| Título : |
Evolution of Marine Coastal Ecosystems under the Pressure of Global Changes : Proceedings of Coast Bordeaux Symposium and of the 17th French-Japanese Oceanography Symposium |
| Tipo de documento: |
documento electrónico |
| Autores: |
Ceccaldi, Hubert-Jean, ; Hénocque, Yves, ; Komatsu, Teruhisa, ; Prouzet, Patrick, ; Sautour, Benoit, ; Yoshida, Jiro, |
| Mención de edición: |
1 ed. |
| Editorial: |
[s.l.] : Springer |
| Fecha de publicación: |
2020 |
| Número de páginas: |
XXIX, 517 p. 248 ilustraciones, 194 ilustraciones en color. |
| ISBN/ISSN/DL: |
978-3-030-43484-7 |
| Nota general: |
Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. |
| Idioma : |
Inglés (eng) |
| Palabras clave: |
Comunidades bióticas Oceanografía Geografía Física Agua Hidrología Ambiente Ecosistemas Ciencias Oceánicas Ciencias del sistema terrestre Ciencias ambientales |
| Clasificación: |
577 Ciencias de la vida (Ecología) |
| Resumen: |
Los entornos costeros y estuarinos en la interfaz de las áreas terrestres y marinas se encuentran entre los más productivos del mundo. Sin embargo, desde el inicio de la era industrial, estos ecosistemas han estado sometidos a fuertes presiones antropogénicas intensificadas a partir de la segunda mitad del siglo XX, cuando se produjo una marcada aceleración del calentamiento (cambio climático) de los continentes, particularmente en latitudes altas. . Los ecosistemas costeros son muy vulnerables a la alteración de sus características físicas, químicas y biológicas (intrusión marina, acidificación de los medios marinos, cambios en los ecosistemas, evolución y artificialización del litoral, etc.). En contacto con zonas densamente pobladas, estos entornos suelen ser receptáculos de numerosas fuentes de contaminación química y biológica que disminuyen significativamente su resiliencia. En este contexto de evolución acelerada y degradación de estas áreas importantes para la seguridad alimentaria de muchas poblaciones en todo el mundo, es necesario identificar mejor los factores de presión y comprender, en diferentes escalas de observación, sus efectos e impactos sobre la biodiversidad y sobre la biodiversidad. los socioecosistemas, con el fin de determinar el grado de vulnerabilidad de estos ecosistemas costeros y los riesgos que enfrentan. Se requiere un enfoque transdisciplinario e integrado para prevenir riesgos. En este marco, la oceanografía costera operativa ocupa un lugar importante, pero también la implementación de un verdadero enfoque socioecosistémico para establecer un desarrollo respetuoso con el medio ambiente. |
| Nota de contenido: |
Part I: Introductory Communications -- Chapter 1. Our Future and The Oceans -- Chapter 2. General guidelines for future exchanges in marine science and technology between the two Sociétés franco-japonaises d'Océanographie -- Part II: Identification and Analysis of Environmental Stressors -- Chapter 3. The Japan Sea: a changing Pacific Asian marginal sea -- Chapter 4. Statistical analysis of surface circulation in Sagami Bay using High Frequency(HF)Radar -- Chapter 5. Statistical analysis of high frequency pCO2 data acquired with the Astan buoy (Southern Western English Channel, off Roscoff) -- Chapter 6. Spatial variation in pCO2 based on 16 years of in-situ measurements in the Seto Inland Sea, Japan -- Chapter 7. The Bay of Seine: a resilient socio-eco-system under cumulative pressures -- Chapter 8. Effect of bacterial infection on the expression of stress proteins and antioxidative enzymes in Japanese flounder -- Part III: Impacts on Socio-Eco-Systems and Biological Resources -- Chapter 9. A Review of the Effects of Global Warming and Currents Trends on Fisheries and its Impact on Important Commercial Species in Japan -- Chapter 10. Physiology of winter coral bleaching in temperate zone -- Chapter 11. Preliminary report of impacts of the 2011 earthquake and tsunami and subsequent events on macrobenthic community in a shallow brackish lagoon in Sendai Bay, Japan -- Chapter 12. Post-tsunami oyster feeding environment in Nagatsuraura Bay for three years -- Chapter 13. Seagrass-oyster farmers interaction detected by eelgrass DNA analysis in Hinase area of the Seto Inland Sea, Japan -- Chapter 14. Fisheries Biology of Blue Sharks in Sagami Bay, Japan -- Part IV: Vulnerability of Coastal Ecosystems and Risk Assessment -- Chapter 15. Temperature and salinity changes in coastal waters of Western Europe: variability, trends and extreme events -- Chapter 16. Risk Based Consenting of Offshore Renewable Energy Projects (RICORE) -- Chapter 17. Does global warming favour the occurrence of recent blue mussel mortality events in France? -- Chapter 18. Integrated ecosystem management for exploited coastal ecosystem dynamics under oligotrophication and climate changes -- Chapter 19. Forty years of decline and 10 years of management plan: are European eels (Anguilla anguilla) recovering? -- Chapter 20. The management of Mediterranean coastal habitats: a plea for a socio-ecosystem-based approach. |
| Tipo de medio : |
Computadora |
| Summary : |
Coastal and estuarine environments at the interface of terrestrial and marine areas are among the most productive in the world. However, since the beginning of the industrial era, these ecosystems have been subjected to strong anthropogenic pressures intensified from the second half of the 20th century, when there was a marked acceleration in the warming (climate change) of the continents, particularly at high latitudes. Coastal ecosystems are highly vulnerable to alteration of their physical, chemical and biological characteristics (marine intrusion, acidification of marine environments, changes in ecosystems, evolution and artificialization of the coastline, etc.). In contact with heavily populated areas, these environments are often the receptacle of a lot of chemical and biological pollution sources that significantly diminish their resilience. In this context of accelerated evolution and degradation of these areas important for food security of many populations around the world, it is necessary to better identify the factors of pressure and understand, at different scales of observation, their effects and impacts on the biodiversity and on the socio-eco-systems, in order to determine the degree of vulnerability of these coastal ecosystems and the risks they face. A transdisciplinary and integrated approach is required to prevent risks. Within this framework, operational coastal oceanography occupies an important place but also the implementation of a true socio-eco-system approach in order to set up an environmentally friendly development. |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
Evolution of Marine Coastal Ecosystems under the Pressure of Global Changes : Proceedings of Coast Bordeaux Symposium and of the 17th French-Japanese Oceanography Symposium [documento electrónico] / Ceccaldi, Hubert-Jean, ; Hénocque, Yves, ; Komatsu, Teruhisa, ; Prouzet, Patrick, ; Sautour, Benoit, ; Yoshida, Jiro, . - 1 ed. . - [s.l.] : Springer, 2020 . - XXIX, 517 p. 248 ilustraciones, 194 ilustraciones en color. ISBN : 978-3-030-43484-7 Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés ( eng)
| Palabras clave: |
Comunidades bióticas Oceanografía Geografía Física Agua Hidrología Ambiente Ecosistemas Ciencias Oceánicas Ciencias del sistema terrestre Ciencias ambientales |
| Clasificación: |
577 Ciencias de la vida (Ecología) |
| Resumen: |
Los entornos costeros y estuarinos en la interfaz de las áreas terrestres y marinas se encuentran entre los más productivos del mundo. Sin embargo, desde el inicio de la era industrial, estos ecosistemas han estado sometidos a fuertes presiones antropogénicas intensificadas a partir de la segunda mitad del siglo XX, cuando se produjo una marcada aceleración del calentamiento (cambio climático) de los continentes, particularmente en latitudes altas. . Los ecosistemas costeros son muy vulnerables a la alteración de sus características físicas, químicas y biológicas (intrusión marina, acidificación de los medios marinos, cambios en los ecosistemas, evolución y artificialización del litoral, etc.). En contacto con zonas densamente pobladas, estos entornos suelen ser receptáculos de numerosas fuentes de contaminación química y biológica que disminuyen significativamente su resiliencia. En este contexto de evolución acelerada y degradación de estas áreas importantes para la seguridad alimentaria de muchas poblaciones en todo el mundo, es necesario identificar mejor los factores de presión y comprender, en diferentes escalas de observación, sus efectos e impactos sobre la biodiversidad y sobre la biodiversidad. los socioecosistemas, con el fin de determinar el grado de vulnerabilidad de estos ecosistemas costeros y los riesgos que enfrentan. Se requiere un enfoque transdisciplinario e integrado para prevenir riesgos. En este marco, la oceanografía costera operativa ocupa un lugar importante, pero también la implementación de un verdadero enfoque socioecosistémico para establecer un desarrollo respetuoso con el medio ambiente. |
| Nota de contenido: |
Part I: Introductory Communications -- Chapter 1. Our Future and The Oceans -- Chapter 2. General guidelines for future exchanges in marine science and technology between the two Sociétés franco-japonaises d'Océanographie -- Part II: Identification and Analysis of Environmental Stressors -- Chapter 3. The Japan Sea: a changing Pacific Asian marginal sea -- Chapter 4. Statistical analysis of surface circulation in Sagami Bay using High Frequency(HF)Radar -- Chapter 5. Statistical analysis of high frequency pCO2 data acquired with the Astan buoy (Southern Western English Channel, off Roscoff) -- Chapter 6. Spatial variation in pCO2 based on 16 years of in-situ measurements in the Seto Inland Sea, Japan -- Chapter 7. The Bay of Seine: a resilient socio-eco-system under cumulative pressures -- Chapter 8. Effect of bacterial infection on the expression of stress proteins and antioxidative enzymes in Japanese flounder -- Part III: Impacts on Socio-Eco-Systems and Biological Resources -- Chapter 9. A Review of the Effects of Global Warming and Currents Trends on Fisheries and its Impact on Important Commercial Species in Japan -- Chapter 10. Physiology of winter coral bleaching in temperate zone -- Chapter 11. Preliminary report of impacts of the 2011 earthquake and tsunami and subsequent events on macrobenthic community in a shallow brackish lagoon in Sendai Bay, Japan -- Chapter 12. Post-tsunami oyster feeding environment in Nagatsuraura Bay for three years -- Chapter 13. Seagrass-oyster farmers interaction detected by eelgrass DNA analysis in Hinase area of the Seto Inland Sea, Japan -- Chapter 14. Fisheries Biology of Blue Sharks in Sagami Bay, Japan -- Part IV: Vulnerability of Coastal Ecosystems and Risk Assessment -- Chapter 15. Temperature and salinity changes in coastal waters of Western Europe: variability, trends and extreme events -- Chapter 16. Risk Based Consenting of Offshore Renewable Energy Projects (RICORE) -- Chapter 17. Does global warming favour the occurrence of recent blue mussel mortality events in France? -- Chapter 18. Integrated ecosystem management for exploited coastal ecosystem dynamics under oligotrophication and climate changes -- Chapter 19. Forty years of decline and 10 years of management plan: are European eels (Anguilla anguilla) recovering? -- Chapter 20. The management of Mediterranean coastal habitats: a plea for a socio-ecosystem-based approach. |
| Tipo de medio : |
Computadora |
| Summary : |
Coastal and estuarine environments at the interface of terrestrial and marine areas are among the most productive in the world. However, since the beginning of the industrial era, these ecosystems have been subjected to strong anthropogenic pressures intensified from the second half of the 20th century, when there was a marked acceleration in the warming (climate change) of the continents, particularly at high latitudes. Coastal ecosystems are highly vulnerable to alteration of their physical, chemical and biological characteristics (marine intrusion, acidification of marine environments, changes in ecosystems, evolution and artificialization of the coastline, etc.). In contact with heavily populated areas, these environments are often the receptacle of a lot of chemical and biological pollution sources that significantly diminish their resilience. In this context of accelerated evolution and degradation of these areas important for food security of many populations around the world, it is necessary to better identify the factors of pressure and understand, at different scales of observation, their effects and impacts on the biodiversity and on the socio-eco-systems, in order to determine the degree of vulnerability of these coastal ecosystems and the risks they face. A transdisciplinary and integrated approach is required to prevent risks. Within this framework, operational coastal oceanography occupies an important place but also the implementation of a true socio-eco-system approach in order to set up an environmentally friendly development. |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
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