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4. Assessing the Impacts of Dry Blasting on Fish Eggs in Adjacent Spawning Habitat

Author

Burton C. Suedel, Hal F Harrington, Alan W Katzenmeyer, Justin L. Wilkens, and Andrew D. McQueen

Subjects
biology, Spawning habitat, Health, Toxicology and Mutagenesis, Biota, General Medicine, Toxicology, biology.organism_classification, Pollution, Fishery, Dredging, Trout, Habitat, Ecotoxicology, Environmental science, %22">Fish , Rock blasting
Abstract

Blasting used in construction of waterborne infrastructure may impact fish eggs in adjacent spawning habitats through introduction of mechanical vibrations as peak particle velocities (PPV). However, there are limited studies applying risk-based approaches to evaluate and mitigate these impacts. A navigation improvement project in the Soo Locks near the St. Marys Rapids provided an opportunity to evaluate existing data to inform blasting risks to fish eggs. To assess this risk, existing data were used to calculate species sensitivity distributions that were used to estimate a hazardous concentration for 5% of the salmon and trout species evaluated (HC5) and predicted no effect concentrations (PNEC). The HC5 ranged from 14.0 to 89.2 cm/s PPV, and the ‘safe level’ PNEC thresholds ranged from 2.8 to 17.8 cm/s PPV. This study provides a demonstration of how a risk-based approach can be effectively used to assess and manage dry blasting effects on underwater biota.

Published
2021
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5. Advancing nature‐based solutions by leveraging Engineering With Nature® strategies and landscape architectural practices in highly collaborative settings

Author

Rob Holmes, Burton C. Suedel, Jeffrey K. King, Justine Holzman, and Sean Burkholder

Subjects
Government, Knowledge management, 010504 meteorology & atmospheric sciences, Process (engineering), business.industry, Geography, Planning and Development, General Medicine, 010501 environmental sciences, Public domain, 01 natural sciences, Engineering, Landscape architecture, General partnership, Business, Architecture, Recreation, Risk management, 0105 earth and related environmental sciences, General Environmental Science
Abstract

The US Army Corps of Engineers (USACE)'s Engineering With Nature® (EWN®) initiative consistently promotes the use of collaboration for identifying innovative, nature-based solutions (NBS) that lead to more resilient communities and water-based infrastructure. In recent years, EWN researchers, in partnership with landscape architects (LAs) affiliated with the Dredge Research Collaborative (DRC), have championed an innovative, collaborative strategy that offers traditional planners an opportunity to participate in visioning exercises during the initial phases of coastal storm risk management projects. This has resulted in the identification, development, and incorporation of design concepts that prioritize NBS and the placement of natural and nature-based features (NNBF). These concepts, and their development process, have been documented in reports for the use of both the participating planners and other audiences interested in innovative NNBF. Upon observing these favorable outcomes, it has become clear that the integration of disciplines-landscape architecture, applied science, and engineering-has increased our ability to process, utilize, and communicate complex information. Both groups (i.e., DRC's LAs and EWN engineers and scientists) have considerable experience related to infrastructure design and performance; they elucidate ways to achieve functional engineering criteria while also maximizing ecological value and/or promoting more recreational opportunities. However, this partnership also produces a complementary set of uniquely acquired skills and expertise, which advances the development of NBS through accelerated and more meaningful communications. This study will offer insight into the partnership, collaborative techniques, and resulting products that have fostered innovation as well as advocacy for more sustainable infrastructure. Integr Environ Assess Manag 2021;00:1-7. © 2021 SETAC. This article has been contributed to by US Government employees and their work is in the public domain in the USA.

Published
2021
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6. Using Engineering With Nature ® (EWN ® ) principles to manage erosion of watersheds damaged by large‐scale wildfires

Author

Christopher P. Haring, Burton C. Suedel, G. Altmann, and Stephen W. Brown

Subjects
Canyon, geography, geography.geographical_feature_category, Watershed, 010504 meteorology & atmospheric sciences, Floodplain, business.industry, Erosion control, Geography, Planning and Development, Environmental resource management, Water supply, General Medicine, Vegetation, 010501 environmental sciences, 01 natural sciences, Flood control, Environmental science, Surface runoff, business, 0105 earth and related environmental sciences, General Environmental Science
Abstract

The US Army Corps of Engineers (USACE) manages hundreds of reservoirs and thousands of miles of navigation channels that provide invaluable flood control, commercial transport of materials, water supply, recreation, and stream flow regulation. This capability is being threatened by the continued occurrence of large-scale wildfires across the western United States. The wildfires damage watersheds in part by denuding landscapes, reducing infiltration rates, and increasing runoff rates, thereby dramatically increasing the potential for the erosion of denuded slopes, destabilizing stream channels, increasing the infilling potential of reservoirs and, hence, reducing their capacity. The increased erosion rates highlight the need to develop innovative solutions to reduce erosion of watersheds laid bare after wildfires engulf the area. The Santa Clara Pueblo in northern New Mexico extends from the top of the eastern Jemez Mountains to the floodplains of the Rio Grande River. The Pueblo designed and constructed thousands of structures built from natural materials, consistent with Engineering With Nature (EWN) principles for erosion control incorporating low-cost and readily available materials such as logs, mulch, vegetation, and local rock to stabilize highly erodible parts of the watershed. The watersheds where these natural structures were constructed were monitored after construction to assess their effectiveness, guiding a series of recommendations for broader implementation. As part of a continued emphasis on updating USACE engineering guidance, research, and development, funding has been focused on developing sustainable and resilient project designs using natural materials like those implemented by the Santa Clara Pueblo. This paper focuses on the innovative EWN-based watershed stabilization practices that were implemented in the upper section of this wildfire affected canyon and tributary streams. Recommendations for future implementation based on lessons learned from this project are also provided. Integr Environ Assess Manag 2021;17:1194-1202. Published 2021. This article is a US Government work and is in the public domain in the USA.

Published
2021
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7. Integrating Engineering With Nature® strategies and landscape architecture techniques into the Sabine‐to‐Galveston Coastal Storm Risk Management Project

Author

Rob Holmes, Sean Burkholder, Burton C. Suedel, Justine Holzman, and Jeffrey K. King

Subjects
Risk Management, Engineering, 010504 meteorology & atmospheric sciences, Process (engineering), business.industry, Geography, Planning and Development, Environmental resource management, Stakeholder, General Medicine, 010501 environmental sciences, Texas, 01 natural sciences, Project team, Constructability, Landscape architecture, Wetlands, Sustainability, business, Recreation, Ecosystem, Risk management, 0105 earth and related environmental sciences, General Environmental Science
Abstract

Damaging storm events frequently impact the Texas coast. In response, the US Army Corps of Engineers Galveston District (SWG) has undertaken the Sabine-to-Galveston (S2G) Coastal Storm Risk Management (CSRM) Project. This approximately $3.9B project includes numerous measures across several counties of the upper Texas coast, including levees, floodwalls, and pump stations. In June 2019, SWG leadership enlisted a team including the paper authors to integrate Engineering With Nature (EWN) strategies into this infrastructure project. EWN strategies intentionally align natural and engineering processes to efficiently and sustainably deliver economic, environmental, and social benefits through collaboration. The first step in this process was to develop potentially relevant EWN strategies. A collaborative workshop included visits to project sites and working sessions where the project team reviewed challenges associated with each site, generated an array of EWN strategies, and began to test design concepts based on those strategies through collaborative drawing sessions. Afterward, prioritized ideas were refined and evaluated in terms of property acquisition, estimated cost, logistics, stakeholder and sponsor interest, constructability, aesthetics, recreational opportunities, and ecological benefit. Design concepts considered feasible for integration into the broader S2G project included horizontal levees, inland floodwater storage areas that double as wildlife habitat, and strategic placement of sediment berms to reduce storm impacts and provide marsh substrate. All these concepts should achieve intended CSRM outcomes while enhancing environmental and social benefits. This assimilation of EWN strategies and landscape architecture techniques into a large CSRM study illustrates a method for expanding overall project value and producing infrastructure that benefits coastal communities. Integr Environ Assess Manag 2022;18:63-73. © 2021 SETAC.

Published
2021
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8. Engineering coastal structures to centrally embrace biodiversity

Author

Burton C. Suedel, Jon Calabria, Matthew V. Bilskie, James E. Byers, Kelsey Broich, S. Kyle McKay, Amanda S. Tritinger, C. Brock Woodson, and Emily Dolatowski

Subjects
Conservation of Natural Resources, Engineering, Environmental Engineering, Biodiversity, General Medicine, Management, Monitoring, Policy and Law, Waste Management and Disposal, Ecosystem, Floods
Abstract

Global environmental factors (e.g., extreme weather, climate action failure, natural disasters, human environmental damage) increasingly threaten coastal communities. Shorelines are often hardened (seawalls, bulkheads) to prevent flooding and erosion and protect coastal communities. However, hardened shorelines lead to environmental degradation and biodiversity loss. Developmental pressures that are growing in scale, scope, and complexity necessitate the development of sustainable solutions to work with, rather than against, nature. Such nature-based solutions (NBS) provide protection and improve environmental quality and enhance biodiversity. To further this pressing need into action, the US Army Corps of Engineers (USACE) began the Engineering With Nature (EWN) initiative to balance economic, environmental, and social benefits through collaboration with partners and stakeholders. This work shows how engineering practice can be advanced through structured decision-making and landscape architecture renderings that include ecological sciences and NBS into an integrated approach for enhancing biodiversity in coastal marine environments. This integrated approach can be applied when designing new infrastructure projects or modifying or repairing existing infrastructure. To help communicate designs incorporating NBS, drawings, and renderings showcasing EWN concepts can aid decision-making. Our experiences with implementing EWN in practice have revealed that involving landscape architects can play a crucial role in successful collaboration and lead to solutions that protect coastal communities while preserving or enhancing biodiversity.

Published
2022
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9. Introduction to the Special Series, 'Incorporating Nature-based Solutions into the Built Environment'

Author

Burton C. Suedel and Amy M. P. Oen

Subjects
Sustainable development, media_common.quotation_subject, Geography, Planning and Development, Nature based, Water, General Medicine, Sustainable Development, Ecotoxicology, Urban planning, Political science, Sustainability, Environmental impact assessment, Relevance (information retrieval), Built Environment, Environmental Pollution, Environmental planning, Built environment, General Environmental Science, Diversity (politics), media_common
Abstract

Incorporating nature-based solutions (NBSs) into the built environment supports the ongoing sustainability challenge as emphasized in the United Nations' Sustainable Development Goals (SDGs) and has particular relevance for SDG Goal #11 (Sustainable cities and communities), which seeks greater efficiencies in urban planning and management practices that address aging infrastructure and ongoing air, water, and soil pollution. The short communications and research articles in this special series exemplify many of these aspects, highlighting the application of NBSs and showcasing the latest environmental research and policy solutions to support this. Nature-based solutions in the built environment aim to promote the understanding of the transdisciplinary nature of NBSs and enhance the global awareness of the value of NBSs by providing a diversity of solutions to illustrate the positive economic, social, and environmental benefits of NBSs in the built environment. Integr Environ Assess Manag 2021;00:1-3. © 2021 The Authors. Integrated Environmental Assessment and Management published by Wiley Periodicals LLC on behalf of Society of Environmental Toxicology & Chemistry (SETAC).

Published
2021

11. Initial Survey of Microplastics in Bottom Sediments from United States Waterways

Author

Burton C. Suedel, Joshua J. LeMonte, Justin L. Wilkens, and Andrew D. McQueen

Subjects
Geologic Sediments, Microplastics, Particle number, Health, Toxicology and Mutagenesis, Fresh Water, Context (language use), 010501 environmental sciences, Toxicology, 01 natural sciences, Dredging, Surveys and Questionnaires, Spectroscopy, Fourier Transform Infrared, Ecotoxicology, Seawater, Chemical composition, 0105 earth and related environmental sciences, Sediment, 04 agricultural and veterinary sciences, General Medicine, Pollution, United States, Aquatic environment, Environmental chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Water Pollutants, Chemical, Environmental Monitoring
Abstract

Given the reported extent of microplastics in the aquatic environment, environmentally relevant exposure information for sediments dredged by the US Army Corps of Engineers will lend context to the risks posed by this contaminant during dredging. We measured the occurrence, abundance, and polymer composition of microplastics in sediments collected from nine dredged waterways and two non-dredged reference areas. The number of particles in sediment samples ranged from 162 to 6110 particles/kg dry wt., with a mean of 1636 particles/kg dry wt. Fragments were the most prevalent shape observed among the 11 study sites (100% frequency of occurrence), followed by fibers (81%), spheres (75%), foams (38%) and films (34%). Based on analyses of chemical composition of the particles using Fourier transform infrared spectroscopy, polyethylene:propylene was the most common polymer type observed. Consistent with results presented by other investigators, microplastic concentrations and polymer types in bottom sediments in this study were also aligned with the most widely used plastics worldwide.

Published
2019
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12. Beneficial use of dredged sediment as a sustainable practice for restoring coastal marsh habitat

Author

Joseph Z. Gailani, Jeffrey M. Corbino, Scott G. Bourne, Andrew D. McQueen, Justin L. Wilkens, Christina L. Saltus, Burton C. Suedel, and Jeffrey K. King

Subjects
Sustainable development, geography, Geologic Sediments, Marsh, geography.geographical_feature_category, Beneficial use, Resource (biology), business.industry, Geography, Planning and Development, Environmental resource management, General Medicine, Engineering, Habitat, Work (electrical), Rivers, Wetlands, Environmental science, business, Restoration ecology, Bay, Ecosystem, General Environmental Science
Abstract

Coastal Louisiana (USA) continues to sustain immense land and habitat losses due to subsidence, sea-level rise, and storm events. Approximately 65 million m3 (85 million cubic yards) of sediment is dredged annually from Gulf Coast federal navigation channels to maintain safe waterway passage. The beneficial use of these sediments continues to increase, and now this sediment is recognized as a critical resource in large-scale (estimated multibillion dollar) ecosystem restoration efforts to mitigate land and habitat losses along the US Gulf Coast. However, the documentation of restoration benefits where dredged sediments are the primary resource is lacking, which limits the potential for future applications. Therefore, this study documents the progress to restore marsh habitat and the resultant benefits in West Bay, Louisiana, and investigates how the restoration practices align with principles of the US Army Corps of Engineers (USACE) Engineering with Nature® (EWN®) and UN Sustainable Development Goals (UNSDGs). West Bay, a 4964-ha subdelta adjacent to the Mississippi River, typifies risks of coastal land loss that also threatens the integrity of the adjacent federal navigation channel. To help restore coastal marsh habitat on a large spatial and temporal scale, the USACE constructed an uncontrolled diversionary channel from the Mississippi River and with subsequent direct and strategic placement of dredged sediment. Restoration performance was assessed through remotely sensed methods using data spanning approximately 70 years. To date, placement of dredged sediment in the bay has facilitated the creation of over 800 ha of new land in the formerly open waters of West Bay. The West Bay restoration project aligns with the principles of the EWN initiative, which supports more sustainable practices to deliver economic, environmental, and social benefits through collaborative processes and meaningfully integrates 10 of the UN SDGs designed to achieve a better and more sustainable future. Integr Environ Assess Manag 2021;00:1-12. Published 2021. This article is a U.S. Government work and is in the public domain in the USA.

Published
2021

13. Assessing the Impacts of Dry Blasting on Fish Eggs in Adjacent Spawning Habitat

Author

Andrew D, McQueen, Justin L, Wilkens, Alan W, Katzenmeyer, Hal F, Harrington, and Burton C, Suedel

Subjects
Salmon, Trout, Anthropogenic Effects, Animals, Ecosystem, Ovum
Abstract

Blasting used in construction of waterborne infrastructure may impact fish eggs in adjacent spawning habitats through introduction of mechanical vibrations as peak particle velocities (PPV). However, there are limited studies applying risk-based approaches to evaluate and mitigate these impacts. A navigation improvement project in the Soo Locks near the St. Marys Rapids provided an opportunity to evaluate existing data to inform blasting risks to fish eggs. To assess this risk, existing data were used to calculate species sensitivity distributions that were used to estimate a hazardous concentration for 5% of the salmon and trout species evaluated (HC5) and predicted no effect concentrations (PNEC). The HC5 ranged from 14.0 to 89.2 cm/s PPV, and the 'safe level' PNEC thresholds ranged from 2.8 to 17.8 cm/s PPV. This study provides a demonstration of how a risk-based approach can be effectively used to assess and manage dry blasting effects on underwater biota.

Published
2021

14. Nature-based solutions for improving navigation reliability on the Madeira River, Brazil

Author

Calvin Creech, Renato Amorim, Burton C. Suedel, and Timothy J. Lauth

Subjects
Sustainable development, geography, geography.geographical_feature_category, Process (engineering), business.industry, Computer science, Geography, Planning and Development, Environmental resource management, Reproducibility of Results, General Medicine, Sustainable Development, Training (civil), Sustainable community, Water resources, Adaptive management, Engineering, Rivers, business, Built environment, Channel (geography), Brazil, General Environmental Science
Abstract

The Madeira River Navigation and Improvement Project provides a unique opportunity to incorporate nature-based solutions (NbS) into the built environment to promote sustainable communities and water resources infrastructure. The Madeira River has no major physical interventions (river training structures, navigation locks and dams, etc.) to improve navigation, and so is one of the world's last remaining undeveloped megarivers that exhibits natural morphological processes. The objective of this study is to create a safe, reliable, and sustainable navigation channel in the Madeira River. This is being accomplished by designing navigation improvement measures that leverage natural geomorphic processes of the river while minimizing conventional engineering practices that alter the river's morphology. To meet this objective, fluvial geomorphology analysis and hydrodynamic modeling studies have been performed to improve understanding of the morphological behavior of the system. Measures that incorporate beneficial reuse of dredged sediment within the system are being prioritized and incorporated into the study's design. Natural processes are being leveraged through the implementation of an adaptive management process to shape the navigation channel by incorporating the use of dynamic structures using natural local materials (e.g., large woody debris already in the system), a direct application of NbS in practice. This process includes extensive stakeholder collaboration and utilizing nature's energy to balance navigation, ecological, and social benefits along the Madeira River. This project demonstrates that nature-based approaches not only provide navigation benefits but can also provide ecological and social benefits in ways that are sustainable in the long term, consistent with United Nations Sustainable Development Goals (SDGs) and the International Union for the Conservation of Nature's global standard for NbS. Integr Environ Assess Manag 2022;18:115-122. © 2021 SETAC. This article has been contributed to by US Government employees and their work is in the public domain in the USA.

Published
2021

15. Monitoring the Milwaukee Harbor breakwater : an Engineering With Nature® (EWN®) demonstration project

Author

John Janssen, Burton C. Suedel, and Eric J. Geisthardt

Subjects
Fishery, biology, Breakwater, Environmental science, Mysidae, biology.organism_classification
Abstract

The US Army Corps of Engineers (USACE) maintains breakwaters in Milwaukee Harbor. USACE’s Engineering With Nature® (EWN®) breakwater demonstration project created rocky aquatic habitat with cobbles (10–20 cm) covering boulders (6–8 metric tons) along a 152 m section. A prolific population of Hemimysis anomala, an introduced Pontocaspian mysid and important food source for local pelagic fishes, was significantly (p < .05) more abundant on cobbles versus boulders. Food-habits data of alewife (Alosa pseudoharengus) and rainbow smelt (Osmerus mordax) provided evidence that H. anomala were a common prey item. Night surveys and gill netting confirmed O. mordax preferred foraging on the cobbles (p < .05) and consumed more H. anomala than at the reference site (p < .05). H. anomala comprised a significant portion of the diets of young-of-the-year (YOY) yellow perch (Perca flavescens), YOY largemouth bass (Micropterus salmoides), and juvenile rock bass (Ambloplites rupestris) caught on the breakwater. The natural features’ construction on the breakwater increased the available habitat for this benthopelagic macroinvertebrate and created a novel ecosystem benefiting forage fish and a nursery habitat benefiting nearshore game fish juveniles. These data will encourage the application of EWN concepts during structural repairs at other built navigation infrastructure.

Published
2021
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16. Using Engineering With Nature

Author

Christopher P, Haring, Garrett L, Altmann, Burton C, Suedel, and Stephen W, Brown

Subjects
Engineering, Rivers, Water Supply, Floods, Wildfires
Abstract

The US Army Corps of Engineers (USACE) manages hundreds of reservoirs and thousands of miles of navigation channels that provide invaluable flood control, commercial transport of materials, water supply, recreation, and stream flow regulation. This capability is being threatened by the continued occurrence of large-scale wildfires across the western United States. The wildfires damage watersheds in part by denuding landscapes, reducing infiltration rates, and increasing runoff rates, thereby dramatically increasing the potential for the erosion of denuded slopes, destabilizing stream channels, increasing the infilling potential of reservoirs and, hence, reducing their capacity. The increased erosion rates highlight the need to develop innovative solutions to reduce erosion of watersheds laid bare after wildfires engulf the area. The Santa Clara Pueblo in northern New Mexico extends from the top of the eastern Jemez Mountains to the floodplains of the Rio Grande River. The Pueblo designed and constructed thousands of structures built from natural materials, consistent with Engineering With Nature (EWN) principles for erosion control incorporating low-cost and readily available materials such as logs, mulch, vegetation, and local rock to stabilize highly erodible parts of the watershed. The watersheds where these natural structures were constructed were monitored after construction to assess their effectiveness, guiding a series of recommendations for broader implementation. As part of a continued emphasis on updating USACE engineering guidance, research, and development, funding has been focused on developing sustainable and resilient project designs using natural materials like those implemented by the Santa Clara Pueblo. This paper focuses on the innovative EWN-based watershed stabilization practices that were implemented in the upper section of this wildfire affected canyon and tributary streams. Recommendations for future implementation based on lessons learned from this project are also provided. Integr Environ Assess Manag 2021;17:1194-1202. Published 2021. This article is a US Government work and is in the public domain in the USA.

Published
2021

17. A Hemimysis-driven novel ecosystem at a modified rubble-mound breakwater: An Engineering With Nature® Demonstration Project

Author

Eric J. Geisthardt, Burton C. Suedel, and John Janssen

Subjects
Food Chain, 010504 meteorology & atmospheric sciences, Cobble, Geography, Planning and Development, Population, Micropterus, Alewife, 010501 environmental sciences, 01 natural sciences, Hemimysis anomala, Rainbow smelt, Animals, education, Ecosystem, 0105 earth and related environmental sciences, General Environmental Science, education.field_of_study, biology, Fishes, Pelagic zone, General Medicine, biology.organism_classification, Invertebrates, Scuba diving, Fishery, Lakes, Geography, Osmeriformes
Abstract

The US Army Corps of Engineers (USACE) repairs aging breakwater structures as part of routine maintenance to maintain safe navigation in Great Lakes commercial ports. A USACE repair to an existing breakwater structure in Milwaukee Harbor (WI) implementing Engineering With Nature (EWN) principles created complex rocky habitat by strategically placing cobble-sized stone over conventional 5.4 to 9.1 metric ton boulders, thus creating "control" (boulder) and "treatment" (cobble) habitats. We evaluated the resultant nature-based breakwater (NBBW) developing food web versus an adjacent reference site on the same breakwater and determined that, unexpectedly, locally abundant Hemimysis anomala were impacting the food-web dynamics and feeding ecology of fishes occupying the structure. Fish and forage communities were sampled using gillnets, night scuba diving surveys, rock collections, and a novel trap to capture invertebrates. The resultant NBBW became home to a prolific population of nonindigenous Hemimysis, with indications that they were more abundant on cobble versus boulders, based on rainbow smelt feeding. This lithophilic/cave swelling mysid provided an important new food resource in Milwaukee Harbor for two introduced pelagic prey fishes: alewife (Alosa pseudoharengus) and rainbow smelt (Osmerus mordax). Gillnetting and night scuba diving surveys confirmed that rainbow smelt preferred to forage on the cobble section (p 0.05). Hemimysis were also the primary food item consumed by nearshore game fishes such as young-of-the-year (YOY) yellow perch (Perca flavescens), YOY largemouth bass (Micropterus salmoides), and juvenile rock bass (Ambloplites rupestris). We propose that those breakwaters that harbor abundant Hemimysis constitute novel ecosystems (ecosystems that include both native and non-native biota) that might benefit harbor fisheries if well-managed. This project demonstrated how a low-cost design modification could be applied during the repair of rubble-mound, breakwater structures to achieve benefits beyond safe navigation. Integr Environ Assess Manag 2022;18:49-62. Published 2021. This article is a US Government work and is in the public domain in the USA.

Published
2021

18. Evaluation of dredged sediment for aquatic placement: interpreting contaminant bioaccumulation

Author

Andrew M. Lenox, David W. Moore, Burton C. Suedel, Katherine von Stackelberg, Scott W. Pickard, Andrew D. McQueen, and Guilherme R. Lotufo

Subjects
Geologic Sediments, 010504 meteorology & atmospheric sciences, Aquatic ecosystem, Sediment, Context (language use), General Medicine, 010501 environmental sciences, Management, Monitoring, Policy and Law, Contamination, Bioaccumulation, Polychlorinated Biphenyls, 01 natural sciences, Pollution, Environmental chemistry, Bioassay, Ecotoxicology, Environmental science, Sample variance, Polycyclic Aromatic Hydrocarbons, Water Pollutants, Chemical, Environmental Monitoring, 0105 earth and related environmental sciences, General Environmental Science
Abstract

The potential bioaccumulation of sediment-associated contaminants is one of the primary concerns associated with the aquatic placement of dredged sediment. Laboratory bioaccumulation tests with representative infaunal organisms exposed to dredged sediment and reference sediment are used to assess the potential for contaminant-related bioaccumulation impacts. Dredged sediment testing and evaluation guidance provides statistical inferences and numerous assessment factors (e.g., the magnitude of difference (MOD)) to interpret results; however, detailed information for applying these factors is lacking. Therefore, the focus of this work was to provide context for the application of the MOD as a line of evidence for evaluating bioaccumulation risk associated with dredged material placement in aquatic environments by considering variance (as coefficient of variation (CV)), MOD, and statistical differences associated with bioaccumulation bioassay tissue concentrations in three case studies. Based on peer-reviewed data and dredged material monitoring data, relatively low within-sample variability (CVs

Published
2020
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19. Quantifying Wildlife and Navigation Benefits of a Dredging Beneficial‐Use Project in the Lower Atchafalaya River: A Demonstration of Engineering with Nature®

Author

Christy M. Foran, Kelly A. Burks-Copes, Jacob F. Berkowitz, Burton C Suedel, and Jeffrey M. Corbino

Subjects
0106 biological sciences, Program evaluation, Conservation of Natural Resources, Geologic Sediments, Engineering, Beneficial use, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Public domain, 01 natural sciences, Ecosystem services, Rivers, Animals, Environmental impact assessment, Economic impact analysis, Ecosystem, Ships, 0105 earth and related environmental sciences, General Environmental Science, Government, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, General Medicine, Louisiana, Work (electrical), business, Environmental Monitoring
Abstract

The US Army Corps of Engineers (USACE) operates and maintains numerous projects in support of its various civil works missions including flood damage risk reduction, navigation, and ecosystem restoration. Originally authorized on an economic basis, these projects may produce a broad array of unaccounted for ecosystem services (ESs) that contribute to overall human, societal, and environmental well-being. Efforts are underway to capture the full array of environmental, economic, and social impacts of these projects. Methods are needed to identify relevant ESs generated by these nature-based projects and to measure their contribution to societal well-being with an emphasis placed on use of readily available data. Performance metrics were collected to capture the benefits of strategic placement of dredged material in river systems to allow formation of islands that produce a wide array of ESs. These performance metrics can be converted to ESs with market value or combined in a decision analytical approach to demonstrate the relative gain in utility. This approach is demonstrated on a riverine island created on the Atchafalaya River, Louisiana, as a result of the strategic placement of dredged material. The outcomes foster integration of ES assessment into project design and management practices and support more comprehensive project evaluation and widespread application. Integr Environ Assess Manag 2018;14:759-768. Published 2018. This article is a US Government work and is in the public domain in the USA.

Published
2018
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21. Ecological Risk Assessment of Underwater Sounds from Dredging Operations

Author

Christ A. F. de Jong, Burton C. Suedel, Frank Thomsen, and Andrew D. McQueen

Subjects
Flexibility (engineering), Geologic Sediments, Risk Management, 010504 meteorology & atmospheric sciences, Computer science, business.industry, Process (engineering), Geography, Planning and Development, Risk management framework, General Medicine, Acoustics, 010501 environmental sciences, 01 natural sciences, Risk Assessment, Dredging, Sound, Risk analysis (engineering), Component (UML), Underwater, business, Risk assessment, Risk management, Ships, 0105 earth and related environmental sciences, General Environmental Science
Abstract

There is an increasing international focus to understand and quantify the potential ecological risks of low-frequency underwater sounds produced from anthropogenic activities (e.g., commercial shipping, dredging, construction, and offshore energy production). For dredge operations, a risk-based approach has been proposed for identifying, assessing, and managing risks; however, specific details of the framework and demonstration of the approach are lacking. Thus, the goal of this study was to provide a practical, concise, and reliable framework for assessing the effects of dredging sounds on aquatic life. The specific objectives were to 1) further specify a risk assessment approach for assessing underwater sounds from dredging operations, 2) demonstrate the utility of the approach in practice using a case study, and 3) document the strengths and challenges of the approach. The risk framework was adapted for underwater sounds to include a project formulation step, an analysis step to analyze and assess exposure and biological responses, a risk characterization process in which the preceding steps are integrated and uncertainty is addressed, and a risk management step. A key beneficial component of this framework is the use of a phased approach, whereby a screening step offers a process that utilizes existing or readily available information to evaluate risk. In general, a limitation of evaluating risks due to dredge operations is the degree of uncertainty surrounding effect thresholds for many marine species; however, this approach emphasizes the importance of documenting and communicating uncertainty to regulators, stakeholders, and practitioners in the decision-making process. A case study example is included to illustrate how the framework can be applied in practice. The primary strength of this method is the intrinsic flexibility of the framework to adapt as the scientific understanding improves and new data become available in the rapidly evolving field of underwater acoustics. Integr Environ Assess Manag 2020;00:1–13. © 2020 SETAC. © 2020 SETAC

Published
2019

29. Engineering With Nature : An Atlas

Author

Emily B. Moynihan, Burton C. Suedel, Jeffrey K. King, Holly K. Kuzmitski, Todd S. Bridges, and E. Michelle. Bourne

Subjects
geography, Engineering, geography.geographical_feature_category, Floodplain, Atlas (topology), business.industry, Environmental resource management, Wetland, Sand dune stabilization, Environmentalism, Environmental monitoring, business, Levee, Reef
Published
2018
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30. Laboratory test of suspended sediment effects on short-term survival and swimming performance of juvenile Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus, Mitchill, 1815)

Author

Jan Jeffrey Hoover, Alan W Katzenmeyer, Justin L. Wilkens, N. M. Hahn, and Burton C. Suedel

Subjects
Fishery, Dredging, Laboratory test, Sturgeon, biology, Acipenser, Sediment, Juvenile, Aquatic Science, biology.organism_classification, Total suspended solids, Atlantic sturgeon
Abstract

Summary Tested was the hypothesis that juvenile Atlantic sturgeon (Acipenser oxyrinchus oxyrinchus) would exhibit no response in short-term survival or swimming performance when exposed to varying concentrations of suspended sediment simulating dredge plumes in waterways where this species may be impacted by dredging operations. Sediment collected from Savannah Harbor, South Carolina, USA was used to simulate a worst-case scenario. Juvenile sturgeon were contained for a 3-day period in flow-through aquaria, with limited opportunity for movement, in sediment of varying concentrations (100, 250 and 500 mg L−1 total suspended solids [TSS]) mimicking prolonged exposure to suspended sediment plumes near an operating dredge. Of the 90 fish exposed, 86 (96%) survived the test. Of the four fish that died, one was exposed to 250 TSS and three to 500 TSS. Swimming performance results indicated that nearly all fish were positively rheotactic. Critical swim speeds (Ucrits) were moderate, whether measured as absolute values (21–31 cm s−1) or as relative values (1.4–2.1 body lengths s−1), with no significant differences among treatments (F

Published
2015
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32. Creating nesting habitat for the Common tern (Sterna hirundo) on the repaired Ashtabula breakwater : lessons learned 2014 – 2016

Author

Cynthia J Banks, Karen. Adair, Thomas J. Fredette, Burton C. Suedel, Andrew R. Hannes, Anthony M. Friona, Michael P. Guilfoyle, Paul Bijhouwer, and Richard J Ruby

Subjects
Engineering, biology, Sterna, business.industry, Ecology, Technical note, biology.organism_classification, Fishery, Habitat, Breakwater, Hirundo, Nesting (computing), Tern, business, Ashtabula
Published
2017
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33. A multifactor ecosystem assessment of wetlands created using a novel dredged material placement technique in the Atchafalaya River, Louisiana : an Engineering With Nature Demonstration Project

Author

Jeff Corbino, Burton C. Suedel, Kim Sung-Chan, Maik Flanagin, Elizabeth A. Summers, Nathan R. Beane, Jacob F. Berkowitz, and Darrell E Evans

Subjects
Wetland ecology, geography, geography.geographical_feature_category, ComputingMilieux_THECOMPUTINGPROFESSION, ComputingMethodologies_SIMULATIONANDMODELING, Species diversity, ComputingMilieux_LEGALASPECTSOFCOMPUTING, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Wetland, Ecosystem assessment, GeneralLiterature_MISCELLANEOUS, Environmental science, Environmental impact assessment, Ecosystem, Environmental planning
Abstract

Engineering With Nature Program (U.S.) United States. Army. Corps of Engineers. New Orleans District.

Published
2017
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34. A method for simulating sedimentation of fish eggs to generate biological effects data for assessing dredging impacts

Author

Justin L. Wilkens and Burton C. Suedel

Subjects
Hydrology, Dredging, Fishery, Aquatic species, fungi, Environmental science, %22">Fish , Technical note, Storm, Water quality, Sedimentation, Fish larvae
Abstract

The purpose of this technical note is to describe a methodology for generating and evaluating the effects of sedimentation caused by dredging on aquatic species, including the effects of burial on emergence of fish larvae from eggs. This methodology has wide applicability for evaluating sedimentation originating from dredging activities, as well as other causes of sedimentation (e.g., agricultural practices, storm events, tidal flows).

Published
2017
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35. Using the Fish Larvae and Egg Exposure System (FLEES) to generate effects data for informing environmental windows

Author

Burton C. Suedel and Justin L. Wilkens

Subjects
Fishery, Dredging, Environmental science, Sediment, %22">Fish , Technical note, Fish larvae
Abstract

The Fish Larvae and Egg Exposure System (FLEES) was designed to simulate the resuspension of sediment related to dredging operations and has been used over time to generate biological response data for dredging projects where environmental windows (EW) severely restrict dredging operations (Lutz et al. 2012). This technical note focuses on the physical and behavioral effects of resuspended sediment for the purpose of developing better informed EWs for dredging operations.

Published
2017
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36. The Effects of a Simulated Suspended Sediment Plume on Eastern Oyster (Crassostrea virginica) Survival, Growth, and Condition

Author

Justin L. Wilkens, Burton C. Suedel, Joan U. Clarke, Douglas G. Clarke, and Charles H. Lutz

Subjects
Oyster, animal structures, Ecology, biology, Weight change, Aquatic Science, biology.organism_classification, Dredging, Condition index, Water column, Oceanography, biology.animal, Environmental science, Crassostrea, Eastern oyster, Ecology, Evolution, Behavior and Systematics, Total suspended solids
Abstract

Bottom sediments are resuspended into the water column during dredging operations. These resuspended sediments are an often cited concern used to justify restrictions applied to dredging schedules in many areas of the USA. One example of a temporal restriction, commonly referred to as an environmental window, involves dredging schedules in the James River, Virginia, because of potential impacts on the eastern oyster (Crassostrea virginica Gmelin). Yet, effects’ data are lacking to understand the effects of suspended sediments to C. virginica. To address this data gap, we performed a laboratory study mimicking sediment resuspension during annual dredging operations in the James River. Field-collected oysters were exposed for 7 days under flow-through conditions to 0, 100, 250, and 500-mg/L total suspended solids (TSS) in a unique exposure system where oyster movements could be electronically monitored. Endpoints analyzed were survival, percent of time open, total number of shell movements, weight change, and condition index. Data indicated no significant effects of suspended sediment on these endpoints after 7 days of exposure. Weight change in oysters attached vertically to monitor their movements was significantly less than in oysters not monitored in every treatment. No significant differences in condition index, an indicator of oyster growth sensitive to environmental pollutants, were observed among treatments measured 30 days postexposure. Correlations performed for each treatment among monitored oyster endpoints found significant negative associations between number of movements and percent open in the 100, 250, and 500-mg/L TSS treatments and in all treatments combined. These data will help reduce the uncertainty surrounding the effects of suspended sediments on C. virginica.

Published
2014
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37. Suspended sediment effects on walleye (Sander vitreus)

Author

Céline A.J. Godard-Codding, Burton C. Suedel, Charles H. Lutz, Jonathan D. Maul, Douglas G. Clarke, and Joan U. Clarke

Subjects
Fishery, Dredging, Larva, Ecology, Significant difference, Environmental science, %22">Fish , Sediment, Aquatic Science, Ecology, Evolution, Behavior and Systematics
Abstract

Environmental windows are seasonal restrictions imposed on dredging operations in the Great Lakes and other waterways of the United States. Such restrictions often generically assume that sediments resuspended by dredging result in adverse impacts to fish; this is the case in western Lake Erie where the environmental window was established due to potential impacts on walleye ( Sander vitreus ). To address this concern, laboratory studies mimicking sediment resuspension during dredging operations in western Lake Erie were conducted to determine whether suspended sediments affect walleye eggs and fingerlings. Newly laid eggs and 45- to 60-d old fingerlings from separate hatcheries were exposed for 72-h under flow-through conditions to 0, 100, 250, and 500 mg/L total suspended sediment (TSS). Fingerlings, eggs, and newly hatched larvae were analyzed for multiple lethal and sublethal endpoints. Data indicated no significant effects of suspended sediment on egg hatch success or fingerling survival after three days of exposure. No significant differences were observed when comparing percent egg viability in the control with any TSS treatment; however, a downward trend was observed at 500 mg/L. No significant differences were observed during comparisons of fingerling gill lamellae in the control with any TSS treatment; however, a statistically significant difference was observed when comparing gill lamellae in the control with the original supply animals. No significant differences were found between control means and unexposed eggs or any TSS treatment. These effect data for walleye will serve to better inform the setting of environmental windows for this species in western Lake Erie.

Published
2014
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38. Multi-criteria decision analysis to select metrics for design and monitoring of sustainable ecosystem restorations

Author

K.M. Baker, Igor Linkov, Matteo Convertino, Burton C. Suedel, John T Vogel, and C. Lu

Subjects
Ecology, Uncertain data, Computer science, business.industry, media_common.quotation_subject, Environmental resource management, Stakeholder, General Decision Sciences, Environmental design, Multiple-criteria decision analysis, Adaptive management, Risk analysis (engineering), Quality (business), Metric (unit), business, Ecology, Evolution, Behavior and Systematics, Decision analysis, media_common
Abstract

The selection of metrics for ecosystem restoration programs is critical for improving the quality and utility of design and monitoring programs, informing adaptive management actions, and characterizing project success. The metrics selection process, that in practice is left to the subjective judgment of stakeholders, is often complex and should simultaneously take into account monitoring data, environmental models, socio-economic considerations, and stakeholder interests. With limited funding, it is often very difficult to balance the importance of multiple metrics, often competing, intended to measure different environmental, social, and economic aspects of the system. To help restoration planners and practitioners develop the most useful and informative design and monitoring programs, we propose the use of multi-criteria decision analysis (MCDA) methods, broadly defined, to select optimal ecosystem restoration metric sets. In this paper, we apply and compare two MCDA methods, multi-attribute utility theory (MAUT), and probabilistic multi-criteria acceptability analysis (ProMAA), for a hypothetical river restoration case study involving multiple stakeholders with competing interests. Overall, the MCDA results in a systematic, quantitative, and transparent evaluation and comparison of potential metrics that provides planners and practitioners with a clear basis for selecting the optimal set of metrics to evaluate restoration alternatives and to inform restoration design and monitoring. In our case study, the two MCDA methods provide comparable results in terms of selected metrics. However, because ProMAA can consider probability distributions for weights and utility values of metrics for each criterion, it is most likely the best option for projects with highly uncertain data and significant stakeholder involvement. Despite the increase in complexity in the metrics selection process, MCDA improves upon the current, commonly-used ad-hoc decision practice based on consultations with stakeholders by applying and presenting quantitative aggregation of data and judgment, thereby increasing the effectiveness of environmental design and monitoring and the transparency of decision making in restoration projects.

Published
2013
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39. A Flow-through Exposure System for Evaluating Suspended Sediments Effects on Aquatic Life

Author

Justin L. Wilkens and Burton C. Suedel

Subjects
Aquatic Organisms, Geologic Sediments, General Chemical Engineering, Flow (psychology), 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Suspension (chemistry), Dredging, Aquatic species, 020401 chemical engineering, Animals, 0204 chemical engineering, 0105 earth and related environmental sciences, Total suspended solids, Hydrology, General Immunology and Microbiology, Ecology, Aquatic ecosystem, General Neuroscience, Fishes, Sediment, Larva, Environmental science, Water Pollutants, Chemical, Environmental Sciences
Abstract

This paper describes the Fish Larvae and Egg Exposure System (FLEES). The flow-through exposure system is used to investigate the effects of suspended sediment on various aquatic species and life stages in the laboratory by using pumps and automating delivery of sediment and water to simulate suspension of sediment. FLEES data are used to develop exposure-response curves between the effects on aquatic organisms and suspended sediment concentrations at the desired exposure duration. The effects data are used to evaluate management practices used to reduce the interactions between aquatic organisms and anthropogenic causes of suspended sediments. The FLEES is capable of generating total suspended solids (TSS) concentrations as low as 30 to as high as 800 mg/L, making this system an ideal choice for evaluating the effects of TSS resulting from many activities including simulating low ambient levels of TSS to evaluating sources of suspended sediments from dredging operations, vessel traffic, freshets, and storms.

Published
2017
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40. Effects of Suspended Sediment on Early Life Stages of Smallmouth Bass (Micropterus dolomieu)

Author

Justin L. Wilkens, Alan J. Kennedy, and Burton C. Suedel

Subjects
0106 biological sciences, Geologic Sediments, Michigan, Health, Toxicology and Mutagenesis, Longevity, Micropterus, 010501 environmental sciences, Toxicology, 01 natural sciences, Dredging, Animals, 0105 earth and related environmental sciences, Total suspended solids, Ohio, Larva, biology, 010604 marine biology & hydrobiology, Sediment, General Medicine, Ichthyoplankton, biology.organism_classification, Pollution, Spawn (biology), Early life, Fishery, Lakes, Environmental science, Bass, Water Pollutants, Chemical
Abstract

The resuspension of sediments caused by activities, such as dredging operations, is a concern in Great Lakes harbors where multiple fish species spawn. To address such concerns, smallmouth bass (Micropterus dolomieu) were exposed to uncontaminated suspended sediment (nominally 0, 100, 250, and 500 mg/L) continuously for 72 h to determine the effects on egg-hatching success and swim-up fry survival and growth. The test sediments were collected from two harbors: (1) fine-grained sediment in Grand Haven Harbor, Lake Michigan, and (2) coarser-grained sediment in Fairport Harbor, Lake Erie. Eggs exposed to total suspended solids (TSS) concentrations >100 mg/L resulted in decreased survival of post-hatch larval fish. Fry survival was >90 % at the highest exposure concentration (500 mg/L), but growth was decreased when the exposure concentration was >100 mg/L. Growth and survival of swim-up fry held for a 7- and 26-day post-exposure the grow-out period was variable suggesting that the sediment grain size and strain of fish may influence lingering effects after the cessation of exposure. The results suggest that exposed eggs hatched normally; however, newly hatched larvae, which are temporarily immobile, are more vulnerable to the effects of suspended sediment. The swim-up fry were found to be more sensitive to high TSS concentrations in sandy relative to silty sediment. These data represent a conservative exposure scenario that can be extrapolated to high-energy systems in the field to inform management decisions regarding the necessity for dredging windows or need to implement controls to protect M. dolomieu.

Published
2016

41. Ashtabula Breakwater Common Tern (Sterna Hirundo) Nesting

Author

Michael Guilfoyle, Marleen Kromer, Karen. Adair, Burton C. Suedel, Richard J Ruby, Paul Bijhouwer, and Thomas J Fredette

Subjects
Engineering, biology, business.industry, Sterna, Environmental resource management, biology.organism_classification, Civil engineering, Natural resource, Dredging, Habitat, Hirundo, Nesting (computing), Tern, business, Ashtabula
Abstract

Purpose: This document summarizes the design features used to create a nesting area for the Common Tern (Sterna hirundo) that was incorporated as part of the maintenance repairs to the harbor breakwater located in Ashtabula, OH. The purpose of the tern nesting project was to demonstrate an option that can be used during such maintenance activities for increasing infrastructure benefits as part of the Engineering With Nature initiative (Bridges 2012). The U.S. Environmental Protection Agency’s Great Lakes Restoration Initiative (GLRI) and the U.S. Army Corps of Engineers’ Dredging Operations and Environmental Research (DOER) Program sponsored the development of the nesting habitat site. The project was developed in consultation with the The Nature Conservancy and the Ohio Department of Natural Resources.

Published
2016
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42. Predicting chemical bioavailability using microarray gene expression data and regression modeling: A tale of three explosive compounds

Author

David R. Johnson, Edward J. Perkins, Xiaofei Nan, Burton C. Suedel, Yixin Chen, Ping Gong, Robert E. Boyd, Natalie D. Barker, and Dawn Wilkins

Subjects
0301 basic medicine, Tissue residue, HMX (Octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine), Biological Availability, Genomics, Feature selection, Computational biology, Biology, 03 medical and health sciences, Explosive Agents, Earthworm (Eisenia fetida), Genetics, Animals, Soil Pollutants, Oligochaeta, Oligonucleotide Array Sequence Analysis, Predictor genes, Triazines, business.industry, Gene Expression Profiling, Methodology Article, Regression analysis, Predictive regression modeling, Azocines, Biotechnology, Bioavailability, Gene expression profiling, 030104 developmental biology, 13. Climate action, TNT (2,4,6-Trinitrotoluene), Metric (mathematics), Gene chip analysis, Regression Analysis, Global gene expression profiling, RDX (1,3,5-Trinitro-1,3,5-triazacyclohexane), DNA microarray, business, Trinitrotoluene
Abstract

Background Chemical bioavailability is an important dose metric in environmental risk assessment. Although many approaches have been used to evaluate bioavailability, not a single approach is free from limitations. Previously, we developed a new genomics-based approach that integrated microarray technology and regression modeling for predicting bioavailability (tissue residue) of explosives compounds in exposed earthworms. In the present study, we further compared 18 different regression models and performed variable selection simultaneously with parameter estimation. Results This refined approach was applied to both previously collected and newly acquired earthworm microarray gene expression datasets for three explosive compounds. Our results demonstrate that a prediction accuracy of R2 = 0.71–0.82 was achievable at a relatively low model complexity with as few as 3–10 predictor genes per model. These results are much more encouraging than our previous ones. Conclusion This study has demonstrated that our approach is promising for bioavailability measurement, which warrants further studies of mixed contamination scenarios in field settings Electronic supplementary material The online version of this article (doi:10.1186/s12864-016-2541-5) contains supplementary material, which is available to authorized users.

Published
2016
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43. The effects of suspended sediment on walleye (Sander vitreus) eggs

Author

Burton C. Suedel, Douglas G. Clarke, Joan U. Clarke, and Charles H. Lutz

Subjects
Fishery, Dredging, Hatching, Stratigraphy, Fish species, Environmental science, Sediment, Gross morphology, Sander, Earth-Surface Processes
Abstract

Purpose Sediment resuspension is among the most widely cited concerns that lead to restricted dredging timeframes. Protection of fish species is a primary concern regarding the effects of dredging operations, yet experimental data establishing thresholds for uncontaminated suspended sediment effects are largely lacking. We conducted research to determine suspended sediment effects on walleye (Sander vitreus) egg hatching success and gross morphology following exposures mimicking sediment resuspension during dredging operations.

Published
2012
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44. Contribution of Soil Lead to Blood Lead in Children: A Study from New Orleans, LA

Author

Timothy S. Goebel, George P. Cobb, Les N. McDaniel, Todd A. Anderson, Michael T. Abel, Burton C. Suedel, Richard Rigdon, Richard E. Zartman, Robert J. Lascano, and Steven M. Presley

Subjects
Pollutant, biology, Indoor bioaerosol, Environmental engineering, chemistry.chemical_element, Soil lead, Contamination, Pesticide, biology.organism_classification, chemistry, Environmental chemistry, Environmental science, Arsenic, Exposure assessment, Cladosporium
Abstract

In recent years, a significant number of environmental studies have been conducted in New Orleans, LA and surrounding Gulf Coast areas due in part to the occurrence of hurricanes Katrina and Rita. Data collected from studies in the New Orleans area indicate that inorganic contaminants including arsenic (As), iron (Fe), lead (Pb), and vanadium (V); high concentration of bioaerosols, particularly Cladosporium and Aspergillus, and several organic pollutants (PAHs, pesticides, and volatiles) may pose a risk to human health in New Orleans. While many of these results resemble historical data, a current quantitative exposure assessment has not been conducted. We engaged in one such assessment for lead (Pb) contamination in surface soils. We used Pb concentrations in surface soils ( μg/day to 102 μg/day for our study area within urbanNew Orleans. These data are concerning because children exposed to >33.5 μg/d Pb may cause their blood-Pb levels to exceed the Centers for Disease Control and Prevention (CDC) threshold for blood-Pb of 10 μg/dL. It has generally been accepted that a more protective blood Pb concentration threshold of 6 - μg/dL is warranted. Using the 6-μg/dL threshold puts children exposed to as little as 20.2 μg/day Pb at risk.

Published
2012
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45. Environmental engineering of navigation infrastructure: A survey of existing practices, challenges, and potential opportunities

Author

Christy M. Foran, Burton C. Suedel, Thomas J Fredette, and Sandra M. Brasfield

Subjects
Conservation of Natural Resources, Engineering, Process (engineering), Oceans and Seas, media_common.quotation_subject, Geography, Planning and Development, Environment, Government Agencies, Promotion (rank), Documentation, Rivers, Surveys and Questionnaires, Environmental impact assessment, Ships, General Environmental Science, media_common, Water transport, business.industry, Principal (computer security), Environmental resource management, General Medicine, United States, Lakes, Engineering management, Facility Design and Construction, Sustainability, The Internet, business, Environmental Monitoring
Abstract

Navigation infrastructure such as channels, jetties, river training structures, and lock-and-dam facilities are primary components of a safe and efficient water transportation system. Planning for such infrastructure has until recently involved efforts to minimize impacts on the environment through a standardized environmental assessment process. More recently, consistent with environmental sustainability concepts, planners have begun to consider how such projects can also be constructed with environmental enhancements. This study examined the existing institutional conditions within the US Army Corps of Engineers and cooperating federal agencies relative to incorporating environmental enhancements into navigation infrastructure projects. The study sought to (1) investigate institutional attitudes towards the environmental enhancement of navigation infrastructure (EENI) concept, (2) identify potential impediments to implementation and solutions to such impediments, (3) identify existing navigation projects designed with the express intent of enhancing environmental benefit in addition to the primary project purpose, (4) identify innovative ideas for increasing environmental benefits for navigation projects, (5) identify needs for additional technical information or research, and (6) identify laws, regulations, and policies that both support and hinder such design features. The principal investigation tool was an Internet-based survey with 53 questions. The survey captured a wide range of perspectives on the EENI concept including ideas, concerns, research needs, and relevant laws and policies. Study recommendations included further promotion of the concept of EENI to planners and designers, documentation of existing projects, initiation of pilot studies on some of the innovative ideas provided through the survey, and development of national goals and interagency agreements to facilitate implementation.

Published
2011
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46. Lead distributions and risks in New Orleans following Hurricanes Katrina and Rita

Author

Steven M. Presley, Burton C. Suedel, Stephen B. Cox, Michael T. Abel, Todd A. Anderson, Thomas R. Rainwater, Galen P. Austin, George P. Cobb, Blair D. Leftwich, Gary L. Ray, and Ronald J. Kendall

Subjects
Pollutant, High concentration, Research groups, Cyclonic Storms, Health, Toxicology and Mutagenesis, Indoor bioaerosol, Air Microbiology, Pesticide, Louisiana, Risk Assessment, Child health, Human health, Lead, Environmental health, Environmental chemistry, Environmental Chemistry, Environmental science, Inorganic contaminants
Abstract

During the last four years, significant effort has been devoted to understanding the effects that Hurricanes Katrina and Rita had on contaminant distribution and redistribution in New Orleans, Louisiana, USA, and the surrounding Gulf Coast area. Elevated concentrations were found for inorganic contaminants (including As, Fe, Pb, and V), several organic pollutants (polycyclic aromatic hydrocarbons, pesticides, and volatiles) and high concentration of bioaerosols, particularly Aeromonas and Vibrio. Data from different research groups confirm that some contaminant concentrations are elevated, that existing concentrations are similar to historical data, and that contaminants such as Pb and As may pose human health risks. Two data sets have been compiled in this article to serve as the foundation for preliminary risk assessments within greater New Orleans. Research from the present study suggests that children in highly contaminated areas of New Orleans may experience Pb exposure from soil ranging from 1.37 microg/d to 102 microg/d. These data are critical in the evaluation of children's health.

Published
2010
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47. Spatial distribution of lead concentrations in urban surface soils of New Orleans, Louisiana USA

Author

Timothy S. Goebel, Blair D. Leftwich, George P. Cobb, Les N. McDaniel, Burton C. Suedel, Richard E. Zartman, Michael T. Abel, Thomas R. Rainwater, Steven M. Presley, Galen P. Austin, Richard Rigdon, Stephen B. Cox, Todd A. Anderson, and Ronald J. Kendall

Subjects
Geologic Sediments, Environmental Engineering, Chemical Hazard Release, chemistry.chemical_element, Wetland, Spatial distribution, Arsenic, Soil, Geochemistry and Petrology, Humans, Soil Pollutants, Environmental Chemistry, General Environmental Science, Water Science and Technology, geography, geography.geographical_feature_category, Geography, Spectrophotometry, Atomic, New Orleans, Sediment, Vanadium, Soil classification, General Medicine, Pesticide, Louisiana, Soil contamination, Floods, Lead, chemistry, Environmental chemistry, Soil water, Environmental science, Environmental Monitoring
Abstract

Immediately following hurricane Katrina concern was raised over the environmental impact of floodwaters on the city of New Orleans, especially in regard to human health. Several studies were conducted to determine the actual contaminant distribution throughout the city and surrounding wetlands by analyzing soil, sediment, and water for a variety of contaminants including organics, inorganics, and biologics. Preliminary investigations by The Institute of Environmental and Human Health at Texas Tech University concluded that soils and sediments contained pesticides, semi-volatiles, and metals, specifically arsenic, iron, and lead, at concentrations that could pose a significant risk to human health. Additional studies on New Orleans floodwaters revealed similar constituents as well as compounds commonly found in gasoline. More recently, it has been revealed that lead (Pb), arsenic, and vanadium are found intermittently throughout the city at concentrations greater than the human health soil screening levels (HHSSLs) of 400, 22 (non-cancer endpoint) and 390 μg/g, respectively. Of these, Pb appears to present the greatest exposure hazard to humans as a result of its extensive distribution in city soils. In this study, we spatially evaluated Pb concentrations across greater New Orleans surface soils. We established 128 sampling sites throughout New Orleans at approximately half-mile intervals. A soil sample was collected at each site and analyzed for Pb by ICP-AES. Soils from 19 (15%) of the sites had Pb concentrations exceeding the HHSSL threshold of 400 μg/g. It was determined that the highest concentrations of Pb were found in the south and west portions of the city. Pb concentrations found throughout New Orleans in this study were then incorporated into a geographic information system to create a spatial distribution model that can be further used to predict Pb exposure to humans in the city.

Published
2010
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48. Development of formulated reference sediments for freshwater and estuarine sediment testing

Author

John H. Rodgers and Burton C. Suedel

Subjects
chemistry.chemical_classification, Total organic carbon, Ecology, Health, Toxicology and Mutagenesis, Daphnia magna, Hyalella azteca, Ceriodaphnia dubia, Biology, biology.organism_classification, chemistry, Environmental chemistry, Environmental Chemistry, Ecotoxicology, Organic matter, Pimephales promelas, Water pollution
Abstract

Sediments collected at various field locations may have chemical and physical constituents that influence test results and may contain organisms that cannot be readily removed. Thus, reference sediments are needed that can be formulated to match diverse freshwater and estuarine sediments encountered in comprehensive testing programs. This research evaluated formulated reference sediments in terms of (a) their ability to match field-collected sediments both chemically and physically; (b) their suitability as habitant (survival and reproduction) for typical invertebrate toxicity testing species (Hyalella azteca Saussure, Chironomus tentans Fabricius, and Daphnia magna Straus) during chronic exposures; and (c) their suitability as a substrate for Hyalella azteca, Chironomus tentans, Daphnia magna, Ceriodaphnia dubia Richard, and Pimephales promelas Rafinesque in 14-d whole-sediment exposures. Formulated reference sediments were prepared to match naturally occurring sediments with respect to particle-size distribution, organic matter, organic carbon, pH, solids, CEC, but not redox potential. After preparation, a conditioning period of at least 7 d was required for pH stabilization of formulated reference sediments. In culture experiments, formulated reference sediments was suitable for Hyalella azteca, Chironomus tentans, and Daphnia magna survival and reproduction for 56,40, and 28 d, respectively. Hyalella azteca, Chironomus tentans, Daphnia magna, Ceriodaphnia dubia and Pimephales promelas survival more » was [>=] 88% in 14-d exposures to formulated reference sediment. Formulated reference sediments may reduce some unexplained physical, chemical, or biological toxicity'' of field-collected sediments (e.g., organic matter) that may influence toxicity testing results. « less

Published
2009
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49. Application of risk assessment and decision analysis to aquatic nuisance species

Author

Todd S. Bridges, Jongbum Kim, Barry S. Payne, Andrew C. Miller, and Burton C. Suedel

Subjects
Risk analysis, business.industry, Computer science, Decision theory, Geography, Planning and Development, Environmental resource management, Stakeholder, General Medicine, Systematic risk, Agricultural productivity, business, Risk assessment, Risk management, General Environmental Science, Decision analysis
Abstract

The spread of nonindigenous (nonnative) species introduced into the United States is a significant and growing national problem and results in lost agricultural productivity, increased health problems, native species extinctions, and expensive prevention and eradication efforts. Thousands of nonindigenous species have either become established or spread, and introduction of aquatic nuisance species (ANS) into freshwater lakes threaten aquatic biodiversity. Expanding global trade is likely to increase the number of species that are spread across the globe, so the need to develop an approach to predict potential ANS invasions is great. Risk assessments currently being used to assess ANS risk rely on qualitative or semiquantitative information and expert opinion; thus, such approaches lack transparency and repeatability. A more quantitative approach is needed to augment the qualitative approaches currently in use. A quantitative approach with the use of the traditional ecological risk assessment (traditional ERA) framework combined with decision analysis tools was developed for assessing ANS risks in which the causative ecological risk agent is an organism rather than a chemical. This paper presents a systematic risk assessment framework that includes structured decision analysis to help organize and analyze pertinent data, state assumptions, address uncertainties in estimating the probability of an undesired ANS introduction, or spread and integrate these outputs with stakeholder values. This paper also describes when and how decision analysis tools can be used in such assessments for ANS. This framework and methodology will enable risk managers to systematically evaluate and compare alternatives and actions supporting ANS risk management and thus credibly prioritize resources.

Published
2007
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