River Reach Restored by Dam Removal Offers Suitable Spawning Habitat for Endangered Shortnose Sturgeon

Johnston, Catherine; Zydlewski, Gayle Barbin; Smith, S. M.; Zydlewski, Joseph D.; Kinnison, Michael T.

doi:10.1002/tafs.10126

Cited by 5 publications

(5 citation statements)

References 33 publications

(68 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Decades later migratory fish have returned to that river, in the millions for some species (Wippelhauser, 2021). Within the Penobscot River, dam removals have allowed the full suite of native fishes to recolonize parts of their historic ranges (Trinko Lake et al, 2012;Hogg et al, 2013;Izzo et al, 2016;Johnston et al, 2019;Whittum et al, 2023), with populations of some species also numbering in the millions now. The Penobscot River remains heavily impounded and ecological processes are impaired, but rehabilitation has brought a suite of migratory fish back to waters that been without them for generations.…”

Section: Discussionmentioning

confidence: 99%

“…From a combination of passage improvements and adult stocking into spawning lakes, the 2023 river herring run has approached 6 million individuals, increased from tens of thousands of fish before dam removals (DMR, 2022; Figure 3). Shortnose sturgeon have been tracked moving upstream of the former Veazie Dam (Johnston et al, 2019) and several have been encountered at the Milford Dam fish lift. Atlantic salmon permeability through the region with the two dam remnants was greatly improved from critically poor passage (Holbrook et al, 2009) to that of an open river (Izzo et al, 2016).…”

Section: First: Impaired Access To Habitatmentioning

confidence: 99%

See 1 more Smart Citation

Seven dam challenges for migratory fish: insights from the Penobscot River

Zydlewski,

Coghlan,

Dillingham

et al. 2023

Front. Ecol. Evol.

Self Cite

View full text Add to dashboard Cite

More than a century of impoundments in the Penobscot River, Maine, USA, has contributed to population declines in migratory fish in the system. A decade of change, research, and monitoring has revealed direct and indirect ways that dams have influenced the river habitat, connectivity for migratory fish, and the food web. The removal of two main-stem dams (in 2012 and 2013) and bolstering of fish passage have been part of coordinated restoration efforts in the watershed. Integral to this undertaking was support for short- and long-term monitoring and research that included physical habitat, fish passage, and broad scale ecological assessments. Herein we discuss the seven interconnected and complex ways that dams have affected the Penobscot River ecosystem, particularly for migratory fish. These include familiar influences ascribed to dams: i) impaired access to habitat, ii) injury and mortality, and iii) delays of migration. Other ecological influences are less studied and more subtle: iv) facilitation of predation, v) community shifts, and vi) demographic shifts. Lastly, dams result in vii) a loss of ecosystem services that would otherwise be intact in an unimpounded system. We draw on both direct examples from the Penobscot River and broader information to characterize how impoundments have transformed this ecosystem for more than a century. Recent dam removals and mitigation efforts have reestablished some of these ecological functions.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: First: Impaired Access To Habitatmentioning

confidence: 99%

Seven dam challenges for migratory fish: insights from the Penobscot River

Zydlewski,

Coghlan,

Dillingham

et al. 2023

Front. Ecol. Evol.

Self Cite

View full text Add to dashboard Cite

show abstract

“…CR Environmental (2008) considered their volume estimates conservative because: (a) they assumed that 5–10% of the substrate located within about 3 m of the impoundment shorelines (areas not accessible with the survey vessel) was sand and small gravel; (b) they estimated a quantity of interstitial sand and small gravel, based on the frequency of video observations of these substrates at ground truth stations, and assumed all of it would be mobile despite the likelihood that its mobility would depend on the mobility of the cobble matrix in which it was embedded (Lisle & Hilton, 1999); (c) they conservatively assumed thicknesses for the mapped and assumed areas of sand and small gravel based on sub‐bottom sonar profiles, steel probe refusal samples, and/or qualitative video observations; and (d) the estimated post‐removal flow velocity used to identify the 20 mm threshold likely occurs only in the main channel, but many of the mapped and assumed deposits below this threshold were in the littoral zones where velocities are lower. These assumptions, together with results from a recent habitat study of the Veazie reach that found sediment transport capacity there did not change substantially from pre‐ to post‐removal (Johnston, Zydlewski, Smith, Zydlewski, & Kinnison, 2019), suggest the combined volume of mobilized sediment was more likely closer to 15,000 m 3 or even smaller.…”

Section: Study Areamentioning

confidence: 91%

River channel response to dam removals on the lower Penobscot River, Maine, United States

Collins

Kelley

Lombard

2020

River Research & Apps

View full text Add to dashboard Cite

Most geomorphology studies of dam removals have focused on sites with appreciable quantities of stored sediments. There is great interest in channel responses to sediment releases because of potential effects on aquatic and riparian habitats and human uses of these areas. Yet, behind many dams in the Northeast U.S. and other regions of the world only minor accumulations of sediment are present because of small impoundments, run‐of‐river dam design and management (inflow ≈ outflow), low watershed sediment yield, and/or channel beds dominated by coarse sediment and/or bedrock. The two lowermost dams on the Penobscot River in Maine, United States, removed in 2012–2013, exemplified those conditions. Great Works and Veazie dams were about 6 and 10 m high, respectively. Pre‐project geophysical surveys showed coarse substrates dominated the reservoir beds and little sediment was stored in either impoundment—functions of reach geology, late Quaternary history, and upstream dams. Repeat cross‐section surveys in each impoundment, as well as the upstream and downstream reaches, were completed from 2009 to 2015 to evaluate channel morphology responses to the removals. Bed‐sediment grain size and turbidity were also measured to characterize changes in bed texture and suspended sediment. Pre‐ and post‐removal survey comparisons confirmed the expectation that bed elevations, channel shapes, and channel positions would not change substantially. Changes were often within, or close to, our estimated random measurement error. Our study shows that large‐scale physical changes are likely to be minimal when impoundments storing relatively little sediment are removed from erosion‐resistant streambeds. Many dams eligible for removal have these characteristics, making these observations an important case study that is largely unrepresented in the dam removal literature.

show abstract

“…Breaching the dams to restore riverine habitats in the lower Snake River will also benefi t ecosystem processes, entire biological communities, and increase climate change resilience of anadromous fi shes. Dam breaching has shown success towards recovering migratory fi sh species, notably in the Elwha River, WA (Hess et al 2020 ;Storch et al 2022 ) and Kennebec and Penobscot rivers, ME (Johnston et al 2019 ;Kober 2019 ;Prosek 2020 ;Sharma and Waldman 2021 ;Wippelhauser 2021 ;NRCM 2022 ). Notably, the Penobscot River project was accomplished by a combination of breaching, fi sh passageways, and increased power production for different dams, such that total hydropower production was maintained while restoring diadromous fi sh runs.…”

Section: Statement Of the American Fisheries Society And The Western ...mentioning

confidence: 99%

Fisheries Volume 48 Number 5 May 2023

2023

Fisheries

View full text Add to dashboard Cite

River Reach Restored by Dam Removal Offers Suitable Spawning Habitat for Endangered Shortnose Sturgeon

Cited by 5 publications

References 33 publications

Seven dam challenges for migratory fish: insights from the Penobscot River

Seven dam challenges for migratory fish: insights from the Penobscot River

River channel response to dam removals on the lower Penobscot River, Maine, United States

Fisheries Volume 48 Number 5 May 2023

Contact Info

Product

Resources

About