Your search keyword '"Holm oak"' showing total 1,872 results

1. Microclimatic effects of tree shelters on the early establishment and resilience of seeded acorns vs. outplanted seedlings

Author

Navarro, Francisco B., Ripoll, M. Ángeles, Carbonero, M. Dolores, and Jiménez, M. Noelia

Published

2024

2. Stem Growth and Dehydration Responses of Mediterranean Tree Species to Atmospheric and Soil Drought.

Author

Salomón, Roberto L. and Camarero, J. Julio

Subjects

*HOLM oak, *ALEPPO pine, *CARBON cycle, *AUTUMN, *JUNIPERS

Abstract

Stem growth responses to soil and atmospheric drought are critical to forecasting the tree carbon sink strength. Yet, responses of drought‐prone forests remain uncertain despite global aridification trends. Stem diameter variations at an hourly resolution were monitored in five Mediterranean tree species from a mesic and a xeric site for 6 and 12 years. Stem growth and dehydration responses to soil (REW) and atmospheric (VPD) drought were explored at different timescales. Annually, growth was determined by the number of growing days and hours. Seasonally, growth was bimodal (autumn growth ≈ 8%–18% of annual growth), varying among species and sites across the hydrometeorological space, while dehydration consistently responded to REW. Sub‐daily, substantial growth occurred during daytime, with nighttime‐to‐daytime ratios ranging between 1.2 and 3.5 (Arbutus unedo ≈ Quercus faginea < Quercus ilex < Pinus halepensis in the mesic site, and Juniperus thurifera < P. halepensis in the xeric site). Overall, time windows favourable for growth were limited by soil (rather than atmospheric) drought, modulating annual and seasonal growth in Mediterranean species, and stems maintained non‐negligible growth during daytime. These patterns contrast with observations from wetter or cooler biomes, demonstrating the growth plasticity of drought‐prone species to more arid climate conditions. Summary statement: Yearly, seasonal and sub‐daily stem growth patterns of Mediterranean tree species contrast with observations from wetter biomes, denoting a high growth plasticity of drought‐prone species to a changing climate. [ABSTRACT FROM AUTHOR]

Published

2025

3. Leveraging the Potential of PRISMA Hyperspectral Data for Forest Tree Species Classification: A Case Study in Southern Italy.

Author

Delogu, Gabriele, Perretta, Miriam, Caputi, Eros, Patriarca, Alessio, Funsten, Cassandra Carroll, Recanatesi, Fabio, Ripa, Maria Nicolina, and Boccia, Lorenzo

Subjects

*GLOBAL Positioning System, *FOREST monitoring, *HOLM oak, *MOBILE apps, *REMOTE sensing

Abstract

Hyperspectral imagery and advanced classification techniques can significantly enhance remote sensing's role in forest monitoring. Thanks to recent missions, such as the Italian Space Agency's PRISMA (PRecursore IperSpettrale della Missione Applicativa—Hyperspectral PRecursor of the Application Mission), hyperspectral data in narrow bands spanning visible/near infrared to shortwave infrared are now available. In this study, hyperspectral data from PRISMA were used with the aim of testing the applicability of PRISMA with different band sizes to classify tree species in highly biodiverse forest environments. The Serre Regional Park in southern Italy was used as a case study. The classification focused on forest category classes based on the predominant tree species in sample plots. Ground truth data were collected using a global positioning system together with a smartphone application to test its contribution to facilitating field data collection. The final result, measured on a test dataset, showed an F1 greater than 0.75 for four classes: fir (0.81), pine (0.77), beech (0.90), and holm oak (0.82). Beech forests showed the highest accuracy (0.92), while chestnut forests (0.68) and a mixed class of hygrophilous species (0.69) showed lower accuracy. These results demonstrate the potential of hyperspectral spaceborne data for identifying trends in spectral signatures for forest tree classification. [ABSTRACT FROM AUTHOR]

Published

2024

4. Termite (Blattodea: Isoptera) Distribution Along an Elevational Gradient in Northwestern African Mountains.

Author

Najjari, Aya, Hernández-Teixidor, David, El Ajjouri, Bilal, Benyahia, Yousra, and Taheri, Ahmed

Subjects

*HOLM oak, *CORK oak, *BIOSPHERE reserves, *TREE trunks, *TERMITES, *DEAD trees

Abstract

We examined the distribution of termites along an elevational gradient in the western Rif Mountains of northern Morocco. Sampling followed standardized protocols at nine forest sites (125, 325, 488, 715, 850, 1150, 1316, 1544, and 1700 masl), all except the lowest site within the Intercontinental Mediterranean Biosphere Reserve. We found a total of three termite species, with Reticulitermes grassei (Rhinotermitidae) being the most abundant, followed by Kalotermes flavicollis (Kalotermitinae) and Amitermes sp. (Terminidae). Comparing microhabitat preferences, we found R. grassei and Amitermes sp. exclusively in buried wood and under rocks, and K. flavicollis exclusively in dead tree trunks and surface wood. The findings reveal the distribution of microhabitats along an elevation gradient and the corresponding preferences of termite species across these microhabitats. We found that total termite density decreased significantly with elevation (rs = −0.40; p < 0.001), but with distinct differences among species. Kalotermes flavicollis and Amitermes sp. showed a strong negative correlation between density and elevation. In contrast, for R. grassei, the most common termite, we found no significant correlation. Termite density also varied among forest types, with a non-significant trend (p = 0.075) of higher density in the cork oak forest (hits/m2 = 0.06) compared to holm oak (0.04) and fir–cedar (0.02) forests. This research contributes to the limited knowledge of termite diversity and ecology in northern Africa and western Mediterranean forests. [ABSTRACT FROM AUTHOR]

Published

2024

5. Contribution to the Iberian thermomediterranean oak woods (Spain, Portugal): the importance of their teaching for the training of experts in environmental management.

Author

E., Cano, J.C., Piñar Fuentes, A., Cano Ortiz, R., Quinto Canas, C., Rodrigues Meireles, R., Mauro, C.J., Pinto Gomes, G., Spampinato, and C. M., Musarella

Subjects

*HOLM oak, *FOREST management, *FOREST dynamics, *ENVIRONMENTAL management, *PLANT communities

Abstract

The study of the holm oak forests of the lower and upper mesomediterranean of the south of the Iberian Peninsula, and new syntaxons of holm oak forests not assigned until now are contributed. The plant dynamics is provided and completed, and the importance of the learning of plant description and dynamics by university students, future environmental managers, is specified. Taking into account the strong anthropic action with the consequent destruction of holm oak forests, it is necessary to enhance the knowledge of plant dynamics to decipher the potential vegetation, and to be able to apply the vegetation series as a basis for agronomic and forestry management. In this work, we propose a new vegetation series. We propose the association Aristolochio baeticae-Quercetum rotundifoliae nova for the biogeographic sector Granadino-Almijarense (Montes de Málaga) and as a first dynamic stage of the microforest of Olea europea var. sylvestris obtained by deforestation. The study of the Iberian olive groves allows us to propose two new associations Aristolochio baeticae-Oleetum sylvestris and Ephedro fragilis-Oleetum sylvestris. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of acorn fall phenology on seedling establishment success in two mediterranean oak species. Implications facing climate change.

Author

Leiva, María José and Perelló-Rodríguez, María

Subjects

*GLOBAL warming, *HOLM oak, *INSECT larvae, *CORK oak, *FIELD research, *ACORNS

Abstract

This study focuses on the effect of differences in acorn dropping time on seedling establishment in two abundant Mediterranean oak species: Quercus ilex subsp. ballota and Q. suber. These species show extended seed dropping seasons (i.e., 4 to 5 months) and the fallen acorns thus experience variable conditions, including differences in climate and microclimate, as well as differences in biological interactions (mainly pre- and post-dispersal predation by insect larvae and rodents, respectively). We conducted two field experiments and a field survey on acorn infection by insect larvae and analysed the ability of early and late dropped acorns to achieve success (i.e., remaining healthy, germinating, and emerging as seedlings). The results indicated that pre- and post-dispersal predation of propagules changed over time. However, these factors had low effect on final seedling success. In opposition, warmer (i.e., autumn) conditions at acorn dropping and sowing time decreased seedling establishment in Q. suber, likely by a lack of cold stratification, while the conditions had no effect on Q. ilex subsp. ballota seedlings. We conclude that climate warming can selectively decrease the number of seedlings that are established in late springtime, before the onset of the characteristic Mediterranean summertime drought, thus negatively affecting the population dynamic in these species, which exhibit a high level of physiological dormancy as they depend on cold conditions to maximise acorn germination and epicotyl emergence. [ABSTRACT FROM AUTHOR]

Published

2024

7. Hydraulic plasticity and water use regulation act to maintain the hydraulic safety margins of Mediterranean trees in rainfall exclusion experiments.

Author

Moreno, Myriam, Limousin, Jean‐Marc, Simioni, Guillaume, Badel, Eric, Rodríguez‐Calcerrada, Jesus, Cochard, Hervé, Torres‐Ruiz, José M., Dupuy, Jean‐Luc, Ruffault, Julien, Ormeno, Elena, Delzon, Sylvain, Fernandez, Catherine, Ourcival, Jean‐Marc, and Martin‐StPaul, Nicolas

Subjects

*HOLM oak, *ALEPPO pine, *FOREST declines, *DECIDUOUS plants, *RAINFALL

Abstract

Hydraulic failure due to xylem embolism has been identified as one of the main mechanisms involved in drought‐induced forest decline. Trees vulnerability to hydraulic failure depends on their hydraulic safety margin (HSM). While it has been shown that HSM globally converges between tree species and biomes, there is still limited knowledge regarding how HSM can adjust locally to varying drought conditions within species. In this study, we relied on three long‐term partial rainfall exclusion experiments to investigate the plasticity of hydraulic traits and HSM for three Mediterranean tree species (Quercus ilex L., Quercus pubescens Willd., and Pinus halepensis Mill.). For all species, a homeostasis of HSM in response to rainfall reduction was found, achieved through different mechanisms. For Q. ilex, the convergence in HSM is attributed to the adjustment of both the turgor loss point (Ψtlp) and the water potential at which 50% of xylem conductivity is lost due to embolism (P50). In contrast, the maintenance of HSM for P. halepensis and Q. pubescens is related to its isohydric behavior for the first and leaf area adjustment for the latter. It remains to be seen whether this HSM homeostasis can be generalized and if it will be sufficient to withstand extreme droughts expected in the Mediterranean region. Summary statement: Mediterranean species submitted to aggravated water stress have maintained their hydraulic safety margin (HSM). For Pinus halepensis and Quercus pubescens, HSM maintenance resulted from their capacity to escape water stress, while it results from the plasticity of Ψtlp and P50 for Quercus ilex. [ABSTRACT FROM AUTHOR]

Published

2024

8. Acute and Chronic Oak Decline in urban and forest ecosystems in Southern Italy.

Author

Carluccio, Giambattista, Sabella, Erika, Greco, Davide, Vergine, Marzia, Donne, Angelo Giovanni Delle, Nutricati, Eliana, Aprile, Alessio, Bellis, Luigi De, and Luvisi, Andrea

Subjects

HOLM oak, URBAN ecology, XYLELLA fastidiosa, FOREST reserves, PHYTOPHTHORA cinnamomi

Abstract

Since recently, a decline of holm oak (Quercus ilex L.) is observed in Salento (South Italy), this caused concern regarding the protection of native biodiversity and local forests. Symptomatic trees show browning of leaves, thinning of canopy, and loss of branches. The aim of this study was to understand the biotic factors involved in the observed decline. During the monitoring activity, the use of phenotypic descriptors highlighted the presence of two types of decline with distinct symptoms among oaks in rural and urban areas, which could be classified as Acute Oak Decline (AOD) and Chronic Oak Decline (COD), respectively. Following this, diagnostic analyses were carried out to assess the presence of various holm oak pathogens on twigs, trunk, and soil. These analyses revealed the presence of several Botryosphaeriaceae oak pathogens, present ubiquitously between the two environmental contexts, with Diplodia seriata being overall the most prevalent. Contrarily, bacteria associated with AOD were only present in the rural areas and included: Brenneria goodwinii , Gibbsiella quercinecans , and Rahnella victoriana. As far as known to the authors, this is the first time these pathogens have been found in the Mediterranean coastal regions. Lastly, soil analyses performed to detect the presence of Phytophthora cinnamomi were negative. Our results highlight the presence of several pathogens, which indicates that oak decline is a multifactorial phenomenon for which the predisposing, initial, and contributing factors are not yet known particularly for the recently described AOD and COD. Finally, the identification of AOD-related bacteria in Salento is a cause of concern for the need of urgent management actions aimed to contain their spread and to preserve the forest heritage of the region. [ABSTRACT FROM AUTHOR]

Published

2024

9. Long-Distance Finding of AOD-Related Bacteria in the Natural Environment: Risks to Quercus ilex (L.) in Italy.

Author

Carluccio, Giambattista, Vergine, Marzia, Vita, Federico, Sabella, Erika, Delle Donne, Angelo, De Bellis, Luigi, and Luvisi, Andrea

Subjects

HOLM oak, BACTERIAL diseases, OPEN spaces, OAK, RIBOSOMAL RNA

Abstract

Acute Oak Decline (AOD), a bacterial disease previously known in Northern and Central Europe, has recently been reported in Salento (a Mediterranean coastal region of Southern Italy), where holm oak trees exhibiting AOD-like symptoms have tested positive for infection with AOD-related bacteria such as Brenneria goodwinii and Gibbsiella quercinecans. Sampling symptomatic trees, strains BLEC23 (B. goodwinii) and GSAC47 (G. quercinecans) were isolated and identified by partial 16S rRNA and gyrB gene sequencing. Pathogenicity tests demonstrate that these bacteria induce wood necrosis when inoculated in excised branches, providing details for the etiology of AOD in Italy. Phylogenetic analysis indicated a substantial genetic similarity between the Italian strains and those found in various European and non-European countries. These findings leave a space open to the possibility that the bacteria involved in AOD are much more widespread in Europe than the findings indicate, but that their presence is frequently hidden. [ABSTRACT FROM AUTHOR]

Published

2024

10. Microbiomes of urban trees: unveiling contributions to atmospheric pollution mitigation.

Author

Gandolfi, Isabella, Canedoli, Claudia, Rosatelli, Asia, Covino, Stefano, Cappelletti, David, Sebastiani, Bartolomeo, Tatangelo, Valeria, Corengia, Davide, Pittino, Francesca, Padoa-Schioppa, Emilio, Báez-Matus, Ximena, Hernández, Lisette, Seeger, Michael, Saati-Santamaría, Zaki, García-Fraile, Paula, López-Mondéjar, Rubén, Ambrosini, Roberto, Papacchini, Maddalena, and Franzetti, Andrea

Subjects

TREE cavities, HYPERVARIABLE regions, ENGLISH ivy, HOLM oak, AIR pollution, ECOSYSTEM services, URBAN trees, SUSTAINABLE urban development

Abstract

Urban trees are crucial in delivering essential ecosystem services, including air pollution mitigation. This service is influenced by plant associated microbiomes, which can degrade hydrocarbons, support tree health, and influence ecological processes. Yet, our understanding of tree microbiomes remains limited, thus affecting our ability to assess and quantify the ecosystem services provided by trees as complex systems. The main hypothesis of this work was that tree microbiomes concur to hydrocarbon biodegradation, and was tested through three case studies, which collectively investigated two tree micro-habitats (phyllosphere and tree cavity organic soil—TCOS) under various conditions representing diverse ecological scenarios, by applying different culture-based and molecular techniques and at different scales. The integration of all results provided a more comprehensive understanding of the role of microbiomes in urban trees. Firstly, bacterial strains isolated from the phyllosphere of Quercus ilex were characterized, indicating the presence of Plant-Growth Promoting bacteria and strains able to catabolize PAHs, particularly naphthalene and phenanthrene. Secondly, naphthalene biodegradation on artificially spiked Hedera helix leaves was quantified in greenhouse experiments on inoculated and untreated plants. The persistence of the inoculated strain and community structure of epiphytic bacteria were assessed by Illumina sequencing of V5–V6 hypervariable regions of 16S rRNA gene. Results showed that naphthalene degradation was initially faster on inoculated plants but later the degradation rates became similar, probably because bacterial populations with hydrocarbon-degrading abilities gradually developed also on non-inoculated plants. Finally, we explored bacterial and fungal biodiversity hosted by TCOS samples, collected from six large trees located in an urban park and belonging to different species. Microbial communities were characterized by Illumina sequencing of V5–V6 hypervariable regions of bacterial gene 16S rRNA and of fungal ITS1. Results indicated TCOS as a distinct substrate, whose microbiome is determined both by the host tree and by canopy environmental conditions and has a pronounced aerobic hydrocarbon degradation potential. Overall, a better assessment of biodiversity associated with trees and the subsequent provision of ecosystem services constitute a first step toward developing future new microbe-driven sustainable solutions, especially in terms of support for urban green planning and management policy. [ABSTRACT FROM AUTHOR]

Published

2024

11. Exploring the therapeutic potential of Quercus ilex acorn extract in papillomavirus-induced lesions.

Author

Medeiros-Fonseca, Beatriz, Faustino-Rocha, Ana I., Pires, Maria João, Neuparth, Maria João, Vala, Helena, Vasconcelos-Nóbrega, Cármen, Gouvinhas, Irene, Barros, Ana Novo, Dias, Maria Inês, Barros, Lillian, Bastos, Margarida M. S. M., Gonçalves, Lio, Félix, Luís, Venâncio, Carlos, Medeiros, Rui, da Costa, Rui Miguel Gil, and Oliveira, Paula A.

Subjects

*ANIMAL health, *HOLM oak, *HUMAN papillomavirus, *TRANSGENIC animals, *ALANINE aminotransferase

Abstract

Background and Aim: Papillomaviruses (PVs) infections have been documented in numerous animal species across different regions worldwide. They often exert significant impacts on animal health and livestock production. Scientists have studied natural products for over half a century due to their diverse chemical composition, acknowledging their value in fighting cancer. Acorns (Quercus ilex) are believed to have several unexplored pharmacological properties. This study aimed to evaluate the in vivo safety and cancer chemopreventive activity of an infusion extract of Q. ilex in a transgenic mouse model of human PV (HPV)-16, which developed squamous cell carcinomas through a multistep process driven by HPV16 oncogenes. Materials and Methods: Q. ilex extract was prepared by heating in water at 90°C and then characterized by mass spectrometry. Phenolic compounds from this extract were administered in drinking water to female mice in three different concentrations (0.03, 0.06, and 0.09 g/mL) over a period of 28 consecutive days. Six groups (n = 6) were formed for this study: group 1 (G1, wildtype [WT], water), group 2 (G2, HPV, water), group 3 (G3, WT, 0.09 g/mL), group 4 (G4, HPV, 0.03 g/mL), group 5 (G5, HPV, 0.06 g/ mL), and group 6 (G6, HPV, 0.09 g/mL). Throughout the experiment, humane endpoints, body weight, food intake, and water consumption were recorded weekly. Following the experimental period, all mice were sacrificed, and blood, internal organs, and skin samples were collected. Blood was used to measure glucose and microhematocrit and later biochemical parameters, such as creatinine, urea, albumin, alanine aminotransferase, and total proteins. Histological analysis was performed on skin and organ samples. Results: The administration of Q. ilex extract resulted in a statistically significant increase in relative organ weight among HPV transgenic animals, indicating adaptive biological response to the tested concentrations. Moreover, a reduction in characteristic skin lesions was observed in animals treated with the 0.06 and 0.09 g/mL extract. Conclusion: These results provide a favorable chemopreventive profile for Q. ilex extract at concentrations of 0.06 and 0.09 g/mL. This study highlights the potential of Q. ilex extract as a safe and effective therapeutic strategy against HPV16-associated lesions in transgenic mouse models. The limitation of our study was the durability of transgenic animals. As a more sensitive species, we must always be careful with the durability of the test. We intend to study concentrations of 0.06 and 0.09 g/mL for longer to further investigate their possible effects. [ABSTRACT FROM AUTHOR]

Published

2024

12. Transient Post-Fire Growth Recovery of Two Mediterranean Broadleaf Tree Species.

Author

Camarero, J. Julio, Valeriano, Cristina, and Ortega, Miguel

Subjects

*FOREST dynamics, *HOLM oak, *TREE growth, *WATER shortages, *SOIL management

Abstract

Fires affect forest dynamics in seasonally dry regions such as the Mediterranean Basin. There, fire impacts on tree growth have been widely characterized in conifers, particularly pine species, but we lack information on broadleaf tree species that sprout after fires. We investigated post-fire radial growth responses in two coexisting Mediterranean hardwood species (the evergreen Quercus ilex, the deciduous Celtis australis) using tree-ring width data. We compared growth data from burnt and unburnt stands of each species subjected to similar climatic, soil and management conditions. We also calculated climate–growth relationships to assess if burnt stands were also negatively impacted by water shortage, which could hinder growth recovery. Tree-ring data of both species allowed us to quantify post-fire growth enhancements of +39.5% and +48.9% in Q. ilex and C. australis, respectively, one year after the fire. Dry spring climate conditions reduced growth, regardless of the fire impact, but high precipitation in the previous winter enhanced growth. High June radiation was negatively related to the growth of unburnt Q. ilex and burnt C. australis stands, respectively. Post-fire growth enhancement lasted for five years after the fire and it was a transitory effect because the growth rates of burnt and unburnt stands were similar afterwards. [ABSTRACT FROM AUTHOR]

Published

2024

13. Spatial Variability of Soil CO 2 Emissions and Microbial Communities in a Mediterranean Holm Oak Forest.

Author

Di Bene, Claudia, Canfora, Loredana, Migliore, Melania, Francaviglia, Rosa, and Farina, Roberta

Subjects

CARBON emissions, HOLM oak, SOIL microbiology, SOIL depth, SOIL composition, MICROBIAL communities

Abstract

Forests play a key role in the global carbon (C) cycle through multiple interactions between above-ground and soil microbial communities. Deeper insights into the soil microbial composition and diversity at different spatial scales and soil depths are of paramount importance. We hypothesized that in a homogeneous above-ground tree cover, the heterogeneous distribution of soil microbial functional diversity and processes at the small scale is correlated with the soil's chemical properties. From this perspective, in a typical Mediterranean holm oak (Quercus ilex L.) peri-urban forest, soil carbon dioxide (CO2) emissions were measured with soil chambers in three different plots. In each plot, to test the linkage between above-ground and below-ground communities, soil was randomly sampled along six vertical transects (0–100 cm) to investigate soil physico-chemical parameters; microbial processes, measured using Barometric Process Separation (BaPS); and structural and functional diversity, assessed using T-RFLP and qPCR Real Time analyses. The results highlighted that the high spatial variability of CO2 emissions—confirmed by the BaPS analysis—was associated with the microbial communities' abundance (dominated by bacteria) and structural diversity (decreasing with soil depth), measured by H′ index. Bacteria showed higher variability than fungi and archaea at all depths examined. Such an insight showed the clear ecological and environmental implications of soil in the overall sustainability of the peri-urban forest system. [ABSTRACT FROM AUTHOR]

Published

2024

14. HARK THE HERALD.

Author

PAGE, EMMA J.

Subjects

ANTIQUE dealers, HOLM oak, GARDEN designers, HOMEOWNERS, LIVING rooms

Abstract

The article "HARK THE HERALD" from Country Homes & Interiors features the Victorian former vicarage of Amanda Back, head of communications at Designers Guild, and her family. The home is decorated with festive foliage from the Cornish countryside, reflecting a warm and comfortable atmosphere with Gothic styling and heraldic details. Amanda and her husband Dan have created a space that is both pattern-laden and deeply rooted in nature's tones, showcasing a mix of vintage finds, green glassware collections, and hardy fabrics. The house, built by Victorian architect JP St Aubyn, serves as a backdrop for their eclectic design choices, blending modern and antique pieces in a deliberate eccentricity that reflects Cornwall's wild and rugged essence. [Extracted from the article]

Published

2024

15. Unravelling DNA methylation dynamics during developmental stages in Quercus ilex subsp. ballota [Desf.] Samp.

Author

Mónica Labella-Ortega, Carmen Martín, Luis Valledor, Stefano Castiglione, María-Ángeles Castillejo, Jesús V. Jorrín-Novo, and María-Dolores Rey

Subjects

Holm oak, Methylated genes, DNA methyltransferase, DNA demethylase, MSAP-Seq, Botany, QK1-989

Abstract

Abstract Background DNA methylation is a critical factor influencing plant growth, adaptability, and phenotypic plasticity. While extensively studied in model and crop species, it remains relatively unexplored in holm oak and other non-domesticated forest trees. This study conducts a comprehensive in-silico mining of DNA methyltransferase and demethylase genes within the holm oak genome to enhance our understanding of this essential process in these understudied species. The expression levels of these genes in adult and seedling leaves, as well as embryos, were analysed using quantitative real-time PCR (qRT-PCR). Global DNA methylation patterns were assessed through methylation-sensitive amplified polymorphism (MSAP) techniques. Furthermore, specific methylated genomic sequences were identified via MSAP sequencing (MSAP-Seq). Result A total of 13 DNA methyltransferase and three demethylase genes were revealed in the holm oak genome. Expression levels of these genes varied significantly between organs and developmental stages. MSAP analyses revealed a predominance of epigenetic over genetic variation among organs and developmental stages, with significantly higher global DNA methylation levels observed in adult leaves. Embryos exhibited frequent demethylation events, while de novo methylation was prevalent in seedling leaves. Approximately 35% of the genomic sequences identified by MSAP-Seq were methylated, predominantly affecting nuclear genes and intergenic regions, as opposed to repetitive sequences and chloroplast genes. Methylation was found to be more pronounced in the exonic regions of nuclear genes compared to their promoter and intronic regions. The methylated genes were predominantly associated with crucial biological processes such as photosynthesis, ATP synthesis-coupled electron transport, and defence response. Conclusion This study opens a new research direction in analysing variability in holm oak by evaluating the epigenetic events and mechanisms based on DNA methylation. It sheds light on the enzymatic machinery governing DNA (de)methylation, and the changes in the expression levels of methylases and demethylases in different organs along the developmental stages. The expression level was correlated with the DNA methylation pattern observed, showing the prevalence of de novo methylation and demethylation events in seedlings and embryos, respectively. Several methylated genes involved in the regulation of transposable element silencing, lipid biosynthesis, growth and development, and response to biotic and abiotic stresses are highlighted. MSAP-seq integrated with whole genome bisulphite sequencing and advanced sequencing technologies, such as PacBio or Nanopore, will bring light on epigenetic mechanisms regulating the expression of specific genes and its correlation with the phenotypic variability and the differences in the response to environmental cues, especially those related to climate change.

Published

2024

16. Monitoring Diversity Profiles of Forested Landscapes in the Mediterranean Spain: Their Contribution to Local and Regional Vascular Plant Diversity.

Author

García del Barrio, José M., Sánchez de Ron, David, Auñón, Francisco, Benavides, Raquel, Alonso Ponce, Rafael, González-Ávila, Sergio, Bolaños, Francisco, Roig, Sonia, and Ortega Quero, Marta

Subjects

*HOLM oak, *BIODIVERSITY monitoring, *PLANT diversity, *FOREST management, *SPECIES diversity, *VASCULAR plants

Abstract

Biodiversity monitoring is key for understanding the delivery of ecosystem functions and services. Mediterranean forests and woodlands harbor many characteristic species of the Mediterranean vascular flora, and hence, they are a good surrogate for detecting changes in biodiversity linked to global change. In this work, we present a database resulting from the study of vascular plant diversity in multi-scale plots of 0.1 ha, measured around the first decade of this century and located in Mediterranean forest environments. Diversity profiles are calculated from Hill numbers (0, 1 and 2) for local (α) and regional (ϒ) diversity, as well as a multiplicative calculation of differential diversity (β). The main Mediterranean forests sampled had a medium coverage of 51% and stand dominant height of 10.6 m, and they were monospecific in two-thirds of cases. Local diversity reaches its highest values (around 78 species per 0.1 ha) in Holm oak dehesas, with values below 50 species for the most productive forest stands dominated by species of the genus Pinus. As regards the contribution to regional diversity, broadleaf formations contribute the most, with stone pine forests and dehesas in an intermediate position, and pine forests contributing the lowest in species richness terms. [ABSTRACT FROM AUTHOR]

Published

2024

17. Unravelling DNA methylation dynamics during developmental stages in Quercus ilex subsp. ballota [Desf.] Samp.

Author

Labella-Ortega, Mónica, Martín, Carmen, Valledor, Luis, Castiglione, Stefano, Castillejo, María-Ángeles, Jorrín-Novo, Jesús V., and Rey, María-Dolores

Subjects

*GENETIC variation, *HOLM oak, *DNA methylation, *WHOLE genome sequencing, *PHENOTYPIC plasticity

Abstract

Background: DNA methylation is a critical factor influencing plant growth, adaptability, and phenotypic plasticity. While extensively studied in model and crop species, it remains relatively unexplored in holm oak and other non-domesticated forest trees. This study conducts a comprehensive in-silico mining of DNA methyltransferase and demethylase genes within the holm oak genome to enhance our understanding of this essential process in these understudied species. The expression levels of these genes in adult and seedling leaves, as well as embryos, were analysed using quantitative real-time PCR (qRT-PCR). Global DNA methylation patterns were assessed through methylation-sensitive amplified polymorphism (MSAP) techniques. Furthermore, specific methylated genomic sequences were identified via MSAP sequencing (MSAP-Seq). Result: A total of 13 DNA methyltransferase and three demethylase genes were revealed in the holm oak genome. Expression levels of these genes varied significantly between organs and developmental stages. MSAP analyses revealed a predominance of epigenetic over genetic variation among organs and developmental stages, with significantly higher global DNA methylation levels observed in adult leaves. Embryos exhibited frequent demethylation events, while de novo methylation was prevalent in seedling leaves. Approximately 35% of the genomic sequences identified by MSAP-Seq were methylated, predominantly affecting nuclear genes and intergenic regions, as opposed to repetitive sequences and chloroplast genes. Methylation was found to be more pronounced in the exonic regions of nuclear genes compared to their promoter and intronic regions. The methylated genes were predominantly associated with crucial biological processes such as photosynthesis, ATP synthesis-coupled electron transport, and defence response. Conclusion: This study opens a new research direction in analysing variability in holm oak by evaluating the epigenetic events and mechanisms based on DNA methylation. It sheds light on the enzymatic machinery governing DNA (de)methylation, and the changes in the expression levels of methylases and demethylases in different organs along the developmental stages. The expression level was correlated with the DNA methylation pattern observed, showing the prevalence of de novo methylation and demethylation events in seedlings and embryos, respectively. Several methylated genes involved in the regulation of transposable element silencing, lipid biosynthesis, growth and development, and response to biotic and abiotic stresses are highlighted. MSAP-seq integrated with whole genome bisulphite sequencing and advanced sequencing technologies, such as PacBio or Nanopore, will bring light on epigenetic mechanisms regulating the expression of specific genes and its correlation with the phenotypic variability and the differences in the response to environmental cues, especially those related to climate change. [ABSTRACT FROM AUTHOR]

Published

2024

18. The adaptive evolution of Quercus section Ilex using the chloroplast genomes of two threatened species.

Author

Zhou, Yu-Ren, Li, Yu, Yang, Liang-Hai, Kozlowski, Gregor, Yi, Li-Ta, Liu, Mei-Hua, Zheng, Si-Si, and Song, Yi-Gang

Subjects

*BIOLOGICAL evolution, *CHLOROPLAST DNA, *HOLM oak, *ENDANGERED species, *MICROSATELLITE repeats, *GENOMICS

Abstract

Chloroplast (cp) genome sequences have been extensively used for phylogenetic and evolutionary analyses, as many have been sequenced in recent years. Identification of Quercus is challenging because many species overlap phenotypically owing to interspecific hybridization, introgression, and incomplete lineage sorting. Therefore, we wanted to gain a better understanding of this genus at the level of the maternally inherited chloroplast genome. Here, we sequenced, assembled, and annotated the cp genomes of the threatened Quercus marlipoensis (160,995 bp) and Q. kingiana (161,167 bp), and mined these genomes for repeat sequences and codon usage bias. Comparative genomic analyses, phylogenomics, and selection pressure analysis were also performed in these two threatened species along with other species of Quercus. We found that the guanine and cytosine content of the two cp genomes were similar. All 131 annotated genes, including 86 protein-coding genes, 37 transfer RNA genes, and 8 ribosomal RNA genes, had the same order in the two species. A strong A/T bias was detected in the base composition of simple sequence repeats. Among the 59 synonymous codons, the codon usage pattern of the cp genomes in these two species was more inclined toward the A/U ending. Comparative genomic analyses indicated that the cp genomes of Quercus section Ilex are highly conserved. We detected eight highly variable regions that could be used as molecular markers for species identification. The cp genome structure was consistent and different within and among the sections of Quercus. The phylogenetic analysis showed that section Ilex was not monophyletic and was divided into two groups, which were respectively nested with section Cerris and section Cyclobalanopsis. The two threatened species sequenced in this study were grouped into the section Cyclobalanopsis. In conclusion, the analyses of cp genomes of Q. marlipoensis and Q. kingiana promote further study of the taxonomy, phylogeny and evolution of these two threatened species and Quercus. [ABSTRACT FROM AUTHOR]

Published

2024

19. Different drought‐tolerance strategies of tree species to cope with increased water stress under climate change in a mixed forest.

Author

Aranda, I., Martin‐Benito, D., Sánchez‐Gómez, D., de Simón, B. Fernández, and Gea‐Izquierdo, G.

Subjects

*CLUSTER pine, *MIXED forests, *HOLM oak, *DROUGHT tolerance, *JUNIPERS, *DROUGHTS

Abstract

Trees' functional strategies to cope with extreme drought are essential under climate change. In a mixed Mediterranean forest, we analyzed the functional strategy in response to drought of four co‐occurring species (Pinus pinea, Pinus pinaster, Juniperus oxycedrus, and Quercus ilex) during two years. Specifically, we assessed functional traits related to tree water status, leaf water relations, and gas exchange. Different trait‐syndrome metrics and the functional strategies under water stress observed suggested a species drought‐tolerance differentiation, with the more anysohidric Q. ilex and J. oxycedrus showing a much higher drought tolerance than the more isohydric P. pinea and P. pinaster. All species recovered from negative leaf turgor reached during peak water stress in summer. Q. ilex and J. oxycedrus kept lower leaf osmotic potentials and lower sensitivity of leaf gas exchange and leaf photochemistry to water stress. In contrast, the pine species exhibited more drought‐avoidant and water‐conservative strategies, yet this behavior was less effective in mitigating water stress's impact on their physiology. The pine species were the most affected by drought, with prolonged near‐zero net photosynthesis during summer. P. pinaster was more isohydric than P. pinea and exhibited a lower capacity to maintain leaf turgor. Physiological processes regulating leaf turgor under drought constitute a key functional strategy involved in the carbon and water‐related mechanisms, ultimately inducing mortality under hot drought. The currently observed mortality dynamics for P. pinaster, and to a lower extent in P. pinea, may be exacerbated by loss of functional homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

20. First Record of Summer Truffle (Tuber aestivum) in Portugal.

Author

Santos-Silva, Celeste and Brígido, Clarisse

Subjects

*ECTOMYCORRHIZAL fungi, *HOLM oak, *FRUITING bodies (Fungi), *MARKET prices, *SEQUENCE analysis

Abstract

Tuber aestivum, commonly known as the summer truffle, is typically found in various parts of Europe where it grows naturally. However, its presence in Portugal was not confirmed until now. The first fruit bodies were collected in April 2024 at stone pine stands (Alenquer and Arruda dos Vinhos, Lisbon) and in June at holm oak stands (Salir, Faro). These specimens are characterized by hypogeous, subglobose, black ascomata with a peridium surface covered with pyramidal warts. Ascopores are subglobose-to-broadly ellipsoid, distinctively ornamented, usually 1–6 per asci. According to the results of the internal transcribed spacer (ITS) rDNA sequence analysis, these specimens form a well-supported group within the Aestivum clade, with T. aestivum being the closest phylogenetic taxon. This remarkable discovery opens up new opportunities for truffle exploitation in Portugal thanks to the summer truffle's gastronomical value and high market prices. [ABSTRACT FROM AUTHOR]

Published

2024

21. Drought effects in Mediterranean forests are not alleviated by diversity‐driven water source partitioning.

Author

Mas, Eugénie, Vilagrosa, Alberto, Morcillo, Luna, Saurer, Matthias, Valladares, Fernando, and Grossiord, Charlotte

Subjects

*AUSTRIAN pine, *SCOTS pine, *HOLM oak, *FOREST biodiversity, *SPECIES diversity

Abstract

Tree species diversity in forest ecosystems could reduce their vulnerability to extreme droughts through improved microclimate and below‐ground water source partitioning driven by contrasting species‐specific water use patterns. However, little is known about the seasonal dynamics of belowground water uptake that determine whether diversity positively or negatively impacts tree carbon assimilation and water exchange.Using a network of 30 permanent plots in Mediterranean forests with increasing tree species diversity (from monospecific to four‐species mixtures), we examined the seasonal patterns of in‐situ aboveground carbon and water relations and belowground water sources on 265 trees from four pine and oak species over 2 years using hydraulic and stable isotope approaches.We found that increasing species diversity in broadleaf and conifer mixtures induced strong soil water source partitioning between oak and pine species. As conditions became drier during the summer in mixed stands, oak species took up water from deeper soil sources, while pines were systematically limited to shallow ones. Despite significant belowground moisture partitioning, stronger drought‐induced reductions in photosynthesis, stomatal conductance, and leaf water potential were still observed in diverse compared with monospecific stands for pines but with some benefits for oaks.Synthesis: Our findings reveal that tree species diversity promoted belowground water source partitioning in mixed oak and pine stands, potentially reducing competition for water in more diverse ecosystems. Yet, our results show that it is insufficient to buffer the adverse impacts of severe droughts on aboveground tree carbon and water use, leading to higher water stress, especially for pines. [ABSTRACT FROM AUTHOR]

Published

2024

22. Spatial Patterns and Facilitating Role of Holm Oak (Quercus ilex) in the Regrowth of Atlas Cedar (Cedrus atlantica (Endl.) Carrière) in Chelia, Aurès, Algeria.

Author

Belhouchet, Meriem, Rabhi, Khellaf, and Collet, Catherine

Subjects

HOLM oak, ATLAS cedar, FOREST ecology, ECOPHYSIOLOGY

Abstract

The process of natural forest rejuvenation, which refers to the self-renewal of forest ecosystems, encompasses the substitution of mature trees with the succeeding generation and is subject to the influence of environmental factors. The characteristics of the stands themselves both impact and determine the spatial organization of tree regeneration. The natural regeneration of the Atlas cedar follows a complex set of eco-physiological processes involving several environmental factors during the different phases of its establishment and development. Thus, it is noteworthy that the cedar always remains closely associated with the holm oak, forming well-stable mixed associations. Therefore, this study investigates the cedar stand of Chelia, affected by dieback where regeneration seems inconstant. Accordingly, the study describes the stand’s spatial structure to understand spatial patterns’ mechanisms the areas of forest that contain a variety of different tree speciem in the north-east of Algeria .Using data from four rectangular plots (60 m × 40 m) temporarily established in the mountain of Chelia, all the seedlings were charted, measured, and located through their (xi, yi) coordinates In addition, two vertical measurements of holm oak crown diameter were recorded for each tree, along with other structural variables. Then, the pair correlation functions were used to investigate uni- and bivariate spatial point patterns to assess the spatial relationship between the cedar seedlings and the holm oak undergrowth. We found that the univariate pair correlation function showed a spatial aggregation of seedlings, concerning the holm oak pattern, which was regular only at small scales but was predominantly random. The bivariate pair correlation function revealed that regeneration was found to be clumped and the spatial association between holm oak and Atlas cedar seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

23. The success of Quercus ilex plantations in agricultural fields in eastern Spain.

Author

García-Fayos, P., Molina, M. J., Espigares, T., Tormo, J., Orduna, Y., Nicolau, J. M., López-Gurillo, B., Moreno de las Heras, M., and Bochet, E.

Subjects

SOIL permeability, AGRICULTURAL policy, TREE farms, AGRICULTURE, HOLM oak

Abstract

Twenty-five years after planting, we measured the survival, growth and reproduction of 153 Quercus ilex plantations promoted by the afforestation programme of the European Union's Common Agricultural Policy in agricultural fields in the east of the Iberian Peninsula, as a function of climatic aridity and stand characteristics related to water supply and competition among trees for water. Using field sampling, we found that, on average, 80% of the trees in plantations survived, more than 55% had already produced acorns and the tallest tree in each field exceeded 4 m, which are all higher values than those reported for forest plantations of this species in the same area and which represent the overcoming of the limitations imposed by climatic aridity on the natural regeneration of the species. A small proportion of the variation in all success variables was explained by water-related plantation characteristics, such as planting density, drought intensity in the year after planting, and soil permeability. However, climatic aridity only influenced the proportion of reproductive trees, but not the other variables of plantation success. However, most of the variation in planting success variables was linked to who owned the field, which nursery produced the seedlings, and the year of planting. Our results support the idea that the deep soils of agricultural fields counteract the negative effect of climatic aridity on plant performance, but that it is necessary to standardise nursery and planting practices, adapt planting density to the environmental characteristics of the site and provide irrigation supply in the early years to ensure the success of future plantations. [ABSTRACT FROM AUTHOR]

Published

2024

24. Do leaf lignin content or leaf mass-to-area bias the estimation of intrinsic water use efficiency from leaf bulk δ13C? A test with seedlings from five oak species.

Author

Ghouil, Hana, Richard, Béatrice, Montpied, Pierre, Dreyer, Erwin, and Brendel, Oliver

Subjects

WATER efficiency, HOLM oak, ENGLISH oak, CORK oak, COMPOSITION of leaves, OAK

Abstract

Key Message: Leaves of seedlings from five oak species (Quercus robur L.; Q. pubescens L.; Q. suber L.; Q. afares Pomel; Q. ilex L.) displayed large, mainly inter-specific, differences in leaf mass-to-area ratio (LMA) and lignin content, as well as in the 13C composition of bulk leaf biomass. The variation in leaf lignin content and LMA did not impact the offset between the 13C composition measured in bulk leaf material versus soluble sugars. This observation, as well as the similar correlations between intrinsic leaf water use efficiency and the 13C compositions of bulk material or soluble sugars extracted from leaves, confirms their reliable use as a proxy for the former even when there is a large variation in LMA or lignin among samples. Context: Carbon isotope composition (δ13C) of bulk leaf biomass is frequently used as a proxy for intrinsic water use efficiency (iWUE) in large-scale intra- and inter-specific comparisons. However, post-photosynthetic 13C discrimination during the synthesis of lignin combined with differences in leaf mass-to-area ratio (LMA) may bias the relationship between δ13C of bulk leaf matter and iWUE and thus its use as a proxy of iWUE. Aims: To quantify the impact of differences in lignin content and LMA on the relationship between δ13C of bulk leaf biomass and iWUE over a large gradient of lignin contents across five oak species (deciduous: Quercus robur, Q. pubescens, Q. afares and evergreen: Q. ilex and Q. suber). Methods: We measured lignin content, LMA, and δ13C of bulk leaf biomass and of soluble sugars extracted from the leaves, as well as intrinsic water use efficiency (derived from leaf gas exchange) in seedlings of the five oak species grown under common conditions in a greenhouse and measured in a climate chamber. Results: There was a large range (mainly across species) in lignin content (4 to 33%) and LMA (60–180 g m−2). δ13C of bulk leaf biomass and soluble sugars were tightly correlated, showing a significant mean offset of − 0.4‰. This offset was stable across species and not correlated to the lignin content of the leaves. A very loose correlation was found between the offset and LMA, mainly due to one species. Conclusion: Our results are a demonstration that potential variations in leaf lignin content or LMA have no or only a little effect on the δ13C of bulk leaf biomass. They are unlikely to cause a bias when using bulk leaf δ13C as a proxy for variations in intrinsic water use efficiency among Mediterranean and temperate broad-leaf forest tree species. [ABSTRACT FROM AUTHOR]

Published

2024

25. Climate change may alter the signal of plant facilitation in Mediterranean drylands.

Author

Verdú, Miguel, Bochet, Esther, Espigares, Tíscar, Margalef‐Marrasé, Jordi, Manuel Nicolau, José, Yue, Yu, Azorin‐Molina, César, and Garcia‐Fayos, Patricio

Subjects

*HOLM oak, *CLIMATE change, *ARID regions, *DEMOGRAPHIC change, *EROSION

Abstract

Facilitation is an ecological interaction that has allowed plant lineages to survive past climate aridification. This same interaction can be expected to buffer the effects of current climate change, which is tending to become more arid in the Mediterranean basin. However, facilitation may wane when stress conditions are extreme. Here we argue that the erosion of the facilitation signal between Quercus ilex and its nurses detected by García‐Fayos et al. (2020) along 50 years in the eastern Iberian Peninsula may have been due to the reversion of facilitation to competition imposed by an increasingly arid climate. To support this speculation, we reconstructed the climatic niche of Q. ilex and its nurses as well as the local climate change occurring in the populations studied. We found that the decreasing trend in precipitation is pushing Q. ilex out of its climatic optimum in the stressful (semi‐arid) but not in the mild (sub‐humid) habitats. These results suggest that facilitation will be unable to mitigate the effects of climate change, especially those related to aridification. However, other scenarios linking climatic change with herbivory and rural abandonment should be considered to fully understand the past, present and future of facilitation interactions. Reconstructing past interactions can serve as an early warning signal about the future of populations in the face of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

26. A novel, continuous high-resolution palaeoecological record from central Italy suggests comparable land-use dynamics in Southern and Central Europe during the Neolithic.

Author

Beffa, Giorgia, Gobet, Erika, Hächler, Luc, Isola, Ilaria, Morlock, Marina A, Sadori, Laura, Schläfli, Patrick, Rey, Fabian, van Vugt, Lieveke, Vogel, Hendrik, Zander, Paul D, Zanchetta, Giovanni, Grosjean, Martin, and Tinner, Willy

Subjects

*CLIMATE change, *COPPER Age, *PALEOECOLOGY, *HOLM oak, *ECOLOGICAL disturbances

Abstract

Although rare, temporally and taxonomically highly-resolved palaeoecological studies with high chronological precision are essential to perform detailed comparisons with precisely dated independent evidence such as archaeological findings, historical events, or palaeoclimatic data. Using a new highly-resolved and chronologically precise sedimentary record from Lago di Mezzano (central Italy), we reconstruct decadal-scale vegetation, species diversity, and fire dynamics, aiming to better understand the linkages between climate, land use, fire, and plant communities from the Neolithic to the Copper Age (c. 5100–3100 cal. BC). Closed, mixed beech-oak forests, including evergreen Quercus ilex, dominated the landscape around Lago di Mezzano during the Neolithic and were disturbed by repeated opening phases, with important implications for lake biogeochemistry and mixing regimes. This was in conjunction with increasing fire activity to promote agro-pastoral practices, as inferred from increasing charcoal, Cerealia type, Triticum type, Hordeum type, Plantago lanceolata type, and Urtica pollen. Fires, on their turn, augmented species diversity (richness and evenness). The comparison of the Mediterranean record from Lago di Mezzano with available continuous and high-precision submediterranean and cool-temperate palynological sequences suggests comparable land use pulses across Southern and Central European regions, most likely in connection with climate change. The outcomes of this study are not only of palaeoecological and archaeological interest; they may also help to improve projections of ecosystem dynamics under future global change. [ABSTRACT FROM AUTHOR]

Published

2024

27. High heat tolerance, evaporative cooling, and stomatal decoupling regulate canopy temperature and their safety margins in three European oak species.

Author

Gauthey, Alice, Kahmen, Ansgar, Limousin, Jean‐Marc, Vilagrosa, Alberto, Didion‐Gency, Margaux, Mas, Eugénie, Milano, Arianna, Tunas, Alex, and Grossiord, Charlotte

Subjects

*LEAF temperature, *TEMPERATURE control, *DURMAST oak, *HOLM oak, *EVAPORATIVE cooling

Abstract

Heatwaves and soil droughts are increasing in frequency and intensity, leading many tree species to exceed their thermal thresholds, and driving wide‐scale forest mortality. Therefore, investigating heat tolerance and canopy temperature regulation mechanisms is essential to understanding and predicting tree vulnerability to hot droughts. We measured the diurnal and seasonal variation in leaf water potential (Ψ), gas exchange (photosynthesis Anet and stomatal conductance gs), canopy temperature (Tcan), and heat tolerance (leaf critical temperature Tcrit and thermal safety margins TSM, i.e., the difference between maximum Tcan and Tcrit) in three oak species in forests along a latitudinal gradient (Quercus petraea in Switzerland, Quercus ilex in France, and Quercus coccifera in Spain) throughout the growing season. Gas exchange and Ψ of all species were strongly reduced by increased air temperature (Tair) and soil drying, resulting in stomatal closure and inhibition of photosynthesis in Q. ilex and Q. coccifera when Tair surpassed 30°C and soil moisture dropped below 14%. Across all seasons, Tcan was mainly above Tair but increased strongly (up to 10°C > Tair) when Anet was null or negative. Although trees endured extreme Tair (up to 42°C), positive TSM were maintained during the growing season due to high Tcrit in all species (average Tcrit of 54.7°C) and possibly stomatal decoupling (i.e., Anet ≤0 while gs >0). Indeed, Q. ilex and Q. coccifera trees maintained low but positive gs (despite null Anet), decreasing Ψ passed embolism thresholds. This may have prevented Tcan from rising above Tcrit during extreme heat. Overall, our work highlighted that the mechanisms behind heat tolerance and leaf temperature regulation in oak trees include a combination of high evaporative cooling, large heat tolerance limits, and stomatal decoupling. These processes must be considered to accurately predict plant damages, survival, and mortality during extreme heatwaves. [ABSTRACT FROM AUTHOR]

Published

2024

28. Xylogenesis Responses to a Mediterranean Climate in Holm Oak (Quercus ilex L.).

Author

Liyaqat, Iqra, Balzano, Angela, Niccoli, Francesco, Kabala, Jerzy Piotr, Merela, Maks, and Battipaglia, Giovanna

Subjects

HOLM oak, CLIMATE change, MEDITERRANEAN climate, SOLAR temperature, SOLAR radiation

Abstract

Quercus ilex L., an evergreen oak species typical of the western and central Mediterranean basin, is facing decline and dieback episodes due to the increase in the severity and frequency of heat waves and drought events. Studying xylogenesis (the wood formation process) is crucial for understanding how trees respond with their secondary growth to environmental conditions and stress events. This study aimed to characterize the wood formation dynamics of Quercus ilex and their relationship with the meteorological conditions in an area experiencing prolonged drought periods. Cambial activity and xylem cell production were monitored during the 2019 and 2020 growing seasons in a Q. ilex forest located at the Vesuvius National Park (southern Italy). The results highlighted the significant roles of temperature and solar radiation in stimulating xylogenesis. Indeed, the correlation tests revealed that temperature and solar radiation positively influenced growth and cell development, while precipitation had an inhibitory effect on secondary wall formation. The earlier cell maturation in 2020 compared to 2019 underscored the impact of global warming trends. Overall, the trees studied demonstrated good health, growth and adaptability to local environmental fluctuations. This research provides novel insights into the intra-annual growth dynamics of this key Mediterranean species and its adaptation strategies to climatic variability, which will be crucial for forest management in the context of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

29. Rhytidome- and cork-type barks of holm oak, cork oak and their hybrids highlight processes leading to cork formation

Author

Iker Armendariz, Unai López de Heredia, Marçal Soler, Adrià Puigdemont, Maria Mercè Ruiz, Patricia Jové, Álvaro Soto, Olga Serra, and Mercè Figueras

Subjects

Cork, Cork oak, Holm oak, Hybrids, Outer bark, Periderm, Botany, QK1-989

Abstract

Abstract Background The periderm is basic for land plants due to its protective role during radial growth, which is achieved by the polymers deposited in the cell walls. In most trees, like holm oak, the first periderm is frequently replaced by subsequent internal periderms yielding a heterogeneous outer bark made of a mixture of periderms and phloem tissues, known as rhytidome. Exceptionally, cork oak forms a persistent or long-lived periderm which results in a homogeneous outer bark of thick phellem cell layers known as cork. Cork oak and holm oak distribution ranges overlap to a great extent, and they often share stands, where they can hybridize and produce offspring showing a rhytidome-type bark. Results Here we use the outer bark of cork oak, holm oak, and their natural hybrids to analyse the chemical composition, the anatomy and the transcriptome, and further understand the mechanisms underlying periderm development. We also include a unique natural hybrid individual corresponding to a backcross with cork oak that, interestingly, shows a cork-type bark. The inclusion of hybrid samples showing rhytidome-type and cork-type barks is valuable to approach cork and rhytidome development, allowing an accurate identification of candidate genes and processes. The present study underscores that abiotic stress and cell death are enhanced in rhytidome-type barks whereas lipid metabolism and cell cycle are enriched in cork-type barks. Development-related DEGs showing the highest expression, highlight cell division, cell expansion, and cell differentiation as key processes leading to cork or rhytidome-type barks. Conclusion Transcriptome results, in agreement with anatomical and chemical analyses, show that rhytidome and cork-type barks are active in periderm development, and suberin and lignin deposition. Development and cell wall-related DEGs suggest that cell division and expansion are upregulated in cork-type barks whereas cell differentiation is enhanced in rhytidome-type barks.

Published

2024

30. Exploring the role of plant hydraulics in canopy fuel moisture content: insights from an experimental drought study on Pinus halepensis Mill. and Quercus ilex L.

Author

Cakpo, Coffi Belmys, Ruffault, Julien, Dupuy, Jean-Luc, Pimont, François, Doussan, Claude, Moreno, Myriam, Jean, Nathan, Jean, Frederic, Burlett, Regis, Delzon, Sylvain, Trueba, Santiago, Torres-Ruiz, José M., Cochard, Hervé, and Martin-StPaul, Nicolas

Subjects

TREE mortality, ALEPPO pine, HOLM oak, PLANT canopies, WATER use, DROUGHT management

Abstract

Key Message: Understanding the impact of extreme drought on the canopy fuel moisture content (CFMC) is crucial to anticipate the effects of climate change on wildfires. Our study demonstrates that foliage mortality, caused by leaf embolism, can substantially diminish CFMC during drought on Pinus halepensis Mill. and Quercus ilex L. It emphasizes the importance of considering plant hydraulics to improve wildfire predictions. Context: Canopy fuel moisture content (CFMC), which represents the water-to-dry mass ratio in leaves and fine twigs within the canopy, is a major factor of fire danger across ecosystems worldwide. CFMC results from the fuel moisture content of living foliage (live fuel moisture content, LFMC) and dead foliage (dead fuel moisture content, DFMC) weighted by the proportion of foliage mortality in the canopy (αDead). Understanding how LFMC, αDead, and ultimately CFMC are affected during extreme drought is essential for effective wildfire planning. Aims: We aimed to understand how plant hydraulics affect CFMC for different levels of soil water deficit, examining its influence on both LFMC and αDead. Methods: We conducted a drought experiment on seedlings of two Mediterranean species: Aleppo pine (Pinus halepensis Mill.) and Holm oak (Quercus ilex L.). Throughout the drought experiment and after rewatering, we monitored CFMC, LFMC, and αDead along with other ecophysiological variables. Results: LFMC exhibited a significant decrease during drought, and as leaf water potentials reached low levels, αDead increased in both species, thereby reducing CFMC. Distinct water use strategies resulted in species-specific variations in dehydration dynamics. Conclusion: Our findings demonstrate that as drought conditions intensify, foliage mortality might become a critical physiological factor driving the decline in CFMC. [ABSTRACT FROM AUTHOR]

Published

2024

31. "Botijo" Flowers that Refrigerate Themselves in the Hot‐Dry Mediterranean Summer.

Author

Herrera, Carlos M.

Subjects

FLOWERS, MEDITERRANEAN climate, ATMOSPHERIC temperature, SUMMER, AUSTRIAN pine, HOLM oak

Abstract

The article discusses a study on the thistle Carlina corymbosa, which has the unique ability to cool its flowerheads in the hot and dry Mediterranean summer. The flowerheads of C. corymbosa were found to be cooler than the surrounding air, particularly during the hottest part of the day. This cooling effect is achieved through enhanced transpiration, similar to the way sweating pitchers made of porous clay, known as "botijos" in Spanish, cool down the water inside them through evaporation. The study suggests that the cooler flowerheads may attract more pollinators, such as bees, and increase pollination success. [Extracted from the article]

Published

2024

32. Rhytidome- and cork-type barks of holm oak, cork oak and their hybrids highlight processes leading to cork formation.

Author

Armendariz, Iker, López de Heredia, Unai, Soler, Marçal, Puigdemont, Adrià, Ruiz, Maria Mercè, Jové, Patricia, Soto, Álvaro, Serra, Olga, and Figueras, Mercè

Subjects

*HOLM oak, *CORK oak, *CORK, *CELL division, *CELL differentiation, *INTROGRESSION (Genetics)

Abstract

Background: The periderm is basic for land plants due to its protective role during radial growth, which is achieved by the polymers deposited in the cell walls. In most trees, like holm oak, the first periderm is frequently replaced by subsequent internal periderms yielding a heterogeneous outer bark made of a mixture of periderms and phloem tissues, known as rhytidome. Exceptionally, cork oak forms a persistent or long-lived periderm which results in a homogeneous outer bark of thick phellem cell layers known as cork. Cork oak and holm oak distribution ranges overlap to a great extent, and they often share stands, where they can hybridize and produce offspring showing a rhytidome-type bark. Results: Here we use the outer bark of cork oak, holm oak, and their natural hybrids to analyse the chemical composition, the anatomy and the transcriptome, and further understand the mechanisms underlying periderm development. We also include a unique natural hybrid individual corresponding to a backcross with cork oak that, interestingly, shows a cork-type bark. The inclusion of hybrid samples showing rhytidome-type and cork-type barks is valuable to approach cork and rhytidome development, allowing an accurate identification of candidate genes and processes. The present study underscores that abiotic stress and cell death are enhanced in rhytidome-type barks whereas lipid metabolism and cell cycle are enriched in cork-type barks. Development-related DEGs showing the highest expression, highlight cell division, cell expansion, and cell differentiation as key processes leading to cork or rhytidome-type barks. Conclusion: Transcriptome results, in agreement with anatomical and chemical analyses, show that rhytidome and cork-type barks are active in periderm development, and suberin and lignin deposition. Development and cell wall-related DEGs suggest that cell division and expansion are upregulated in cork-type barks whereas cell differentiation is enhanced in rhytidome-type barks. [ABSTRACT FROM AUTHOR]

Published

2024

33. Análisis palinológico de la ciudad romana de Arucci Turobriga (S.O. de la Península Ibérica).

Author

Bermejo, J., Muñoz-Rodríguez, A., Aguilar, I., Navarro, F., Ruiz, F., and Medina, N.

Subjects

RIPARIAN plants, HOLM oak, CORK oak, PALYNOLOGY, IDENTIFICATION of fungi, OLIVE

Abstract

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Published

2024

34. Tree isolation enhances seed dispersal behavior by scatter-hoarding rodents.

Author

Cano, Lucía, Bonal, Raúl, and Muñoz, Alberto

Subjects

SEED dispersal, FOREST regeneration, ANIMAL behavior, ACORNS, HOLM oak, RODENTS

Abstract

Human activities cause changes in the structure of landscapes that may impact negatively on wildlife at different levels. Agriculture and livestock, for example, have frequently led to landscapes of forest fragments and isolated trees within grass/crops matrices. These changes influence the distribution and behavior of animals, and the key ecological processes that depend on them. In this study, we analyzed how tree isolation influences the patterns of acorn dispersal by scatter-hoarding rodents in Holm oak Quercus ilex fragmented woodlands of Central Spain. Our results show that an increase in the degree of tree isolation promotes the concentration of rodents under oak canopies looking for cover and food during the seeding season. This concentration increases dramatically the levels of competition among rodents for space and acorns beneath oak canopies, which resulted in an increase in acorn caching to reduce seed pilferage by conspecifics, thus favoring acorn dispersal from the mother tree. These shifts in rodent spatial distribution and behavior would favor tree recruitment through increased rates of seed dispersal, which may counterbalance to some extent the potential negative effects of forest fragmentation given the overall loss of seed-producing trees. Significance: There is little information on how forest fragmentation and the consequent tree isolation affect animal behavior. This implies that the behavior of such animals could provide behavioral feedbacks to the forest in response to fragmentation, either intensifying or mitigating the impacts of fragmentation on natural forest regeneration. This study reveals how seed-dispersing rodents change seed predation and dispersal patterns in response to the degree of tree isolation. An increase in tree isolation favors the seed dispersal process by scatter-hoarding rodents, promoting mutualistic interactions between rodents and trees in fragmented forests. Thus, the negative impacts of forest fragmentation on forest regeneration may be compensated by the improved seed dispersal of scatter-hoarding rodents. These findings emphasize the critical need to address habitat fragmentation from a behavioral perspective and highlight how small-scale interactions can have significant impacts on ecosystem dynamics and conservation. [ABSTRACT FROM AUTHOR]

Published

2024

35. Acorn (Quercus spp.) Consumption in Algeria.

Author

Torche, Yacine

Subjects

ACORNS, LOQUAT, FOOD of animal origin, HOLM oak, CORK oak, OAK, LOGISTIC regression analysis

Abstract

Acorns have been a vital food source for many communities worldwide, but there is limited research on their traditional uses and nutritional and medicinal properties. To address this gap, a study was conducted to explore the traditional methods of preparing and consuming acorns in Algeria and their potential benefits for human health. A questionnaire-based survey was conducted with a large sample of individuals from all over Algeria to collect data on their acquaintance with Quercus species, acorn consumption, consumption habits, and therapeutic uses of acorns. Results were subjected to a chi-square test and logistic regression statistical analysis to test the association between acorn consumption and the different sections under study. The survey found that 91% of participants consumed acorns, with sweet Holm and Cork oak being the most commonly consumed species. Acorn consumption was found to be influenced by gender, geographical position, familiarity with Quercus species, and belief that acorns are not exclusively animal food. The most common method of consumption was cooking, with roasting and boiling being the preferred cooking methods, and acorns were consumed seasonally, primarily during autumn. The study shows that acorn consumption in Algeria has the potential for economic benefits and can be a viable alternative to wheat flour. It also reveals the traditional gastronomic knowledge associated with acorn-based products and meals. The survey results highlight the diverse and significant knowledge of oak fruits by the local population and suggest that future research could enhance the practices and knowledge of acorn-based products and promote acorn consumption. [ABSTRACT FROM AUTHOR]

Published

2024

36. Simulating past and future fire impacts on Mediterranean ecosystems.

Author

Schwörer, Christoph, Morales‐Molino, César, Gobet, Erika, Henne, Paul D., Pasta, Salvatore, Pedrotta, Tiziana, van Leeuwen, Jacqueline F. N., Vannière, Boris, and Tinner, Willy

Subjects

*FOREST fires, *FIRE management, *GREENHOUSE gas mitigation, *VEGETATION dynamics, *HOLM oak

Abstract

Worldwide, large wildfires are becoming increasingly common, leading to economic damages and threatening ecosystems and human health. Under future climate change, more frequent fire disturbance may push ecosystems into non‐forested alternative stable states. Fire‐prone ecosystems such as those in the Mediterranean Basin are expected to be particularly vulnerable, but the position of tipping points is unclear.We compare long‐term palaeoecological data from Sardinia with output from a process‐based dynamic vegetation model to investigate the mechanisms controlling the complex interactions between fire, climate, and vegetation in the past and the future.Our results show that past vegetation changes from Erica‐shrublands to mixed evergreen‐broadleaved Quercus ilex‐dominated forests were driven by a climate‐induced fire regime shift. By simulating vegetation dynamics under varying fire regimes, we could reproduce Holocene vegetation trajectories and mechanistically identify tipping points.Without an immediate reduction of greenhouse gas emissions, we simulate future expansion of fire‐prone Mediterranean maquis and increasing fire occurrence. Similarly, high anthropogenic ignition frequencies and plantations of non‐native, highly flammable trees could induce a shift to fire‐adapted Erica shrublands. However, our simulations indicate that if global warming can be kept below 2°C, Quercus ilex forests will be able to persist and effectively reduce fire occurrences and impacts, making them a valuable restoration target in Mediterranean ecosystems.Synthesis. By combining long‐term records of ecosystem change with a dynamic vegetation model, we show that past climate‐driven fire regime shifts were the main driver of vegetation change, creating alternative stable states that persisted over centuries. Projected future climate change exceeding Holocene variability leads to pronounced vegetation changes and increased fire risks in our simulations, requiring new fire management strategies to maintain current ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2024

37. MORFOLOŠKA VARIABILNOST ČRNIKE (Quercus ilex L.) V SLOVENIJI.

Author

JEŽ, Martin, BRUS, Robert, and JARNI, Kristjan

Abstract

Copyright of Acta Silvae et Ligni is the property of Biotechnical Faculty, Slovenian Forestry Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

38. USES OF MEDICINAL PLANTS COLLECTED FROM THE SENALBA CHERGUI FOREST (DJELFA PROVINCE, ALGERIA) BY THE RURAL POPULATION.

Author

HADJADJ, K., GUERINE, L., SOUFAN, W., HAIL, Z. R., SLIMI, and KAIBICHE, S.

Subjects

RURAL population, PLANT collecting, ROSEMARY, ALEPPO pine, HOLM oak, MEDICINAL plants, LOQUAT

Abstract

This study aims to collect data on medicinal plants collected from Senalba Chergui forest (Djelfa, Algeria) and used in traditional medicine by the local population. An ethnobotanical survey was carried out with 107 informants through direct interviews using a structured questionnaire. The results showed that women (71%) use medicinal plants more than men, older people have more information than the young. Furthermore, the vast majority of users of medicinal plants are illiterate. 32 species belonging to 21 families and 27 genera are identified. The most used plants are Herniaria hirsuta L (93%), Juniperus phoenicea L (87%), Pistacia lentiscus L (86%), Teucrium polium L (80%), Stipa tenacissima L (79%), Pinus halepensis Mill (78%). %), Thymus algeriensis Boiss. et Reult (73%), Artemisia herba-alba Asso (72%), Quercus ilex subsp. Ballota (Desf.) Samp (72%), Juniperus oxycedrus subsp. Rufescens (Link) Deb (64%), Rosmarinus officinalis L (63%), Stipa parviflora Desf (61%), Pistacia terebinthus L (60%) and Rosmarinus tournefortii de Noé (50%). The Lamiaceae and Asteraceae families were dominant the most often, we emphasize that the leaves were the most used (53.13%). The results show that decoction (59.38%) was the most commonly used method to prepare remedies. It appears that gastrointestinal diseases were the most often treated mainly orally. [ABSTRACT FROM AUTHOR]

Published

2024

39. The missing part of the past, current, and future distribution model of Quercus ilex L.: the eastern edge

Author

Yilmaz YO, Akkemik, Dogan H, Yilmaz H, Sevgi O, and Sevgi E

Subjects

Species Distribution Model, Global Circulation Models, Holm Oak, Turkey, Range Edge, Generalized Boosted Regression Models, Forestry, SD1-669.5

Abstract

Ongoing climate change is anticipated to shift the geographical distribution range and impact local abundance of tree species by altering their ecological conditions. Given the lower resilience of populations at the species’ range edges, locally adapted range-edge populations are critical to the species’ survival under climate change. In this context, the distribution of holm oak (Quercus ilex L.) at the eastern border of its distribution range was assessed under current, past, and foreseeable future climate change scenarios, using species distribution models (SDMs). Current SDMs were developed using WorldClim 1.4 climate data as baseline at 30-second spatial resolution by using Generalized Boosted Regression Models (GBM) and showed moderate model performance. To compare temporal transferability and account for climate uncertainties of two versions of future climate data (CMIP5 and CMIP6), we used 4 Global Circulation Models (GCMs), 2 emission scenarios (moderate RCP45/SSP245 and pessimistic - RCP85/SSP585) for 2 different periods in the future (2040-2060 and 2060-2080). We also made predictions about the past (Mid-Holocene, about 6.000 years ago) using 4 CMIP5 GCMs. Most important variables of SDMs were distance to the sea, isothermality (BIO3), annual precipitation (BIO12), the mean temperature of driest quarter (BIO9), and the precipitation of driest month (BIO14). Our findings showed that the species’ potential distribution range probably used to be much wider in the mid-Holocene, which implies that the holm oak had a broader climatic niche during this period. The future projections indicate that its distribution area in the eastern border might increase particularly in the Black Sea region, while decreasing in the Aegean region resulting in a likely northward range shift in Turkey. However, other variables not included in our models such as land use changes might drive future shifts. Due to its high resistance to dry conditions and resilience, this species might continue to spread in southwestern Turkey in 2050s and 2070s. Finally, our study fills the gap in potential distribution predictions in context of climate change for the eastern boundary of the holm oak.

Published

2024

40. Soil–Plant Characterization in Agrosilvopastoral System Established in a Fe-Mn Abandoned Mine After Long-Term Closure

Author

Erika S. Santos, Maria Manuela Abreu, and Sabina Rossini-Oliva

Subjects

dryland pasture, herbaceous cover, holm oak, biogeochemical characterization, environmental risk, Botany, QK1-989

Abstract

Small abandoned mining areas of Fe and Mn oxides located in the Portuguese sector of the Iberian Pyrite Belt (SW of Europe) have been converted into agrosilvopastoral systems with very few environmental management measures after their closure. Although at the landscape scale, no visible differences were observed between the former mining intervention areas and adjacent areas, it is essential to assess the state and environmental risk of the soil–plant system, especially in the herbaceous pastures grazed by domestic animals. This was carried out in the Ferragudo mining area, where an agrosilvopastoral system, composed of holm oak and dryland pasture, had been established after the closure of the mine at ≈45 years. The soils presented neutral pH and variable fertility degree. The pseudo-total soil concentrations of Cu, Mo, and Zn exceeded the Portuguese limit values established for agriculture use (>180 mg Cu/kg; >8.2 mg Mo/kg; 349 mg Zn/kg), but their soil available fractions were small (

Published

2024

41. A TOAST TO CORK.

Author

COPPA, GREG

Subjects

*CORK, *CORK oak, *SCIENCE education, *HOLM oak, *LYMANTRIA dispar

Abstract

The article discusses the significance of cork oak trees in Portugal and their historical and cultural importance. The cork oak is highly valued in Portugal, with its bark being used to produce a variety of products. Portugal is a major producer of cork, and the country's cork plantations have been cultivated for centuries. The article also mentions the resurgence of interest in natural cork products due to their sustainability and environmental benefits. Additionally, it highlights the connection between cork oak trees and the production of high-quality cured ham from black Iberian pigs that feed on cork acorns. [Extracted from the article]

Published

2024

42. Biogeochemical prospecting of metallic critical raw materials: soil to plant transfer in SW Ciudad Real Province, Spain.

Author

Barquero, José Ignacio, Lorenzo, Saturnino, Rivera, Sofía, González-Valoys, Ana C., García-Ordiales, Efrén, Esbrí, José María, and Higueras, Pablo

Subjects

RAW materials, PLANT-soil relationships, HOLM oak, ORE deposits, PROSPECTING, MERCURY, METALLOGENY

Abstract

The soil–plant transfer of trace elements is a complex system in which many factors are involved such as the availability and bioavailability of elements in the soil, climate, pedological parameters, and the essential or toxic character of the elements. The present study proposes the evaluation of the use of multielement contents in vascular plants for prospecting ore deposits of trace elements of strategic interest for Europe. To accomplish this general goal, a study of the soil–plant transfer of major and trace elements using Quercus ilex as a study plant has been developed in the context of two geological domains with very different characteristics in geological terms and in the presence of ore deposits: the Almadén syncline for Hg and the Guadalmez syncline for Sb. The results have made it possible to differentiate geological domains not only in terms of individual elements, but also as a combination of major and trace elements using Factor Analysis. The bioconcentration factors have demonstrated the uptake of macronutrients and micronutrients in very high concentrations but these were barely dependent, or even independent of the concentrations in the soil, in addition to high values of this factor for Sb. The Factor Analysis allowed for the differentiation of geogenic elements from other linked to stibnite ore deposits (Sb, S, and Cu). This element (Sb) can be uptake by Quercus ilex via the root and from there translocating it to the leaves, showing a direct relation between concentrations in soil and plants. This finding opens the possibility of using Quercus ilex leaves for biogeochemical prospecting of geological domains or lithological types of interest to prospect for Sb deposits. [ABSTRACT FROM AUTHOR]

Published

2024

43. Oxidative Stress Response Mechanisms Sustain the Antibacterial and Antioxidant Activity of Quercus ilex.

Author

Verrillo, Mariavittoria, Cianciullo, Piergiorgio, Cozzolino, Vincenza, De Ruberto, Francesca, Maresca, Viviana, Di Fraia, Alessia, Fusaro, Lina, Manes, Fausto, and Basile, Adriana

Subjects

HOLM oak, OXIDATIVE stress, ANTIBACTERIAL agents, BIOACTIVE compounds, TROPOSPHERIC ozone, ANTI-infective agents

Abstract

The development of new natural antibiotics is considered as the heart of several investigations in the nutraceutical field. In this work, leaves of Quercus ilex L. treated by tropospheric ozone (O3) and nitrogen (N) deposition, exhibited a clear antimicrobial efficacy against five multi-drug resistant (MDR) bacterial strains (two gram-positive and three gram-negative). Under controlled conditions, it was studied how simulated N deposition influences the response to O3 and the antibacterial and antioxidant activity, and antioxidant performance. The extraction was performed by ultra-pure acetone using two different steps. A higher antioxidant activity was measured in the presence of interaction between O3 and N treatments on Quercus leaves. At the same time, all organic extracts tested have shown bacteriostatic activity against all the tested strains with a MIC comprised between 9 and 4 micrograms/mL, and a higher antioxidant efficacy shown by spectrophotometric assay. Stronger antimicrobial activity was found in the samples treated with O3, whereas N-treated plants exhibited an intermediate antibacterial performance. This performance is related to the stimulation of the non-enzymatic antioxidant system induced by the oxidative stress, which results in an increase in the production of antimicrobial bioactive compounds. [ABSTRACT FROM AUTHOR]

Published

2024

44. Impacts of human forest management on seed dispersal patterns by scatter-hoarding rodents.

Author

Nóbrega, Eva K, Vidal-Cardos, Roger, Muñoz, Alberto, and Ferrandiz-Rovira, Mariona

Subjects

SEED dispersal, PLANT dispersal, FOREST management, FOREST regeneration, FOREST dynamics, HOLM oak

Abstract

Scatter-hoarding rodents play a central role in seed dispersal, predating and dispersing seeds that affect many plant species' population dynamics and influence forest regeneration. Anthropogenic changes in forest structure, such as clear-cutting in dense forests, may alter the ecological interactions between seeds and dispersers. This study compared predation and dispersal patterns of holm oak (Quercus ilex L.) acorns by wood mouse (Apodemus sylvaticus L.) in original dense forest [less managed forest (MF)] vs open MF (more MF) in north-eastern Spain. Results showed variations in the patterns of acorn predation and dispersal by wood mouse between forest types. In the MF, a greater fraction of acorns was harvested, and the acorns were being dispersed further than in the original forest. Despite the greater fraction of acorns dispersed in the MF, the proportion of acorns that survived and had the potential to grow was reduced in the MF because of increased predation. This shows that forest management has a significant influence on seed dispersal by rodents and thereby influences the natural regeneration potential of forests. [ABSTRACT FROM AUTHOR]

Published

2024

45. Fragmentation and Connectivity in dehesa Ecosystems Associated with Cerambyx spp. Dispersion and Control: A Graph-Theory Approach.

Author

Cidre-González, Adrián, Rivas, Carlos A., and Navarro-Cerrillo, Rafael M.

Subjects

PROBABILITY density function, HOLM oak, CORK oak, GRAPH theory, DISPERSION (Chemistry)

Abstract

Xylophagous insects play a crucial role in forest ecosystems, contributing to population dynamics. The "Cerambyx complex" (CC) constitutes an emerging pest in Mediterranean oak woodlands. We studied the fragmentation and connectivity of holm and cork oak stands in Andalusia (Spain), and the relationships with the current dispersion of CC, as well as the effect on the connectivity and dispersion patterns with the implementation of nests of a predator bird (Garrulus glandarius) to reduce insect populations in highly connected areas. The Kernel Density Estimation (KDE) was used to assess the spatial distribution of CC. Connectivity was assessed using graphs theory (Graphab 2.6) to characterize the importance of patches and linkages for contributing to dispersal. We selected the Eurasian jay (G. glandarius) as a reference bird species to generate "barriers" to the dispersion of the CC. We used the probability of connectivity (PC) and the flux (F) to compare the effect of the introduction of Eurasian jay nets. Results showed an increasing trend in the distribution and incidence of CC during the period 2001–2016, resulting in 7.3% and 13.1% mortality rates for Q. ilex and Q. suber, respectively. The connectivity model using only Q. ilex and Q. suber forests as reference habitats was not enough to explain the distribution of CC. The value of PC and F metrics decreased by 38.09% and 20.59% by introducing 300 nests of Eurasian jay. Our methodology provides a pest management tool using connectivity metrics, which can be integrated with other variables to control pest outbreaks and pest dispersion. [ABSTRACT FROM AUTHOR]

Published

2024

46. Advances in Quercus ilex L. breeding: the CRISPR/Cas9 technology via ribonucleoproteins.

Author

Pavese, Vera, Moglia, Andrea, Milani, Anna Maria, Antonio Marino, Lorenzo, Martinez, Maria Teresa, Torello Marinoni, Daniela, Botta, Roberto, and Corredoira, Elena

Subjects

HOLM oak, GENE transfection, CLIMATIC zones, GENE expression, MEDITERRANEAN climate, CRISPRS, NUCLEOPROTEINS, OAK

Abstract

The CRISPR/Cas9 ribonucleoprotein (RNP)-mediated technology represents a fascinating tool for modifying gene expression or mutagenesis as this system allows for obtaining transgene-free plants, avoiding exogenous DNA integration. Holm oak (Quercus ilex) has an important social, economic, and ecological role in the Mediterranean climate zones of Western Europe and North Africa and is severely affected by oak decline syndrome. Here we report the first example of the application of the CRISPR/Cas9-RNP technology in holm oak. Firstly, we evaluated the protoplast isolation from both in vitro leaves and proembryogenic masses. Proembryogenic masses represented the best material to get high protoplast yield (11 x 106 protoplasts/ml) and viability. Secondly, the protoplast transfection ability was evaluated through a vector expressing green fluorescence protein as marker gene of transfection, reaching a transfection percentage of 62% after 24 hours. CRISPR/Cas9 RNPs were successfully delivered into protoplasts resulting in 5.6% ± 0.5% editing efficiency at phytoene desaturase (pds) target genomic region. Protoplasts were then cultured in semisolid media and, after 45 days in culture, developed embryogenic calli were observed in a Murashige and Skoog media with half concentration of NH4NO3 and KNO3 supplemented with 0.1 mg/L benzylaminopurine and 0.1 mg/L 2,4-dichlorophenoxyacetic acid. [ABSTRACT FROM AUTHOR]

Published

2024

47. PHYLOGENETIC RELATIONSHIPS OF Quercus SPECIES (FAGACEAE) IN VIETNAM BASED ON MULTIPLEXED INTER SIMPLE SEQUENCE REPEAT GENOTYPING BY SEQUENCING.

Author

Hoang Thi Binh, Tetsukazu Yahara, Yoshihisa Suyama, Shuichiro Tagane, and Nguyen Van Ngoc

Subjects

*MICROSATELLITE repeats, *OAK, *HOLM oak, *FAGACEAE

Abstract

Quercus is the largest genus of the family Fagaceae in the world and the second-largest in Vietnam, with approximately 50 species. However, the phylogeny study of the Quercus genus in Vietnam has yet to be thoroughly explored. In this study, we utilize the genome-wide singlenucleotide polymorphisms (SNPs) data obtained through Multiplexed Inter Simple Sequence Repeat Genotyping by sequencing (MIG-seq) to explore the phylogenetic relationships among Quercus species in Vietnam. The results of this study reveal that all Quercus species in Vietnam belong to subgenus Cerris and the phylogenetic analysis strongly supports the recognition of two infrageneric sections: Quercus and Ilex section for the Vietnamese Quercus. These results also confirm that the monophyly of Quercus in Vietnam is strongly supported by both morphological and molecular data. The results of this study also align entirely with previous research, indicating that Quercus species in Asia fall under the subgenus Cerris, comprising two sections: section Ilex and section Cyclobalanopsis. [ABSTRACT FROM AUTHOR]

Published

2024

48. Contribution to the Study of the Health State of Holm Oak in the Chettaba Forest (Algeria).

Author

Zerrouki, Alia, Kara, Karima, Rached-Kanouni, Malika, Redjaimia, Lilia, and Touafchia, Boutheyna

Subjects

HOLM oak, FORESTS & forestry, SOCIOECONOMICS, CROWNS (Botany), PLANT health

Abstract

The oak forests in Algeria are rich in resources and services, playing an important ecological as well as socioeconomic role. The cork oak (Quercus ilex) is one of the most common species in the Chettaba forest, which occupies an area of 1127 hectares. This study aimed to assess the health of this species. The protocols for the crown condition indicator were placed in 13 plots of 0.09 hectares, randomly selected in the forest. The diameter and total height of each tree were measured, as well as the crown condition and stand density. A visual assessment of the crowns was performed following the ICP forests and DEPEFEU protocols. The results indicate that the overall condition of the crowns of the cork oak is a medium with significant defoliation. The crowns of the majority of trees (37.6%) are partially visible with backlighting only, codominant (36.54%), and competing with four sides (35%). More than 83.2% of the trees in the Chettaba forest have gourmets, even healthy trees, but fruiting is almost totally absent. Regarding the color of the crown, the majority of the trees examined show no discoloration. Under the current conditions of the conducted research, it can be said that the overall condition of the holm oak stands in the forest is a medium, which requires further research on the role of the many probable factors of decline. Therefore, special attention should be given to the preservation of this ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

49. Collaborative Monitoring of Plant Biodiversity and Research on Sweet Acorn Oaks within Paths of Knowledge and Sustainability Education.

Author

Soddu Pirellas, Antonino, Ballero, Mauro, Porcu, Sebastiano, Serra, Giovanna, Sanna, Francesco, and Puxeddu, Michele

Subjects

PLANT diversity, BIODIVERSITY monitoring, ECOSYSTEM health, NUTRITION, HOLM oak, GOAT breeds

Abstract

Numerous studies have shown the multiple benefits of plant biodiversity and the crucial role of residents' awareness of conservation and land management. Plant biodiversity was investigated in an analytical monitoring report conducted jointly with the local population engaged in livestock activities and young residents who were shifting toward hospitality and tourism. The study area, covering over 800 km2 in Sardinia, is half forested and attracts interest in its landscape. During our research, genotypes of Quercus ilex L., with sweet acorns rich in polyphenols, as the oldest ecosystem services in these rural communities, were discovered. Collaborative monitoring focused attention on the benefits of plants in different habitats as follows: 53% were known to livestock farmers as food for local breeds of goats and pigs, 15% were official, and 13% were endemic. They had also been used for human nutrition within the Mediterranean diet and attracted interest for their use in landscapes and gardens. This study analyzes numerical data from critical and educational perspectives. These data serve as indicators of ecosystem health for the purpose of sustainable management policies and attest to collaborative monitoring as a tool for analyzing human activities and the necessary balance between profit and biodiversity conservation, given the current challenging climate change conditions. [ABSTRACT FROM AUTHOR]

Published

2024

50. Proteomic and Metabolomic Analysis of the Quercus ilex–Phytophthora cinnamomi Pathosystem Reveals a Population-Specific Response, Independent of Co-Occurrence of Drought.

Author

Hernández-Lao, Tamara, Tienda-Parrilla, Marta, Labella-Ortega, Mónica, Guerrero-Sánchez, Victor M., Rey, María-Dolores, Jorrín-Novo, Jesús V., and Castillejo-Sánchez, María Ángeles

Subjects

*DROUGHTS, *PROTEOMICS, *HOLM oak, *OAK, *METABOLOMICS, *CHLOROPHYLL spectra, *AMINO acid metabolism

Abstract

Holm oak (Quercus ilex) is considered to be one of the major structural elements of Mediterranean forests and the agrosilvopastoral Spanish "dehesa", making it an outstanding example of ecological and socioeconomic sustainability in forest ecosystems. The exotic Phytophthora cinnamomi is one of the most aggressive pathogens of woody species and, together with drought, is considered to be one of the main drivers of holm oak decline. The effect of and response to P. cinnamomi inoculation were studied in the offspring of mother trees from two Andalusian populations, Cordoba and Huelva. At the two locations, acorns collected from both symptomatic (damaged) and asymptomatic (apparently healthy) trees were sampled. Damage symptoms, mortality, and chlorophyll fluorescence were evaluated in seedlings inoculated under humid and drought conditions. The effect and response depended on the population and were more apparent in Huelva than in Cordoba. An integrated proteomic and metabolomic analysis revealed the involvement of different metabolic pathways in response to the pathogen in both populations, including amino acid metabolism pathways in Huelva, and terpenoid and flavonoid biosynthesis in Cordoba. However, no differential response was observed between seedlings inoculated under humid and drought conditions. A protective mechanism of the photosynthetic apparatus was activated in response to defective photosynthetic activity in inoculated plants, which seemed to be more efficient in the Cordoba population. In addition, enzymes and metabolites of the phenylpropanoid and flavonoid biosynthesis pathways may have conferred higher resistance in the Cordoba population. Some enzymes are proposed as markers of resilience, among which glyoxalase I, glutathione reductase, thioredoxin reductase, and cinnamyl alcohol dehydrogenase are candidates. [ABSTRACT FROM AUTHOR]

Published

2024