Journal References
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Experimental Conditions
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0.0 to 0.09
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0.09 to 0.17
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0.17 to 0.3
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0.3 to 0.5
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More than 0.5
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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1.02
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.96
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.86
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.80
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.84
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.71
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Bamber (1990)
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The feeding rate rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.62
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Bamber (1990)
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The feeding rate rate of small (up to 2.5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.99
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Bamber (1990)
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The feeding rate rate of small (up to 2.5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.88
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Bamber (1990)
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The feeding rate rate of small (up to 2.5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.72
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Bamber (1990)
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The feeding rate rate of small (up to 2.5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 9.2°C.
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0.65
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Bamber (1990)
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The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
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0.97
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Bamber (1990)
|
The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
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0.93
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Bamber (1990)
|
The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
|
|
|
|
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0.97
|
Bamber (1990)
|
The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
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0.91
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Bamber (1990)
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The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
|
|
|
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0.87
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Bamber (1990)
|
The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
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0.90
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Bamber (1990)
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The feeding rate of large (~5 cm) mussels (Mytilus edulis) grown for 30 days under normal and reduced pH conditions was determined by measuring the "pseudofaecal production" -- the fine particulate material remaining in the experimental sea water at the end of the experiment. Reduced pH values were obtained by the addition of Analar sulphuric acid to filtered sea water. Temperatures were maintained at 14°C.
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0.88
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Bechmann et al. (2011)
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Feeding efficiency of 18 day old blue mussel (Mytilus edulis) larvae grown under normal and reduced pH conditions. Temperature was 10°C and pH was altered by the addition of CO2.
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1.00
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