Showing total 8 results

1. Identifying keystone connectivity spots under climate change: Implications to conservation and management of riparian systems.

Author

López-Sánchez, Aida, Sánchez, Isabel, Herráez, Fernando, Gülçin, Derya, Tang, Tao, Perea, Ramón, and Velázquez, Javier

Subjects

*CLIMATE change, *FRAGMENTED landscapes, *RIPARIAN areas, *BIODIVERSITY conservation, *WATERSHEDS

Abstract

Climate change has intensified the effects of habitat fragmentation in many ecosystems, particularly exacerbated in riparian habitats. Therefore, there is an urgent need to identify keystone connectivity spots to ensure long-term conservation and sustainable management of riparian systems as they play a crucial role for landscape connectivity. This paper aims to identify critical areas for connectivity under two contrasting climate change scenarios (RCP 4.5 and RCP 8.5 models) for the years 2030, 2050 and 2100 and to group these critical areas by similar connectivity in keystone spots for sustainable management. A set of analyses comprising climate analysis, drainage network analysis, configuration of potential riparian habitats, riparian habitat connectivity, data clustering, and statistical analysis within a Spanish river basin (NW Spain) were applied. The node and link connectivity would be reduced under the two climate change scenarios (≈2.5 % and 4.4 % reduction, respectively), intensifying riparian habitat fragmentation. Furthermore, 51 different clusters (critical areas) were obtained and classified in five classes (keystone spots) with similar connectivity across the different scenarios of climate change. Each keystone spot obtained by hierarchical classification was associated with one or more climate scenarios. One of these keystone spots was especially susceptible to the worst climate change scenario. Key riparian connectivity spots will be crucial for the management and restoration of highly threatened riparian systems and to ensure long-term biodiversity conservation. • Connectivity importance was reduced under different climate change scenarios. • Critical area detection for connectivity conservation is threatened by climate change. • Critical areas were classified with similar connectivity keystone spots against climate change. • Keystone spots with high PC index will be priority for conservation management. [ABSTRACT FROM AUTHOR]

Published

2024

2. Is coastal lagoon eutrophication likely to be aggravated by global climate change?

Author

Lloret, Javier, Marín, Arnaldo, and Marín-Guirao, Lázaro

Subjects

*EUTROPHICATION, *LAGOONS, *CLIMATE change, *CAULERPA

Abstract

Abstract: Coastal zones are widely recognised as being particularly vulnerable to future environmental change. Although a significant number of previous papers warn of an increasing tendency in the appearance of eutrophication processes in such systems, very few papers have evaluated the influence of global climate change on eutrophication. In the Mar Menor lagoon (SE Spain), the high biomass of the main primary producer, Caulerpa prolifera Forsskal (Lamououx), covers most of the bottom, and has probably increased the resistance of the lagoon to eutrophication processes through the high uptake of nutrients from the water column and their retention in the sediments, avoiding high phytoplankton densities. Nevertheless, if climate change predictions become true, the current status of the lagoon is likely to collapse, since future environmental conditions could make C. prolifera unable to reach values of net photosynthesis greater than zero, and eutrophication processes are expected to appear. [Copyright &y& Elsevier]

Published

2008

3. Participatory multi-criteria evaluation of landscape values to inform wildfire management.

Author

Gamboa, Gonzalo, Otero, Iago, Bueno, Conchy, Arilla, Etel, Ballart, Helena, Camprubí, Laura, Canaleta, Guillem, Tolosa, Gemma, and Castellnou, Marc

Subjects

*LANDSCAPE assessment, *FUEL reduction (Wildfire prevention), *WILDFIRES, *FIRE management, *DESIGN science, *CLIMATE change

Abstract

Climate change is expected to increase the number of days with meteorological conditions conducive to uncontrollable wildfires. Thus, it is necessary to strengthen the capacity of wildfire-prone regions to minimize the adverse impacts of these wildfires by creating resilient landscapes. In this paper we develop a participatory multi-criteria evaluation to identify and map landscape values and prioritize areas according to these values in the Montseny Biophere Reserve (Catalonia, NE Spain). Then, we draft a wildfire management strategy to protect the areas that have been prioritized through selected fuel reduction sectors that would reduce wildfire intensity. Finally, we emphasize the added value of a participatory multi-criteria evaluation in the adaptation to and management of expected megafires. We find that the integration of landscape values through participatory multi-criteria evaluation has the potential to alter wildfire management strategies by adding fuel reduction sectors and changing their implementation order. However, the implementation of the planned fuel reduction treatments faces socioeconomic and institutional barriers that call for a deeper engagement with transdisciplinary project design and transformative science. • A participatory multi-criteria evaluation approach is applied to develop a fire management strategy. • The prioritized areas to protect against wildfires are those containing a great number and diversity of landscape values. • The fire management strategy is based on spatially targeted fuel reduction treatments. • The outcome of the evaluation determines where and in which order fuel reduction treatments should be implemented. [ABSTRACT FROM AUTHOR]

Published

2023

4. A review of Soil and Water Assessment Tool (SWAT) studies of Mediterranean catchments: Applications, feasibility, and future directions.

Author

Aloui, Sarra, Mazzoni, Annamaria, Elomri, Adel, Aouissi, Jalel, Boufekane, Abdelmadjid, and Zghibi, Adel

Subjects

*SOIL moisture, *ENVIRONMENTAL impact analysis, *WATERSHEDS, *CLIMATE change, *WATER supply

Abstract

The Soil and Water Assessment Tool (SWAT) is a well-established eco-hydrological model that has been extensively applied to watersheds across the globe. This work reviews over two decades (2002–2022) of SWAT studies conducted on Mediterranean watersheds. A total of 260 articles have been identified since the earliest documented use of the model in a Mediterranean catchment back in 2002; of which 62% were carried out in Greece, Italy, or Spain. SWAT applications increased significantly in recent years since 86% of the reviewed papers were published in the past decade. A major objective for most of the reviewed works was to check the applicability of SWAT to specific watersheds. A great number of publications included procedures of calibration and validation and reported performance results. SWAT applications in the Mediterranean region mainly cover water resources quantity and quality assessment and hydrologic and environmental impacts evaluation of land use and climate changes. Nevertheless, a tendency towards a multi-purpose use of SWAT is revealed. The numerous examples of SWAT combined with other tools and techniques outline the model's flexibility. Several studies performed constructive comparisons between Mediterranean watersheds' responses or compared SWAT to other models or methods. The effects of inputs on SWAT outputs and innovative model modifications and improvements were also the focus of some of the surveyed articles. However, a significant number of studies reported difficulties regarding data availability, as these are either scarce, have poor resolution or are not freely available. Therefore, it is highly recommended to identify and develop accurate model inputs and testing data to optimize the SWAT performance. [Display omitted] • SWAT review on Mediterranean hydro-climatic studies. • Lack of SWAT assessment on Mediterranean catchments. • A comparison of data from different Mediterranean basins. • Enhancing data availability for SWAT applications. • Developing a comprehensive knowledge of Mediterranean watersheds. [ABSTRACT FROM AUTHOR]

Published

2023

5. Modelling the morphological response of the Oka estuary (SE Bay of Biscay) to climate change.

Author

Garnier, Roland, Townend, Ian, Monge-Ganuzas, Manu, de Santiago, Iñaki, Liria, Pedro, Abalia, Aritz, Epelde, Irati, Campo, Andrea del, Chust, Guillem, Valle, Mireia, González, Manuel, Mader, Julien, Gómez, Mariluz, Castillo, Carlos, and Uriarte, Adolfo

Subjects

*ESTUARIES, *SEA level, *PREDICTIVE validity, *SALT marshes, *BIOTIC communities, *MARSHES, *CLIMATE change

Abstract

Adaptation in and around estuaries, to ensure the future resilience of both the natural environment and the communities that are located alongside is an increasingly pressing need. As part of an adaptation planning program for the Basque estuaries (northern Spain, south-eastern Bay of Biscay), a modelling system to simulate the morphological response of the Oka estuary to climate change has been developed. Existing knowledge was used as the basis to frame this pilot modelling examining both the short-term change (storm, seasonal, annual) and the longer-term changes (decades to eons). In this paper, we focus on the long-term response and consideration of the output from the process model is limited to the data that was extracted to help parameterize the long-term model. The latter was then used to examine the response of the estuary to the past changes over a historical time scale, where observations from foraminiferal analysis and saltmarsh response were used to establish the predictive validity of the model. Forcing the model with a linear rate of sea level rise representative of the 20th century, the estuary keeps pace with sea level rise in agreement with the observations. An 18.6-year periodic variability was identified over the saltmarshes, by including the effect of the nodal tide, with the last deposition maximum occurring in 2020. The effect of the opening of a saltmarsh that was drained at the beginning of the 18th century was investigated using a simplified schematization and showed sedimentation rates of up to one order of magnitude larger than in natural marsh, in general agreement with the rates obtained in previous studies. To predict the future response of the estuary, simulations with an exponential sea level rise were performed using scenarios obtained from the latest IPCC projections. The estuary fails to keep pace with sea level rise in any of the scenarios considered. The attendant increase in the hydroperiod over the saltmarshes is also likely impact to saltmarsh species productivity and distribution. Despite the simplifications inherent to the model, and the simplifications made in the representation of the estuary and forcing conditions, the methods presented here provide additional insights into long-term behaviour that complement information obtained from more detailed, but short-term, process models. The combined modelling approach allows adaptation measures to climate change to be considered over longer timescales. • Adaptation to climate change is a problem faced by estuaries around the world. • An approach to study adaptation options for the Basque coast (Spain) is proposed. • With a linear rate of sea level rise, the Oka estuary keeps pace with sea level rise. • The Oka estuary fails to keep pace with future projections of sea level rise. • Saltmarsh enclosure and re-opening change the morphological response of the estuary. [ABSTRACT FROM AUTHOR]

Published

2022

6. Trajectories of wildfire behavior under climate change. Can forest management mitigate the increasing hazard?

Author

Miezïte, Lauma Elza, Ameztegui, Aitor, De Cáceres, Miquel, Coll, Lluís, Morán-Ordóñez, Alejandra, Vega-García, Cristina, and Rodrigues, Marcos

Subjects

*FOREST management, *FOREST fire management, *FOREST dynamics, *WILDFIRE prevention, *CLIMATE change, *FOREST surveys, *FOREST fires

Abstract

Mediterranean forests and fire regimes are closely intertwined. Global change is likely to alter both forest dynamics and wildfire activity, ultimately threatening the provision of ecosystem services and posing greater risks to society. In this paper we evaluate future wildfire behavior by coupling climate projections with simulation models of forest dynamics and wildfire hazard. To do so, we explore different forest management scenarios reflecting different narratives related to EU forestry (promotion of carbon stocks, reduction of water vulnerability, biomass production and business-as-usual) under the RCP 4.5 and RCP 8.5 climate pathways in the period 2020–2100. We used as a study model pure submediterranean Pinus nigra forests of central Catalonia (NE Spain). Forest dynamics were simulated from the 3rd National Forest Inventory (143 stands) using SORTIE-nd software based on climate projections under RCPs 4.5 and 8.5. The climate products were also used to estimate fuel moisture conditions (both live and dead) and wind speed. Fuel parameters and fire behavior were then simulated, selecting crown fire initiation potential and rate of spread as key indicators. The results revealed consistent trade-offs between forest dynamics, climate and wildfire. Despite the clear influence exerted by climate, forest management modulates fire behavior, resulting in different trends depending on the climatic pathway. In general, the maintenance of current practices would result in the highest rates of crown fire activity, while management for water vulnerability reduction is postulated as the best alternative to surmount the increasingly hazardous conditions envisaged in RCP 8.5. • We simulate forest, climate, and wildfire dynamics under RCPs 4.5 and 8.5. • We forecast wildfire hazard in terms of crown fire potential and rate of spread. • Current management practices will not be able to surmount the increased hazard. • Management for water vulnerability reduction is postulated as the best alternative. [ABSTRACT FROM AUTHOR]

Published

2022

7. Climatic conditions, settlement patterns and cultures in the Paleolithic: The example of the Garonne Valley (southwest France)

Author

Bruxelles, Laurent and Jarry, Marc

Subjects

*CLIMATE change, *LAND settlement patterns, *PALEOLITHIC Period, *QUATERNARY stratigraphic geology, *STRATIGRAPHIC geology

Abstract

Abstract: In this paper, we present a critical analysis of the distribution of Paleolithic sites between the Massif Central and the Pyrenees (southwestern France) to understand the settlement patterns during the last climatic deterioration of the Quaternary period. This analysis used recent stratigraphic and archaeological data from thousands of systematic test pits conducted for rescue archaeology in different geomorphological contexts. Our analysis addresses crucial questions about the role of the Garonne alluvial plain in this territory during the Upper Paleolithic. The implications are discussed in the context of this region of Europe, which was considered to be a favorable zone for human occupation during glacial periods. The conclusions reveal a division of this territory into two parts separated by a large unoccupied or rarely occupied zone. We discuss perspectives not only concerning the territoriality of the prehistoric groups who lived on the margins of this no man’s land, but also the cultural endemism that could have led to this geography, influenced by climatic conditions clearly more rigorous than previously recognized in this region. [Copyright &y& Elsevier]

Published

2011

8. Modelling the effects of climate change and population growth in four intensively exploited Mediterranean aquifers. The Mijas range, southern Spain.

Author

Martín-Arias, Javier, Martínez-Santos, Pedro, and Andreo, Bartolomé

Subjects

*CLIMATE change models, *GENERAL circulation model, *AQUIFERS, *DEMOGRAPHIC change, *WATER supply, *GROUNDWATER, *EARTH system science

Abstract

Groundwater is key to economic growth in the Mediterranean region. This is particularly true of areas such as southern Spain, where aquifers underpin social development by supplying water to a booming tourist industry. Intensive groundwater use raises sustainability concerns, as pumping often exceeds the long-term recharge rate. Climate change and population growth are likely to exacerbate the water supply challenge in the coming years, due to the expected decrease in rainfall and to increasing competition among users. This paper examines some of the main aquifers in the Costa del Sol region, one of Spain's leading tourist destinations, where intensive groundwater extraction has led to water table drawdowns and the desiccation of all major springs. A numerical model was developed and calibrated for the purpose of evaluating the likely evolution of the system in the future. Downscaled scenarios from global circulation models were coupled with population growth forecasts to establish a range of plausible water management scenarios. Given the relatively small size of the aquifers and the limited recharge rate, the current pumping patterns appear unsustainable. Results suggest that drawdowns in excess of 150 m could take place within the next decade, thus compromising domestic supplies. Image 103287324 • A distributed model was applied to simulate water level evolution in Mijas range. • Three management scenarios were developed and tested for the 2015–2035 interval. • Climate change and current water management will produce an unsustainable situation. • New sources of water supply are needed to guarantee drinking water in Mijas area. [ABSTRACT FROM AUTHOR]

Published

2020