Effect of oyster mariculture on submerged aquatic vegetation:an experimental test in a Pacific Northwest estuary

Ra, Everett; Ruiz, GM; Jt, Carlton

doi:10.3354/meps125205

Cited by 70 publications

(39 citation statements)

References 53 publications

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“…The impacts that aquaculture activities may have on seagrass populations are also of increasing concern (Simenstad & Fresh 1995, Neckles et al 2005, Orth et al 2006a) because of the potential negative effects resulting from both recreational and commercial shellfish harvest, including reduced seagrass biomass, density, and percent cover in harvested areas , Everett et al 1995, Boese 2002, Orth et al 2002, Thom et al 2003, Cabaço et al 2005, Neckles et al 2005. Hydraulic dredges used to harvest oysters can cause long-term disruption of eelgrass Zostera marina beds, reducing or even eliminating beds in some cases (Waddell 1964, Phillips 1984.…”

Section: Introductionmentioning

confidence: 99%

Importance of eelgrass early life history stages in response to oyster aquaculture disturbance

Wisehart¹,

Dumbauld²,

Ruesink³

et al. 2007

Mar. Ecol. Prog. Ser.

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Seagrasses are a critical element in many estuaries and act as drivers of abiotic and biotic processes. One species, Zostera marina L., has been declining globally. A potential contributor to this decline is shellfish aquaculture, although we know little about its impacts. On the US west coast, shellfish aquaculture co-occurs with protected eelgrass habitats. Many aquaculture practices constitute a periodic disturbance, and a key concern is eelgrass recovery. We used observations and experiments to understand how oyster aquaculture practices (i.e. dredging [oysters grown on the bottom and harvested mechanically via dredging] and off-bottom longline culture [oysters suspended off the bottom on rope and harvested by hand]) influence eelgrass recovery. Studies of natural recruitment showed highest seedling densities in dredged beds (7 seedlings m ). By August 2005, seedling mortality in longline and reference control plots was 100%. In dredged areas, seedlings in removal plots had greater biomass (0.38 g) than seedlings in control plots (0.14 g). We propose that if eelgrass is to be disturbed by aquaculture, dredge beds may recover more successfully than longline beds.

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Section: Introductionmentioning

confidence: 99%

Importance of eelgrass early life history stages in response to oyster aquaculture disturbance

Wisehart¹,

Dumbauld²,

Ruesink³

et al. 2007

Mar. Ecol. Prog. Ser.

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“…Even though some of the declines may result from natural causes, more than 70% of reported declines are attributed to human-induced disturbances (Short & Wyllie-Echeverria 1996) related to eutrophication or toxic pollutants. Seagrass meadows are also often damaged by mechanical action related to dredging (Onuf 1994), boat activities such as mooring and propeller scars (Zieman 1976, Walker et al 1989, Dawes et al 1997, Creed & Amado Filho 1999, fishing practices (Fonseca et al 1984, De Jonge & De Jong 1992, Everett et al 1995, Boese 2002, Neckles et al 2005, Uhrin et al 2005) and trampling (Eckrich & Holmquist 2000). Mechanical disturbances affect seagrass beds primarily by removing plants, which reduce biomass and has the potential to alter the physical environment.…”

Section: Introductionmentioning

confidence: 99%

“…Certain fishing practices have been shown to reduce seagrass cover (De Jonge & De Jong 1992, Everett et al 1995, Boese 2002, particularly in shallow estuaries and tidal lagoons. Commercial clam harvesting is a traditional and economically important activity in the Ria Formosa tidal lagoon (southern Portugal), representing more than 90% of national clam production (Direcção Regional das Pescas e Aquicultura do Sul pers.…”

Section: Introductionmentioning

confidence: 99%

Effects of clam harvesting on sexual reproduction of the seagrass Zostera noltii

Alexandre¹,

Santos²,

Serrão³

2005

Mar. Ecol. Prog. Ser.

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The sexual reproduction of Zostera noltii in the Ria Formosa lagoon (southern Portugal) was assessed by quantifying the variation in both flowering effort and evolution of maturation stages during the fertile season. The effects of clam harvesting on the sexual reproduction of Z. noltii were investigated using both descriptive and experimental approaches. Meadows disturbed by clam harvesting were compared with undisturbed meadows in 2 sectors of the lagoon. In both sectors, disturbed meadows showed significantly lower vegetative shoot density and significantly higher reproductive effort. The reproductive effort in the western disturbed meadows was 2-fold higher than in undisturbed meadows, whereas in eastern disturbed meadows it was 4-fold higher. In disturbed meadows, early maturation stages were found until the end of the flowering season and higher seed production was observed. Both the negative effect of clam harvesting on Z. noltii density and the positive effect on its reproductive effort were confirmed by manipulative field experiments. Plots that were experimentally harvested during the fertile season showed significantly lower vegetative shoot density and higher reproductive effort than unharvested plots. Results suggest that Z. noltii responds to clam harvesting disturbance by both increasing its reproductive effort and extending its fertile season.

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“…Oysters grown on longlines represented only 4% of the culture area in our study, and again we observed no difference relative to the model-predicted or interpolation-predicted amount of eelgrass cover in these areas at the landscape scale. Effects clearly depend on the structure, with densely planted stakes and oysters grown in bags on racks substantially reducing eelgrass cover in a previous US west coast study (75% and 100% loss, respectively, relative to controls; Everett et al 1995), yet oysters grown on longlines with more open space caused little reduction in eelgrass density and cover (Wisehart et al 2007, Tallis et al 2009). Eelgrass metrics scaled with spacing between longlines due to both shading and dessication of eelgrass that coexisted, but stranded over the top of these lines in Humboldt Bay, California (55−65% cover with 3 m spacing reduced to <15% Researchers elsewhere found reduced eelgrass density, morphometrics, and photosynthesis due to reduced irradiance under suspended bags and oyster baskets, but also showed that the effect was mostly restricted to the area under the aquaculture structures themselves, and severity of effect de pended on the structure design and signature (Bulmer et al 2012, Skinner et al 2013.…”

Section: Oyster Culture Bed Typementioning

confidence: 91%

“…Oysters grown on structures can have additional physical effects, including shading and sediment erosion around the structure. These factors caused 75% reduction in eelgrass cover relative to controls for oyster stake culture and up to 100% loss of eelgrass under oyster racks (Everett et al 1995), yet oysters grown on longlines with more open space caused little reduction in eelgrass density and cover (Wisehart et al 2007, Tallis et al 2009). Further study suggested that eelgrass metrics scaled with spacing between these oyster lines and that both shading and dessication from stranding over the lines contributed to the effect (Rumrill & Poulton 2004).…”

Section: Open Pen Access Ccessmentioning

confidence: 99%

Effect of oyster aquaculture on seagrass Zostera marina at the estuarine landscape scale in Willapa Bay, Washington (USA)

Dumbauld¹,

McCoy²

2015

Aquacult. Environ. Interact.

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Effect of oyster mariculture on submerged aquatic vegetation:an experimental test in a Pacific Northwest estuary

Cited by 70 publications

References 53 publications

Importance of eelgrass early life history stages in response to oyster aquaculture disturbance

Importance of eelgrass early life history stages in response to oyster aquaculture disturbance

Effects of clam harvesting on sexual reproduction of the seagrass Zostera noltii

Effect of oyster aquaculture on seagrass Zostera marina at the estuarine landscape scale in Willapa Bay, Washington (USA)

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