Carbon Flux of an Urban System in México
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We estimated vertical and lateral fluxes of carbon for the isolated coastal city of Ensenada (Baja California, México). In 2005, the city had a resident population of about 261,000, with tourism adding about 1.5%25; it occupied an area of roughly 68 square kilometers (km2). Carbon (C) export was estimated at 400 gigagrams of carbon per year (Gg C/yr); notable sources to the atmosphere were combustion engines (42%25), cement production (38%25), water heating and cooking (7%25), and human respiration (6%25). Solid waste (6%25) was exported for burial, but efflux to the bay was minor (about 0.1 Gg C/yr). Local deposition was limited to sewage sludge (about 2 Gg C/yr), asphalt, and extremely low primary production. Remote fluxes driven by local demand could be estimated only for electricity (61 Gg C/yr), but local flux from cement and other industrial production might be attributed largely to external demand. The urban system output to the atmosphere was about 6.4 kilograms of carbon per square meter per year (kg C/m2/yr), or roughly 23.6 kg/m2/yr in CO2 equivalence. By comparison, net ecosystem productivity in the surrounding watershed has been estimated at 0.04 kg C/m2/yr, so the city%27s atmospheric output of C might be balanced by productivity over about 11,000 km2 of the surrounding ecosystems. Between 2000 and 2005, C output increased faster than population growth, particularly from engine fuels. © 2011 by Yale University.
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We estimated vertical and lateral fluxes of carbon for the isolated coastal city of Ensenada (Baja California, México). In 2005, the city had a resident population of about 261,000, with tourism adding about 1.5%25; it occupied an area of roughly 68 square kilometers (km2). Carbon (C) export was estimated at 400 gigagrams of carbon per year (Gg C/yr); notable sources to the atmosphere were combustion engines (42%25), cement production (38%25), water heating and cooking (7%25), and human respiration (6%25). Solid waste (6%25) was exported for burial, but efflux to the bay was minor (about 0.1 Gg C/yr). Local deposition was limited to sewage sludge (about 2 Gg C/yr), asphalt, and extremely low primary production. Remote fluxes driven by local demand could be estimated only for electricity (61 Gg C/yr), but local flux from cement and other industrial production might be attributed largely to external demand. The urban system output to the atmosphere was about 6.4 kilograms of carbon per square meter per year (kg C/m2/yr), or roughly 23.6 kg/m2/yr in CO2 equivalence. By comparison, net ecosystem productivity in the surrounding watershed has been estimated at 0.04 kg C/m2/yr, so the city's atmospheric output of C might be balanced by productivity over about 11,000 km2 of the surrounding ecosystems. Between 2000 and 2005, C output increased faster than population growth, particularly from engine fuels. © 2011 by Yale University.
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Borderlands; Carbon emissions; Ecosystem carbon balance; Industrial ecology; Solid waste flux; Urban development Borderlands; California; Carbon emissions; Carbon fluxes; Cement production; Coastal cities; Combustion engines; Engine fuels; Human respiration; Industrial ecology; Industrial production; Local deposition; Net ecosystem productivities; Population growth; Primary production; Urban development; Urban systems; Water heating; Carbon dioxide; Cements; Forestry; Population statistics; Productivity; Sewage sludge; Solid wastes; Waste incineration; Ecosystems; asphalt; atmospheric deposition; border region; carbon balance; carbon flux; cement; coastal zone; combustion; domestic waste; emission inventory; exhaust emission; heating; industrial ecology; industrial emission; pollutant source; population growth; primary production; resident population; respiration; sludge; solid waste; tourism; urban atmosphere; urban development; Baja California [(STT) Mexico]; Ensenada; Mexico [North America]
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