Catálogo de publicaciones - libros
Advances in Modern Tourism Research: Economic Perspectives
Álvaro Matias ; Peter Nijkamp ; Paulo Neto (eds.)
Resumen/Descripción – provisto por la editorial
No disponible.
Palabras clave – provistas por la editorial
Tourism Management; Methodology of the Social Sciences; Regional/Spatial Science; Development Economics; Economic Geography; Ecotoxicology
Disponibilidad
Institución detectada | Año de publicación | Navegá | Descargá | Solicitá |
---|---|---|---|---|
No detectada | 2007 | SpringerLink |
Información
Tipo de recurso:
libros
ISBN impreso
978-3-7908-1717-1
ISBN electrónico
978-3-7908-1718-8
Editor responsable
Springer Nature
País de edición
Reino Unido
Fecha de publicación
2007
Información sobre derechos de publicación
© Physica-Verlag 2007
Cobertura temática
Tabla de contenidos
Multicriteria Evaluation and Local Environmental Planning for Sustainable Tourism
Andrea De Montis; Giancarlo Deplano; Peter Nijkamp
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part II - New Operational Tools in Tourism Research | Pp. 207-232
Strategic Planning of Territorial Image and Attractability
Paulo Neto
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part II - New Operational Tools in Tourism Research | Pp. 233-256
A Comparison of Methods for Assessing the Short-Run Economic Impacts of Tourist Spending on a County Economy
Brian VanBlarcom; Kenneth F. Backman
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 259-273
Measuring the Impact of Tourism on Production by means of an Input-Output Model of Interior Flows. An Application to Galicia
Luís Castañón; Pereira Xesús
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 275-291
On “E-Attraction” Tourism Destination ” Extension and Application
Nicolas Peypoch; Bernardin Solonandrasana
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 293-306
The Use of the Internet in the Hotel Sector of the Balearic Islands: Evolution and Perceptions
À Vich-i-Martorell Gabriel; Llorenç Pou
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 307-324
Efficiency and Productivity of Italian Tourist Destinations: A Quantitative Estimation Based on Data Envelopment Analysis and the Malmquist Method
Maria Francesca Cracolici; Peter Nijkamp; Miranda Cuffaro
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 325-343
A Night at the Opera Festival: The Economics of Opera
Stephen Wanhill
The carbon cycle is one of the biogeochemical cycles and describes the movement of carbon, in its many forms, within the biosphere, atmosphere, oceans and geosphere. The global carbon cycle involves the earth’s atmosphere, oceans, vegetation and soils of the terrestrial ecosystem and fossil fuels. Carbon in the form of inorganic and organic compounds, notably carbon dioxide (CO ), is cycled between different components of a system. For example, green plants absorb CO from the atmosphere during photosynthesis, also called primary production, and release CO back into the atmosphere during respiration. Another channel of exchange of CO is between the oceans and the atmosphere: CO dissolved in the oceans is used by marine biota in photosynthesis.
Two important anthropogenic processes that contribute CO to the atmosphere are burning of fossil fuels and changes in land use. Fossil fuels, namely coal, oil and natural gas, are burnt in industries, power plants and automobiles. Land use is a broad term, which encompasses a host of essentially human-induced activities including conversion of natural ecosystems such as forests and grasslands to managed systems such as cropland, grazing land and settlements. Land conversion and other human activities such as extraction and burning of biomass and livestock grazing lead to soil degradation and emission of carbon contained in biomass and in soil to the atmosphere: CO emissions from the biosphere to the atmosphere result mainly from burning and decomposition of organic matter.
Part III - Applied Country and Regional Studies | Pp. 345-365