Control del agua de lastre como fuente de ingreso de especies exóticas invasoras en puertos argentinos de la Cuenca del Plata

Mariana Inés Abelando

doi:10.26461/22.09

Authors

Mariana Inés Abelando Prefectura Naval Argentina, Dirección de Protección Ambiental, Buenos Aires, Argentina e Instituto Universitario de Seguridad Marítima, Buenos Aires, Argentina https://orcid.org/0000-0003-4112-714X

DOI:

https://doi.org/10.26461/22.09

Keywords:

Argentina, bioinvasions, BWM 04, control, salinity

Abstract

Thanks to the technological advances, the frequency of transoceanic voyages has increased and, in an involuntary way, the transport of species from one region to another, breaking natural barriers. When these species become invasive, they usually have serious impacts on biodiversity, the economy and public health. This study analyzes the ballast water management in Argentine ports located in the Del Plata Basin, based on published and unpublished data on compliance with the national and international regulations, risk analysis, trends and experiences in other countries of the region. After almost a decade, Argentina has achieved an effective compliance of the rules in force by its merchant fleet, what has been reflected in the absence of new invasive species in the region. Future efforts to reduce the impacts of invasions should consider the optimization of resources and the incorporation of new technologies for ballast water control, particularly Regulation D-2, and they should also consider biofouling as another vector of importance.

Downloads

Download data is not yet available.

References

Abelando, M., Bobinac, M. y Chiarandini Fiore, J., 2020. Assessment of the efficiency of controls to prevent biologic invasions at the San Lorenzo Port, Argentina. En: Environmental Monitoring and Assessment, 192, pp.420. DOI: https://doi.org/10.1007/s10661-020-08359-2

Argentina. Ministerio de Ganadería Agricultura y Pesca, 2020. Exportaciones [En línea]. Buenos Aires: MAGYP. [Consulta: 18 de agosto de 2020]. Disponible en: https://www.agroindustria.gob.ar/sitio/areas/ss_mercados_agropecuarios/exportaciones/

Argentina. Ministerio de Planificación Federal, Inversión Pública y Servicios, 2008. Plan maestro y director del Sistema de Navegación Troncal. Visión estratégica y bases para su formulación en el Río Paraná [En línea]. Buenos Aires: Subsecretaría de Puertos y Vías Navegables, Secretaría de Transporte, Ministerio de Planificación Federal. [Consulta: 18 de agosto de 2020]. Disponible en: https://www.estudioayd.com.ar/data/PresentacionPLANyLIBRO.pdf

Argentina. Prefectura Naval Argentina, 1998. Ordenanza DPAM No 7/98. Prevención de la contaminación con organismos acuáticos en el lastre de barcos destinados a puertos argentinos en la Cuenca del Plata. Buenos Aires: PNA. (Derogada).

Argentina. Prefectura Naval Argentina, 2017. Ordenanza DPAM No. 07/17. Normas para el control y la gestión del agua de lastre y los sedimentos de los buques, artefactos navales u otras construcciones flotantes [En línea]. Buenos Aires: PNA. [Consulta: 19 de octubre de 2021]. Disponible en: https://www.argentina.gob.ar/prefecturanaval/reglamentacion/ordenanzas

Armendariz, L., Paola, A. y Rodrigues Capítulo, A. 2011. Manayunkia speciosa Leidy (Polychaeta: Sabellidae): introduction of this nonindigenous species in the Neotropical Region (Uruguay river, South America). En: Biological Invasions, 13, pp.281–284. DOI: https://doi.org/10.1007/s10530-010-9838-0

Ávila Velandia, M.F., 2016. Evaluación del riesgo de introducción de especies invasoras en agua de lastre en buques que operan en el puerto de Buenos Aires. Buenos Aires: Universidad de Buenos Aires. (Tesis de Maestría).

Bailey, S., Deneau, M., Jean, L., Wiley, C., Leung, B. y MacIsaac H., 2011. Evaluating efficacy of an environmental policy to prevent biological invasions. En: Environmental Science and Technology, 45(7), pp.2554-2561. DOI: https://doi.org/10.1021/es102655j

Bailey, S., Brown, L., Campbell, M., Canning‐Clode, J., Carlton, J., Castro, N,. Chainho, P., Chan, F., Creed, J., Curd, A. y Darling, J,. 2020. Trends in the detection of aquatic non‐indigenous species across global marine, estuarine and freshwater ecosystems: A 50‐year perspective. En: Biodiversity research, 26(12), pp1780-1797. DOI: https://doi.org/10.1111/ddi.13167

Bakalar, G., 2016. Comparisions of interdisciplinary ballast water treatment systems and operational experiences from ships. En: SpringerPlus, 5, 240. DOI: https://doi.org/10.1186/s40064-016-1916-z

Boltovskoy, D., Correa, N., Cataldo, D. y Sylvester, F., 2006. Dispersion and ecological impact of the invasive freshwater bivalve Limnoperna fortunei in the Río de la Plata watershed and beyond. En: Biological Invasions, 8(4), pp.947-963. DOI: https://doi.org/10.1186/s40064-016-1916-z

Boltovskoy, D., Almada, P. y Correa, N., 2011. Biological invasions: assessment of threat from ballast-water discharge in Patagonian (Argentina) ports. En: Environmental Science & Policy, 14(5), pp.578-583. DOI: https://10.1016/j.envsci.2011.03.007

Carlton, J.T., 1985. Transoceanics and interoceanics dispersal of coastal marine organisms: the biology of ballast water. En: Oceanography and Marine Biology, 23, pp.313-374.

Carlton, J.T., 1996. Pattern, process, and prediction in marine invasion ecology. En: Biology Conservation, 78, pp.97–106. DOI: https://doi.org/10.1016/0006-3207(96)00020-1

Castro, M., Hall-Spencer, J., Fonseca Poggian, C. y Filemand, T., 2017. Ten years of Brazilian ballast water management. En: Journal of Sea Research, 133, pp.36-42. DOI: https://doi.org/10.1016/j.seares.2017.02.003

Castro, M., Vance, T., Yunnie, A., Fileman, W. y Hall-Spencer, J., 2018. Low salinity as a biosecurity tool for minimizing biofouling on ship sea chests. En: Ocean Science Discussions, 14, pp.661-667. DOI: https://doi.org/10.5194/os-2018-35

Cohen, A. y Dobbs, F., 2015. Failure of the public health testing program for ballast water treatment systems. En: Marine Pollution Bulletin, 9, pp.29-34. DOI: https://doi.org/10.1016/j.marpolbul.2014.12.031

Darrigran, G. y Damborenea, C., 2005. A South American bioinvasion case history: Limnoperna fortunei (Dunker, 1857), the golden mussel. En: American Malacological. Bulletin, 20, pp.105-112.

Floerl, O., Inglis, G.J. y Hayden, B.J., 2005. A risk-based predictive tool to prevent accidental introductions of nonindigenous marine species. En: Environmental Management, 35(6), pp.765–778. DOI: https://doi.org/10.1007/s00267-004-0193-8

Ferrario, J., Caronni, S., Occhipinti-Ambrogi, A. y Marchini, A., 2017. Role of commercial harbours and recreational marinas in the spread of non-indigenous fouling species. En: Biofouling, 33(8), pp.651–660. DOI: https://doi.org/10.1080/08927014.2017.1351958

GEF, PNUD e IMO, 2007. Building Partnerships to assist developing countries to reduce the transfer of harmful aquatic organisms in ship´s ballast water. [En línea]. Londres: Globallast Partnerships [Consulta: 19 de octubre de 2021]. Disponible en: http://archive.iwlearn.net/globallast.imo.org/

Genzano, G., Mianzan, H., Acha, E.M. y Gaitan, E., 2006. First record of the invasive medusa Blackfordia virginica (Hydrozoa: Leptomedusae) in the Río de La Plata, Argentina-Uruguay. En: Revista Chilena de Historia Natural, 79, pp.257-261.

Gollasch, S., Matej, D., Voigt, M., Dragsund, E., Hewitt, C. y Fukuyo, Y., 2007. Critical review of the IMO International Convention of the management of ships ballast water and sediments. En: Hamful algae, 6, pp.585-600. DOI: https://doi.org/10.1016/j.hal.2006.12.009

Ituarte, C.F., 1981. Primera noticia acerca de la introducción de pelecípodos asiáticos en el área rioplatense (Mollusca Corbiculidae). En: Neotrópica, 27, pp.79-82.

Lin, Y., Zhan, A., Hernandez, M., Paolucci, E., MacIsaac, H. y Briski, E., 2020. Can chlorination of ballast water reduce biological invasions? En: Journal of Applied Ecology, 57, pp.331–343. DOI: https://doi.org/10.1111/1365-2664.13528

Mesbahi, E., 2004. Latest results from testing seven different technologies under the EU MARTOB project- Where do we stand now? En: Matheickal, J., Raaymakers, S., eds. Second International Symposium on Ballast Water Treatment. Londres: IMO, pp.210-230.

National Research Council, 2011. Assessing the relationship between propagule pressure and invasion risk in ballast water. Washington, DC: The National Academies Press. DOI: https://doi.org/10.17226/13184.

Occhipinti-Ambrogi, A., 2007. Global change and marine communities: alien species and climate change. En: Marine Pollution Bulletin, 55(7), pp.342–352. DOI: https://doi.org/10.1016/j.marpolbul.2006.11.014

Organización Marítima Internacional, 1973. MARPOL. Convenio internacional para prevenir la contaminación por los buques, modificado por el Protocolo de 1978 y por el Protocolo de 1997 MARPOL [En línea]. Londres: OMI. [Consulta: 19 de octubre de 2021]. Disponible en: https://www.imo.org/es/About/Conventions/Pages/International-Convention-for-the-Prevention-of-Pollution-from-Ships-(MARPOL).aspx.

Organización Marítima Internacional, 1997. Resolución A.868(20). Directrices para el control y la gestión del agua de lastre de los buques a fin de reducir al mínimo la transferencia de organismos acuáticos perjudiciales y agentes patógenos. Londres: OMI.

Organización Marítima Internacional, 2004. International convention for the control and management of ship’s ballast water and sediments. Londres: OMI. ISBN 978-92-801-033-4

Organización Marítima Internacional, 2011. MEPC.207(62) Add1. Guidelines for the control and management of ships’ biofouling to minimize the transfer of invasive aquatic species. Londres: OMI.

Organización Marítima Internacional, 2015. BWM.2/Circ.42/Rev.1. Guidance on ballast water sampling and analysis for trial use in accordance with the BWM Convention and Guidelines (G2). Londres: OMI

Organización Marítima Internacional, 2018. MEPC.297(72) Enmiendas al Convenio internacional para el control y la gestión del agua de lastre y los sedimentos de los buques, 2004. Enmiendas a la regla B-3. Calendario para la implantación de la gestión del agua de lastre de los buques. Londres: OMI

Orensanz, J.M., Schwindt, E., Pastorino, G., Bortolus, A., Casas, G., Darrigran, G., Elías, R., López Gappa, J.J., Obenat, S., Pascual, M., Penchaszadeh, P., Piriz, M.L., Scarabino, F., Spivak, E.D. y Vallarino, E.A., 2002. No longer a pristine confine of the world ocean-a survey of exotic marine species in the Southwestern Atlantic. En: Biological Invasions, 4, pp.115–143. DOI: https://doi.org/10.1023/A:1020596916153

Paolucci, E., Hernandez, M., Potapov, A., Lewis, M. y MacIsaac, H., 2015. Hybrid system increases efficiency of ballast water treatment. En: Journal of Applied Ecology, 52(2), pp. 348–357. DOI: https://doi.org/10.1111/1365-2664.12397

Pastorino, G., Darrigran, G., Martin, S. y Lunaschi, L., 1993. Limnoperna fortunei (Dunker, 1857) (Mytilidae), nuevo bivalvo invasor en aguas del Río de la Plata. En: Neotrópica, 39, pp.101-102.

Pastorino, G., Penchaszadeh, P.E., Schejter, L. y Bremec, C., 2000. Rapana venosa (Valenciennes, 1846) (Mollusca: Muricidae). A new gastropod in South Atlantic waters. En: Journal of Shellfish Research, 19, pp.897–899.

Pereira, J., Pereira, N. y da Cunha, A., 2018. Monitoramento da qualidade da água de lastro como suporte à gestão no Porto de Santana-AP – Amazônia Estuarina/Brasil. Cap. 8. En: Pereira, Newton Narciso, ed. Água de lastro: gestão e controle. São Paulo: Blucher. pp.171-197.

Pereira, N. y Brinati, H. 2018. Alternativas de tratamentos para água de lastro a bordo dos navios. Cap. 3. En: Pereira, Newton Narciso, ed. Água de lastro: gestão e controle. São Paulo: Blucher. pp.43-88.

Pimentel, D., Rodolfo, Z. y Morrison, D., 2005. Update on the environmental and economic costs associated with alien invasive species in the United States. En: Ecological Economics, 52(3), pp.273–288.

Ruiz, G., Carlton, J., Grosholz, E. y Hines, A., 1997. Global invasions of marine and estuarine habitants by non-indigenous species: mechanism, extent and consequences. En: American Zoologist, 37(6), pp.621-632.

Rup, M.P., Bailey, S.A., Wiley, C.J., Minton, M.S., Miller, A.W., Ruiz, G.M. y MacIsaac, H.J., 2010. Domestic ballast operations on the Great Lakes: potential importance of Lakers as a vector for introduction and spread of nonindigenous species. En: Canadian Journal of Fisheries and Aquatic Sciences, 67(2), pp.256–268. DOI: https://doi.org/10.1139/F09-180

Santagata, S., Gasiunaite, Z., Verling, E., Cordell, J., Eason, K., Cohen, J., Bacela, K., Quilez-Badia, G., Johengen, T., Reid. D. y Ruiz, G., 2008. Effect of osmotic shock as a management strategy to reduce transfers of nonindigenous species among low-salinity ports by ships. En: Aquatic Invasions, 3, pp.61–76. DOI: https://doi.org/10.3391/ai.2008.3.1.10

Scarabino, F., Menafra, R. y Etchegaray, P., 1999. Presencia de Rapana venosa (Valenciennes, 1846) (Gastropoda: Muricidae) en el Río de la Plata. En: Boletín de la Sociedad Zoológica del Uruguay, 11, 40.

Schwindt, E., Battini, N., Giachetti, C. y Bortolus, A., 2018. Especies exóticas marino-costeras de Argentina / Marine-coastal exotic species of Argentina. Editor: Alejandro Bortolus y Evangelina Schiwndt. Puerto Madryn, Argentina. ISBN: 978-987-42-9642-9

Schwindt, E., Carlton, J.T., Orensanz, J.M., Scarabino, F. y Bortolus, A., 2020. Past and future of the marine bioinvasions along the Southwestern Atlantic. En: Aquatic Invasions 15(1), pp.11–29. DOI: https://doi.org/10.3391/ai.2020.15.1.02

Ta-Kang, L., Chang, Ch-H. y LiChou, M., 2014. Management strategies to prevent the introduction of non-indigenous aquatic species in response to the Ballast Water Convention in Taiwan. En: Marine Policy, 44, pp.187-195. DOI: https://doi.org/10.1016/j.marpol.2013.08.023

Uruguay. Prefectura Nacional Naval, 2006. Disposición Marítima Nº 109 Directrices para el control y la gestión del agua de lastre de los buques. República Oriental del Uruguay [En línea]. Montevideo: PNN. [Consulta: 18 de agosto de 2020]. Disponible en: http://www.armada.mil.uy/ContenidosPDFs/Prena/Dirme/disposiciones_maritimas/disposicion_maritima_109.pdf