments, and other local stakeholders...
Authors
Karl Berger, Katherine C. Filippino, Gary W. Shenk, Normand Goulet, Michael Lookenbill, Douglas L. Moyer, Gregory E. Noe, Aaron J. Porter, James Shallenberger, Bryant Thomas, Guido Yactayo
Water quality impacts of climate change, land use, and population growth in the Chesapeake Bay watershed Water quality impacts of climate change, land use, and population growth in the Chesapeake Bay watershed
The 2010 Chesapeake Bay Total Maximum Daily Load was established for the water quality and ecological restoration of the Chesapeake Bay. In 2017, the latest science, data, and modeling tools were used to develop revised Watershed Implementation Plans (WIPs). In this article, we examine the vulnerability of the Chesapeake Bay watershed to the combined pressures of climate change and...
Authors
Gopal Bhatt, Lewis C. Linker, Gary W. Shenk, Isabella Bertani, Richard Tian, Jessica Rigelman, Kyle E. Hinson, Peter Claggett
Impacts and uncertainties of climate-induced changes in watershed inputs on estuarine hypoxia Impacts and uncertainties of climate-induced changes in watershed inputs on estuarine hypoxia
Multiple climate-driven stressors, including warming and increased nutrient delivery, are exacerbating hypoxia in coastal marine environments. Within coastal watersheds, environmental managers are particularly interested in climate impacts on terrestrial processes, which may undermine the efficacy of management actions designed to reduce eutrophication and consequent low-oxygen...
Authors
Kyle E. Hinson, Marjorie A. M. Friedrichs, Raymond G. Najjar, Maria Herrmann, Zihao Bian, Gopal Bhatt, Pierre St-Laurent, Hanqin Tian, Gary W. Shenk