La acidificación del Mediterráneo y sus efectos sobre la Posdonia oceánica: una aproximación al daño ecológico desde los límites planetarios
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Universitat Jaume I
info
ISSN: 2695-2882
Ano de publicación: 2022
Volume: 5
Tipo: Artigo
Outras publicacións en: REC: Revista Electrónica de Criminología
Resumo
The global threats that affect planetary health have been analyzed by the scientific community, highlighting the configuration of planetary boundaries. Some of these have not been considered in the development of protection mechanisms, especially those that affect the marine environment. Priorities in recent decades have focused on climate change, but another limit can have effects similar to this one, the acidification of oceans and seas. Human activities have increased the emission of greenhouse gasses, especially carbon dioxide, which interacts directly with the chemical composition of the planet's blue mantle, causing a change that can have global consequences. The aquatic ecosystems that can suffer the greatest ecological damage are of incalculable value due to their importance for the health of the planet, as they are priority habitats due to the resources that can be found in them. Posidonia oceanic is one of the species that is configured as an ally to guarantee planetary security, as it is a natural carbon dioxide sink, known as the "blue lung" of the Mediterranean; The consequences of an increase in the acidity of the seas and oceans can affect both directly and indirectly this species, which, in turn, contains other species. The existing interrelationships between aquatic and terrestrial ecosystems can allow the ecological damage generated by marine and oceanic acidification to become evident on a large scale, as it is a global problem. Measures and instruments will be necessary that, from an ecocentric perspective, allow a protection based on effectiveness and efficiency, for this, mitigation and adaptation instruments will be a priority against this limit to guarantee the survival of the planet.
Referencias bibliográficas
- Agawin, N. S. R., Gil Atorrasagasti, M. G., Frank Comas, A., Fernández‐Juárez, V., López‐Alforja, X., & Hendriks, I. E. (2021). Response of the seagrass Posidonia oceánica and its associated N 2 fixers to high business‐as‐usual climate change scenario in winter. Limnology and Oceanography, 66(6), 2346–2359. http://doi.org/10.1002/lno.11758
- Aryal S., Maraseni T., Cockfield G., de Bruyn L.L. (2018) Transhumance, Livestock Mobility and Mutual Benefits Between Crop and Livestock Production. In: Lichtfouse E. (eds) Sustainable Agriculture Reviews 31. Sustainable Agriculture Reviews, vol 31. Springer, Cham. https://doi.org/10.1007/978-3-319-94232-2_2
- Brisman, A., & South, N. (2019). Green criminology and environmental crimes and harms. Sociology Compass, 13(1), e12650. https://doi.org/10.1111/soc4.12650
- Brisman, A., & South, N. (Eds.). (2020). Routledge international handbook of green criminology (2nd ed.). Routledge.
- Canfield, D-E., Glazer, A-N., Falkowski, P-G. (2010). The Evolution and Future of Earth’s Nitrogen Cycle. Science, vol 330.
- Collste, D., Cornell, S., Randers, J., Rockström, J., & Stoknes, P. (2021). Human well-being in the Anthropocene: Limits to growth. Global Sustainability, 4, E30. http://doi.org/10.1017/sus.2021.26
- Discuss. 11, 6461–6517.
- Doney, C.S. (2006). Los peligros de la acidificación oceánica. MUSEO, vol. 3, nº21, 17.
- Fernández-Giménez, M-E., and Ritten, J. (2020). An economic analysis of transhumance in the Central Spanish Pyrenees. Pastoralism 10: 1-13. https://link.springer.com/content/pdf/10.1186/s13570-020-00163-4.pdf
- García-Fernández, A., Manzano, P., Seoane, J., Azcárate, F-M., Iriondo, J-M. and Peco, B. (2019). Herbivore corridors sustain genetic footprint in plant populations: a case for Spanish drove roads. PeerJ 7, e7311. https://peerj.com/articles/7311/?fbclid=IwAR0dMVUNqtzViVLwyA20cv6BbAPjkTtkJgmA4hAuhOYddKYcXpc6fNR37n0
- García-Ruiz, A., South, N., & Brisman, A. (2020). Eco-Crimes and Ecocide at Sea: Toward a New Blue Criminology. International Journal of Offender Therapy and Comparative Criminology, 0306624X2096795. https://doi.org/10.1177/0306624x20967950
- Geri, P., El Yacoubi, S., Goyet, C., (2014). Forecast of sea Surface acidification in the Northwestern Mediterranean Sea. J. Comput. Environ. Sci. 7. Article ID 201819.
- Gispert, J. (2021). La trashumancia puede fijar del 10 al 20% de las emisiones globales de combustibles fósiles. Terra: Ecología práctica. Octubre 2021. Disponible en https://www.terra.org/categorias/articulos/latrashumancia-puede-fijar-del-10-al-20-de-las-emisionesglobales-co2
- Gómez Lee, Martha Isabel, Agenda 2030 de desarrollo sostenible: comunidad epistémica de los límites planetarios y cambio climático (2030 Agenda for Sustainable Development: The Epistemic Community of Planetary Limits and Climate Change) (January 19, 2019). OPERA No.24, Enero-Junio, 2019, Available at SSRN: https://ssrn.com/abstract=3338094
- Gómez-Gil, C. (2017). Objetivos de Desarrollo Sostenible (ODS): una revisión crítica PAPELES de relaciones ecosociales y cambio global, núm. 140, 2017/18, pp. 107-118. Disponible en https://www.fuhem.es/media/cdv/file/biblioteca/revista_papeles/140/ODS-revision-critica-C.Gomez.pdf
- Guarín Calle, J. C., & Vitoncó Orozco, Y. (2022). La huella ecológica, indicador de sostenibilidad ambiental y social. Ciencia Latina Revista Científica Multidisciplinar, 6(1), 4156-4175. https://doi.org/10.37811/cl_rcm.v6i1.1791
- Hall, M. (2013). “Victims of environmental harms and their role in national and international justice”, in: WALTERS, R., WESTERHUIS, D.S. and WYATT, T. (Eds.), Emerging issues in Green Criminology. Exploring power, justice and harm, op. cit., 218-241, p. 222- 228.
- Hall, M., & Varona, G. (2018). La victimología verde como espacio de encuentro para repensar la otredad más allá de la posesión. Revista de Victimología Online, (7), 107-128.
- HALL, M., Victims of Environmental Harm, Rights, Recognition and Redress Under National and International Law, Oxon (UK): Routledge.
- Halpern BS, Frazier M. Potapenko J, Casey KS, Koenig K, Longo C, Stwart Lowndes J, Cotton Rockwoow R., Selig ER, Selkoe K y Walbridge S. (2015). Spatial and temporal changes in cumulative human impacts on the world’s ocean. Nature Communications, 6:7615.
- Harrould-Kolieb, E. (2021), Enhancing synergies between action on ocean acidification and the post-2020 global biodiversity framework. Conservation Biology, 35: 548-558. https://doi.org/10.1111/cobi.13598
- IGBP, IOC, SCOR. (2013). Ocean Acidification Summary for Policymakers – Third Symposium on the Ocean in a HighCO2 World. International Geosphere-Biosphere Programme, Stockholm, Sweden.
- INE, (2021). Indicadores de la Agenda 2030 para el desarrollo sostenible. Consultado en https://www.ine.es/dyngs/ODS/es/objetivo.htm?id=5128
- IPCC, (2019). Resumen para responsables de políticas, en: Informe especial sobre los océanos y la criosfera en un clima cambiante del IPCC [H. O. Pörtner, D. C. Roberts, V. Masson-Delmotte, P. Zhai, M. Tignor, E. Poloczanska, K. Mintenbeck, M. Nicolai, A. Okem, J. Petzold, B. Rama, N. M. Weyer (eds.)]. En prensa. Disponible en https://www.ipcc.ch/site/assets/uploads/sites/3/2020/07/SROCC_SPM_es.pdf
- Jordà, G., Marbà, N., & Duarte, C. M. (2012). Mediterranean seagrass vulnerable to regional climate warming. Nature climate change, 2(11), 821-824.
- Jouffray, J.-N., Blasiak, R., Norström, A., Österblom, H., & Nyström, H. (2020). The blue acceleration: The trajectory of human expansion into the ocean. One Earth, Perspective, 2(1), 43–54. https://doi.org/10.1016/j.oneear.2019.12.01
- Kelly, R. P., Foley, M. M., Fisher, W. S., Feely, R. A., Halpern, B. S., Waldbusser, G. G., & Caldwell, M. R. (2011). Mitigating Local Causes of Ocean Acidification with Existing Laws. Science, 332(6033), 1036–1037. http://doi.org/10.1126/science.1203815
- Lacoue-Labarthe et al. (2016). Impacts of ocean acidification in a warming Mediterranean Sea: An overview. Regional Studies in Marine Science 6, 1-11.
- Laffoley, D., Baxter, J.M., Turley, C., Jewett, L., y Lagos, N.A., (editores). (2017). Una introducción a la acidificación del océano: Lo que es, lo que sabemos y lo que puede suceder. UICN, Gland, Suiza, 30 pp.
- Lee, K., Choi, S.-D., Park, G.-H., Wanninkhof, R., Peng, T.-H., Key, R.M., Sabine, C.L., Feely, R.A., Bullister, J.L., Millero, F.J., Kozyr, A., (2003). An updated anthropogenic CO2 inventory in the Atlantic Ocean. Glob. Biogeochem. Cycles 17, 1116.
- Link, J. S., Pranovi, F., & Libralato, S. (2022). Simulations and interpretations of cumulative trophic theory. Ecological Modelling, 463, 109800.
- Lovelock, J. (2000). The ages of Gaia: A biography of our living earth. Oxford University Press, USA.
- Lovelock, J. (2006). The Revenge of Gaia: Earth’s Climate Crisis & the FAte of Humanity. New York: Basic Books.
- Lovelock, J. (2009). The Vanishing Face of Gaia. New York: Basic Books. Lovelock, J. & Margulis, L. (1974). Atmospheric Homeostasis by and for the Biosphere: The Gaia Hypothesis. Tellus, 26 (1-2), p. 2-10.
- Lynch, M. J., Long, M. A., & Stretesky, P. B. (2019). Green Criminology and Green Theories of Justice. Palgrave Macmillan, Cham.
- Manzano, P., A. García-Fernández, J. Seoane, F. M. Azcárate, J. M. Iriondo, and B. Peco. (2021). Livestock Corridors Working as Pollinator Refuges and Dispersal Hotspots: Lessons from Spain. https://uknowledge.uky.edu/igc/24/1/23/
- Mecca, S., Casoli, E., Ardizzone, G., & Gambi, M. C. (2020). Effects of ocean acidification on phenology and epiphytes of the seagrass Posidonia oceanica at two CO2 vent systems of Ischia (Italy). Mediterranean Marine Science, 21(1), 70–83. https://doi.org/10.12681/mms.20795
- Morelle-Hungría, E. & Serra-Palao, P. (2021). New Challenges in Planetary Health: A Brief Review of the “Blue Lung”. Paper presented in International Conference, Towards a Global Legal Framework in Harmony and Peace with Nature. International Council of Environmental Law (ICEL), University Carlos III of Madrid (Uc3m, Spain), november 2021.
- Morelle-Hungría, E. (2019). Análisis jurídico y viabilidad de la protección autonómica de la posidonia oceanica, a través del Decreto 25/2018, de 27 de julio, en las Illes Balears. Medio Ambiente & Derecho: Revista electrónica de derecho ambiental, 34.
- Morelle-Hungría, E. (2020b). La protección de la biodiversidad marina frente al ruido subacuático: ¿es necesario incorporar valores umbral? Revista Jacobea de Posgrado, núm. 19.
- Morelle-Hungría, E. (2022). Explorando los límites planetarios y la respuesta frente a un problema de seguridad integral: el cambio climático. Pendiente evaluación.
- Morelle-Hungría, E., (2020a). Ecocriminología, la necesaria visión ecosistémica en el siglo XXI. Revista electrónica de criminología, núm. 3, pp. 1-16.
- Muñoz, T. (2021). Ecosistemas marinos, otra víctima más del CO2. Consultado en https://prezi.com/p/hrhhyyi5jqhm/ecosistemasmarinos-otra-victima-mas-del-co2/ el 28 de septiembre de 2022.
- Nogueira López, A. (2019). La huella ecológica. El establecimiento de indicadores ambientales y su significación para el Derecho. Revista Catalana De Dret Ambiental, 10(1). https://doi.org/10.17345/rcda2589
- Olalla, M.A. (2003). Indicadores de sostenibilidad y huella ecológica. Aplicación a la UAM. Resumen del Proyecto de Fin de Carrera de la Licenciatura de Ciencias Ambientales. Universidad Autónoma Metropolitana. Ciudad de México.
- Ortega-Santos, A. (2021). Extractivismo marino-colonial. Apropiación asimétrica de recursos marinos en el golfo de California (México) siglos XVI-XXI. Relaciones Internacionales, (46), 99-117.
- Ortiz-García, M. (2011). La Ley de Protección del Medio Marino: hacia la gobernanza marítima. Revista Catalana de Dret Ambiental. 2011, 2(2): 1-31.
- Palao, P. S. (2020). Cómo hacer frente a la impunidad ambiental: hacia una Convención Internacional contra el ecocidio. Actualidad Jurídica Ambiental, (100), 6-35.
- Palmiéri, J., Orr, J.C., Dutay, J.C., Béranger, K., Schneider, A., Beuvier, J., Somot, S., (2014). Simulated anthropogenic CO2 uptake and acidification of the Mediterranean Sea. Biogeosci.
- Potter, G. (in press). Green criminology as ecocriminology: Developing an ecologically-informed social science of crime. In H. Mol, D. R. Goyes, A. Brisman, & N. South (Eds.), Introducción a la Criminología Verde: Conceptos para la comprensión de los problemas socio-ambientales. Bogotá: Universidad Antonio Nariño.
- Rees, W.E.; Wackernagel, M. (2008). Urban Ecological Footprints: why cities cannot be sustainable. In Urban Ecology, ed. Maluff, J.M. et al., pp. 537 -555, Boston: Springer.
- Rockström, J., Steffen, W., Noone, K., Persson, Å., Chapin, F. S., Lambin, E. F., ... & Foley, J. A. (2009). A safe operating space for humanity. Nature, 461(7263), 472-475.
- Sabine, C.L., Feely, R.A., Key, R.M., Bullister, J.L., Millero, F.J., Lee, K., Peng, T. H., Tilbrook, B., Ono, T., Wong, C.S., (2002). Distribution of anthropogenic CO2 in the Pacific Ocean. Glob. Biogeochem. Cycles 16, 1083.
- Sauza, B, Tocamo, Y y González, J. (2021). Acidificación de los océanos. Universidad UMECIT.
- Schneider, A., Tanhua, T., Körtzinger, A., Wallace, D.W.R., (2010). High anthropogenic carbon content in the Eastern Mediterranean. J. Geophys. Res. 115, C12050.
- South, N. (2014). Green Criminology: Reflections, Connections, Horizons. International Journal for Crime, Justice and Social Democracy, 3(2), 5–20.
- Steffen, W., Richardson, K., Rockström, J., Cornell, S. E., Fetzer, I., Bennett, E. M., ... & Sörlin, S. (2015). Planetary boundaries: Guiding human development on a changing planet. Science, 347 (6223), 1259855.
- Taylor, M. (2019, April 3). Campaign to save oceans maps out global network of sanctuaries. The Guardian. https://www.theguardian.com/environment/2019/apr/04/campaign-to-save- oceans-maps-out-global-network-of-sanctuaries
- Vaquer-Sunyer, R., Barrientos, N., Reviriego, B., Santandreu M., y Martino, S. (2021). Índice Multivariante Posidonia oceánica (POMI). Informe Del Mar Balear. Disponible en https://www.informemarbalear.org/wp-content/uploads/2021/03/imb-pomi-esp.pdf
- Wackernagel, M.; Rees W. E., (1996). Our Ecological Footprint: Reducing Human Impact on the Earth. New Society Published , Philadelphia. pp. 326-348.
- Zunino, S., Libralato, S., Melaku Canu, D., Prato, G., Solidoro, C., (2021). Impact of ocean acidification on ecosystem functioning and services in hábitat-forming species and marine ecosystems. Ecosystems. https://doi.org/10.1007/s10021-021-00601-3