Opportunity ID: 341015

General Information

Document Type: Grants Notice
Funding Opportunity Number: W81EWF-22-SOI-0023
Funding Opportunity Title: Oyster larval transport/hydrodynamic modeling at Tangier/Pocomoke Sound, Virginia
Opportunity Category: Discretionary
Opportunity Category Explanation:
Funding Instrument Type: Cooperative Agreement
Category of Funding Activity: Science and Technology and other Research and Development
Category Explanation:
Expected Number of Awards: 1
Assistance Listings: 12.630 — Basic, Applied, and Advanced Research in Science and Engineering
Cost Sharing or Matching Requirement: No
Version: Synopsis 2
Posted Date: Jun 09, 2022
Last Updated Date: Jul 15, 2022
Original Closing Date for Applications: Aug 09, 2022
Current Closing Date for Applications: Aug 23, 2022
Archive Date: Sep 08, 2022
Estimated Total Program Funding: $100,000
Award Ceiling: $100,000
Award Floor: $0

Eligibility

Eligible Applicants: Others (see text field entitled “Additional Information on Eligibility” for clarification)
Additional Information on Eligibility: This opportunity is restricted to non-federal partners of the Chesapeake Watershed Cooperative Ecosystems Studies Unit (CESU).

Additional Information

Agency Name: Engineer Research and Development Center
Description:

Background:

 

The Chesapeake Bay Oyster Restoration Program will soon achieve the goal of successfully restoring oysters to 10 tributary rivers, 5 in Virginia and 5 in Maryland. This was the initial goal of the Chesapeake Bay Program’s Oyster Goal Implementation Team (GIT). Restoration efforts are now being moved to the more open waters of the Chesapeake Bay mainstem, Tangier and Pocomoke Sound on the east side of the Bay mainstem near the Virginia/Maryland Border.  In the late 1800s, this area was surveyed and found to hold 2,252 HA of oyster reefs, a subsequent survey in the 1980s found only 630 HA of oyster reefs, a 72% loss (Schulte 2017). Due to the non-random distribution of oyster reefs in the region, it is highly likely that the local currents and their ability to transport oyster larvae has played a key role in where reefs have come to be established and maintained over time. It is known that most oyster reef systems consist of both source and sink reefs, with the source reefs providing oyster larvae to auto-recruit on themselves, as well as provide larvae to reefs that are not located in waters where they can be self-sustaining on their own (Lipcius et al. 2015, Theuerkauf et al. 2021). There are hopes to construct a large-scale oyster reef restoration effort in this region. During the planning process, sites need to be selected and prioritized based on the benefits they can provide. Simulations from bio-physical models can be used to identify potential restoration sites based on how they fit in to the regional metapopulation. The hope of this work is to be able to utilize the information to select sites with the greatest potential to enhance the overall recruitment in the region. 

 

Brief Description of Anticipated Work:

 

What are our objectives? We would like to assess the oyster larval transport dynamics of the Tangier/Pocomoke Sound region. We would like to identify source and sink areas for the regional oyster metapopulation to help us locate oyster reefs for maximum population enhancement benefits. We are interested in estimating the oyster population size that would enable a detectable regional benefit to oyster recruitment. Estimating the necessary oyster population to influence recruitment at a detectable level has, to our knowledge, never been done. The region is large and fairly open, however it is expected that due to the non-random locations of historical reefs, there are favorable currents in some areas conducive to oyster larval settlement.

Link to Additional Information:
Grantor Contact Information: If you have difficulty accessing the full announcement electronically, please contact:

Kisha Craig

Contract Specialist

Phone 6016345397
Email:kisha.m.craig@usace.army.mil

Version History

Version Modification Description Updated Date
FOA extended to 23 August 2022 Jul 15, 2022
Jun 09, 2022

DISPLAYING: Synopsis 2

General Information

Document Type: Grants Notice
Funding Opportunity Number: W81EWF-22-SOI-0023
Funding Opportunity Title: Oyster larval transport/hydrodynamic modeling at Tangier/Pocomoke Sound, Virginia
Opportunity Category: Discretionary
Opportunity Category Explanation:
Funding Instrument Type: Cooperative Agreement
Category of Funding Activity: Science and Technology and other Research and Development
Category Explanation:
Expected Number of Awards: 1
Assistance Listings: 12.630 — Basic, Applied, and Advanced Research in Science and Engineering
Cost Sharing or Matching Requirement: No
Version: Synopsis 2
Posted Date: Jun 09, 2022
Last Updated Date: Jul 15, 2022
Original Closing Date for Applications: Aug 09, 2022
Current Closing Date for Applications: Aug 23, 2022
Archive Date: Sep 08, 2022
Estimated Total Program Funding: $100,000
Award Ceiling: $100,000
Award Floor: $0

Eligibility

Eligible Applicants: Others (see text field entitled “Additional Information on Eligibility” for clarification)
Additional Information on Eligibility: This opportunity is restricted to non-federal partners of the Chesapeake Watershed Cooperative Ecosystems Studies Unit (CESU).

Additional Information

Agency Name: Engineer Research and Development Center
Description:

Background:

 

The Chesapeake Bay Oyster Restoration Program will soon achieve the goal of successfully restoring oysters to 10 tributary rivers, 5 in Virginia and 5 in Maryland. This was the initial goal of the Chesapeake Bay Program’s Oyster Goal Implementation Team (GIT). Restoration efforts are now being moved to the more open waters of the Chesapeake Bay mainstem, Tangier and Pocomoke Sound on the east side of the Bay mainstem near the Virginia/Maryland Border.  In the late 1800s, this area was surveyed and found to hold 2,252 HA of oyster reefs, a subsequent survey in the 1980s found only 630 HA of oyster reefs, a 72% loss (Schulte 2017). Due to the non-random distribution of oyster reefs in the region, it is highly likely that the local currents and their ability to transport oyster larvae has played a key role in where reefs have come to be established and maintained over time. It is known that most oyster reef systems consist of both source and sink reefs, with the source reefs providing oyster larvae to auto-recruit on themselves, as well as provide larvae to reefs that are not located in waters where they can be self-sustaining on their own (Lipcius et al. 2015, Theuerkauf et al. 2021). There are hopes to construct a large-scale oyster reef restoration effort in this region. During the planning process, sites need to be selected and prioritized based on the benefits they can provide. Simulations from bio-physical models can be used to identify potential restoration sites based on how they fit in to the regional metapopulation. The hope of this work is to be able to utilize the information to select sites with the greatest potential to enhance the overall recruitment in the region. 

 

Brief Description of Anticipated Work:

 

What are our objectives? We would like to assess the oyster larval transport dynamics of the Tangier/Pocomoke Sound region. We would like to identify source and sink areas for the regional oyster metapopulation to help us locate oyster reefs for maximum population enhancement benefits. We are interested in estimating the oyster population size that would enable a detectable regional benefit to oyster recruitment. Estimating the necessary oyster population to influence recruitment at a detectable level has, to our knowledge, never been done. The region is large and fairly open, however it is expected that due to the non-random locations of historical reefs, there are favorable currents in some areas conducive to oyster larval settlement.

Link to Additional Information:
Grantor Contact Information: If you have difficulty accessing the full announcement electronically, please contact:

Kisha Craig

Contract Specialist

Phone 6016345397
Email:kisha.m.craig@usace.army.mil

DISPLAYING: Synopsis 1

General Information

Document Type: Grants Notice
Funding Opportunity Number: W81EWF-22-SOI-0023
Funding Opportunity Title: Oyster larval transport/hydrodynamic modeling at Tangier/Pocomoke Sound, Virginia
Opportunity Category: Discretionary
Opportunity Category Explanation:
Funding Instrument Type: Cooperative Agreement
Category of Funding Activity: Science and Technology and other Research and Development
Category Explanation:
Expected Number of Awards: 1
Assistance Listings: 12.630 — Basic, Applied, and Advanced Research in Science and Engineering
Cost Sharing or Matching Requirement: No
Version: Synopsis 1
Posted Date: Jun 09, 2022
Last Updated Date: Jun 09, 2022
Original Closing Date for Applications:
Current Closing Date for Applications: Aug 09, 2022
Archive Date: Sep 08, 2022
Estimated Total Program Funding: $100,000
Award Ceiling: $100,000
Award Floor: $0

Eligibility

Eligible Applicants: Others (see text field entitled “Additional Information on Eligibility” for clarification)
Additional Information on Eligibility: This opportunity is restricted to non-federal partners of the Chesapeake Watershed Cooperative Ecosystems Studies Unit (CESU).

Additional Information

Agency Name: Engineer Research and Development Center
Description:

Background:

 

The Chesapeake Bay Oyster Restoration Program will soon achieve the goal of successfully restoring oysters to 10 tributary rivers, 5 in Virginia and 5 in Maryland. This was the initial goal of the Chesapeake Bay Program’s Oyster Goal Implementation Team (GIT). Restoration efforts are now being moved to the more open waters of the Chesapeake Bay mainstem, Tangier and Pocomoke Sound on the east side of the Bay mainstem near the Virginia/Maryland Border.  In the late 1800s, this area was surveyed and found to hold 2,252 HA of oyster reefs, a subsequent survey in the 1980s found only 630 HA of oyster reefs, a 72% loss (Schulte 2017). Due to the non-random distribution of oyster reefs in the region, it is highly likely that the local currents and their ability to transport oyster larvae has played a key role in where reefs have come to be established and maintained over time. It is known that most oyster reef systems consist of both source and sink reefs, with the source reefs providing oyster larvae to auto-recruit on themselves, as well as provide larvae to reefs that are not located in waters where they can be self-sustaining on their own (Lipcius et al. 2015, Theuerkauf et al. 2021).  There are hopes to construct a large-scale oyster reef restoration effort in this region. During the planning process, sites need to be selected and prioritized based on the benefits they can provide. Simulations from bio-physical models can be used to identify potential restoration sites based on how they fit in to the regional metapopulation. The hope of this work is to be able to utilize the information to select sites with the greatest potential to enhance the overall recruitment in the region. 

 

Brief Description of Anticipated Work:

 

What are our objectives? We would like to assess the oyster larval transport dynamics of the Tangier/Pocomoke Sound region. We would like to identify source and sink areas for the regional oyster metapopulation to help us locate oyster reefs for maximum population enhancement benefits. We are interested in estimating the oyster population size that would enable a detectable regional benefit to oyster recruitment. Estimating the necessary oyster population to influence recruitment at a detectable level has, to our knowledge, never been done. The region is large and fairly open, however it is expected that due to the non-random locations of historical reefs, there are favorable currents in some areas conducive to oyster larval settlement.

Link to Additional Information:
Grantor Contact Information: If you have difficulty accessing the full announcement electronically, please contact:

Kisha Craig

Contract Specialist

Phone 6016345397
Email:kisha.m.craig@usace.army.mil

Folder 341015 Full Announcement-FOA -> FOA (FY22) Larval Transport_Revised.pdf

Packages

Agency Contact Information: Kisha Craig
Contract Specialist
Phone 6016345397
Email: kisha.m.craig@usace.army.mil
Who Can Apply: Organization Applicants

Assistance Listing Number Competition ID Competition Title Opportunity Package ID Opening Date Closing Date Actions
12.630 PKG00274877 Jun 09, 2022 Aug 23, 2022 View

Package 1

Mandatory forms

341015 RR_SF424_5_0-5.0.pdf

341015 AttachmentForm_1_2-1.2.pdf

Optional forms

341015 RR_SubawardBudget_3_0-3.0.pdf

341015 RR_Budget_3_0-3.0.pdf

341015 RR_PersonalData_1_2-1.2.pdf

341015 SFLLL_2_0-2.0.pdf

341015 RR_KeyPersonExpanded_4_0-4.0.pdf

2025-07-13T08:32:08-05:00

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