European topic centre - university of malaga
Meet our team members
Ana Isabel Marín
Environmental Scientist and GIS specialist
Ana Isabel Marín
Environmental Scientist and GIS specialist
aimarin@uma.es
+34 951 952 997
Ana (PhD) is an environmental researcher and GIS specialist at the European Topic Centre of University of Málaga. She holds a European-mention PhD in Environmental Science, an MSc in regional planning and a BSc in Environmental Sciences. Her academic career is focused on Environmental assessment and protection issues. She developed her PhD, under an European framework, on groundwater protection, more precisely on water supply protection areas in karst according to WFD within the team of Centre of hydrogeology of University of Malaga.
From March 2012, she is working in the ETC-UMA being involved in different EEA tasks related to the Pan-European ecosystem assessment to support the Biodiversity Strategy 2020, the development of a Land use thematic assessment methodology, task related with wetland / water (ECRINS, Copernicus HRLs, water accounts, … ), changes in Landscape, etc. Furthermore, she has been involved in other ETC-UMA projects such as Geoland2 or MS. MONINA.
At the same time, she is member of the Hydrogeology research team of UMA (RNM-308), participating in researches and papers related to the groundwater protection. Additionally, she shares her time with training lessons on water protection and GIS in Master on Water Resources and Environment (RHYMA), being another link between University of Málaga and ETC-UMA.
RESOURCES
Journal Articles
Marín, A. I.; Abdul-Malak, D.; Bastrup-Birk, A.; Chirici, G.; Barbati, A.; Kleeschulte, S.
Mapping forest condition in Europe: Methodological developments in support to forest biodiversity assessments Journal Article
In: Ecological Indicators, vol. 128, 2021.
Abstract | Links | BibTeX | Tags: Biodiversity, Conservation and management, Ecosystem, Environmental conservation, Forest
@article{Marín2021b,
title = {Mapping forest condition in Europe: Methodological developments in support to forest biodiversity assessments},
author = {A. I. Marín and D. Abdul-Malak and A. Bastrup-Birk and G. Chirici and A. Barbati and S. Kleeschulte},
url = {https://doi.org/10.1016/j.ecolind.2021.107839},
doi = {10.1016/j.ecolind.2021.107839},
year = {2021},
date = {2021-05-29},
journal = {Ecological Indicators},
volume = {128},
abstract = {Forest condition, biodiversity, and ecosystem services are strongly interlinked. The biodiversity levels depend to a large extent on the integrity, health, and vitality of forests at the same time as losses of forest biodiversity lead to decreased forest productivity and sustainability. Under this conceptual framework, this study presents a methodology for mapping forest condition at European scale supporting the attainment of the 2020 Aichi Biodiversity Target 5 “the rate of loss of all natural habitats, including forests, is at least halved and where feasible brought close to zero, and degradation and fragmentation is significantly reduced” and the implementation of Sustainable Development Goals (SDG), as well as the EU forest strategy since the sustainable forest management is oriented to support the provision of forest services and to enhance the condition of biodiversity forests’ host.
The work presents the developments of an operational indicator at European scale. This spatially explicit information on forest condition can be the baseline map with a 1 km resolution to monitor the state and changes of condition by exposition to pressures and threats. This condition indicator considers structural, functional, and compositional aspects of forest with relevance for health and vitality of species and habitats hosted by forest ecosystems.
The methodology implemented used harmonized, published and open datasets. It provided confident results for the assessment of the condition within hemiboreal, temperate and alpine forests, showing the Carpathian, Dinaric Alps and Alps, among others, as hotspots with pre-dominantly good condition. The results were validated with data derived from the reporting for the EU Habitat Directive and explicit dataset on known primary forests in Europe. However, this method underestimated the forest condition in the Mediterranean and Boreal forest types due to data gaps, regional specific characteristics, and design limitations.
This study illustrates an operational and transferable approach for addressing the assessment of ecosystem forest condition at European scale being considered as a support tool for European countries when mapping and assessing their national territory, as potential common approach to map forest ecosystems that allows for consistent aggregation and comparisons across scales.},
keywords = {Biodiversity, Conservation and management, Ecosystem, Environmental conservation, Forest},
pubstate = {published},
tppubtype = {article}
}
The work presents the developments of an operational indicator at European scale. This spatially explicit information on forest condition can be the baseline map with a 1 km resolution to monitor the state and changes of condition by exposition to pressures and threats. This condition indicator considers structural, functional, and compositional aspects of forest with relevance for health and vitality of species and habitats hosted by forest ecosystems.
The methodology implemented used harmonized, published and open datasets. It provided confident results for the assessment of the condition within hemiboreal, temperate and alpine forests, showing the Carpathian, Dinaric Alps and Alps, among others, as hotspots with pre-dominantly good condition. The results were validated with data derived from the reporting for the EU Habitat Directive and explicit dataset on known primary forests in Europe. However, this method underestimated the forest condition in the Mediterranean and Boreal forest types due to data gaps, regional specific characteristics, and design limitations.
This study illustrates an operational and transferable approach for addressing the assessment of ecosystem forest condition at European scale being considered as a support tool for European countries when mapping and assessing their national territory, as potential common approach to map forest ecosystems that allows for consistent aggregation and comparisons across scales.
Proceedings
Marín, A. I.; Abdul-Malak, D.
An Indicator Of Forest Fire Intensity Applied To European Forest Ecosystems Proceedings
VI Reunión Internacional Fuegored, Malaga, 19-21 Noviembre, 2015.
Links | BibTeX | Tags: Ecosystem, Forest, Forest fire
@proceedings{Marín2015d,
title = {An Indicator Of Forest Fire Intensity Applied To European Forest Ecosystems},
author = {A. I. Marín and D. Abdul-Malak},
url = {https://www.etc.uma.es/wp-content/uploads/FUEGO_RED2015.pdf},
year = {2015},
date = {2015-11-21},
publisher = {VI Reunión Internacional Fuegored, Malaga, 19-21 Noviembre},
keywords = {Ecosystem, Forest, Forest fire},
pubstate = {published},
tppubtype = {proceedings}
}
Technical Reports
Maes, J.; Teller, A.; Erhard, M.; Condé, S.; Vallecillo, S.; Barredo, J. I.; Paracchini, M. L.; Abdul-Malak, D.; Trombetti, M.; Vigiak, O.; Zulian, G.; Addamo, A. M.; Grizzetti, B.; Somma, F.; Hagyo, A.; Vogt, P.; Polce, C.; Jones, A.; Marin, A. I.; Ivits, E.; Mauri, A.; Rega, C.; Czúcz, B.; Ceccherini, G.; Pisoni, E.; Ceglar, A.; de Palma, P.; Cerrani, I.; Meroni, M.; Caudullo, G.; Lugato, E.; Vogt, J. V.; Spinoni, J.; Cammalleri, C.; Bastrup-Birk, A.; Miguel, J. San; San-Román, S.; Kristensen, P.; Christiansen, T.; Zal, N.; de Roo, A.; Cardoso, A. C.; Pistocchi, A.; del Barrio Alvarellos, I.; Tsiamis, K.; Gervasini, E.; Deriu, I.; la Notte, A.; Viñas, R. Abad; Vizzarri, M.; Camia, A.; Robert, N.; Kakoulaki, G.; Bendito, E. Garcia; Panagos, P.; Ballabio, C.; Scarpa, S.; Montanarella, L.; Orgiazzi, A.; Ugalde, O. Fernandez; Santos-Martín, F.
Mapping and Assessment of Ecosystems and their Services: An EU ecosystem assessment Technical Report
Publications Office of the European Union 2020, ISBN: 978-92-76-17833-0.
Abstract | Links | BibTeX | Tags: Biodiversity, Conservation and management, Ecosystem, Ecosystem services, Forest, Wetlands
@techreport{Maes2020,
title = {Mapping and Assessment of Ecosystems and their Services: An EU ecosystem assessment},
author = {J. Maes and A. Teller and M. Erhard and S. Condé and S. Vallecillo and J.I. Barredo and M.L. Paracchini and D. Abdul-Malak and M. Trombetti and O. Vigiak and G. Zulian and A.M. Addamo and B. Grizzetti and F. Somma and A. Hagyo and P. Vogt and C. Polce and A. Jones and A. I. Marin and E. Ivits and A. Mauri and C. Rega and B. Czúcz and G. Ceccherini and E. Pisoni and A. Ceglar and P. de Palma and I. Cerrani and M. Meroni and G. Caudullo and E. Lugato and J.V. Vogt and J. Spinoni and C. Cammalleri and A. Bastrup-Birk and J. San Miguel and S. San-Román and P. Kristensen and T. Christiansen and N. Zal and A. de Roo and A.C. Cardoso and A. Pistocchi and I. del Barrio Alvarellos and K. Tsiamis and E. Gervasini and I. Deriu and A. la Notte and R. Abad Viñas and M. Vizzarri and A. Camia and N. Robert and G. Kakoulaki and E. Garcia Bendito and P. Panagos and C. Ballabio and S. Scarpa and L. Montanarella and A. Orgiazzi and O. Fernandez Ugalde and F. Santos-Martín},
url = {http://publications.jrc.ec.europa.eu/repository/handle/JRC120383},
doi = {10.2760/757183},
isbn = {978-92-76-17833-0},
year = {2020},
date = {2020-10-01},
urldate = {2020-10-01},
institution = {Publications Office of the European Union},
abstract = {This report presents an ecosystem assessment covering the total land area of the EU as well as the EU marine regions. The assessment is carried out by Joint Research Centre, European Environment Agency, DG Environment, and the European Topic Centres on Biological Diversity and on Urban, Land and Soil Systems. This report constitutes a knowledge base which can support the evaluation of the 2020 biodiversity targets. It also provides a data foundation for future assessments and policy developments, in particular with respect to the ecosystem restoration agenda for the next decade (2020-2030). The report presents an analysis of the pressures and condition of terrestrial, freshwater and marine ecosystems using a single, comparable methodology based on European data on trends of pressures and condition relative to the policy baseline 2010. The following main conclusions are drawn: - Pressures on ecosystems exhibit different trends. - Land take, atmospheric emissions of air pollutants and critical loads of nitrogen are decreasing but the absolute values of all these pressures remain too high. - Impacts from climate change on ecosystems are increasing. - Invasive alien species of union concern are observed in all ecosystems, but their impact is particularly high in urban ecosystems and grasslands. - Pressures from overfishing activities and marine pollution are still high. - In the long term, air and freshwater quality is improving. - In forests and agroecosystems, which represent over 80% of the EU territory, there are improvements in structural condition indicators (biomass, deadwood, area under organic farming) relative to the baseline year 2010 but some key bio-indicators such as tree-crown defoliation continue to increase. This indicates that ecosystem condition is not improving. - Species-related indicators show no progress or further declines, particularly in agroecosystems. The analysis of trends in ecosystem services concluded that the current potential of ecosystems to deliver timber, protection against floods, crop pollination, and nature-based recreation is equal to or lower than the baseline value for 2010. At the same time, the demand for these services has significantly increased. A lowered potential in combination with a higher demand risks to further decrease the condition of ecosystems and their contribution to human well-being. Despite the wide coverage of environmental legislation in the EU, there are still large gaps in the legal protection of ecosystems. On land, 76% of the area of terrestrial ecosystems, mainly forests, agroecosystems and urban ecosystems, are excluded from a legal designation under the Bird and Habitat Directives. Freshwater and marine ecosystems are subject to specific protection measures under the Water Framework and Marine Strategy Framework Directives. The condition of ecosystems that are under legal designation is unfavourable. More efforts are needed to bend the curve of biodiversity loss and ecosystem degradation and to put ecosystems on a path to recovery. The progress that is made in certain areas such as pollution reduction, increasing air and water quality, increasing share of organic farming, the expansion of forests, and the efforts to maintain marine fish stocks at sustainable levels show that a persistent implementation of policies can be effective. These successes should encourage us to act now and to put forward an ambitious plan for the restoration of Europe’s ecosystems.},
keywords = {Biodiversity, Conservation and management, Ecosystem, Ecosystem services, Forest, Wetlands},
pubstate = {published},
tppubtype = {techreport}
}