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Statements

Subject Item
dbr:Lake_metabolism
rdfs:label
Lake metabolism
rdfs:comment
Lake metabolism represents a lake's balance between carbon fixation (gross primary production) and biological carbon oxidation (ecosystem respiration). Whole-lake metabolism includes the carbon fixation and oxidation from all organism within the lake, from bacteria to fishes, and is typically estimated by measuring changes in dissolved oxygen or carbon dioxide throughout the day.
foaf:depiction
n13:Lake_metabolism_cross_section.png n13:DOC_load_effect_on_lake_metabolism.png n13:Metabolism_temperature_sensitivity.png n13:Lake_Mendota_-_panoramio_(7).jpg n13:Lake_oxygen_and_carbon_dioxide.png
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dbc:Metabolism dbc:Limnology_and_Oceanography_articles dbc:Aquatic_ecology dbc:Lakes dbc:Limnology
dbo:wikiPageID
59168336
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1121936683
dbo:wikiPageWikiLink
n6:Effects_of_drainage_ratio_and_land_cover_on_lake_metabolism.tif dbr:Mixed_layer dbr:Water_column dbr:Deposition_(aerosol_physics) dbr:Typhoon dbr:Photodegradation dbr:Fly_Geyser dbr:Wetland dbr:Cladocera dbr:Carbon_fixation dbr:Lake dbr:Primary_production dbr:Don_Juan_Pond dbr:Littoral_zone dbr:Plant_litter n6:Lake_Mendota_-_panoramio_(7).jpg dbr:Photic_zone dbr:Nitrogen dbr:Ecological_stoichiometry dbr:Aquatic_plant dbr:Piscivore dbr:Ecological_succession dbr:Colored_dissolved_organic_matter n6:Drivers_of_lake_metabolism_variation.tif dbr:Mass_balance dbc:Lakes dbr:El_Niño–Southern_Oscillation dbr:Atmosphere dbc:Limnology_and_Oceanography_articles dbr:Human dbr:Hot_spring dbr:Organism dbr:Inorganic_carbon_compound dbr:Stream dbc:Aquatic_ecology dbr:Carbon_dioxide dbr:Epilimnion dbr:Dissolved_gas dbr:Inflow_(hydrology) dbc:Limnology n6:Metabolism_temperature_sensitivity.png dbr:Organic_carbon dbr:Algal_bloom dbr:Radioactive_tracer dbr:Photosynthesis dbr:Drainage_basin n6:Seasonal-mateabolic-data.tif dbr:Ecosystem_model dbr:Copepod n6:Lake_metabolism_for_mixing_vs_stratified.tif dbr:Photosynthetically_active_radiation dbr:Oxygen dbr:River_ecosystem n6:Lake_metabolism_seasonality_at_low_and_high_latitudes.tif n6:Lake_oxygen_and_carbon_dioxide.png dbr:Lake_stratification dbr:Apparent_oxygen_utilisation dbr:Upwelling dbr:Phosphorus dbr:Sediment dbr:Trophic_state_index dbr:Organic_matter n6:DOC_load_effect_on_lake_metabolism.png dbr:Fluvial_processes dbr:Emissions_budget dbr:Heterotroph dbr:Ecosystem_respiration n6:Land_use_effects_on_lake_metabolism.tif dbr:Methane dbr:Residence_time dbr:DCMU dbr:Endorheic_basin dbr:Catabolism dbr:Litterfall dbr:Solar_energy dbr:Mathematical_model dbr:Stream_metabolism dbr:Benthic_zone dbr:Net_ecosystem_production dbr:Autotroph dbr:Fish dbr:Laundry_detergent dbr:RNA dbr:Dystrophic_lake dbr:Bacteria dbr:Redox dbr:Oxygen_saturation dbr:Groundwater n6:Lake_metabolism_cross_section.png dbr:Limnetic_zone dbr:Bacterioplankton dbr:Polymictic_lake dbr:Carbon-14 dbr:Limiting_factor dbr:Thermophile dbr:Carbon dbc:Metabolism
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n13:Lake_Mendota_-_panoramio_(7).jpg?width=300
dbo:abstract
Lake metabolism represents a lake's balance between carbon fixation (gross primary production) and biological carbon oxidation (ecosystem respiration). Whole-lake metabolism includes the carbon fixation and oxidation from all organism within the lake, from bacteria to fishes, and is typically estimated by measuring changes in dissolved oxygen or carbon dioxide throughout the day. Ecosystem respiration in excess of gross primary production indicates the lake receives organic material from the surrounding catchment, such as through stream or groundwater inflows or litterfall. Lake metabolism often controls the carbon dioxide emissions from or influx to lakes, but it does not account for all carbon dioxide dynamics since inputs of inorganic carbon from the surrounding catchment also influence carbon dioxide within lakes.
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wikipedia-en:Lake_metabolism?oldid=1121936683&ns=0
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82683
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wikipedia-en:Lake_metabolism