Your search keyword '"mediterranean forests"' showing total 605 results

1. Coppice management affects leaf traits in understory species of Mediterranean oak forests

Author

Santi, Ilaria, Cabrucci, Marco, Carrari, Elisa, Gasperini, Cristina, De Frenne, Pieter, and Selvi, Federico

Published

2025

2. The first report of Quercus brantii dieback caused by Lelliottia nimipressuralis in Zagros forests, Iran.

Author

Zolfaghari, Roghayeh, Fayyaz, Payam, Dalvand, Forough, and Rezaei, Rasool

Subjects

DNA sequencing, ENTEROBACTER cloacae, GRAM-negative bacteria, DIEBACK, SEQUENCE analysis

Abstract

In recent years, the decline of Brant's oak, the main and most important tree of Zagros, is widespread. Considering the importance of oak trees, this study aims to identify the causal agent of the oak decline. Eight bacterial strains were isolated from infected tissues of oak trees, and these eight isolates have been identified by phenotypic characteristics. Three of eight isolates induced typical hypersensitive reactions on tobacco leaves, suggesting that they were pathogenic. Also, they were characterized as circular, gram-negative, facultatively anaerobic, oxidase negative, and catalase positive. The phenotypic and biochemical tests suggested that they belonged to the genus Entrobacter spp. One isolate (isolate Q1) exhibited amplification by PCR and was selected for the 16S rRNA gene sequence. The sequencing and phylogenetic analysis of this isolate showed ≥ 93% similarity to the Enterobacter cloacae complex. While a combination of biochemical and physiological characteristics in combination with DNA sequence analysis revealed that the isolate Q1 is Lelliottia nimipressuralis. Pathogenicity test and Koch's postulates on the healthy seedlings and observing the symptoms confirmed that the isolate Q1 was the causal agent of the wetwood disease on Quercus brantii. This is the first report of oak dieback caused by Lelliottia nimipressuralis in Iran. [ABSTRACT FROM AUTHOR]

Published

2024

3. Natural forest colonisation as a management strategy to restore soil functioning of abandoned agricultural lands.

Author

Acuña‐Míguez, B., Rincón, A., Valladares, F., Cordero, I., and Bravo‐Oviedo, A.

Subjects

*COLONIZATION (Ecology), *FOREST ecology, *APPLIED ecology, *FARMS, *FORESTS & forestry, *NUTRIENT cycles

Abstract

Land abandonment promotes forest expansion into abandoned agricultural lands in Europe. This process leads to changes that affect several ecosystem services, but it is considered a low‐cost strategy to restore soil functions in past agricultural lands. Soil microbial communities play a key role in restoring functions. However, the relationship among forest expansion, microbial communities, and soil functioning is unclear.In this study, we used a Juniperus thurifera expansion gradient on abandoned agricultural lands in Alto Tajo National Park (Spain) to discover the changes elicited by the soil microbial communities and their functions along this gradient considering two microhabitats, under the canopy and open areas. Specifically, our objectives were (i) to analyse how soil properties (organic matter and pH), microbial communities (using PLFAs‐NFLAs) and enzymatic activities (related to C, N and P cycling) varied along the forest expansion gradient and between microhabitats and (ii) to decipher the pathways by which soil properties control the carbon and nutrient cycling in soils.The forest expansion gradient had a direct negative effect on phosphatase activity. The microhabitat showed a positive direct effect on organic matter content, pH, actinomycetes and arbuscular mycorrhizal fungi biomass and on soil C and P cycling. Moreover, the biomass of gram‐positive bacteria determined the biomass of other microbial groups.Synthesis and Applications: Though its effectiveness is variable, passive restoration can be more effective than active restoration. Our research indicates that passive tree colonisation of past agricultural land is enough to achieve soil functionality similar to a mature forest for most variables studied. However, some variables would need more time to reach mature forest levels, such as total microbial biomass and organic matter content. Therefore, to support ecosystem recovery, the management of this applied forest ecology strategy requires continuous monitoring of newly established trees and soil to elucidate the time needed to achieve mature soil properties. [ABSTRACT FROM AUTHOR]

Published

2024

4. Soil infiltration rates in mediterranean mountain areas: relationship with soil properties and different land-use

Author

Mongil-Manso, Jorge, Jiménez-Ballesta, Raimundo, Navarro-Hevia, Joaquín, and San Martín, Roberto

Published

2025

5. Trade-offs and management strategies for ecosystem services in mixed Scots pine and Maritime pine forests

Author

Vázquez-Veloso, A., Ruano, I., and Bravo, F.

Published

2024

6. Insights on the fungal communities associated with needle reddening of the endangered Abies nebrodensis.

Author

Frascella, Arcangela, Barberini, Sara, Della Rocca, Gianni, Emiliani, Giovanni, Di Lonardo, Vincenzo, Secci, Stefano, and Danti, Roberto

Subjects

SILVER fir, ENDOPHYTIC fungi, POTTED plants, ENDEMIC species, ENDOPHYTES, FIR, FUNGAL communities

Abstract

Abies nebrodensis is a species of fir endemic to Sicily, represented by only 30 trees in the natural population and is currently classified as critically endangered by IUCN. In such context, monitoring its health status is essential for the proper management and preservation of this species. Phytosanitary surveys of trees of the natural population of A. nebrodensis and on potted plants raised in the local forest nursery were carried out, and the phyllosphere fungal community was investigated. The health condition of trees in the natural population were fairly good, with needle reddening and blight as the most frequently observed symptoms on the foliage, while in the nursery similar disorders were registered on about the 1.3% of potted plants. Results on fungal isolations highlighted the presence of species belonging to Valsa, Cytospora (which includes anamorphs of Valsa) and Rhizosphaera genera as the most represented on both reddened and green needles; these results suggest that these fungi likely live as endophytes, resuming their growth when needles are affected by environmental stressors such as wind, hail, mechanical wounds and do not represent a biotic constraint for A. nebrodensis. The disorders observed appear mostly as a consequence of the harsh site in which the relic species lives. Together with the fungal community observed on symptomatic and healthy needles, they indicate that A. nebrodensis adapted and tolerates its altered habitat. [ABSTRACT FROM AUTHOR]

Published

2024

7. Animal‐mediated seed dispersal and the demo‐genetic configuration across plant colonization gradients.

Author

Isla, Jorge, Jácome‐Flores, Miguel, Rigueiro, Cristina, Arroyo, Juan Miguel, Jordano, Pedro, and García, Cristina

Subjects

*SEED dispersal by animals, *PLANT colonization, *SECONDARY forests, *ANIMAL-plant relationships, *FRAGMENTED landscapes, *SEED yield, *BACTERIAL colonies

Abstract

Ecologists have long recognized that seed dispersal mutualisms trigger natural regeneration and range expansion of animal‐dispersed trees. Yet we lack empirical studies addressing whether frugivore activity influences founder effects, which reduce genetic diversity at the colonization front of expanding populations.Here, we evaluate the contribution, from both demographic and genetic perspectives, of animal frugivores dispersing seeds across an expansion gradient. We used DNA barcoding for frugivores identification and highly polymorphic genetic markers (SSRs) for maternal analysis of juniper seeds to investigate how (1) stand maturity, (2) microhabitat types and (3) foraging patterns shape the distribution of the maternal progenies along this gradient.We expect both reduced seed rain density and low numbers of source trees contributing to the seed rain at the colonization front, with limited availability of local fruiting trees. We also anticipated that large‐sized frugivore species would promote maternally rich seed rain due to their ability to mix seed progenies during digestive processing and move further distances across the landscape.Contrary to our expectations, we found that all identified frugivores produced dense and genetically diverse seed rains across the expansion gradient, even at the colonization front, characterized by scarce fruiting trees.Synthesis: Our findings shed light on the fundamental and applied implications of plant–frugivore interactions in shaping highly diverse second‐growth forests. These results emphasize the necessity of preserving plant–animal mutualistic interactions to ensure the persistence and expansion of natural tree populations, particularly in formerly fragmented landscapes [ABSTRACT FROM AUTHOR]

Published

2024

8. Under Stress: Searching for Genes Involved in the Response of Abies pinsapo Boiss to Climate Change.

Author

Blanca-Reyes, Irene, Lechuga, Víctor, Llebrés, María Teresa, Carreira, José A., Ávila, Concepción, Cánovas, Francisco M., and Castro-Rodríguez, Vanessa

Subjects

*CLIMATE change, *HEAT shock proteins, *FIR, *GENE families, *DROUGHTS, *GENE expression, *ECOLOGICAL disturbances

Abstract

Currently, Mediterranean forests are experiencing the deleterious effects of global warming, which mainly include increased temperatures and decreased precipitation in the region. Relict Abies pinsapo fir forests, endemic in the southern Iberian Peninsula, are especially sensitive to these recent environmental disturbances, and identifying the genes involved in the response of this endangered tree species to climate-driven stresses is of paramount importance for mitigating their effects. Genomic resources for A. pinsapo allow for the analysis of candidate genes reacting to warming and aridity in their natural habitats. Several members of the complex gene families encoding late embryogenesis abundant proteins (LEAs) and heat shock proteins (HSPs) have been found to exhibit differential expression patterns between wet and dry seasons when samples from distinct geographical locations and dissimilar exposures to the effects of climate change were analyzed. The observed changes were more perceptible in the roots of trees, particularly in declining forests distributed at lower altitudes in the more vulnerable mountains. These findings align with previous studies and lay the groundwork for further research on the molecular level. Molecular and genomic approaches offer valuable insights for mitigating climate stress and safeguarding this endangered conifer. [ABSTRACT FROM AUTHOR]

Published

2024

9. Leaf morpho-anatomical adjustments in a Quercus pubescens forest after 10 years of partial rain exclusion in the field.

Author

Laoué, Justine, Gea-Izquierdo, Guillermo, Dupouyet, Sylvie, Conde, María, Fernandez, Catherine, and Ormeño, Elena

Subjects

*LEAF area, *OAK, *WATER efficiency, *DROUGHTS, *HAWTHORNS, *SUMMER, *TRICHOMES, *RAINFALL

Abstract

In the Mediterranean region, a reduction of annual precipitation and a longer and drier summer season are expected with climate change by the end of the century, eventually endangering forest survival. To cope with such rapid changes, trees may modulate their morpho-anatomical and physiological traits. In the present study, we focused on the variation in leaf gas exchange and different leaf morpho-anatomical functional traits of Quercus pubescens Willd. in summer using a long-term drought experiment in natura consisting of a dynamic rainfall exclusion system where trees have been submitted to amplified drought (AD) (~−30% of annual precipitation) since April 2012 and compared them with trees under natural drought (ND) in a Mediterranean forest. During the study, we analyzed net CO2 assimilation (An), stomatal conductance (gs), transpiration (E), water-use efficiency (WUE), stomatal size and density, density of glandular trichomes and non-glandular trichomes, thickness of the different leaf tissues, specific leaf area and leaf surface. Under AD, tree functioning was slightly impacted, since only An exhibited a 49% drop, while gs , E and WUE remained stable. The decrease in An under AD was regulated by concomitant lower stomatal density and reduced leaf thickness. Trees under AD also featured leaves with a higher non-glandular trichome density and a lower glandular trichome density compared with ND, which simultaneously limits transpiration and production costs. This study points out that Q. pubescens exhibits adjustments of leaf morpho-anatomical traits which can help trees to acclimate to AD scenarios as those expected in the future in the Mediterranean region. [ABSTRACT FROM AUTHOR]

Published

2024

10. Latewood intra-annual density fluctuations indicate wet summer conditions and enhanced canopy activity in a Mediterranean ring-porous oak.

Author

Camarero, J. Julio, Serra-Maluquer, Xavier, Colangelo, Michele, Gazol, Antonio, and Pizarro, Manuel

Subjects

*WOOD, *OAK, *NORMALIZED difference vegetation index, *SUMMER, *TREE-rings, *HARDWOODS

Abstract

Summary: The climatic significance and ecosystem implications of latewood intra-annual density fluctuations (IADFs) are still not fully understood in Mediterranean ring-porous oak species. To solve this issue, we investigated: (i) the climate drivers of radial growth and latewood IADFs in the Mediterranean oak Quercus faginea , and (ii) whether they were correlated to increased canopy cover and greenness as recorded by the Normalized Difference Vegetation Index (NDVI). IADFs were formed in the mid to late latewood and they were characterized by rows of parenchyma cells. Such IADFs were uncommon and only present in 30–50% of sampled trees during 1999 and 2014, both years characterized by high precipitation in late July and early August. This relationship between IADFs formation and summer wet conditions differed from the conditions that enhance Q. faginea annual growth, wet winter-spring conditions, and low summer temperatures. Furthermore, IADFs formation showed a positive relationship with August NDVI values, indicating a correspondence of canopy greenness with secondary growth reactivation. We conclude that latewood IADFs in Q. faginea are a robust proxy of rare late-summer wet conditions and enhanced canopy activity as reflected by increased August NDVI values. Further monitoring of xylogenesis in other Mediterranean hardwoods along climatic gradients is suggested to mechanistically explain IADF production in seasonally dry biomes. [ABSTRACT FROM AUTHOR]

Published

2024

11. Autumn cold acclimation and freezing tolerance of three oak species in semi-Mediterranean Zagros forests

Author

Somayeh Homayounfar, Roghayeh Zolfaghari, Jeannine Cavender-Bares, and Payam Fayyaz

Subjects

cold hardening, early season frosts, interspecific variations, Mediterranean forests, physiological responses, Forestry, SD1-669.5

Abstract

Aim of study: To identify and compare the early frost resistance mechanisms in three oak species (Quercus brantii, Quercus libani and Quercus infectoria). Area of study: Zagros forests of Iran. Material and methods: The physiological and biochemical variables such as chlorophyll fluorescence, relative water content (RWC), electrolyte leakage, and osmotic metabolite content, such as proline, glucose, and potassium of three oak species seedlings with varying altitudinal and latitudinal ranges were measured under various treatments, including cold treatments (4°C: control, -20°C (1 hour) and -20°C (2 hours)) and four levels of hardening steps with decreasing temperature and photoperiod. Main results: Results showed that decreasing photoperiod and temperature during cold hardening was associated with decreasing Fv/Fm, ΦPSII and electron transport rate, increasing (NPQ) measured from chlorophyll fluorescence, as well as increasing osmotic metabolite content and decline of RWC, except the glucose content decreased in Q. brantii from lower altitudes and south aspect. On the other hand, Q. libanii, which originates from higher altitudes and north aspect showed the strongest cold-resistance and faster developing cold-acclimation capacity using earlier accumulation of osmotic metabolites, diminishing RWC and subsequently lowest EL compared to the other oak species. Research highlights: The physiological and biochemical responses of oak species differed based on origin and there was a positive relation between osmotic metabolite content, NPQ, altitude, and cold stress resistance. These physiological responses, especially NPQ (as a fast and non-invasive tool) provide a quantitative assessment of the risks associated with autumn freezing in different oak species and ecotypes relevant to conservation and reforestation projects of the Zagros forests under changing climatic conditions.

Published

2024

12. Long-term effect of different forest thinning intensity on carbon sequestration rates and potential uses in climate change mitigation actions.

Author

Ganatsas, Petros, Tsakaldimi, Marianthi, Karydopoulos, Theodoros, Papaemannuil, Alexandros, and Papadopoulos, Sotirios

Abstract

Recent model projections and many research results along the world suggest that forests could be significant carbon sinks or sources in the future, contributing in such a way to global warming mitigation. Conversion of coppice forest to high forest may play an important role towards this direction. However, the most effective way for this to succeed is questionable. This study examines the long-term effect of different intensity thinning (light 10% of the volume removal every 5–10 years, moderate 15%, and heavy 20%) on biomass, and on all the carbon pool categories (according to IPCC), as well as the accumulation rates, in a 77-year-old oak ecosystem, which has been subjected to conversion from coppice to high forest through repeating thinning since 1973. The research included numerous field tree measurements, and a systematic sampling of standing and fallen dead wood, litter, and surface soil up to 50 cm depth. Data analysis shows that heavy and moderate thinning result in a greater accumulation of carbon in the aboveground ecosystem pools, especially in living biomass, with an average annual rate of 1.62 Mg C ha−1 carbon accumulation in living aboveground tree biomass, resulting in a carbon pool of 125.04Mg C ha−1 at the age of 77 years. Dead wood volume was found low in all thinning treatment with significant differences between the thinning intensities. Litter carbon pool was also affected by moderate and heavy thinning, while soil carbon was unaffected by the treatments. The findings could contribute on climate change mitigation actions if they are adopted in forest management plans of similar types of forest ecosystems; a periodical thinning application of removal ca. 20% of wood volume is suggested. [ABSTRACT FROM AUTHOR]

Published

2024

13. Relationships between amount and configuration indicators in real-world landscapes: Novel references for the assessment of forest cover in the Iberian Peninsula

Author

Sergio González-Ávila, Belén Martín, Emilio Ortega, and João C. Azevedo

Subjects

Forest pattern, Forest fragmentation, FAD, Landscape metric surface, Geographic information systems, Mediterranean forests, Ecology, QH540-549.5

Abstract

Understanding the role of habitat loss and fragmentation per se is crucial to generate relevant knowledge for habitat management. In the case of forest species, this can be achieved by measuring forest amount and configuration metrics at the landscape scale, including their relationship. We aimed to characterize the relationship between forest amount and configuration metrics in real-world landscapes of an extensive area, identifying forest amount thresholds that discriminate among forest fragmentation levels. We also investigated whether ecological and political contexts could affect the strength of the relationship. We comprehensively analyzed forest cover in the Iberian Peninsula (20.56 million ha, year 2,018). We calculated Forest Area Density (FAD) and three configuration metrics by employing a moving-window procedure. From metrics’ surfaces we derived bivariate probability-density scatterplots, a synoptic Fragmentation Level indicator (FL) and subsequent classification and correlation analyses. For Number of Patches and Edge Density (ED) maximum values and variability appeared at FAD 20% and 50%, respectively. The extreme FAD thresholds relative to FL were 89% and 55%, potentially representing fragmentation and extinction thresholds for a generic forest species. Major differences between Portugal and Spain were found in ED in the Mediterranean Ecoregions, being wildfire regimes and ownership patterns plausible explanations. We provide insights into the patterns of forest cover and metrics’ references valuable to identify areas of concern for management and conservation in the region, as well as a foundation for further research on the ecological responses to forest fragmentation.

Published

2024

14. A crop for a forest: Opuntia ficus-indica as a tool for the restoration of Mediterranean forests in areas at desertification risk

Author

Rafael Silveira Bueno, Emilio Badalamenti, Giovanna Sala, and Tommaso La Mantia

Subjects

desertification, ecological restoration, Mediterranean forests, oak, plant–plant facilitation, recruitment limitation, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

IntroductionThe Mediterranean is the European region with the lowest woody cover and the highest level of habitat degradation, being highly susceptible to climate change effects and desertification risk. In such worrying conditions, increasing woody cover and restoring forests is a major goal established in several international commitments. However, recruitment limitation of woody species is rather frequent both within natural regeneration processes and active restoration programs, particularly due to drought, overgrazing, and a lack of post-planting tending operations. Therefore, finding suitable tools to improve the recruitment success of native woody species is of crucial importance.MethodsWe assessed woody natural regeneration under abandoned prickly pear orchards, olive trees, and nearby open areas in three sites under high desertification risk in central Sicily (Italy). Then, we tested for differences in density, richness, diversity, height, and basal diameter of the woody recruiting species between these three habitats.Results and discussionNatural regeneration was widespread under prickly pear, with 94.6% of the sampled plots showing at least one recruit, in comparison to 61.6% of plots under olive and 22.3% in open areas. Natural regeneration density under prickly pears (114 ± 99 individuals m−2) was significantly higher (p

Published

2024

15. Discrimination of Leaves in a Multi-Layered Mediterranean Forest through Machine Learning Algorithms.

Author

Alvites, Cesar, Maesano, Mauro, Molina-Valero, Juan Alberto, Lasserre, Bruno, Marchetti, Marco, and Santopuoli, Giovanni

Subjects

*MACHINE learning, *EUROPEAN beech, *LIME (Fruit), *DEEP learning, *RANDOM forest algorithms

Abstract

Terrestrial laser scanning (TLS) technology characterizes standing trees with millimetric precision. An important step to accurately quantify tree volume and above-ground biomass using TLS point clouds is the discrimination between timber and leaf components. This study evaluates the performance of machine learning (ML)-derived models aimed at discriminating timber and leaf TLS point clouds, focusing on eight Mediterranean tree species datasets. The results show the best accuracies for random forests, gradient boosting machine, stacked ensemble model, and deep learning models with an average F1 score equal to 0.92. The top-performing ML-derived models showed well-balanced average precision and recall rates, ranging from 0.86 to 0.91 and 0.92 to 0.96 for precision and recall, respectively. Our findings show that Italian maple, European beech, hazel, and small-leaf lime tree species have more accurate F1 scores, with the best average F1 score of 0.96. The factors influencing the timber–leaf discrimination include phenotypic factors, such as bark surface (i.e., roughness and smoothness), technical issues (i.e., noise points and misclassification of points), and secondary factors (i.e., bark defects, lianas, and microhabitats). The top-performing ML-derived models report a time computation ranging from 8 to 37 s for processing 2 million points. Future studies are encouraged to calibrate, configure, and validate the potential of top-performing ML-derived models on other tree species and at the plot level. [ABSTRACT FROM AUTHOR]

Published

2023

16. UNDERSTANDING WILDFIRES AND RISK IN ALBANIA: ANALYSIS OF FIVE YEARS' OBSERVATIONAL EXPERIENCE ON THE RISK AND ITS SPATIAL DISTRIBUTION.

Author

Jaupaj, Orjeta, Zaimi, Klodian, Doko, Alban, and Abazi, Elona

Subjects

WILDFIRE risk, RISK assessment, SUMMER, FIREFIGHTING, WILDFIRE prevention, NATURAL disasters, EARTH sciences

Abstract

Wildfire Risk Forecast (WRF) remains a regular procedure conducted by the National Centre for Forecast and Monitoring of Natural Hazards (NCFMNH), which is part of the Institute of GeoSciences of Albania (IGEO). WRF is generated daily by the country's administrative unit (prefecture) and disseminated to the National Civil Protection Agency (NCPA) in order to help the fire-fighting activities better coordinate in case of Fires caused or promoted by natural factors. The main purpose of this scientific work was to conduct a survey on forecast alerts and fire events during summer seasons in a period of 5 years (2017-2021). Analyses on Forecast Alert (FA), Prefecture Hit Probability (PHP) and Average Fires per Hit (AFH) were conducted on Risk-Level-bases in order to have a complete view of the topic of the study. Besides, the study put the findings on a Hazard Index Map (HIM) where Fire Risk on Prefecture basis was revealed. The calculations were made using the results of FA, PHP and AFH components in the High-Risk Level (FAHigh, PHPHigh, AFHHigh) comprising wildfire Hazard Exposure Index (HI) for the first component and wildfire Vulnerability Index (VI) for the second and third component (VI-SA and VI-SB). The methodological approach was inspired by the one used to evaluate the risk in WorldRiskReport (WRR), but due to several restrictions in this study, components for the evaluation of risk were used. The final Hazard Index Map reveals the highest risk localised in Fier Prefecture, followed by Elbasan, Vlore and Diber Prefectures. [ABSTRACT FROM AUTHOR]

Published

2023

17. Enhanced interannual drought resilience in mixed stands: unveiling possible complementarity effects between tree species of the Spanish Northern Plateau

Author

Jankowski, Przemysław A., Calama, Rafael, Madrigal, Guillermo, and Pardos, Marta

Published

2024

18. Climate Characteristics of the Illyrian Phytogeographic Area

Author

Sead Vojniković, Besim Balić, Ćemal Višnjić, and Mathias Neumann

Subjects

Dinaric alps, Mediterranean forests, site conditions, climatology, meteorological measurements, Illyrian phytogeographic area, Forestry, SD1-669.5

Abstract

The first ecological research in the Illyrian phytogeographic area, located on the Balkan peninsula in south-eastern Europe, dates back to the early 20th century. Traditionally, the Illyrian phytogeographic area includes Bosnia and Herzegovina, Montenegro, Croatia and parts of Slovenia. Due to climate change, more available data and new measurement techniques, the Illyrian phytogeographic area may have shifted northwards to the southern Alps and parts of Austria. In this study we have analysed climate as an important ecological variable for delineating the Illyrian phytogeographic area using precipitation and air temperature from 75 climatological stations in Bosnia and Herzegovina, Croatia, Slovenia and Austria (Carinthia). Our statistical analysis suggests, that there are significant differences in the analysed climate parameters across the countries, suggesting that sub-sections may already exist within the extent of the Illyrian phytogeographic area.

Published

2023

19. A Statistical Approach to Macrofungal Diversity in a Mediterranean Ecosystem of the Iberian Peninsula Dominated by the Holm Oak (Quercus ilex L. subsp. ballota (Desf.) Samp.).

Author

Fernández-Ruiz, Abel, Vicente-Villardón, José Luis, Sánchez-Sánchez, José, García-Jiménez, Prudencio, Sánchez-Durán, Sergio, and Rodríguez-de la Cruz, David

Subjects

HOLM oak, FRUITING bodies (Fungi), NUMBERS of species, PENINSULAS, PLANT communities

Abstract

The fungal biodiversity associated with a stable plant community appears to vary from year to year. To analyse the annual behaviour in the formation of fruiting bodies, a statistical study of the data obtained for 4 years (2009–2012) in an apparently undisturbed Mediterranean ecosystem dominated by the holm oak (Quercus ilex L. subsp. ballota (Desf.) Samp.), located in the Midwest of the Iberian Peninsula, was carried out. These data were related to the main meteorological variables. The 150 species collected showed a significant annual, monthly, and weekly difference in their fruiting during the collection period. All this implies a variation in the annual fungal fruiting which can modify the moment of when maximum peaks of fruiting appear, their duration, and the number of species that compose them. In addition, the results make it possible to establish an annual behaviour pattern, with sporocarp formation throughout the year and four fruiting groups (two of them in the dry season). They also allow for inferring a possible response to climate change, with a delay in the fruiting of the autumn-winter group and earlier fruit bearing in the winter-spring group. [ABSTRACT FROM AUTHOR]

Published

2023

20. Forest management scenarios drive future dynamics of Mediterranean planted pine forests under climate change.

Author

Suárez-Muñoz, M., Bonet-García, F. J., Navarro-Cerrillo, R., Herrero, J., and Mina, M.

Subjects

FOREST management, FOREST microclimatology, CLIMATE change, PLANT phenology, FOREST productivity, PINE, MIXED forests, SUMMER

Abstract

Context: Planted pine forests are highly abundant communities in the Mediterranean Basin. Being the result of past reforestation, these forests show high species and structural homogeneity. Diversification to conifer-broadleaved mixed forests is recommended to promote adaptation to climate change and increase their resilience to perturbations. Objectives: This study aims at evaluating how these planted pine forests will develop in the future as a result of the combined impacts of management and climate. Methods: We applied a forest landscape model (LANDIS-II) to simulate different climate scenarios and management strategies designed in cooperation with forest managers to assess their effects on the performance of planted pine forests and their change in terms of forest composition. Results: Climate change scenarios caused a shift in the phenological growth pattern of planted pine forests by reducing forest growth during summer and increasing photosynthetic productivity in spring and fall, particularly under high emission scenarios. Biomass increased through time and more strongly under climate change, but this increase differs among species, resulting in changes of forest types across the landscape. Our results portray natural succession as the main driver of forest change, but intensive management accelerated this process by limiting pine growth and promoting growth of oak species. Conclusions: Our results highlight the importance of active management on planted pine forests to favour mixed and climate-adapted ecosystems in shorter time scales than offered by succession alone. Moreover, our spatially explicit modelling approach helps to identify areas where lack of seed dispersal and/or competitive exclusion prevent natural diversification, providing useful recommendations for interventions. However, the modelling approach has some limitations since it does not consider natural disturbances. [ABSTRACT FROM AUTHOR]

Published

2023

21. Analyzing Independent LFMC Empirical Models in the Mid-Mediterranean Region of Spain Attending to Vegetation Types and Bioclimatic Zones.

Author

Arcos, María Alicia, Edo-Botella, Roberto, Balaguer-Beser, Ángel, and Ruiz, Luis Ángel

Subjects

VALUES (Ethics), SPATIAL resolution, SPATIAL variation, MOISTURE

Abstract

This paper presents empirical models developed through stepwise multiple linear regression to estimate the live fuel moisture content (LFMC) in a Mediterranean area. The models are based on LFMC data measured in 50 field plots, considering four groups with similar bioclimatic characteristics and vegetation types (trees and shrubs). We also applied a species-specific LFMC model for Rosmarinus officinalis in plots with this dominant species. Spectral indices extracted from Sentinel-2 images and their averages over the study time period in each plot with a spatial resolution of 10 m were used as predictors, together with interpolated meteorological, topographic, and seasonal variables. The models achieved adjusted R2 values ranging between 52.1% and 74.4%. Spatial and temporal variations of LFMC in shrub areas were represented on a map. The results highlight the feasibility of developing satellite-derived LFMC operational empirical models in areas with various vegetation types and taking into account bioclimatic zones. The adjustment of data through GAM (generalized additive models) is also addressed in this study. The different error metrics obtained reflect that these models provided a better fit (most adjusted R2 values ranged between 65% and 74.1%) than the linear models, due to GAMs being more versatile and suitable for addressing complex problems such as LFMC behavior. [ABSTRACT FROM AUTHOR]

Published

2023

22. Biotic filters driving the differentiation of decomposer, epiphytic and pathogenic phyllosphere fungi across plant species.

Author

Pajares‐Murgó, Mariona, Garrido, José L., Perea, Antonio J., López‐García, Álvaro, and Alcántara, Julio M.

Subjects

*FUNGAL communities, *PLANT-fungus relationships, *PATHOGENIC fungi, *PLANT species, *PHYTOPATHOGENIC fungi, *COLONIZATION (Ecology), *SPHERES

Abstract

The phyllosphere is a wide and complex ecosystem that provides a key support for microbial diversity. Fungal communities inhabiting the leaf are functionally variable and play important roles on plant performance. Factors conditioning the arrival and colonization of fungal communities will determine the phyllosphere fungal composition. Plant identity, leaf functional traits and host plant phylogeny have been shown to be regulators of the microbial colonization of the leaves, and can be considered as biotic filters determining the assembly of phyllosphere fungal communities. By high‐throughput sequencing we analysed the phyllosphere fungal communities from 38 Mediterranean woody plant species in two forests of south‐eastern Iberian Peninsula. We analysed the effect of plant species and site on fungal community composition. We also tested the effect of leaf functional traits and plant phylogeny on plant species differences in their fungal communities, and on the structure of the plant–fungus interaction network. Plant species account for a larger proportion than site in the variability of the composition of phyllosphere fungal communities. Leaf traits and host phylogeny influence the arrival and colonization of phyllosphere fungal communities across plant species. Plants with pubescent leaves and phylogenetically closer harbour more similar communities of decomposers, pathogens and epiphytes. Leaf habit (i.e. evergreen versus deciduous) also influences the community composition of decomposer and epiphytic fungi. Leaf carbon, leaf water content and leaf mass per area affect differentially each functional guild. Plant–fungus interaction networks present a modular structure in which plants belonging to the same module share more fungal species and are phylogenetically closer. We provide evidence that even though phyllosphere fungal communities are complex ecosystems, fungi with contrasting relationships with the plant (decomposers, epiphytes and pathogens) respond similarly to a common subset of leaf traits that impose physical limitations to the assembly of phyllosphere fungal communities. [ABSTRACT FROM AUTHOR]

Published

2023

23. Forest bathing and hiking benefits for mental health during the COVID-19 pandemic in Mediterranean regions.

Author

Muro, Anna, Mateo, Corel, Parrado, Eva, Subirana-Malaret, Montse, Moya, Montserrat, Garriga, Adrià, Canals, Josep, Chamarro, Andrés, and Sanz, Antoni

Subjects

*COVID-19 pandemic, *MENTAL health, *PSYCHOLOGICAL well-being, *AFFECT (Psychology), *HIKING, *PERFORMANCE anxiety

Abstract

Forest bathing (FB) has evidenced positive effects on individuals' mental health and well-being, but its benefits have mainly been studied in Asian biomes. The present study aimed to evaluate whether its benefits are also generalisable to other forests and biomes of the world, such as the Mediterranean. Eighty-six healthy adults of the general population were assessed before and after a FB near Barcelona (Spain) during the COVID-19 pandemic. A control-hiking group of participants was also analysed to contrast the FB effects on anxiety, affect, mood states and mindfulness. Results show that the guided practice of FB in Mediterranean-Catalan forests increases mindfulness states and positive affect and reduces anxiety and negative affect, with effect sizes being large to very large. Hiking also induced significant changes in all variables tested, but FB showed higher effect sizes. An exploratory analysis also revealed a different profile of the FB participants compared to the hiking practitioners, being highly educated women living in urban areas and with lower basal levels of psychological well-being. Accordingly, it is concluded that both Mediterranean FB and hiking (to a lesser degree) might be cost-effective strategies to promote and restore psychological well-being after the COVID-19 pandemic and to promote sustainable tourism in Mediterranean biomes of the European forested and protected areas. [ABSTRACT FROM AUTHOR]

Published

2023

24. Wildfires Improve Forest Growth Resilience to Drought.

Author

Camarero, Jesús Julio, Guijarro, Mercedes, Calama, Rafael, Valeriano, Cristina, Pizarro, Manuel, and Madrigal, Javier

Subjects

*FOREST resilience, *DROUGHTS, *DROUGHT management, *WATER shortages, *TREE growth, *TROPICAL dry forests, *PRESCRIBED burning

Abstract

In seasonally dry forests, wildfires can reduce competition for soil water among trees and improve forest resilience to drought. We tested this idea by comparing tree-ring growth patterns of Pinus pinea stands subjected to two prescribed burning intensities (H, high; L, low) and compared them with unburned (U) control stands in southwestern Spain. Then, we assessed post-growth resilience to two droughts that occurred before (2005) and after (2012) the prescribed burning (2007). Resilience was quantified as changes in radial growth using resilience indices and as changes in cover and greenness using the NDVI. The NDVI sharply dropped after the fire, and minor drops were also observed after the 2005 and 2012 droughts. We found that post-drought growth and resilience were improved in the H stands, where growth also showed the lowest coherence among individual trees and the lowest correlation with water year precipitation. In contrast, trees from the L site showed the highest correlations with precipitation and the drought index. These findings suggest that tree growth recovered better after drought and responded less to water shortage in the H trees. Therefore, high-intensity fires are linked to reduced drought stress in Mediterranean pine forests. [ABSTRACT FROM AUTHOR]

Published

2023

25. New annotated checklist of the Portuguese oaks (Quercus, Fagaceae).

Author

Vila-Viçosa, Carlos, Capelo, Jorge, Alves, Paulo, Almeida, Rubim, and María Vázquez, Francisco

Subjects

*OAK, *BIODIVERSITY, *TAXONOMY, *FOREST conservation

Published

2023

26. Beyond width and density: stable carbon and oxygen isotopes in cork-rings provide insights of physiological responses to water stress in Quercus suber L.

Author

Costa, Augusta, Cherubini, Paolo, Graça, José, Spiecker, Heinrich, Barbosa, Inês, and Máguas, Cristina

Subjects

CORK oak, OXYGEN isotopes, CARBON isotopes, ISOTOPIC signatures, STABLE isotopes, WATER supply, GEOLOGIC hot spots

Abstract

As climate change increasingly affects forest ecosystems, detailed understanding of major effects is important to anticipate their consequences under future climate scenarios. The Mediterranean region is a prominent climate change hotspot, and evergreen cork oak (Quercus suber L.) woodlands are particularly climatically sensitive due to cork (bark) harvesting. Cork oak's drought avoidance strategy is well-known and includes structural and physiological adaptations that maximise soil water uptake and transport and limit water use, potentially leading to reduced stem and cork growth. Trees' responses to cope with water-limited conditions have been extensively described based on cork-rings width and, more recently, on cork-rings density, in dendroecological studies. However, so far, tree functional attributes and physiological strategies, namely photosynthetic metabolism adjustments affecting cork formation, have never been addressed and/or integrated on these previous cork-rings-based studies. In this study, we address the relation between carbon and oxygen stable isotopes of cork rings and precipitation and temperature, in two distinct locations of southwestern Portugal-the (wetter) Tagus basin peneplain and the (drier) Grândola mountains. We aimed at assessing whether the two climatic factors affect cork-ring isotopic composition under contrasting conditions of water availability, and, therefore, if carbon and oxygen signatures in cork can reflect tree functional (physiological and structural) responses to stressful conditions, which might be aggravated by climate change. Our results indicate differences between the study areas. At the drier site, the stronger statistically significant negative cork δ13C correlations were found with mean temperature, whereas strong positive cork δ18O correlations were fewer and found only with precipitation. Moreover, at the wetter site, cork rings are enriched in 18O and depleted in 13C, indicating, respectively, shallow groundwater as the water source for physiological processes related with biosynthesis of non-photosynthetic secondary tissues, such as suberin, and a weak stomatal regulation under high water availability, consistent with non-existent water availability constrains. In contrast, at the drier site, trees use water from deeper ground layers, depleted in 18O, and strongly regulate stomatal conductance under water stress, thus reducing photosynthetic carbon uptake and probably relying on stored carbon reserves for cork ring formation. These results suggest that although stable isotopes signatures in cork rings are not proxies for net growth, they may be (fairly) robust indicators of trees' physiological and structural adjustments to climate and environmental changes in Mediterranean environments. [ABSTRACT FROM AUTHOR]

Published

2022

27. Carbon Pools in a 77 Year-Old Oak Forest under Conversion from Coppice to High Forest.

Author

Ganatsas, Petros, Tsakaldimi, Marianthi, Karydopoulos, Theodoros, Petaloudi, Lydia-Maria, Papaemmanouil, Alexandros, Papadopoulos, Sotirios, and Gerochristou, Sofia

Abstract

Recent model projections and many research results across the world suggest that forests could be significant carbon sinks or sources in the future, contributing in a such a way to global warming mitigation. Conversion of coppice forest to high forest may play an important role towards this direction. This study deals with the estimation of biomass, carbon pool and accumulation rates in all IPCC biomass categories of a 77 year-old oak ecosystem, which has been subjected to conversion from coppice to high forest through repeated tending measures. The research includes a plethora of field tree measurements, destructive sampling of representative oak trees and a systematic sampling of dead wood (standing and fallen), litter and soil. Furthermore, for the estimation of above ground tree living biomass at the stand level, we developed and tested appropriate allometric biomass equations based on the relationships between various independent tree variables (morphological characteristics) and the different tree biomass compartments or leaf biomass. Data analysis shows that coppice conversion results in large accumulation of carbon in all ecosystem pools, with an average annual carbon rate accumulation of 1.97 Mg ha–1 in living above and below ground tree biomass and small amounts to dead wood and litter. The developed allometric equations indicate that above ground tree living biomass can be reliable and precisely predicted by the simple measurement of tree diameter. [ABSTRACT FROM AUTHOR]

Published

2022

28. Stand Structural Characteristics Derived from Combined TLS and Landsat Data Support Predictions of Mushroom Yields in Mediterranean Forest.

Author

Martínez-Rodrigo, Raquel, Gómez, Cristina, Toraño-Caicoya, Astor, Bohnhorst, Luke, Uhl, Enno, and Águeda, Beatriz

Subjects

*LANDSAT satellites, *FOREST productivity, *MUSHROOMS, *CLUSTER pine, *OPTICAL scanners, *FOREST biodiversity

Abstract

Forest fungi provide recreational and economic services, as well as ecosystem biodiversity. Wild mushroom yields are difficult to estimate; climatic conditions are known to trigger temporally localised yields, and forest structure also affects productivity. In this work, we analyse the capacity of remotely sensed variables to estimate wild mushroom biomass production in Mediterranean Pinus pinaster forests in Soria (Spain) using generalised additive mixed models (GAMMs). In addition to climate variables, multitemporal NDVI derived from Landsat data, as well as structural variables measured with mobile Terrestrial Laser Scanner (TLS), are considered. Models are built for all mushroom species as a single pool and for Lactarius deliciosus individually. Our results show that, in addition to autumn precipitation, the interaction of multitemporal NDVI and vegetation biomass are most explanatory of mushroom productivity in the models. When analysing the productivity models of Lactarius deliciosus, in addition to the interaction between canopy cover and autumn minimum temperature, basal area (BA) becomes relevant, indicating an optimal BA range for the development of this species. These findings contribute to the improvement of knowledge about wild mushroom productivity, helping to meet Goal 15 of the 2030 UN Agenda. [ABSTRACT FROM AUTHOR]

Published

2022

29. Mid-Term Changes in Soil Properties after Wildfire, Straw Mulching and Salvage Logging in Pinus halepensis Mill. Forests.

Author

Navidi, Mehdi, Lucas-Borja, Manuel Esteban, Plaza-Álvarez, Pedro Antonio, Carra, Bruno Gianmarco, Parhizkar, Misagh, and Zema, Demetrio Antonio

Subjects

*SALVAGE logging, *ALEPPO pine, *FIRE management, *HIERARCHICAL clustering (Cluster analysis), *MULCHING, *STRAW, *FOREST soils, *SOIL texture

Abstract

The hydrological effects of straw mulching and salvage logging have been widely experimented in the Mediterranean forests affected by wildfires. In contrast, knowledge about the impacts of these post-fire management techniques on the physico-chemical properties of burned soils is poor, especially many years after the fire. In particular, no studies have evaluated the soil changes after the combinations of soil mulching and salvage logging after wildfires in Mediterranean forests. To fill this gap, this study explores the effects of straw mulching and salvage logging, applied individually or in combination to a burnt forest of Pinus halepensis Mill. of central-eastern Spain, on the physico-chemical properties of soil six years after a wildfire. Both the post-fire techniques significantly altered the organic matter, phosphorous, and carbonate contents of the burned soils as well as their C/N (carbon/nitrogen) ratio, while the texture and other chemical properties (pH, electrical conductivity, total nitrogen, potassium, cations/anions, and active limestone) of the soils were not significantly affected by these post-fire treatments. Organic matter (OM) and phosphorous (P) contents increased by 57% and 69%, respectively, in mulched soils in comparison to the burned but untreated plots. In logged soils, the OM increased by 27%, while P decreased by 17%. Salvage logging after straw mulching increased OM, albeit less than under the individual soil treatments (+13%), but noticeably reduced P (−39%). The C/N ratio practically underwent the same variation (+15–20%) after the combination of the two treatments. The principal component analysis and the agglomerative hierarchical cluster analysis applied to the soil properties measured in the plots under the individual and combined management show that the effects of salvage logging on soil properties appear to be more impactful compared to straw mulching. [ABSTRACT FROM AUTHOR]

Published

2022

30. Exploring the Use of Solid Biofertilisers to Mitigate the Effects of Phytophthora Oak Root Disease.

Author

López-Sánchez, Aida, Capó, Miquel, Rodríguez-Calcerrada, Jesús, Peláez, Marta, Solla, Alejandro, Martín, Juan A., and Perea, Ramón

Subjects

ROOT diseases, PLANT biomass, PHYTOPHTHORA cinnamomi, PHYTOPHTHORA, PLANT physiology, OAK

Abstract

Oak forests are facing multiple threats due to global change, with the introduction and expansion of invasive pathogens as one of the most detrimental. Here, we evaluated the use of soil biological fertiliser Biohumin® to improve the response of Quercus ilex L. to the soil-borne pathogen Phytophthora cinnamomi Rands by using one-year-old seedlings fertilised at 0, 12.5, and 25% concentrations of Biohumin® (v/v). Our hypothesis was that plant vigour and response to the pathogen would improve with Biohumin®. The effects of soil infestation and fertilisation were tested by assessing plant survival, growth, and physiology. The soil infested with P. cinnamomi negatively affected all the studied traits. We observed that a moderate concentration of Biohumin® (12.5%) increased plant survival. However, a high concentration (25%) reduced the survival compared with the control, probably as a result of the stress caused by both biotic (infection) and abiotic (soil toxicity) factors. Biohumin® at the highest concentration reduced the plant height-to-stem diameter ratio (H/D) and negatively affected plant biomass and physiological activity. Combined biofertilisation and infection induced synergistic negative effects in the leaf water potential compared with infection and fertilisation applied alone. A higher concentration of Biohumin® may favour pathogens more than plants. Further studies should explore the causes of the negative effect of the high concentration of Biohumin® observed here and evaluate if lower concentrations may benefit plant survival and physiology against soil pathogens. [ABSTRACT FROM AUTHOR]

Published

2022

31. Clumped or regular? the role of thinning pattern on pine growth and soil water content in dense Aleppo pine post-fire stands.

Author

Turrión, Diana, Fornieles, Francisco, and Bautista, Susana

Subjects

ALEPPO pine, SOIL moisture, PINE, WATER supply, FOREST density

Abstract

The development of silvicultural practices that seek to promote structural heterogeneity is increasingly demanded. This work investigates the effect of thinning spatial pattern on the response to pre-commercial thinning of dense Aleppo pine post-fire stands. On three replicated experimental sites in SE Spain, we applied the following treatments: 600 trees/ha, regular thinning pattern (600R), with residual trees evenly spaced; 600 trees/ha, aggregated thinning pattern (600A), with residual pines arranged in clumps of ∽25 trees with a local within-clump density of 2500 trees/ha; and control treatment, with no thinning applied (> 20,000 trees/ha). We assessed treatment effects on pine growth, size-growth relationships, soil water content, and understory vegetation over the first three years after thinning application. Both regular and aggregated thinning pattern similarly increased pine radial growth. In general, dbh growth rates in response to thinning were faster for smaller trees than for larger trees. The growth rate of pine height was higher for 600R and control than for 600A, indicating a positive effect on height of both low and very high pine densities. We found a near-term positive effect of aggregated pattern on water availability at the stand level, mostly resulting from enhanced soil water content in the canopy gaps. For both thinning patterns, the recovery of understory vegetation was dominated by resprouter species. This study highlights the potential of aggregated thinning patterns to enhance the complexity and heterogeneity of the pine stands without compromising pine growth, which could be of great use to managing pine forests in Mediterranean areas. [ABSTRACT FROM AUTHOR]

Published

2022

32. SilvaCuore: an App for monitoring the health status of Italian forests

Author

Castellaneta M, Borghetti M, Colangelo M, Lapolla A, Rita A, and Ripullone F

Subjects

active citizenship, census, climate change, forest disturbance, mediterranean forests, scientific database, Forestry, SD1-669.5

Abstract

Several forest dieback and mortality phenomena reported across the Italian Peninsula over the last years underline an enhanced forest vulnerability in response to climate extremes, mainly heat waves and dry spells. Hundreds or even thousands hectares of forests completely die out over few years, causing considerable negative impacts on ecosystem services such as carbon sequestration and biodiversity. Thus, there is a compelling need to monitor these phenomena for understanding the future dynamics of forest stands: these crucial assumptions have led to SilvaCuore’s development, the first App designed in Italy to report the forests health status. The support of an active users’ community can not only allow researchers to survey declining forest sites, but also to better plan research activities and management measures. Silvacuore is an App designed with the willingness to strenghten the link between the citizens and the scientific community, contributing to the development of a valuable scientific database, available on a website and linked to the App. Through a user-friendly interface, the App leads the users throughout a simplified reporting procedure. SilvaCuore may therefore be perceived by a dual aspect: a resource for the scientific community and a unique opportunity for citizens to play an active role in research activities.

Published

2021

33. Taxonomic and functional diversity of a Quercus pyrenaicaWilld. Rhizospheric microbiome in the Mediterranean mountains

Author

Cobo-Díaz, JF, Fernández-González, AJ, Villadas, PJ, Toro, N, Tringe, SG, and Fernández-López, M

Subjects

metagenomics, Mediterranean forests, melojo-oak, microbial functional diversity, biogeochemical cycles, rhizosphere metabolism, Ecology, Plant Biology, Forestry Sciences

Abstract

Altitude significantly affects vegetation growth and distribution, including the developmental stages of a forest. We used shotgun Illumina sequencing to analyze microbial community composition and functional potential in melojo-oak (Quercus pyrenaica Willd.) rhizospheric soil for three different development stages along an altitudinal gradient: (a) a low altitude, non-optimal site for forest maintenance; (b) an intermediate altitude, optimal site for a forest; and (c) a high altitude, expansion site with isolated trees but without a real forest canopy. We observed that, at each altitude, the same microbial taxa appear both in the taxonomic analysis of the whole metagenome and in the functional analysis of the methane, sulfur and nitrogen metabolisms. Although there were no major differences at the functional level, there were significant differences in the abundance of each taxon at the phylogenetic level between the rhizospheres of the forest (low and intermediate altitudes) and the expansion site. Proteobacteria and Actinobacteria were the most differentially abundant phyla in forest soils compared to the expansion site rhizosphere. Moreover, Verrucomicrobia, Bacteroidetes and Nitrospirae phyla were more highly represented in the non-forest rhizosphere. Our study suggests that rhizospheric microbial communities of the same tree species may be affected by development stage and forest canopy cover via changes in soil pH and the C/N ratio.

Published

2017

34. Beyond width and density: stable carbon and oxygen isotopes in cork-rings provide insights of physiological responses to water stress in Quercus suber L

Author

Augusta Costa, Paolo Cherubini, José Graça, Heinrich Spiecker, Inês Barbosa, and Cristina Máguas

Subjects

Mediterranean forests, Cork oak, Stable isotopes, Climate change, Drought, Cork growth, Medicine, Biology (General), QH301-705.5

Abstract

As climate change increasingly affects forest ecosystems, detailed understanding of major effects is important to anticipate their consequences under future climate scenarios. The Mediterranean region is a prominent climate change hotspot, and evergreen cork oak (Quercus suber L.) woodlands are particularly climatically sensitive due to cork (bark) harvesting. Cork oak’s drought avoidance strategy is well-known and includes structural and physiological adaptations that maximise soil water uptake and transport and limit water use, potentially leading to reduced stem and cork growth. Trees’ responses to cope with water-limited conditions have been extensively described based on cork-rings width and, more recently, on cork-rings density, in dendroecological studies. However, so far, tree functional attributes and physiological strategies, namely photosynthetic metabolism adjustments affecting cork formation, have never been addressed and/or integrated on these previous cork-rings-based studies. In this study, we address the relation between carbon and oxygen stable isotopes of cork rings and precipitation and temperature, in two distinct locations of southwestern Portugal–the (wetter) Tagus basin peneplain and the (drier) Grândola mountains. We aimed at assessing whether the two climatic factors affect cork-ring isotopic composition under contrasting conditions of water availability, and, therefore, if carbon and oxygen signatures in cork can reflect tree functional (physiological and structural) responses to stressful conditions, which might be aggravated by climate change. Our results indicate differences between the study areas. At the drier site, the stronger statistically significant negative cork δ13C correlations were found with mean temperature, whereas strong positive cork δ18O correlations were fewer and found only with precipitation. Moreover, at the wetter site, cork rings are enriched in 18O and depleted in 13C, indicating, respectively, shallow groundwater as the water source for physiological processes related with biosynthesis of non-photosynthetic secondary tissues, such as suberin, and a weak stomatal regulation under high water availability, consistent with non-existent water availability constrains. In contrast, at the drier site, trees use water from deeper ground layers, depleted in 18O, and strongly regulate stomatal conductance under water stress, thus reducing photosynthetic carbon uptake and probably relying on stored carbon reserves for cork ring formation. These results suggest that although stable isotopes signatures in cork rings are not proxies for net growth, they may be (fairly) robust indicators of trees’ physiological and structural adjustments to climate and environmental changes in Mediterranean environments.

Published

2022

35. Electrical Responses of Pinus halepensis Mill. as an Indicator of Wildfire Risk in Mediterranean Forests by Complementing Live Fuel Moisture.

Author

Zapata, Rodolfo, Oliver-Villanueva, Jose-Vicente, Lemus-Zúñiga, Lenin-Guillermo, Mateo Pla, Miguel A., and Luzuriaga, Jorge E.

Subjects

ALEPPO pine, FUEL reduction (Wildfire prevention), WILDFIRE risk, FIRE risk assessment, MOISTURE, SHORT-circuit currents

Abstract

Pinus halepensis forests, as Mediterranean-type ecosystems, are subject to high levels of wildfire risk in times of drought, with meteorological conditions of water stress and very high temperatures, mainly in summer. Considering the difficulty of knowing the phenological state of this species, the objective of this research was to evaluate the possibility of implementing the electrical responses (voltage and short-circuit current) as a variable in fire risk management models, compared to live fuel moisture. On the one hand, the obtained results demonstrate non-significant differences between the moisture content of the different fractions of the living branches (base and half of the branch and live fuel), even in times of drought with hydric stress and very high temperatures. Live fuel moisture of Pinus halepensis does not show significant seasonal variations under the influence of extreme fire risk factors. For this reason, it should be complemented with other variables for fire risk management models. On the other hand, the differences registered in the electrical signal show oscillations with significant variations, which are strongly correlated with the periods of extremely favourable meteorological conditions for wildfires. So, the voltages measured show ranges that correspond with great accuracy to the FWI. Voltage variation is dependent on the hydraulic dynamic plant behaviour and a result of the physiological response of pine trees to abiotic stress of drought. It is an easy-to-measure electrical parameter as well as a very reliable indicator with a high correlation with wildfire risk. Thus, electrical responses could add more knowledge about the phenological state of the trees in dependence on stress climatic conditions, allowing integration of these variables in the preventive wildfire modelling and management. [ABSTRACT FROM AUTHOR]

Published

2022

36. Tree growth is more limited by drought in rear-edge forests most of the times

Author

J. Julio Camarero, Antonio Gazol, Gabriel Sangüesa-Barreda, Marta Vergarechea, Raquel Alfaro-Sánchez, Nicolás Cattaneo, and Sergio M. Vicente-Serrano

Subjects

Climate change, Dendroecology, Latitudinal gradient, Mediterranean forests, Standardized evapotranspiration precipitation index (SPEI), Ecology, QH540-549.5

Abstract

Abstract Background Equatorward, rear-edge tree populations are natural monitors to estimate species vulnerability to climate change. According to biogeographical theory, exposition to drought events increases with increasing aridity towards the equator and the growth of southern tree populations will be more vulnerable to drought than in central populations. However, the ecological and biogeographical margins can mismatch due to the impact of ecological factors (topography, soils) or tree-species acclimation that can blur large-scale geographical imprints in trees responses to drought making northern populations more drought limited. Methods We tested these ideas in six tree species, three angiosperms (Fagus sylvatica, Quercus robur, Quercus petraea) and three gymnosperms (Abies alba, Pinus sylvestris and Pinus uncinata) by comparing rear-edge tree populations subjected to different degrees of aridity. We used dendrochronology to compare the radial-growth patterns of these species in northern, intermediate, and southern tree populations at the continental rear edge. Results and conclusions We found marked variations in growth variability between species with coherent patterns of stronger drought signals in the tree-ring series of the southern populations of F. sylvatica, P. sylvestris, and A. alba. This was also observed in species from cool-wet sites (P. uncinata and Q. robur), despite their limited responsiveness to drought. However, in the case of Q. petraea the intermediate population showed the strongest relationship to drought. For drought-sensitive species as F. sylvatica and P. sylvestris, southern populations presented more variable growth which was enhanced by cool-wet conditions from late spring to summer. We found a trend of enhanced vulnerability to drought in these two species. The response of tree growth to drought has a marked biogeographical component characterized by increased drought sensitivity in southern populations even within the species distribution rear edge. Nevertheless, the relationship between tree growth and drought varied between species suggesting that biogeographical and ecological limits do not always overlap as in the case of Q. petraea. In widespread species showing enhanced vulnerability to drought, as F. sylvatica and P. sylvestris, increased vulnerability to climate warming in their rear edges is forecasted. Therefore, we encourage the monitoring and conservation of such marginal tree populations.

Published

2021

37. Summer heat waves could counterbalance the increasing incidence of pine processionary due to warmer winters in Mediterranean pine forests

Author

Junta de Castilla y León, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Vicente Serrano, Sergio M. [0000-0003-2892-518X], Sangüesa-Barreda, G. [0000-0002-7722-2424], Domingo, Darío, Vicente Serrano, Sergio M., Gómez, Cristina, Olano, José M., Sangüesa-Barreda, G., Junta de Castilla y León, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, Vicente Serrano, Sergio M. [0000-0003-2892-518X], Sangüesa-Barreda, G. [0000-0002-7722-2424], Domingo, Darío, Vicente Serrano, Sergio M., Gómez, Cristina, Olano, José M., and Sangüesa-Barreda, G.

Abstract

Global warming modulates the spatial and temporal occurrence of insect outbreaks, leading to as-yet-unknown effects on forests ecosystems. Warmer trends may favour the upward and northward expansion of pests, albeit increased exposure to heat events and droughts may also hamper insect growth and development. Thus far, further research is needed about the balance of climate warming on pine processionary moth (PPM) (Thaumetopoea pityocampa) development stages, especially at broader scales, despite being the main conifer-defoliating insect in the Mediterranean area. This research analyses the relationships of PPM with the climatic conditions during its most vulnerable development phases in Spain to provide base-information for forest managers. We hypothesize that warmer winter temperatures will increase PPM growth at their larval feeding stage, whereas summer-heat events will reduce PPM rates from egg and early larval stages, leading to counterbalanced effects of climate warming. Furthermore, we expect dry springs will allow an earlier development of PPM and higher incidence of outbreaks. To analyse climate effects on PPM populations in Andalusia, Castilla-La Mancha, and Navarre (37 to 42°N), we compiled information from the Regional Forest Services comprising up to 26 years of monitoring data from 2465 forest stands dominated by Pinus nigra and Pinus sylvestris. We fitted Cumulative Link Mixed Models (CLMM) to test the climate effects on four PPM defoliation severity levels. Our results support higher PPM larvae survival and incidence due to warmer winter conditions, but also the reduction of PPM population size under summer heat conditions. Particularly, the increasing incidence associated to warmer winters during the larval defoliating stage is counterbalanced by the decreasing population at earlier life stages during summer heat events. Spring drought also plays an important role on PPM incidence rates, but its effect is idiosyncratic to each region, suggesting an

Published

2024

38. Leaf morpho-anatomical adjustments in a Quercus pubescens forest after 10 years of partial rain exclusion in the field

Author

Laoué, Justine [0000-0003-3560-419X], Gea Izquierdo, Guillermo [0000-0003-0148-3721], Conde-García, María [0000-0003-0194-2617], Fernandez, Catherine [0000-0002-6868-4774], Ormeño, Elena [0000-0002-3265-5883], Laoué, Justine, Gea Izquierdo, Guillermo, Dupouyet, Sylvie, Conde-García, María, Fernandez, Catherine, Ormeño, Elena, Laoué, Justine [0000-0003-3560-419X], Gea Izquierdo, Guillermo [0000-0003-0148-3721], Conde-García, María [0000-0003-0194-2617], Fernandez, Catherine [0000-0002-6868-4774], Ormeño, Elena [0000-0002-3265-5883], Laoué, Justine, Gea Izquierdo, Guillermo, Dupouyet, Sylvie, Conde-García, María, Fernandez, Catherine, and Ormeño, Elena

Abstract

In the Mediterranean region, a reduction of annual precipitation and a longer and drier summer season are expected with climate change by the end of the century, eventually endangering forest survival. To cope with such rapid changes, trees may modulate their morpho-anatomical and physiological traits. In the present study, we focused on the variation in leaf gas exchange and different leaf morpho-anatomical functional traits of Quercus pubescens Willd. in summer using a long-term drought experiment in natura consisting of a dynamic rainfall exclusion system where trees have been submitted to amplified drought (AD) (~-30% of annual precipitation) since April 2012 and compared them with trees under natural drought (ND) in a Mediterranean forest. During the study, we analyzed net CO2 assimilation (An), stomatal conductance (gs), transpiration (E), water-use efficiency (WUE), stomatal size and density, density of glandular trichomes and non-glandular trichomes, thickness of the different leaf tissues, specific leaf area and leaf surface. Under AD, tree functioning was slightly impacted, since only An exhibited a 49% drop, while gs, E and WUE remained stable. The decrease in An under AD was regulated by concomitant lower stomatal density and reduced leaf thickness. Trees under AD also featured leaves with a higher non-glandular trichome density and a lower glandular trichome density compared with ND, which simultaneously limits transpiration and production costs. This study points out that Q. pubescens exhibits adjustments of leaf morpho-anatomical traits which can help trees to acclimate to AD scenarios as those expected in the future in the Mediterranean region.

Published

2024

39. Enhanced interannual drought resilience in mixed stands: unveiling possible complementarity effects between tree species of the Spanish Northern Plateau

Author

Conferencia de Rectores de las Universidades Españolas, Consejo Superior de Investigaciones Científicas (España), European Commission, Calama Sainz, Rafael Argimiro [0000-0002-2598-9594], Madrigal, Guillermo [0000-0002-1265-2124], Pardos, Marta [0000-0002-5567-5406], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Jankowski, Przemysław A., Calama Sainz, Rafael Argimiro, Madrigal, Guillermo, Pardos, Marta, Conferencia de Rectores de las Universidades Españolas, Consejo Superior de Investigaciones Científicas (España), European Commission, Calama Sainz, Rafael Argimiro [0000-0002-2598-9594], Madrigal, Guillermo [0000-0002-1265-2124], Pardos, Marta [0000-0002-5567-5406], Consejo Superior de Investigaciones Científicas [https://ror.org/02gfc7t72], Jankowski, Przemysław A., Calama Sainz, Rafael Argimiro, Madrigal, Guillermo, and Pardos, Marta

Abstract

Climate change is expected to intensify drought in the Mediterranean region. Previous studies indicate that tree species mixing may reduce the water stress. Our study investigates the response to past drought events of four co-occurring Mediterranean species: Pinus pinea L. (stone pine), Pinus pinaster Ait. (maritime pine), Juniperus thurifera L. (Spanish juniper) and Quercus ilex L (holm oak). The study was performed at an interannual scale, both in monospecific and mixed stands. Annual tree ring widths data measured on increment cores and stem discs obtained from 281 trees were used to quantify the responses to drought events using complementary resilience indices. Additionally, we assessed tree intra- and inter-specific competition impact over the past 25 years. We fitted and compared generalised linear mixed models to determine the influence of species identity, stand composition as intra-specific and inter-specific competition on complementary resilience indices and annual basal area increment. The co-existence with other species enhanced the resistance to drought of the stone pine as the resilience capacity of the Spanish juniper. Conversely, maritime pine’s drought resistance declined considerably in mixed stands. Notably, only the anisohydric species Spanish juniper and holm oak were able to return to pre-disturbance growth rates after the drought. The influence of competition on tree growth was found to differ according to the hydrological conditions of each year and varied based on the specific source of competition. Our study showed that mixed stands in the Spanish Northern Plateau, especially with holm oak and Spanish juniper, are more resilient to prolonged droughts due to spatio-temporal complementarity and subsequent competition reduction. That is another reason for which such composed mixed stands should be promoted in the arid conditions of the Spanish Northern Plateau.

Published

2024

40. Taxonomic and Functional Diversity of a Quercus pyrenaica Willd. Rhizospheric Microbiome in the Mediterranean Mountains

Author

Cobo-Díaz, José F, Fernández-González, Antonio J, Villadas, Pablo J, Toro, Nicolás, Tringe, Susannah G, and Fernández-López, Manuel

Subjects

Agricultural, Veterinary and Food Sciences, Biological Sciences, Ecology, Microbiology, Forestry Sciences, Life on Land, metagenomics, Mediterranean forests, melojo-oak, microbial functional diversity, biogeochemical cycles, rhizosphere metabolism, Plant Biology, Forestry sciences

Abstract

Altitude significantly affects vegetation growth and distribution, including the developmental stages of a forest. We used shotgun Illumina sequencing to analyze microbial community composition and functional potential in melojo-oak (Quercus pyrenaica Willd.) rhizospheric soil for three different development stages along an altitudinal gradient: (a) a low altitude, non-optimal site for forest maintenance; (b) an intermediate altitude, optimal site for a forest; and (c) a high altitude, expansion site with isolated trees but without a real forest canopy. We observed that, at each altitude, the same microbial taxa appear both in the taxonomic analysis of the whole metagenome and in the functional analysis of the methane, sulfur and nitrogen metabolisms. Although there were no major differences at the functional level, there were significant differences in the abundance of each taxon at the phylogenetic level between the rhizospheres of the forest (low and intermediate altitudes) and the expansion site. Proteobacteria and Actinobacteria were the most differentially abundant phyla in forest soils compared to the expansion site rhizosphere. Moreover, Verrucomicrobia, Bacteroidetes and Nitrospirae phyla were more highly represented in the non-forest rhizosphere. Our study suggests that rhizospheric microbial communities of the same tree species may be affected by development stage and forest canopy cover via changes in soil pH and the C/N ratio.

Published

2017

41. Nitrogen Deposition in Different Mediterranean Forest Types along the Eastern Adriatic Coast

Author

Lucija Lovreškov, Ivan Limić, Lukrecija Butorac, and Tamara Jakovljević

Subjects

precipitation, nitrogen deposition, nitrate, ammonium, Mediterranean forests, pubescent, Forestry, SD1-669.5

Abstract

Mediterranean forests along the eastern Adriatic coast have an important ecological role. However, few studies have been conducted on nitrogen deposition so far. To improve this knowledge, the main aims of our study were: (i) to estimate nitrogen inputs and determine differences among the four Mediterranean forests, (ii) to determine the seasonal behaviour of N deposition compounds, and (iii) to discuss the results in relation to forest type and precipitation. Measurements were carried out over a two-year period on four plots in two regions: holm oak and pubescent oak in Istria, Aleppo pine and black pine in Dalmatia. Bulk open field and throughfall deposition were sampled with continuously exposed collectors. Measurements, analyses and data validation of precipitation and N compounds were carried out. The results showed that the highest average monthly precipitation was recorded in the black pine plot and the lowest in the Aleppo pine plot. Nitrate and ammonia in conifer plots in throughfall samples were lower than in bulk open field samples, indicating possible retention by the tree canopy. The results revealed a higher amount of N deposition collected in broadleaved forests than in conifer forests indicating the washing out of N compounds previously deposited and accumulated in forest canopy. The chemistry of N deposition was strongly influenced by local and anthropogenic sources as well as neighbouring countries. Our results may fill the knowledge gap in understanding the influence of precipitation and seasonality of N compounds in different Mediterranean forest types along the eastern Adriatic coast.

Published

2021

42. Species level classification of Mediterranean sparse forests-maquis formations using Sentinel-2 imagery.

Author

Demirbaş Çağlayan, Semiha, Leloglu, Ugur Murat, Ginzler, Christian, Psomas, Achilleas, Zeydanlı, Uğur S., Bilgin, C. Can, and Waser, Lars T.

Subjects

*GUERRILLAS, *RANDOM forest algorithms, *VEGETATION dynamics, *FEATURE selection, *REMOTE sensing, *ECOSYSTEMS

Abstract

Essential forest ecosystem services can be assessed by better understanding the diversity of vegetation, specifically those of Mediterranean region. A species level classification of maquis would be useful in understanding vegetation structure and dynamics, which would be an indicator of degradation or succession in the region. Although remote sensing was regularly used for classification in the region, maquis are simply represented as one to three categories based on density or height. To fill this gap, we test the capability of Sentinel-2 imagery, together with selected ancillary variables, for an accurate mapping of the dominant maquis formations. We applied Recursive Feature Selection procedure and used a Random Forest classifier. The algorithm is tested using ground truth collected from site and reached 78% and 93% overall accuracy at species level and physiognomic level, respectively. Our results suggest species level characterization of dominant maquis is possible with Sentinel-2 spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2022

43. Long-Term Carbon Sequestration in Pine Forests under Different Silvicultural and Climatic Regimes in Spain.

Author

Navarro-Cerrillo, Rafael M., Ruiz-Gómez, Francisco J., Camarero, Jesús J., Castillo, Víctor, Barberá, Gonzalo G., Palacios-Rodríguez, Guillermo, Navarro, Francisco B., Blanco, Juan A., Imbert, Juan B., Cachinero-Vivar, Antonio M., Molina, Antonio J., and del Campo, Antonio D.

Subjects

CARBON sequestration in forests, CLIMATE change mitigation, STRUCTURAL equation modeling, FORESTS & forestry, WATER supply, FOREST biomass

Abstract

Proactive silviculture treatments (e.g., thinning) may increase C sequestration contributing to climate change mitigation, although, there are still questions about this effect in Mediterranean pine forests. The aim of this research was to quantify the storage of biomass and soil organic carbon in Pinus forests along a climatic gradient from North to South of the Iberian Peninsula. Nine experimental Pinus spp trials were selected along a latitudinal gradient from the pre-Pyrenees to southern Spain. At each location, a homogeneous area was used as the operational scale, and three thinning intensity treatments: unthinned or control (C), intermediate thinning (LT, removal of 30–40% of the initial basal area) and heavy thinning (HT, removal of 50–60%) were conducted. Growth per unit area (e.g., expressed as basal area increment-BAI), biomass, and Soil Organic Carbon (SOC) were measured as well as three sets of environmental variables (climate, soil water availability and soil chemical and physical characteristics). One-way ANOVA and Structural Equation Modelling (SEM) were used to study the effect of thinning and environmental variables on C sequestration. Biomass and growth per unit area were higher in the control than in the thinning treatments, although differences were only significant for P. halepensis. Radial growth recovered after thinning in all species, but it was faster in the HT treatments. Soil organic carbon (SOC10, 0–10 cm depth) was higher in the HT treatments for P. halepensis and P. sylvestris, but not for P. nigra. SEM showed that Pinus stands of the studied species were beneficed by HT thinning, recovering their growth quickly. The resulting model explained 72% of the variation in SOC10 content, and 89% of the variation in silvicultural condition (basal area and density) after thinning. SOC10 was better related to climate than to silvicultural treatments. On the other hand, soil chemical and physical characteristics did not show significant influence over SOC10- Soil water availability was the latent variable with the highest influence over SOC10. This work is a new contribution that shows the need for forest managers to integrate silviculture and C sequestration in Mediterranean pine plantations. [ABSTRACT FROM AUTHOR]

Published

2022

44. Obituary: Ervedo Giordano, silviculturalist and forest ecologist from the Mediterranean, open to the world and to international forestry

Author

Scarascia Mugnozza G

Subjects

Silviculture, Forest Ecology, Mediterranean Forests, Italy, Forestry, SD1-669.5

Abstract

Ervedo Giordano passed away in Rome on April 24, 2021. This note describes some of his major scientific contributions to research in silviculture and forest ecology, and sketches out the remarkable personality and character traits that he displayed throughout his life.

Published

2021

45. Is Cork Growth a Reliable Proxy for Stem Diameter Growth in Cork Oak (Quercus suber L.)? Implications for Forest Management under Climate Change in Mediterranean Regions.

Author

Costa, Augusta and Cherubini, Paolo

Subjects

CORK oak, CORK, MEDITERRANEAN climate, CLIMATE change, CLIMATE sensitivity, TREE growth, FOREST management

Abstract

Cork-ring widths have been extensively used in dendroecological studies assessing the relationship between cork growth patterns and climate (precipitation and temperature). Generally, cork growth is assumed as a proxy for stem diameter growth to address cork oak (Quercus suber L.) growth sensitivity to climate and cork yield modeling. Cork growth represents a large part of stem radial increment in this species due to the enhanced activity of phellogen when compared to the cambium activity; thus, similar inter-annual variations of cork-ring widths and tree diameter growth might be expected. However, so far, the influence of rainfall and temperature on stem diameter growth has scarcely been addressed; moreover, it is still not clear whether tree size relates, and in what way, to the variations in radial growth of cork and stem diameter and whether these reflect (proportional) quantitative variations in stem basal area growth. In this study, we computed the annual growth of cork and of stem diameter at breast-height in data series of 47 trees, from 2000 to 2012, corresponding to a full cork production cycle. Results showed a tight link between cork-ring width and stem diameter growth indices. However, while cork growth strongly correlated with climate conditions in autumn–winter prior to the growing season, stem diameter growth correlated with climate conditions of the current growing season, and, more importantly, it was tree size-related. The extrapolation from cork-ring increments to stem basal area growth is likely to progressively underestimate tree growth and biomass increment in larger cork oaks and to further bias it due to climate change effects in the Mediterranean region. [ABSTRACT FROM AUTHOR]

Published

2021

46. The Root Mycobiota of Betula aetnensis Raf., an Endemic Tree Species Colonizing the Lavas of Mt. Etna (Italy).

Author

Badalamenti, Emilio, Catania, Valentina, Sofia, Serena, Sardina, Maria Teresa, Sala, Giovanna, La Mantia, Tommaso, and Quatrini, Paola

Abstract

Betula aetnensis is an endemic tree of high conservation value, which thrives on the nutrient-poor volcanic soils of Mount Etna. Since plant–microbe interactions could play a crucial role in plant growth, resource uptake, and resistance to abiotic stresses, we aimed to characterize the root and rhizosphere microbial communities. Individuals from natural habitat (NAT) and forest nursery (NURS) were surveyed through microscopy observations and molecular tools: bacterial and fungal automated ribosomal intergenic spacer analysis (ARISA), fungal denaturing gradient gel electrophoresis (DGGE). B. aetnensis was found to be simultaneously colonized by arbuscular (AM), ectomycorrhizal (ECM), ericoid (ERM) fungi, and dark septate endophytes (DSE). A high diversity of the bacterial community was observed whilst the root fungal assemblage of NAT plants was richer than that of NURS. Root and rhizosphere fungal communities from NAT plants were characterized by Illumina MiSeq sequencing. Most of the identified sequences were affiliated to Helotiales, Pezizales, and Malasseziales. Ascomycota and Basidiomycota dominated roots and rhizosphere but differed in community structure and composition. ECM in the roots mainly belonged to Tylospora and Leccinum, while Rhizopogon was abundant in the rhizosphere. The Helotiales, including ERM (mostly Oidiodendron) and DSE (mostly Phialocephala), appeared the dominant component of the fungal community. B. aetnensis harbors an extraordinarily wide array of root-associated soil microorganisms, which are likely to be involved in the adaptation and resistance mechanisms to the extreme environmental conditions in volcano Etna. We argue that nursery-produced seedlings could lack the necessary microbiota for growth and development in natural conditions. [ABSTRACT FROM AUTHOR]

Published

2021

47. The Effect of Indigenous Phosphate-Solubilizing Bacteria on Quercus Brantii Seedlings Under Water Stress.

Author

Zolfaghari, Roghayeh, Rezaei, Kambeez, Fayyaz, Payam, Naghiha, Reza, and Namvar, Zahra

Subjects

*REFORESTATION, *OAK, *SEEDLINGS, *MEDITERRANEAN climate, *PLANT growth-promoting rhizobacteria, *WATER purification, *PLANT growth

Abstract

In the Mediterranean climate, plants, e.g., Quercus brantii Lindl, have evolved and adapted to bear up low soil-water and soil-phosphorus conditions. Quercus brantii Lindl. is a dominant tree species thorough Zagros Mediterranean forests. Phosphate-solubilizing bacteria (PSB) play crucial role in the plant growth enhancement by solubilizing insoluble soil-phosphate. In the present study, the effects of two indigenous PSB strains, e.g., Microbacterium sp. (M.) and Streptomyces sp. (S.) were individually and combined evaluated on growth and physiological traits of Quercus brantii. seedlings under different water stress treatments. Results showed that maximum P- solubilization rate was observed by M. strain. Results also revealed that water stress increased electrolyte leakage and reduced relative water content in all plant compartments as well as growth parameters. Two PSB strains individually and in combination significantly enhanced growth and physiological traits of seedlings under both irrigation treatments compared with the non-inoculated seedlings. The M. strain showed higher potential for increasing of root length, weight and RWC compare to other PSB strain. Finally, the results suggested that application of isolated indigenous PSBs in reforestation could help to cope with the drought conditions in semi-arid Mediterranean Zagros forests by increasing of root and improving of oak seedlings growth. [ABSTRACT FROM AUTHOR]

Published

2021

48. SilvaCuore: un'App per monitorare lo stato di salute delle foreste italiane.

Author

Castellaneta, Maria, Borghetti, Marco, Colangelo, Michele, Lapolla, Antonio, Rita, Angelo, and Ripullone, Francesco

Abstract

Several forest dieback and mortality phenomena reported across the Italian Peninsula over the last years underline an enhanced forest vulnerability in response to climate extremes, mainly heat waves and dry spells. Hundreds or even thousands hectares of forests completely die out over few years, causing considerable negative impacts on ecosystem services such as carbon sequestration and biodiversity. Thus, there is a compelling need to monitor these phenomena for understanding the future dynamics of forest stands: these crucial assumptions have led to SilvaCuore's development, the first App designed in Italy to report the forests health status. The support of an active users' community can not only allow researchers to survey declining forest sites, but also to better plan research activities and management measures. Silvacuore is an App designed with the willingness to strenghten the link between the citizens and the scientific community, contributing to the development of a valuable scientific database, available on a website and linked to the App. Through a user-friendly interface, the App leads the users throughout a simplified reporting procedure. SilvaCuore may therefore be perceived by a dual aspect: a resource for the scientific community and a unique opportunity for citizens to play an active role in research activities. [ABSTRACT FROM AUTHOR]

Published

2021

49. Ecosystem services provision by Mediterranean forests will be compromised above 2℃ warming.

Author

Morán‐Ordóñez, Alejandra, Ramsauer, Julia, Coll, Lluis, Brotons, Lluís, and Ameztegui, Aitor

Subjects

*FOREST fire ecology, *ECOSYSTEM services, *SCIENTIFIC literature, *CLIMATE change mitigation, *FOREST management, *FOREST conservation, *FOREST fires

Abstract

Forests provide a wide range of provisioning, regulating and cultural services of great value to societies across the Mediterranean basin. In this study, we reviewed the scientific literature of the last 30 years to quantify the magnitude of projected changes in ecosystem services provision by Mediterranean forests under IPCC climate change scenarios. We classified the scenarios according to the temperature threshold of 2℃ set by the Paris Agreement (below or above). The review of 78 studies shows that climate change will lead to a general reduction in the provision of regulating services (e.g. carbon storage, regulation of freshwater quantity and quality) and a general increase in the number of fires, burnt areas and generally, an increase in climate‐related forest hazards (median + 62% by 2100). Studies using scenarios above the 2℃ threshold projected significantly more negative changes in regulating services than studies using scenarios below this threshold. Main projected trend changes on material services (e.g. wood products), were less clear and depended on (i) whether or not the studies considered the interaction between the rise in temperatures and other drivers (e.g. forest management, CO2 fertilization) and (ii) differences in productivity responses across the tree species evaluated. Overall, the reviewed studies projected significant reductions in range extent and habitat suitability for the most drought‐sensitive forest species (e.g. −88% Fagus sylvatica), while the amount of habitat available for more drought‐tolerant species will remain stable or increase; however, the magnitude of projected change for these more xeric species was limited when high‐end extreme climatic scenarios were considered (above Paris Agreement). Our review highlights the benefits that climate change mitigation (to keep global mean temperature increase <2℃) can bring in terms of service provision and conservation of Mediterranean forests. [ABSTRACT FROM AUTHOR]

Published

2021

50. Less suitable climatic conditions and pests increase tree defoliation in Spanish Iberian Peninsula forests.

Author

Hernández-Lambraño, Ricardo Enrique, Parra, Juan Luis, Román, Jhony Fernando Cruz, and Sánchez-Agudo, José Ángel

Subjects

DEFOLIATION, TREE diseases & pests, CLIMATE change, CLIMATE extremes, ECOLOGICAL models, HEAT waves (Meteorology)

Abstract

Forest vulnerability to climate change is expected to differ between species and across species ranges. Therefore, it is important to develop tools that can standardize the variability in regional climate patterns and extreme events for populations and species. Extreme climate events, such as droughts and heat waves, have the potential to severely impact populations that are already close to the limits of their physiological tolerance. These factors can be further exacerbated in tree populations when coupled with detrimental biotic interactions, such as pathogen and insect infestations. We analysed a monitoring network dataset of tree defoliation from 2005 to 2013 including 560 plots situated in the Iberian Peninsula. We utilized a climatic suitability index obtained from Ecological Niche Models (ENMs), to investigate whether changes in the climatic suitability for seven forest species and the presence of biotic agents correlated with tree defoliation. Our results emphasized that higher levels of tree defoliation were significantly associated with lower climatic suitability. Likewise, these levels increased significantly with high pest intensity. Interestingly, climatic suitability interacted with pests to explain defoliation patterns. Pinus sylvestris and Quercus pyrenaica were particularly susceptible to defoliation in areas with lower climatic suitability and with increasing pest intensity. This suggest that pests play an important role in understanding species performance under less climatic suitable conditions, at least in the forests of the Spanish Iberian Peninsula. Our fundings can serve as a valuable tool for identifying forest populations and species especially susceptible to the impacts of changing climatic conditions on a regional scale. This contribution aids in the incorporation of innovative conceptual tools and processes into the decision-making and management of forest ecosystems in the current context of climate change. • We quantified the combined effect of abiotic and biotic stress factors in Mediterranean forests. • Tree defoliation correlated positively with lower climatic suitability and higher intensity of pest severity. • Trees were more vulnerable to defoliation in areas with unsuitable climatic conditions and higher pest severity. • Climatic suitability index can be useful for standardizing tree responses to climate variability. [ABSTRACT FROM AUTHOR]

Published

2024