Musseis in seagrass meadows: their influence on macroinvertebrate abundance and secondary production in the northern Gulf of Mexico

Valentine, JR; Heck, KL

doi:10.3354/meps096063

Cited by 79 publications

(37 citation statements)

References 44 publications

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Section: Methodsmentioning

confidence: 99%

“…Only the shallowest portions of the seagrass habitat are exposed during low tides, and wave energy is minimal. Associated with these T. testudinum beds is the semi-infaunal tulip mussel, Modiolus americanus, which is found in densities as high as 2000 individuals m -2 (Valentine & Heck 1993). Determining potential mechanisms of Thalassiamussel interactions.…”

Section: Methodsmentioning

confidence: 99%

“…Mimics were sufficiently negatively buoyant to remain in place within the sediment for the duration of the experiment. The mussel densities used in this experiment approximate the range of abundances most often observed in the bay (Valentine & Heck 1993).Nutrient enrichment had 3 levels (nutrient loading achieved by 0, 500 and 1500 mussels m -2 ). The nutrient addition treatment was accomplished by adding levels of nutrient approximating the biodeposition rates of Modiolus americanus.…”

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confidence: 99%

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An experimental test of the mechanism by which suspension feeding bivalves elevate seagrass productivity

Peterson

Heck²

2001

Mar. Ecol. Prog. Ser.

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A field experiment utilizing mussel mimics and sediment nutrient enrichment was conducted to examine the effect of the mussel Modilous americanus on meadows of the seagrass Thalassia testudinum. The experimental design tested the separate factors of increased habitat structure and increased nutrient enrichment resulting from the presence of the mussels. Nutrient enrichment had a significantly positive effect on sediment porewater nutrient concentrations and a significantly negative effect on leaf tissue C:N, C:P and N:P ratios. Increased habitat structure had a significantly positive effect on epiphytic grazer densities and a significantly negative effect on epiphytic biomass. In addition, calculated % light reduction by epiphytes was significantly reduced by structure and significantly increased by nutrient enrichment. This study showed that the direct effect of nutrient enrichment by mussel biodeposition produced the greatest positive response in productivity of T. testudinum in the seagrass meadows of St. Joseph Bay, Florida. In other systems experiencing eutrophication, however, it is possible that increased habitat complexity may have the greater effect on seagrass productivity.KEY WORDS: Bentho-pelagic couple · Habitat complexity · Plant-animal interactions · Seagrass · Thalassia testudinum · Suspension feeding bivalves · Modiolus americanus Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 218: [115][116][117][118][119][120][121][122][123][124][125] 2001 filter feeding bivalves transfer planktonic production from the water column to the benthos via feces and pseudofeces, they elevate seagrass productivity by increasing nutrient availability. However, the presence of filter feeding bivalves does more than add feces and psuedofeces to the benthos. A recent study investigating the positive interactions between suspension feeding bivalves and seagrass demonstrated that the presence of the mussel Modiolus americanus significantly increased the sediment nutrient pool available to seagrasses, as well as substantially reducing epiphytic biomass on the seagrass leaves (Peterson & Heck 2001). There are 3 alternative hypotheses as to why seagrasses associated with suspension feeding bivalves may have reduced epiphytic loads: (1) mussels may consume the epiphyte propogules in the water column before they attach to the plant, (2) the elevated productivity of the seagrasses increases blade production rates so that the leaves have less time to accumulate epiphytes, or (3) the presence of suspension feeding bivalves increases the structural complexity of the habitat, reducing predation pressures on epiphytic grazer species such as small gastropods and amphipods. This increased habitat complexity may result in elevated numbers of epiphytic grazers and consequently increased levels of epiphytic grazing. Regardless, the combination of increased sediment nutrient levels and reduced epiphytic loads significantly elevated the productivity of the seagrass Thalassia test...

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

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An experimental test of the mechanism by which suspension feeding bivalves elevate seagrass productivity

Peterson

Heck²

2001

Mar. Ecol. Prog. Ser.

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“…As many of the marine organisms in Saint Joseph Bay have been observed associated with the seagrass beds (e.g. Valentine and Heck 1993;Heck et al 2000Heck et al , 2003, we chose to collect benthic water samples. Water samples for carbonate chemistry were collected monthly throughout 2012 and daily during the week of 28 July-4 August 2012.…”

Section: Sample Collectionmentioning

confidence: 99%

“…Approximately 15 miles (,24 km) long and 6 miles (,9.7 km) wide, the average water depth in the bay is 6.4 m, with the deepest area (9-18 m) located in the north-west region of the bay. The bay contains ,30 km 2 of dense, stable populations of continuous and discontinuous seagrass beds (FERI 2006;FDEP 2012) primarily comprising Thalassia testudium with scattered patches of well sorted, siliceous sand (Valentine and Heck 1993;Beddingfield and McClintock 2000). Several invertebrate and vertebrate species have been observed to occur in high densities associated with the seagrass beds within the bay including amphipods, mussels, crabs, scallops, gastropods, sea urchins, sand dollars, sea turtles and a variety of juvenile fish (Valentine and Heck 1993;Heck et al 2000;Heck et al 2003).…”

Section: Introductionmentioning

confidence: 99%

Variability of the carbonate chemistry in a shallow, seagrass-dominated ecosystem: implications for ocean acidification experiments

Challener

Robbins

McClintock

2016

Mar. Freshwater Res.

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Abstract. Open ocean observations have shown that increasing levels of anthropogenically derived atmospheric CO 2 are causing acidification of the world's oceans. Yet little is known about coastal acidification and studies are just beginning to characterise the carbonate chemistry of shallow, nearshore zones where many ecologically and economically important organisms occur. We characterised the carbonate chemistry of seawater within an area dominated by seagrass beds (Saint Joseph Bay, Florida) to determine the extent of variation in pH and pCO 2 over monthly and daily timescales. Distinct diel and seasonal fluctuations were observed at daily and monthly timescales respectively, indicating the influence of photosynthetic and respiratory processes on the local carbonate chemistry. Over the course of a year, the range in monthly values of pH (7.36-8.28), aragonite saturation state (0.65-5.63), and calculated pCO 2 (195-2537 matm) were significant. When sampled on a daily basis the range in pH (7.70-8.06), aragonite saturation state (1.86-3.85), and calculated pCO 2 (379-1019 matm) also exhibited significant range and indicated variation between timescales. The results of this study have significant implications for the design of ocean acidification experiments where nearshore species are utilised and indicate that coastal species are experiencing far greater fluctuations in carbonate chemistry than previously thought.

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Expanding Shellfish Aquaculture: A Review of the Ecological Services Provided by and Impacts of Native and Cultured Bivalves in Shellfish‐Dominated Ecosystems

Coen¹,

Dumbauld

Judge

2011

Shellfish Aquaculture and the Environment

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Musseis in seagrass meadows: their influence on macroinvertebrate abundance and secondary production in the northern Gulf of Mexico

Cited by 79 publications

References 44 publications

An experimental test of the mechanism by which suspension feeding bivalves elevate seagrass productivity

An experimental test of the mechanism by which suspension feeding bivalves elevate seagrass productivity

Variability of the carbonate chemistry in a shallow, seagrass-dominated ecosystem: implications for ocean acidification experiments

Expanding Shellfish Aquaculture: A Review of the Ecological Services Provided by and Impacts of Native and Cultured Bivalves in Shellfish‐Dominated Ecosystems

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