Understanding and Predicting the Multi-Scale Eco-Geomorphic Evolution and Ecosystem Service Benefits of Coastal Engineering With Nature (EWN) Solutions

The summary for the Understanding and Predicting the Multi-Scale Eco-Geomorphic Evolution and Ecosystem Service Benefits of Coastal Engineering With Nature (EWN) Solutions grant is detailed below. This summary states who is eligible for the grant, how much grant money will be awarded, current and past deadlines, Catalog of Federal Domestic Assistance (CFDA) numbers, and a sampling of similar government grants. Verify the accuracy of the data FederalGrants.com provides by visiting the webpage noted in the Link to Full Announcement section or by contacting the appropriate person listed as the Grant Announcement Contact. If any section is incomplete, please visit the website for the Engineer Research and Development Center, which is the U.S. government agency offering this grant.

Understanding and Predicting the Multi-Scale Eco-Geomorphic Evolution and Ecosystem Service Benefits of Coastal Engineering With Nature (EWN) Solutions: The following objectives are required for this CESU-funded project, which is to understand and predict the multi-scale eco-geomorphic evolution and ecosystem services benefits of coastal EWN solutions. Year one (1) will establish the initial structure of the project and includes tasks that support the following objectives. If funded, year two (2) and year (3) would continue to expand major elements of the project and build a diverse portfolio of collaborative EWN projects and engagements. Objective 1: Establish Collaborative EWN R&D Enterprise for understanding coastal systems. This objective prioritizes and subsequently builds a suite of diverse, collaborate R&D projects that expands current research efforts within EWN portfolio. Specifically, these projects will offer insight with respect to: (1) developing a better understanding of how coastal systems evolve before, during, and after an EWN solution is deployed; and how this knowledge informs sustainable and high performing design solutions; (2) Integrating the effects and interactions of microbes, plants, and animals into the monitoring and modeling of EWN solutions; (3) assessing and predicting the resiliency of EWN solutions to changing biological, chemical, and physical conditions; and (4) evaluating and quantifying scale- and context-dependencies of EWN solutions. The breadth of projects is strengthened by the caliber of multi-disciplinary researchers that integrate capabilities, resources and expertise to target very deliberative endpoints that advance EWN research. During the first year, it is anticipated that researchers associated with USACE and the selected team will initiate 3-5 R&D EWN projects, which ultimately lead to expanded technology transfer opportunities. Objective 2: Identify and Pursue EWN Field-Demonstration Projects. Demonstrations are applied research projects critical to the overall success of an EWN solution. As such, this objective seeks to establish field-demonstration projects that integrate research projects with a diverse number of collaborators, in addition to the core participants (i.e., members of the successful team and USACE's EWN researchers). Demonstration projects could include field testing the EWN monitoring-modeling system at a site where EWN solutions are under consideration and use this to project the eco-geomorphic evolution of alternative EWN solutions proposed for the site. Selection and/or prioritization of demonstration projects would be determined based on a system-level opportunity assessment and/or restrictions as well as other considerations specific to environmental conditions; collaboration with partners; suitability for monitoring and modeling; access to informative data (existing and acquired); public interest; input of collaborative funding, etc. It is expected that 2 or 3 field demonstration projects will be identified and actively pursued in the first year. Objective 3: Launch and Operate EWN Communication Platform for Enhanced Public Communication. A successful communication platform will result in the timely delivery of informational products and/or engagements across the EWN network. This objective seeks to optimize and integrate the collaborators' proven methods of delivering products and/or successful engagements that advance EWN strategic outcomes for the public benefit. Example products include, but are not limited to: workshops, symposia, news articles, videos, documentaries, graphics, reporting of case studies, technical notes, journal articles, etc. The selected team will work with EWN leadership and researchers to prepare most (if not all) of the referenced products. During the first year, it is expected that a minimum of 2 workshops/symposia, 1 video, 2 or 3 tech notes and 2 journal articles will be produced through a highly successful collaboration. The products derived from this collaboration are expected to generate EWN educational and public outreach opportunities. A successful application would likely include a team of investigators with knowledge in a broad array of disciplines including, but not limited to geomorphology, remote sensing, numerical modeling, water quality monitoring, marine and estuarine ecophysiology, coastal community ecology, ecosystem restoration, coastal engineering, estuarine morphodynamics, hydrodynamics and sediment transport, and environmental fluid dynamics. Additionally, experience should include, but not be limited to the following: Engineering With Nature®; development, design, and implementation of nature-based strategies in coastal settings; ecological monitoring and modeling of coastal restoration projects; incorporating human-use benefits into infrastructure projects; beneficial use of dredged sediment; quantifying benefits derived from coastal restoration; and modeling of coastal systems.