Oxygen, Sulphide and Nutrient Uptake of the Mangrove Mud Clam Anodontia edentula (Family: Lucinidae)
Identifieur interne : 008802 ( Main/Curation ); précédent : 008801; suivant : 008803Oxygen, Sulphide and Nutrient Uptake of the Mangrove Mud Clam Anodontia edentula (Family: Lucinidae)
Auteurs : Ma. Junemie Hazel L. Lebata [Philippines]Source :
- Marine Pollution Bulletin [ 0025-326X ] ; 2001.
Descripteurs français
- Pascal (Inist)
- Wicri :
- geographic : Philippines.
- topic : Aquiculture, Eau usée, Oxygène, Phosphate, Polyculture.
English descriptors
- KwdEn :
- Absorption, Academic press, Aerobic oxidation, Ammonia, Ammonia concentration, Anodontia edentula, Anova, Aquaculture, Aquaculture department, Asian fisheries development center, Assimilation, Biological purification, Breeding pond, Carbon dioxide, Central philippines, Childress, Clam, Clam anodontia edentula, Clams, Collection site, Consumption rates, Culture ponds, Edentula, Elemental sulphur, Elsevier science, Endosymbiotic bacteria, Family lucinidae, Felbeck, Fresh mangrove, Gill, Gill structure, Higher ammonia concentration, Host clam, Lebata, Lovibond photometer, Mangrove, Mangrove swamps, Marine biology, Marine invertebrates, Marine pollution bulletin, Mixed farming, Nitrite, Nutrient, Organic compounds, Oxygen, Oxygen source, Philippine Islands, Phosphates, Plastic containers, Rich sediments, Seafdec aquaculture department, Slight decrease, Somero, Sulfides, Sulphide, Sulphide concentrations, Sulphide consumption, Sulphide oxidation, Sulphide source, Sulphide uptake, Symbiotic bacteria, Tropical mariculture, Waste materials, Waste water, Water quality.
- Teeft :
- Academic press, Aerobic oxidation, Ammonia, Ammonia concentration, Anodontia edentula, Anova, Aquaculture, Aquaculture department, Asian fisheries development center, Carbon dioxide, Central philippines, Childress, Clam, Clam anodontia edentula, Clams, Collection site, Consumption rates, Culture ponds, Edentula, Elemental sulphur, Elsevier science, Endosymbiotic bacteria, Family lucinidae, Felbeck, Fresh mangrove, Gill, Gill structure, Higher ammonia concentration, Host clam, Lebata, Lovibond photometer, Mangrove, Mangrove swamps, Marine biology, Marine invertebrates, Marine pollution bulletin, Nitrite, Nutrient, Organic compounds, Oxygen source, Plastic containers, Rich sediments, Seafdec aquaculture department, Slight decrease, Somero, Sulphide, Sulphide concentrations, Sulphide consumption, Sulphide oxidation, Sulphide source, Sulphide uptake, Symbiotic bacteria, Tropical mariculture, Waste materials, Water quality.
Abstract
Abstract: Oxygen, sulphide and nutrient (ammonia, nitrite and phosphate) uptake of Anodontia edentula was measured. Oxygen and sulphide were measured from sealed containers provided with 1 l fresh mangrove mud (sulphide source) and seawater (oxygen source) with two treatments (with and without clam) at 16 replicates each. Oxygen, sulphide and other parameters were measured at days 1 (initial), 3 and 5 (final). Nutrients were measured from containers filled with 1.5 l wastewater from a milkfish broodstock tank with two treatments (with and without clam) at eight replicates each. Ammonia, NO2 and PO4 were measured at days 0 (initial) 3, 6, 9 and 12 (final). Results showed significantly decreasing oxygen and sulphide concentrations in treatment with clams (ANOVA, p<0.001). A significantly higher ammonia concentration (ANOVA, p<0.05) was observed in treatment with clams while no significant difference was observed in nitrite and phosphate between the two treatments. A decreasing ammonia and an increasing nitrite trend was also observed in both treatments starting at day 3.
Url:
DOI: 10.1016/S0025-326X(01)00113-8
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ISTEX:4766D9B07420739E825526B9EE13A95DA39E6999Le document en format XML
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<front><div type="abstract" xml:lang="en">Abstract: Oxygen, sulphide and nutrient (ammonia, nitrite and phosphate) uptake of Anodontia edentula was measured. Oxygen and sulphide were measured from sealed containers provided with 1 l fresh mangrove mud (sulphide source) and seawater (oxygen source) with two treatments (with and without clam) at 16 replicates each. Oxygen, sulphide and other parameters were measured at days 1 (initial), 3 and 5 (final). Nutrients were measured from containers filled with 1.5 l wastewater from a milkfish broodstock tank with two treatments (with and without clam) at eight replicates each. Ammonia, NO2 and PO4 were measured at days 0 (initial) 3, 6, 9 and 12 (final). Results showed significantly decreasing oxygen and sulphide concentrations in treatment with clams (ANOVA, p<0.001). A significantly higher ammonia concentration (ANOVA, p<0.05) was observed in treatment with clams while no significant difference was observed in nitrite and phosphate between the two treatments. A decreasing ammonia and an increasing nitrite trend was also observed in both treatments starting at day 3.</div>
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<front><div type="abstract" xml:lang="en">Oxygen, sulphide and nutrient (ammonia, nitrite and phosphate) uptake of Anodontia edentula was measured. Oxygen and sulphide were measured from sealed containers provided with 1 l fresh mangrove mud (sulphide source) and seawater (oxygen source) with two treatments (with and without clam) at 16 replicates each. Oxygen, sulphide and other parameters were measured at days 1 (initial), 3 and 5 (final). Nutrients were measured from containers filled with 1.5 l wastewater from a milkfish broodstock tank with two treatments (with and without clam) at eight replicates each. Ammonia, NO<sub>2</sub>
and PO<sub>4</sub>
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<keywords scheme="Teeft" xml:lang="en"><term>Academic press</term>
<term>Aerobic oxidation</term>
<term>Ammonia</term>
<term>Ammonia concentration</term>
<term>Anodontia edentula</term>
<term>Anova</term>
<term>Aquaculture</term>
<term>Aquaculture department</term>
<term>Asian fisheries development center</term>
<term>Carbon dioxide</term>
<term>Central philippines</term>
<term>Childress</term>
<term>Clam</term>
<term>Clam anodontia edentula</term>
<term>Clams</term>
<term>Collection site</term>
<term>Consumption rates</term>
<term>Culture ponds</term>
<term>Edentula</term>
<term>Elemental sulphur</term>
<term>Elsevier science</term>
<term>Endosymbiotic bacteria</term>
<term>Family lucinidae</term>
<term>Felbeck</term>
<term>Fresh mangrove</term>
<term>Gill</term>
<term>Gill structure</term>
<term>Higher ammonia concentration</term>
<term>Host clam</term>
<term>Lebata</term>
<term>Lovibond photometer</term>
<term>Mangrove</term>
<term>Mangrove swamps</term>
<term>Marine biology</term>
<term>Marine invertebrates</term>
<term>Marine pollution bulletin</term>
<term>Nitrite</term>
<term>Nutrient</term>
<term>Organic compounds</term>
<term>Oxygen source</term>
<term>Plastic containers</term>
<term>Rich sediments</term>
<term>Seafdec aquaculture department</term>
<term>Slight decrease</term>
<term>Somero</term>
<term>Sulphide</term>
<term>Sulphide concentrations</term>
<term>Sulphide consumption</term>
<term>Sulphide oxidation</term>
<term>Sulphide source</term>
<term>Sulphide uptake</term>
<term>Symbiotic bacteria</term>
<term>Tropical mariculture</term>
<term>Waste materials</term>
<term>Water quality</term>
</keywords>
<keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Aquiculture</term>
</keywords>
</textClass>
<langUsage><language ident="en">en</language>
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<front><div type="abstract" xml:lang="en">Abstract: Oxygen, sulphide and nutrient (ammonia, nitrite and phosphate) uptake of Anodontia edentula was measured. Oxygen and sulphide were measured from sealed containers provided with 1 l fresh mangrove mud (sulphide source) and seawater (oxygen source) with two treatments (with and without clam) at 16 replicates each. Oxygen, sulphide and other parameters were measured at days 1 (initial), 3 and 5 (final). Nutrients were measured from containers filled with 1.5 l wastewater from a milkfish broodstock tank with two treatments (with and without clam) at eight replicates each. Ammonia, NO2 and PO4 were measured at days 0 (initial) 3, 6, 9 and 12 (final). Results showed significantly decreasing oxygen and sulphide concentrations in treatment with clams (ANOVA, p<0.001). A significantly higher ammonia concentration (ANOVA, p<0.05) was observed in treatment with clams while no significant difference was observed in nitrite and phosphate between the two treatments. A decreasing ammonia and an increasing nitrite trend was also observed in both treatments starting at day 3.</div>
</front>
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