21 July 2024

How do you restore a damaged seagrass bed? Get birds to come to the party! Biologists in Florida Keys National Marine Sanctuary place T-shaped PVC stakes in seagrass beds that have been scarred by boat propellers. These stakes serve as perches to attract terns, gulls, and other birds, which produce guano droppings that are rich in nutrients — which in turn help speed regrowth of seagrass in the barren area!

— description of the photo on Wikimedia

In Florida’s shallow waters, the seagrass meadows that host abundant wildlife are damaged when boat propellers pass through them. Propellers leave a permanent scar that cannot regrow on its own. (See scars in two embedded photos below).

When the seagrass declines, so do fish and wildlife. This problem is so important to Florida that the state imposes fines on boaters who damage it and has tasked the Office of Resilience and Coastal Protections (RCP) to restore the seagrass beds.

RCP takes a two-pronged approach to restoration. The first step is to raise awareness among boaters and post signs so that they stay away from the seagrass beds.

The second step is to restore the propeller scars so the grass can regrow within the cuts. At St. Martins Marsh Aquatic Preserve:

RCP has partnered with the UF/IFAS Nature Coast Biological Station to stabilize and restore prop scars with sediment tubes. Sediment tubes accomplish this by returning the scarred areas to ambient elevations, preventing additional erosion and scouring by water currents, and protecting rhizomes from excessive sunlight exposure. The technique involves installing biodegradable fabric tubes filled with sediment into scarred areas that biodegrade in about 12 months.

Seagrass beds can be fertilized passively to encourage regrowth through the placement of bird roosting stakes and has been shown to be quite successful, as can be seen in Big Lagoon in Pensacola in Fort Pickens Aquatic Preserve.

— RCP: Florida seagrass Restoration Efforts

Add soil, then add guano.

Read more about propeller scarring in the Tampa Bay Times at: In Tampa Bay, boat propellers have killed seagrass. A new mapping project may help.

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In 2009, the Florida Legislature created a rule to further protect seagrass by imposing fines to boaters who damage seagrass with their boat propellers (Section 253.04(3)(a), Florida Statutes). …

RCP [The Office of Resilience and Coastal Protection] has employed a variety of seagrass restoration methods throughout the state. These projects have been conducted in Charlotte Harbor, Indian River Lagoon, Biscayne Bay, the Big Bend, the Florida Keys, St. Joseph Bay, St. Andrews Bay and Pensacola Bay. Results have been mixed, and RCP is continuing to monitor these projects and work with other researchers to find more effective ways to revegetate the bottom.

3 July 2024

What happens when a dam is removed from a river? We’re about to find out on the Monongahela River at Elizabeth, PA. On 10 July, weather and river permitting, the US Army Corp of Engineers (USACE) will begin removing Locks and Dam 3, also known as the Elizabeth Locks and Dam. Built in 1907 is one of the oldest such structures in the U.S.

This animation from USACE shows how it will be done.

Ideally the removal of a dam would restore the river to a more natural state but Pittsburgh’s three rivers are a series of pools — like lakes — created for navigation by numerous locks and dams.

The dam at Elizabeth is 12.6 miles upstream from Locks and Dam 2 at Braddock and 23.8 miles downstream from Locks and Dam 4 at Charleroi. When the first gap is made in the Elizabeth dam it will take 3 days for the water level to stabilize into a pool 36.4 miles long stretching from Braddock to Charleroi. No, the Monongahela River will not revert to a natural state but there will be other effects.

As demolition continues on the rest of the dam, its removal will release sediments such as silt, clay, sand and gravel that have built up behind the dam for more than 100 years. Considering Pittsburgh’s industrial past, the sediments may contain toxins such as heavy metals and PCBs. My guess is that this will mostly affect the pool down to Braddock.

Eventually the turbidity will settle down and the Monongahela River will reach a new normal.

How much will the dam removal affect the Mon at Duck Hollow? We’ll have to watch and see.

Location of Locks and Dam 3 is on the Google map below. Read more about the project at The Waterways Journal.