C. Martí‐Bono scite author profile

Palynological, sedimentological and stable isotopic analyses of carbonates and organic matter performed on the El Portalet sequence (1802 m a.s.l., 42°48′00ʺN, 0°23′52ʺW) reflect the paleoclimatic evolution and vegetation history in the central-western Spanish Pyrenees over the last 30,000 yr, and provide a high-resolution record for the late glacial period. Our results confirm previous observations that deglaciation occurred earlier in the Pyrenees than in northern European and Alpine sites and point to a glacial readvance from 22,500 to 18,000 cal yr BP, coinciding with the global last glacial maximum. The patterns shown by the new, high-resolution pollen data from this continental sequence, chronologically constrained by 13 AMS 14C dates, seem to correlate with the rapid climate changes recorded in Greenland ice cores during the last glacial–interglacial transition. Abrupt events observed in northern latitudes (Heinrich events 3 to 1, Oldest and Older Dryas stades, Intra-Allerød Cold Period, and 8200 cal yr BP event) were also identified for the first time in a lacustrine sequence from the central-western Pyrenees as cold and arid periods. The coherent response of the vegetation and the lake system to abrupt climate changes implies an efficient translation of climate variability from the North Atlantic to mid latitudes.

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Flood generation and sediment transport in experimental catchments affected by land use changes in the central Pyrenees

Ruiz

Regüés

Alvera

et al. 2008

Journal of Hydrology

195

119

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Asynchroneity of maximum glacier advances in the central Spanish Pyrenees

García‐Ruiz¹,

Garcés²,

Martí‐Bono³

et al. 2002

J Quaternary Science

143

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The deglaciation history of the Escarra and Lana Mayor glaciers (Upper Gállego valley, central Spanish Pyrenees) had been reconstructed on the basis of detailed geomorphological studies of glacier deposits, sedimentological and palynological analyses of glacial lake sediments and an accelerator mass spectrometry (AMS) 14 C chronology based on minimum ages from glacial lake deposits. The maximum extent of the Pyrenean glaciers during the last glaciation was before 30 000 yr BP and pre-dated the maximum advances of the Scandinavian Ice Sheet and some Alpine glaciers. A later advance occurred during the coldest period (around 20 000 yr BP), synchronous with the maximum global ice extent, but in the Pyrenees it was less extensive than the previous one. Later, there were minor advances followed by a stage of debris-covered glaciers and a phase of moraine formation near cirque backwalls. The deglaciation chronology of the Upper Gállego valley provides more examples of the general asynchroneity between mountain and continental glaciers. The asynchroneity of maximum advances may be explained by different regional responses to climatic forcing and by the southern latitude of the Pyrenees.

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Badland dynamics in the Central Pyrenees: temporal and spatial patterns of weathering processes

Nadal‐Romero¹,

Regüés²,

Martí‐Bono³

et al. 2006

Earth Surf Processes Landf

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The genesis and development of badlands is controlled by bedrock lithology, topography and climate. The development of badlands in the Central Spanish Pyrenees is favoured by the presence of marls and a climate with a marked seasonality; the combination of these factors results in active hydrosedimentological processes. The aim of the present work was to study the dynamics of badlands in the Central Pyrenees, with a focus on the temporal and spatial patterns of the dominant weathering processes. The study area was a small mountain catchment, and we focussed on the continuous observation of a number of physical parameters that control regolith development and weathering processes. Samples collected from different depths at sites with different aspects enabled temporal comparisons of the factors involved in the development of surface regolith that can be considered as indicators of the weathering of the marls. These indicators were then related to environmental variables (moisture and temperature). Atterberg limits were established and related to moisture content to explain slope dynamics and related processes. Finally, analyses of carbonate content were performed in the laboratory. The results validate the employed methodology, supporting our description of weathering processes, the established chronological sequence and the relation of these processes to climatic and topographic parameters. The results obtained since January 2004 show that the chosen indicators are sensitive to seasonal dynamics, variations in temperature and water supply, and slope aspect. The development and dynamics of regolith on north-facing slopes is more active than that on south-facing slopes. Freezethaw is the main weathering process on north-facing slopes, while south-facing slopes are dominated by the development of crusts associated with wetting-drying processes. Washing effects and lower temperatures upon north-facing slopes mean that the dissolution of carbonates is more pronounced in such areas compared with south-facing slopes, especially within the upper layers of the regolith. favoured by lithology, topography and a climate that is characterized by strong seasonal contrasts in temperature and rainfall distribution. Badlands are characterized by features such as the absence of vegetation, steep slopes and a highdensity drainage network, and hence tend to be among the most significant areas of erosion in the world. This fact is demonstrated by high concentrations of sediment in such areas, as in the Spanish Pyrenees (Valero-Garcés et al., 1999;Beguería, 2005) and the French Alps ('Terres noires'), which can exceed 1000 g l −1 (Descroix and Mathys, 2003). Badlands developed in sub-humid mountain areas are subjected to higher rates of denudation and more active dynamics compared with similar landscapes in arid or semiarid areas (Gallart et al., 2001;Regüés and Gallart, 2004). Rapid and deep weathering (Schumm, 1956), together with intense soil erosion, explain the occurrence of very high erosion rates in badland areas; in some cases...

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Runoff generation in an intensively disturbed, abandoned farmland catchment, Central Spanish Pyrenees

García‐Ruiz

Vadillo

Seeger

et al. 2005

CATENA

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This paper studies the hydrological response to rainstorm events of a small experimental catchment in the Central Spanish Pyrenees. The Arnás catchment was cultivated until 40 years ago, and then abandoned and affected by plant recolonisation, especially shrubs. A rainfall of a few mm is enough to produce a sudden increase in discharge, due most probably to the steep gradients and the small size of the catchment and the extensive areas with low vegetation density and thin soils. The intensity of the response shows a very high variability, depending on the intensity of precipitation and soil humidity conditions before the flood. This paper identifies two types of floods according to the relationships between precipitation and discharge, and confirms that antecedent soil moisture explains much of the response. The shape of the hydrograph, very similar to the hyetograph, suggests that the Arnás catchment is dominated by overland flow processes. However, more intense rainstorms do not generate higher peak flows, thus demonstrating the existence of different runoff generating areas.

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C. Martí‐Bono

Climate variability in the Spanish Pyrenees during the last 30,000 yr revealed by the El Portalet sequence

Flood generation and sediment transport in experimental catchments affected by land use changes in the central Pyrenees

Asynchroneity of maximum glacier advances in the central Spanish Pyrenees

Badland dynamics in the Central Pyrenees: temporal and spatial patterns of weathering processes

Runoff generation in an intensively disturbed, abandoned farmland catchment, Central Spanish Pyrenees

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