Your search keyword '"Anselm Rodrigo"' showing total 23 results

1. Nitrogen circulation in a Mediterranean holm oak forest, La Castanya, Montseny, northeastern Spain

Author

Ferran Rodà, Anselm Rodrigo, Anna Avila, and EGU, Publication

Subjects

Mediterranean climate, Hydrology, Baseflow, Discharge regime, [SDU.OCEAN] Sciences of the Universe [physics]/Ocean, Atmosphere, Winter storm, chemistry.chemical_element, Storm, Hyporheic zone, Mediterranean, Nitrate, Nitrogen, [SDU.ENVI] Sciences of the Universe [physics]/Continental interfaces, environment, chemistry.chemical_compound, Riera Major, chemistry, [SDU.STU] Sciences of the Universe [physics]/Earth Sciences, Environmental science, Stream, Groundwater

Abstract

The importance of storm frequency as well as the groundwater and hyporheic inputs on nitrate (NO3-N) and ammonium (NH4-N) levels in stream water were studied in a small perennial Mediterranean catchment, Riera Major, in northeast Spain. NO3-N concentrations ranged from 0.15 to 1.9 mg l-1. Discharge explained 47% of the annual NO3-N concentration variance, but this percentage increased to 97% when single floods were analysed. The rate of change in nitrate concentration with respect to flow, ΔNO3-N/ΔQ, ranged widely from 0 to 20 μg NO3-N s l-2. The ΔNO3-N/ΔQ values fitted to a non linear model with respect to the storm flow magnitude (ΔQ) (r2=0.48, d.f.=22, P3-N/ΔQ occurred at intermediate ΔQ values, whereas low ΔNO3-N/ΔQ values occurred during severe storms (ΔQ > 400 l s-1). N3-N concentrations exhibit anticlockwise hysteresis patterns with changing flow and the patterns observed for autumnal and winter storms indicated that groundwater was the main N3-N source for stream and hyporheic water. At baseflow, NO3-N concentration in groundwater was higher (t=4.75, d.f.=29, P>0.001) and co-varied with concentrations in the stream (r=0.91, d.f.=28, P3-N concentration in hyporheic water was identical to that in stream water. The role of the hyporheic zone as source or sink for ammonium was studied hyporheic was studied comparing its concentrations in stream and hyporheic zone before and after a major storm occurred in October 1994 that removed particulate organic matter stored in sediments. Results showed high ammonium concentrations (75±28 s.d. μg NH4-N l-1) before the storm flow in the hyporheic zone. After the storm, the ammonium concentration in the hyporheic dropped by 80% (13.6±8 μg N4-N l-1) and approached to the level found in stream water (11±8 μg NH4-N l-1) indicating that indisturbed hyporheic sediments act as a source for ammonium. After the storm, the ammonium concentrations in the stream, hyporheic and groundwater zones were very similar suggesting that stream ammonium concentrations are sustained mainly by input from groundwater. The present study provides evidence that storm flow magnitude is an important source of variability of nitrate concentration and fluxes in Mediterranean streams subjected to an irregular precipitation regime with prolonged dry periods. Keywords: nitrate, discharge regime, hyporheic zone, groundwater, Mediterranean, stream, Riera Major

Published

2018

2. Two thresholds determine climatic control of forest-fire size in Europe

Author

Francisco Lloret, Anselm Rodrigo, and Lasse Loepfe

Subjects

Mediterranean climate, Climatology, Fire protection, medicine, Extrapolation, Environmental science, Humidity, Dryness, Climate change, medicine.symptom, Ramp function, Temporal scales

Abstract

Fire weather indices predict fire extent from meteorological conditions assuming a monotonic function; this approach is frequently used to predict future fire patterns under climate change scenarios using linear extrapolation. However, the relationship between weather and fire extent may potentially depend on the existence of fuel humidity thresholds above which this relationship changes dramatically, challenging this statistical approach. Here we combine the continuous and the threshold approaches to analyze satellite-detected fires in Europe during 2001–2010 in relation to meteorological conditions, showing that fire size response to increasing dryness follows a ramp function, i.e. with two plateaus separated by a phase of monotonic increase. This study confirms that at a continental and a high-resolution temporal scales, large fires are very unlikely to occur under moist conditions, but it also reveals that fire size stops to be controlled by fuel humidity above a given threshold of dryness. Thus, fuel humidity control only applies when fire is not limited by other factors such as fuel load, as large fires are virtually absent in dry regions with less than 500 mm of average annual rainfall, i.e. where fuel amount is insufficient. In regions with sufficient fuel, other factors such as fire suppression or fuel discontinuity can impede large fires even under very dry weather conditions. These findings are relevant under current climatic trends in which the fire season length, in terms of number of days with DC (drought code) values above the observed thresholds (break points), is increasing in many parts of the Mediterranean, while it is decreasing in Eastern Europe and remains unchanged in Central Europe.

Published

2018

3. Two thresholds determine climatic control of forest fire size in Europe and northern Africa

Author

Francisco Lloret, Lasse Loepfe, and Anselm Rodrigo

Subjects

Mediterranean climate, Global and Planetary Change, Climatology, Fire protection, Extrapolation, medicine, Climate change, Environmental science, Dryness, Precipitation, medicine.symptom, Temporal scales, Ramp function

Abstract

Fire weather indices predict fire extent from meteorological conditions assuming a monotonic function; this approach is frequently used to predict future fire patterns under climate change scenarios using linear extrapolation. However, the relationship between weather and fire extent may potentially depend on the existence of fuel moisture content thresholds above which this relationship changes dramatically, challenging this statistical approach. Here, we combine the continuous and the threshold approaches to analyze satellite-detected fires in Europe during 2001–2010 in relation to meteorological conditions, showing that fire size response to decreasing fuel moisture content follows a ramp function, i.e., with two plateaus separated by a phase of monotonic increase. This study confirms that at continental and high-resolution temporal scales, large fires are very unlikely to occur under moist conditions, but it also reveals that fire size stops to be controlled by fuel moisture content above a given threshold of dryness. Thus, fuel moisture content control only applies when fire is not limited by other factors such as fuel load, as large fires were virtually absent during the considered period in dry regions with less than 500 mm of average annual precipitation, i.e., low-productive areas where fuel amount would be scarce and discontinuous. In regions with sufficient fuel, other factors such as fire suppression or fuel discontinuity can impede large fires even under very dry weather conditions. These findings are relevant under current climatic trends in which the fire season length, in terms of number of days with drought code values above the observed thresholds (break points), is increasing in many parts of the Mediterranean, while it is decreasing in eastern Europe and remains unchanged in central Europe.

Published

2014

4. Post-fire invasion and subsequent extinction ofConyzaspp. in Mediterranean forests is mostly explained by local factors

Author

Joan Pino, Javier Retana, Xavier Arnan, and Anselm Rodrigo

Subjects

Mediterranean climate, Plant ecology, Extinction, Fire regime, Ecology, Plant cover, Introduced species, Plant Science, Vegetation, Biology, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Woody plant

Abstract

Summary This work explored the invasion patterns of Conyza species in Mediterranean pine forests after fire and identified their main correlates through a temporal study approach. We hypothesised that wildfires might favour Conyza spp. invasion in these forests, but only transiently and depending on fire regime. We recorded Conyza spp. invasion and subsequent extinction in plots from species' occurrence and cover in vegetation surveys. We also explored the association of Conyza spp. presence and cover with a set of climatic, landscape and local (plot) factors using GLZ and GLM. We assessed changes in significant factors over time with a Wilcoxon test for paired samples. Evidence for Conyza spp. establishment was found in two-thirds of the study plots, with an invasion peak 2 years after fire. Local factors related to resource availability, including high fire severity, low soil stoniness and total vegetation cover and high herbaceous cover, were significantly correlated with Conyza occurrence in plots at the invasion peak. However, Conyza cover was always low (≤6%) and populations did not persist more than several years, thus becoming rarer as plant cover increased. Landscape and climatic factors showed no association with Conyza occurrence. In conclusion, wildfires favour transient invasion of European Mediterranean pine forests by Conyza spp. Invasion is mostly enhanced by local fire severity and constrained by subsequent vegetation recovery, while it is poorly explained by climate and landscape, either current or historical.

Published

2013

5. Selective thinning of Arbutus unedo coppices following fire: Effects on growth at the individual and plot level

Author

Lídia Quevedo, Xavier Arnan, and Anselm Rodrigo

Subjects

Mediterranean climate, biology, Thinning, Forestry, Understory, Management, Monitoring, Policy and Law, biology.organism_classification, Horticulture, Coppicing, Strawberry tree, Botany, Resprouter, Nature and Landscape Conservation, Arbutus unedo, Clearance

Abstract

In recent years, several Mediterranean forests subject to fire are becoming increasingly dominated by the resprouter species Arbutus unedo L. (strawberry tree). However, there is little information available about the management of these areas, and it is not clear if the approaches utilized for other, more abundant Mediterranean resprouter species such as Quercus ilex and Quercus cerrioides would produce similar results for A. unedo. In this study, performed in the NE Iberian Peninsula, we analyzed the effect of two post-fire treatment types, selective thinning and selective thinning plus understory clearing, on the growth of retained A. unedo resprouts and the new resprouting induced by the treatment itself. Treatment effects were analyzed at both the individual and plot level. Our results showed that, in the short term, retained resprouts on treated trees grew more in height and diameter (absolute and relative) than those on control trees, with no differences seen between treatment types. In the intermediate term, all the strawberry trees occurring on treated plots grew longer, and this growth was greater in plots that had been both thinned and cleared. New, induced resprouts were unaffected by the type of treatment applied. In contrast to other studies, we failed to find a negative relationship between the degree of induced resprouting and retained resprout growth We therefore conclude that, irrespective of understory clearing, the selective thinning of A. unedo improves coppice vertical structure. Retained resprouts grow more in diameter and will thus more rapidly become exploitable as firewood and timber. Also, the tree is kept free of dead fuel, reducing the risk of spreading fire.

Published

2013

6. Forest fire occurrence increases the distribution of a scarce forest type in the Mediterranean Basin

Author

Xavier Arnan, Lídia Quevedo, and Anselm Rodrigo

Subjects

Mediterranean climate, biology, business.industry, Ecology, Agroforestry, Distribution (economics), Forestry, Vegetation, biology.organism_classification, Mediterranean Basin, Vegetation type, Environmental science, Resprouter, Secondary forest, business, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Arbutus unedo

Abstract

Here we report how fire recurrence increases the distribution of a scarce forest type in NE Spain that is dominated by the resprouter tree species Arbutus unedo. We used a combination of GIS and field surveys to determine the effect of fire and pre-fire vegetation on the appearance of A. unedo forests. In the field, we also analyzed the factors that promote fire and lead to the appearance of A. unedo forests. Our results reveal an increased occurrence of A. unedo forests in NE Spain in recent years; this phenomenon was strongly related to fire recurrence and the vegetation type present prior to fire. Most Pinus halepensis forests that burned more than once gave rise to A. unedo forests. Our results indicate that these conversions were related to a reduction in pine density coupled with increases in the density and size of A. unedo trees due to recurrent fires. Given that fires are increasing in number and magnitude in the Mediterranean, we predict a major change in landscape structure and composition at the regional scale.

Published

2013

7. History matters: Previous land use changes determine post-fire vegetation recovery in forested Mediterranean landscapes

Author

Belén Sánchez-Humanes, Lluís Coll, Lluís Brotons, Anselm Rodrigo, Josep Maria Espelta, and Carolina Puerta-Piñero

Subjects

Mediterranean climate, Land use, Ecology, Agroforestry, Passive restoration, Forestry, Global change, Vegetation, Management, Monitoring, Policy and Law, Pinus, Quercus, Geography, Disturbance (ecology), Resprouter, Ecosystem, Terrestrial ecosystem, Mediterranean forest, Nature and Landscape Conservation

Abstract

Land use changes and shifts in disturbance regimes (e.g. wildfires) are recognized worldwide as two of the major drivers of the current global change in terrestrial ecosystems. We expect that, in areas with large-scale land use changes, legacies from previous land uses persist and affect current ecosystem responses to climate-associated disturbances like fire. This study analyses whether post-fire vegetation dynamics may differ according to specific historical land use histories in a Mediterranean forest landscape of about 60,000 ha that was burnt by extensive fires. For that, we assessed land use history of the whole area through the second half of the XXth century, and evaluated the post-fire regeneration success in terms of: (i) forest cover and (ii) tree species composition (biotic-dispersed, resprouter species, Quercus spp. vs. wind-dispersed species with or without fire-resistant seed bank, Pinus spp.). Results showed that stable forest areas exhibited a higher post-fire recovery than younger forests. Furthermore, the longer since crop abandonment translates into a faster post-fire recovery. Results highlight that to anticipate the impacts of disturbances on ecosystems, historical land trajectories should be taken into account. Collaborative work was facilitated by the Consolider-Ingenio Montes CSD2008-00040 project by Spanish Ministry of Science and Innovation. Postdoctoral and predoctoral fellowships to CPP (EX2009-0703) and BSH (FPU) were provides by Spanish Ministry of Education.

Published

2012

8. Changes of dominant ground beetles in black pine forests with fire severity and successional age

Author

Jordi Bosch, Javier Retana, Anselm Rodrigo, and Francesc Sardà-Palomera

Subjects

Mediterranean climate, Canopy, Ecology, Chronosequence, Dominance (ecology), Forest structure, Environmental science, Species richness, Fire ecology, 2013 Beaver Creek Fire, Ecology, Evolution, Behavior and Systematics

Abstract

This study analyzes the effect of fire on the composition and abundance of ground beetles in Pinus nigra forests. We used pitfall traps to sample beetles in burned P. nigra forests in Catalonia (Spain). Since fire dramatically alters forest structure and composition and beetles follow vegetation changes, we expected drastic changes in beetle composition and abundance immediately after fire. Because P. nigra forests do not recover after fire, we also expected beetles in burned and unburned areas to differ along a chronosequence. Beetle abundance per plot increased in canopy-fire–burned areas, but per plot species richness, diversity, and dominance were not affected by fire. Species composition varied depending on fire intensity. Some species were associated with canopy fire and low vegetation cover. Other species were associated with shrub cover and time since fire. Finally, some species were not dependent on fire or vegetation cover. Beetle abundance in burned areas was independent of time since ...

Published

2008

9. Uncoupling the effects of shade and food resources of vegetation on Mediterranean ants: an experimental approach at the community level

Author

Anselm Rodrigo, Javier Retana, and Xavier Arnan

Subjects

Mediterranean climate, biology, Ecology, digestive, oral, and skin physiology, fungi, Community structure, social sciences, Hymenoptera, Vegetation, biology.organism_classification, humanities, Abundance (ecology), Plant cover, Species richness, Shading, health care economics and organizations, Ecology, Evolution, Behavior and Systematics

Abstract

Vegetation is one of the main factors affecting the composition and structure of ant communities. The effect of vegetation is both by offering food resources and by modifying the proportion of ground cover exposed to shade conditions. However, it is difficult in field studies to uncouple the effects of food resources and shade on animal communities. The goal of this study was to analyze experimentally the effects of vegetation through food and shade supply on the structure and composition of a Mediterranean ant community. We have crossed these two factors in a factorial design where we have eliminated vegetation in experimental treatments and we have simulated the effects of vegetation by manipulating separately the supply of food resources and shade. The expected decrease in ant abundance and richness in plots without food resources but with shade was only partially confirmed by the results, because there was a decrease in the number of ant species but not a significant decrease in overall ant abundance in plots without food resources. We did not confirm the second hypothesis that the decrease in shade while maintaining food resources resulted in an increase of heat-tolerant, subordinate species and, consequently, ant richness. Species composition differed in the different experimental treatments. Stress-tolerant species were abundant in areas without shade and without food resources. Heat-tolerant species were mainly present in plots without shade but with food resources. Finally, species with high requirements of shade and/or food resources were associated to control plots with both shade and food resources from vegetation. Overall, this study provides an experiment that uncouples experimentally shade and food resources and dissects their effects on the whole ant community, and shows that the effects of the two factors are independent and affect different components of ant community structure and composition.

Published

2007

10. Post-fire recovery of Mediterranean ground ant communities follows vegetation and dryness gradients

Author

Xavier Arnan, Javier Retana, and Anselm Rodrigo

Subjects

Mediterranean climate, Ecology, Habitat, Biogeography, Vegetation type, Foraging, Environmental science, Species richness, Vegetation, Mediterranean Basin, Ecology, Evolution, Behavior and Systematics

Abstract

Aim In the Mediterranean Basin, the main forest communities vary in their ability to recover after fire. In this study we analyse the effects of fire on ant communities occurring in various vegetation types distributed along a geographical gradient in the western Mediterranean region. Location The study was carried out in burned and unburned habitats of 22 sites corresponding to eight vegetation types distributed along a gradient of dryness throughout Catalonia (north-east Spain). Methods We placed five pairs of plots (one plot located in the burned area and the second one placed in the unburned margin) per site. We compared ant communities in these unburned and burned plot types 8 years after fire using pitfall traps. Traps were set out in mid-May and mid-July. We analysed the structure and composition of ant communities in the burned and unburned areas of these vegetation types using anova tests, correspondence analysis (CA) and linear regression. Results The resilience of ant communities varies with vegetation type. Ant communities in forests with high resilience also recover rapidly after fire, while those in forests that do not recover after fire show the lowest resilience. Species richness does not depend on burning or vegetation type. The resilience of these Mediterranean ant communities to fire is related to the environmental characteristics of the region where they live. Accordingly, differences between burned and unburned habitats are smaller for ant communities in areas with higher water deficit in summer than for those in moister ones. Main conclusions The structure and composition of ant communities after fire depends on the level of direct mortality caused by the fire. It affects ant species differently, as determined by the habitats used for nesting and foraging. The reestablishment of vegetation cover depends on forest composition before the fire. As vegetation cover determines resource and microhabitat availability and competitive relationships among species, forest composition before the fire also affects post-fire recovery of ant communities to the medium-term. Finally, ant communities living in drier areas recover more quickly after fire than those living in moister ones. This pattern might be because in areas with higher water deficit there are more species characteristic of open environments, which are habitats similar to those generated after fire.

Published

2006

11. Heavy metal deposition and cycling at two Mediterranean holm oak (Quercus ilexL.) forests in northeastern Spain

Author

Marta Alarcón, Anna Avila, and Anselm Rodrigo

Subjects

Mediterranean climate, Pollution, media_common.quotation_subject, Trace element, General Physics and Astronomy, Mineralogy, Metal deposition, Deposition (aerosol physics), Environmental chemistry, Environmental science, Trace metal, Precipitation, Cycling, media_common

Abstract

Trace metal deposition in precipitation was not significantly different in two holm oak forests with contrasted exposure to pollution in the area around Barcelona (Northeastern Spain), but dry deposition was higher at the more exposed site. Rain events of European origin had higher concentrations of Cu, Pb, Zn and Cd than those from African, Atlantic Ocean and Local provenances. Estimated from the recovered quantities in artificial plates, dry deposition was, for Zn, Cu and Pb: 342, 25 and 20 g ha -1 yr -1 , respectively at the exposed site, and 254, 13 and 15 g ha -1 yr -1 at the sheltered one. Deposition in bulk precipitation was lower than dry deposition: 221, 6. 2 and 6.4 g ha -1 yr -1 for Zn, Cu and Pb, respectively (average of the two sties).

Published

2003

12. [Untitled]

Author

Anselm Rodrigo and Anna Avila

Subjects

Mediterranean climate, Hydrology, Tree canopy, Environmental Engineering, biology, Ecological Modeling, Throughfall, biology.organism_classification, Pollution, Mediterranean Basin, Fagaceae, chemistry.chemical_compound, chemistry, Environmental chemistry, Environmental Chemistry, Ammonium, Leaching (agriculture), Chemical composition, Water Science and Technology

Abstract

The fluxes recovered from washing branches and surrogatesurfaces were compared for two holm oak (Quercus ilex L.)forests in the Montseny mountains (NE Spain) differentiallyexposed to pollution. For 5 periods in May and June 1996 afterexposures ranging between 68–189 hr, 6 metacrylate plates and 8branches were extracted with distilled water. Also, a sequentialwashing of branches was undertaken, with 5 min separationsbetween the 3 initial washes, one hour between the 3rd and the4th, and 6 hr between the 4th and the last one. The compositionwas analysed for PO4 3-, SO4 2-,NO3 -, Cl, F, NH4 +,Ca2+, Mg2+, Na+, K+, Cu, Pb, Mn, Co, Ni and Zn. The applied techniques were consistent in that dry deposition would accountfor the throughfall fluxes of NO3 -, Cl-,Cu and Zn. Potassium and Mn would derive mostly from leaching and their fluxes were strongly related with the holm oak flower growth. ForMg2+ and SO4 2- either leaching or impaction of small particles or gases (for SO4 2-) could account forthe recovered fluxes. Also for Na+ and Ca2+ the experiments did not produce conclusive results. Ammonium, F, Pb,Co, and Na were under the detection limit of analyticaltechniques in the plate-wash. The exposed site presented higherleaf-wash and plate-wash fluxes for all elements. This wasattributed to its higher exposure to pollutants, and forleaching-derived elements, to its higher site fertility.

Published

2002

13. Post-fire selective thinning of Arbutus unedo L. coppices keeps animal diversity unchanged: the case of ants

Author

Lídia Quevedo, Olga Boet, Xavier Arnan, Anselm Rodrigo, Universitat Autònoma de Barcelona (UAB), and Natural History Museum of Barcelona

Subjects

Mediterranean climate, Ecosystem health, Ecology, Thinning, Agroforestry, Fauna, [SDV]Life Sciences [q-bio], Forest management, food and beverages, Forestry, 15. Life on land, Biology, biology.organism_classification, Strawberry tree, Bioindicator, Arbutus unedo

Abstract

International audience; & Context In the Mediterranean area, different post-fire man-agement strategies are used for coppices of resprouting spe-cies to promote a more regular forest structure, enhance plant growth, and reduce fire risk. However, the effects of these management treatments on forest-associated fauna are un-known, which in turn could be limiting their beneficial effects. & Aims The aim of this work was to determine whether forest management of a recently burned area dominated by a vigor-ous resprouting tree species (Arbutus unedo L.) affects ant communities. & Methods Ant communities, sampled using pitfall traps, were examined from unmanaged and selective thinning cop-pices of A. unedo. Ants are here used as bioindicators of ecosystem health and surrogates for other animal groups. & Results Very limited effects of these post-fire management strategies on the structure and composition of ant communities were found. The lack of effects could be due to the reported small changes in physical conditions among treatments; or either, the most sensitive ant species to these post-fire man-agement treatments might be the same ones affected by fire and, consequently, the ant species that would potentially be affected most were no longer in the study area. & Conclusion The lack of any significant effects caused by these post-fire management practices on the associated fauna of A. unedo coppices points out the suitability of these treat-ments in these circumstances.

Published

2014

14. Short-term ecological and behavioural responses of Mediterranean ant species Aphaenogaster gibbosa (Latr. 1798) to wildfire

Author

Alba Lázaro-González, Raphaël Boulay, Xim Cerdá, Xavier Arnan, Anselm Rodrigo, Univ Autonoma Barcelona, Cerdanyola del Valles, Univ Autonoma Barcelona, Universitat Autònoma de Barcelona (UAB), Institut de recherche sur la biologie de l'insecte UMR7261 (IRBI), Université de Tours-Centre National de la Recherche Scientifique (CNRS), Estación Biológica de Doñana (EBD), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), CREAF, and Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, Mediterranean climate, Aphaenogaster, Foraging, Biodiversity, 010603 evolutionary biology, 01 natural sciences, behavioral plasticity, remperature, foraging, Nest, colony spatial patterns, daily activity rhythms, Ecology, Evolution, Behavior and Systematics, Abiotic component, biology, Ecology, Ants, seasonality, temperature, Colony spatial patterns, 15. Life on land, biology.organism_classification, omnivory, 010601 ecology, [SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, Habitat, Insect Science, behavioural plasticity, Plant cover, diet, fire

Abstract

1. Fire greatly affects plant and animal biodiversity. There is an exten- sive bodyof literature onthe effects of fire oninsect communities, in which a large variability of responses has been observed. Very few studies, however, have addressed functional responses at the species level, information that wouldgreatly enhance our understanding of the impact of fire at higher organisational levels. 2. Theaim of this study is to analyse the short-termecological and behavioural responses of the Mediterranean ant Aphaenogaster gibbosa to fire-induced envi- ronmental changes. We compared aspects of the abiotic and biotic environment relevant to this species, as well as differences in colony foraging behaviour, on unburnt and burnt plots in a Mediterraneanarea that was affected by a wildfire. 3. Our results showed that fire modified plant cover around nests and daily cycles of soil temperature close to the nest. Although there were no significant differences in food quantity, food quality (particularly seed composition) was different between unburnt and burnt plots. 4. In accordance with these environmental changes, we found significant differences in the daily activity rhythms and diet composition of A. gibbosa between unburnt and burnt plots. Overall, these differences did not result in sig- nificant changes in overall foraging activity and efficiency, allowing ant colonies to maintain the same food intake regardless of the habitat they occupied. 5. Weconclude that A. gibbosa uses behavioural plasticity to modify its forag- ing strategy in recently burnt environments and thus survive post-fire conditions.

Published

2013

15. Response of ant functional composition to fire

Author

Xavier Arnan, Anselm Rodrigo, Xim Cerdá, and Javier Retana

Subjects

Mediterranean climate, Community level, Ecology, Rare species, Trait, Ecosystem, Biology, Relative species abundance, Ecology, Evolution, Behavior and Systematics, ANT, Ecosystem services

Abstract

Little is known about the impact of disturbances on functional diversity and the long-term provisioning of ecosystem services, especially in animals. In this work we analyze the effect of wildfire on the functional composition of Mediterranean ant communities. In particular, we asked whether a) fire changes functional composition (mean and dissimilarity of trait values) at the community level; and b) such fire-induced functional modification is driven by changes in the relative abundance-dominance of species or by a replacement of species with different traits. We sampled ant communities in burned and unburned plots along 22 sites in a western Mediterranean region, and we computed two complementary functional trait composition indices (‘trait average’ and ‘trait dissimilarity’) for 12 functional traits (related to resource exploitation, social structure and reproduction) and with two different datasets varying in the way species abundance is considered (i.e. abundance and occurrence data). Our results suggest a set of functional responses that seem to be related to direct mortality by fire as well as to indirect fire-induced modifications in environmental conditions relevant for ants. Trait average of colony size, worker size, worker polymorphism and the ratio between queen and worker size, as well as the trait dissimilarity of the proportion of behaviorally dominant species and of liquid food consumption, and overall functional diversity, were higher in burned than in unburned areas. Interestingly, different patterns arise when comparing results from abundance and occurrence data. While the response to fire in trait averages is quite similar, in the case of trait dissimilarity, the higher values in response to fire are much more marked when considering occurrence rather than abundance data. Our results suggest that changes in trait average are driven at the same time by replacement of species with different traits and by changes in the relative abundance-dominance of species, while fire promotes a higher diversity of functions that is primarily driven by rare species that are functionally unique. Overall, we observed major fire-induced changes in functional composition in Mediterranean ant communities that might have relevant consequences for ecosystem processes and services.

Published

2013

16. Post-Fire Management of Mediterranean Broadleaved Forests

Author

Anna Barbati, Consuelo Bonfil, Pablo Navascués, Guillermo Peguero, Josep Maria Espelta, Reyes Tárrega, Marcos Fernández-Martínez, Lídia Quevedo, and Anselm Rodrigo

Subjects

Mediterranean climate, Tree canopy, Geography, Fire regime, Thinning, Agroforestry, Forestry, Natural regeneration, Regeneration (ecology), Ecosystem services, Vegetation cover

Abstract

This chapter analyzes the post-fire regeneration of Mediterranean broadleaved forests, the factors that may constrain this process and the best alternatives to improve the structure and dynamics of these forests after fire. Most Mediterranean broadleaved species share in common their ability to resprout from a protected bud bank after disturbances such as fire. Yet, this ability may vary depending on the species considered, the intensity and recurrence of fire events, the quality of the site and some individual characteristics (e.g. plant size). Even though resprouting after fire assures a rapid recovery of the vegetation cover and other crucial processes and ecosystem services, these young and dense forests with multi-stemmed resprouted individuals may not fit the modern socioeconomic demands and may even become very sensitive to the spread of new fires. Therefore, a selective thinning of resprouts, retaining the larger and dominant ones, has been recommended. This management alternative has been shown to increase growth rates of retained resprouts, to raise the forest canopy and to encourage sexual reproduction. Nevertheless, attention must be paid to the new wave of resprouts that may appear after thinning. In this chapter we analyze the main constrains that affect the natural regeneration of Mediterranean broadleaved forests after fire and the best alternatives to manage natural regeneration arisen through resprouting in these areas.

Published

2011

17. Post-fire resprouting ability of 15 non-dominant shrub and tree species in Mediterranean areas of NE Spain

Author

Josep Maria Espelta, Lídia Quevedo, Anselm Rodrigo, and Revues Inra, Import

Subjects

0106 biological sciences, Mediterranean climate, Ecology, ved/biology, Prescribed burn, ved/biology.organism_classification_rank.species, Forestry, Plant community, 15. Life on land, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Mediterranean Basin, Shrub, [SDV.SA.SF]Life Sciences [q-bio]/Agricultural sciences/Silviculture, forestry, Abundance (ecology), Juniperus communis, Species richness, [SDV.SA.SF] Life Sciences [q-bio]/Agricultural sciences/Silviculture, forestry, ComputingMilieux_MISCELLANEOUS, 010606 plant biology & botany

Abstract

Post-fire resprouting ability of the non-dominant tree and shrub species of the Mediterranean Basin has not yet been experimentally tested, although this group contributes to maintain the richness of Mediterranean plant communities. In this study, we have analyzed the post-fire recovery ability of 15 woody species that occur in relatively low abundance in dry and sub humid Mediterranean areas in NE of Spain. The main goals have been: (i) to determine experimentally the post-fire resprouting ability of these species and (ii) to compare the abundance of these species in areas affected by wildland fires and in unburned areas. We have observed a high resprouting ability after prescribed burning of most species except for Juniperus communis and J. phoenicea which showed a null resprouting. As the species with high resprouting ability showed similar presence in burned and unburned areas, we can conclude that wildfires are not a factor that constrains the presence of these species in Mediterranean woodlands. However, we found a reduction in the abundance of J. communis and J. phoenicea at the regional level after wildland fires.

Published

2007

18. The chemistry of precipitation, throughfall and stemflow in two holm oak (Quercus ilex L.) forests under a contrasted pollution environment in NE Spain

Author

Ferran Rodà, Anselm Rodrigo, and Anna Avila

Subjects

Mediterranean climate, Pollution, Environmental Engineering, Stemflow, Nitrogen, media_common.quotation_subject, Rain, Context (language use), Trees, Quercus, Water Movements, Environmental Chemistry, Precipitation, Waste Management and Disposal, media_common, Hydrology, Air Pollutants, biology, biology.organism_classification, Throughfall, Fagaceae, Plant Leaves, Deposition (aerosol physics), Spain, Environmental Monitoring

Abstract

Atmospheric deposition was studied through measurements of bulk deposition, throughfall and stemflow at two sites of contrasted exposure to pollution in the Montseny mountains (Northeastern Spain). To explore the contribution of local or distant sources at both sites, concentration data and precipitation amounts (log transformed) for both bulk deposition and net throughfall were fitted by linear regression. These models indicated the more important contribution of washout scavenging processes and dry deposition at the pollution exposed site. This is relevant in the context of Mediterranean holm oak forests: up to now, most of the studies have been conducted in protected remote sites and were little representative of the fluxes in forests close to industrial activity, traffic, agriculture and residential areas.

Published

2003

19. Nitrogen deposition in Mediterranean forests

Author

Ferran Rodà, Anselm Rodrigo, and Anna Avila

Subjects

Mediterranean climate, Geologic Sediments, Nitrogen, Health, Toxicology and Mutagenesis, Biological Availability, Toxicology, Mediterranean Basin, Trees, chemistry.chemical_compound, Altitude, Nitrate, Ecosystem, Particle Size, Hydrology, Air Pollutants, Mediterranean Region, General Medicine, Evergreen, Throughfall, Pollution, Deposition (aerosol physics), chemistry, Environmental chemistry, Environmental science, Gases, Environmental Monitoring

Abstract

Atmospheric deposition of inorganic nitrogen was studied at two forested sites in the Montseny mountains (northeast Spain), peripheral to the Barcelona conurbation, and at a nearby lowland town, using bulk deposition, wet-only deposition, throughfall, and dry deposition inferred from branch-washes and surrogate surfaces (metacrylate plates). Bulk deposition inputs of ammonium and nitrate did not show significant temporal trends over a 16-year period. Bulk inputs of inorganic N were moderate, ranging from 6 to 10 kg N ha -1 year -1 depending on the time period considered and the degree of site exposure to polluted air masses from the Barcelona conurbation. Large dry-sedimented particles played a minor role, since wet-only inputs were virtually identical to bulk inputs. On the contrary, branch- and plate-washes indicated substantial dry inputs of N gases and small particles. Total atmospheric deposition was estimated at 15-22 kg N ha -1 year -1 , most of it being retained within the studied broadleaved evergreen forests. Ecosystem N availability is thus likely to be increasing in these forests.

Published

2002

20. Fire and species range in Mediterranean landscapes: an experimental comparison of seed and seedling performance among Centaurea taxa

Author

Miquel Riba, Bruno Colas, Anselm Rodrigo, Javier Retana, AgroParisTech, and Université Paris-Saclay

Subjects

0106 biological sciences, Mediterranean climate, Ecology, [SDV]Life Sciences [q-bio], Species distribution, Interspecific competition, 15. Life on land, Biology, biology.organism_classification, Soil type, 010603 evolutionary biology, 01 natural sciences, Mediterranean Basin, Agronomy, Germination, Seedling, Botany, Leaf size, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, 010606 plant biology & botany

Abstract

Aim Fire is a major disturbance event in Mediterranean landscapes. In this paper, we experimentally assess the effects of fire and post-fire conditions on seed germination and establishment of twenty Centaurea taxa to test whether differences among taxa are associated with range size. Methods The taxa (species and subspecies) considered were classified as rare and widespread according to their 'area of occupancy' in the Mediterranean coast of Spain and France. In a first experiment, we analyse the effects of heat-shock (particularly, room temperature, 70 and 110 °C) on percentage germination and speed of germination (T50). In a second experiment, we analyse the effects of post-fire conditions (shading and soil type: burned/unburned) on seed germination and establishment ability. Results Temperatures over 120 °C resulted in 100% mortality, while temperatures in the range of those expected to be found in the first centimetres down the soil profile during a wildfire (70-110 °C) had no effect on seed germination. Differences in germination percentage and T50 among taxa were not related to rarity. In the post-fire conditions experiment, decreased radiation (shading) increased percentage germination and T50 in most taxa, while burned soil decreased germination in some of them. The effects of post-fire conditions on seedling growth (number of leaves and leaf size) were also different among taxa, but such differences were not related to rarity. However, rarity was associated with low establishment ability, as rare taxa tended to show smaller seedling size and higher mortality rates under the whole range of conditions tested. Main conclusions The results obtained indicate that fire has a negative effect upon the survival of populations in all the taxa considered, and that rare-common differences in germination and seedling establishment are not directly related to disturbance by fire. As far as interspecific differences in range size are concerned, other factors, either alone or in combination with a low regeneration ability after fire, need to be explored further.

Published

2002

21. Post-dispersal seed predation in Pinus halepensis and consequences on seedling establishment after fire

Author

Maria José Broncano, Javier Retana, and Anselm Rodrigo

Subjects

Mediterranean climate, Ecology, biology, Boreal, Fire regime, Seedling, Seed predation, Biological dispersal, Forestry, Vegetation, biology.organism_classification, Predation

Abstract

In the present study, we analyse the spatiotemporal patterns of seed predation and the consequences of this predation in the establishment of new Pinus halepensis individuals. Rodents were the main predators of P. halepensis seeds in burned areas, while predation by ants was considerably lower. Concerning spatiotemporal patterns of seed predation, the results obtained indicate that, although there were some small differences among distances or among seasons, removal of P. halepensis seeds was consistently very high in all situations, whether close to or far from the unburned margins, in pine or mixed forests, in different sites and in all sampling periods throughout the year. We analysed the role of seed predation on the modulation of post-fire regeneration of P. halepensis. Just after fire, no differences in seedling density were found between plots with or without rodent exclusion, probably owing to the high density of seeds on the ground and the low density of rodents affected by fire. One year after fire, when rodent populations had recovered in burned areas and seeds were much less abundant, the combination of addition of seeds and rodent exclusion led to an increase in pine seedling establishment.

Published

2008

22. Are wildfires a disaster in the Mediterranean basin? - A review

Author

Juli G. Pausas, Ramon Vallejo, Anselm Rodrigo, and Joan Llovet

Subjects

Mediterranean climate, geography, geography.geographical_feature_category, Ecology, Fire regime, Boreal, Forestry, Woodland, Vegetation, Regeneration (ecology), Mediterranean Basin, Shrubland

Abstract

Evolutionary and paleoecological studies suggest that fires are natural in the Mediterranean basin. However, the important increase in the number of fires and area burned during the 20th century has created the perception that fires are disasters. In the present paper, we review to what extent fires are generating ecological disasters in the Mediterranean basin, in view of current fire regimes and the long-term human pressure on the landscapes. Specifically, we review studies on post-fire plant regeneration and soil losses. The review suggests that although many Mediterranean ecosystems are highly resilient to fire (shrublands and oak forest), some are fire-sensitive (e.g. pine woodlands). Observed erosion rates are, in some cases, relatively high, especially in high fire severity conditions. The sensitive ecosystems (in the sense of showing strong post-fire vegetation changes and soil losses) are mostly of human origin (e.g. extensive pine plantations in old fields). Thus, although many Mediterranean basin plants have traits to cope with fire, a large number of the ecosystems currently found in this region are strongly altered, and may suffer disasters. Post-fire disasters are not the rule, but they may be important under conditions of previous human disturbances.

Published

2008

23. Direct regeneration is not the only response of Mediterranean forests to large fires

Author

Anselm Rodrigo, F. Xavier Picó, and Javier Retana

Subjects

Mediterranean climate, biology, Forest dynamics, Ecology, Aquatic Ecology, Plant community, biology.organism_classification, Mediterranean Basin, Fagaceae, Species pool, Environmental science, Ecosystem, Tree species, Ecology, Evolution, Behavior and Systematics

Abstract

It is widely accepted that the postfire recovery in Mediterranean plant communities is carried out by direct regeneration, i.e., the fast recovery of a plant community with the same species pool that it had immediately prior to disturbance. However, there is evidence that not all plant species in the Mediterranean basin survive fire in all situations, suggesting that the direct regeneration process might not apply to all situations. We analyze whether the main combinations of forest tree species (up to 16) of the western Mediterranean basin exhibit a postfire direct regeneration process. Based on data from field surveys, we have developed a stochastic model to predict the medium-term forest dynamics. In general, Quercus species (resprouters) and the pines Pinus halepensis and P. pinaster (seeders that produce abundant seedlings) showed direct regeneration patterns. In contrast, forests of P. nigra, P. sylvestris, and P. pinea (seeders that produce few seedlings) changed to other situations after fire. Thi...