Your search keyword '"Mediterranean region"' showing total 146 results

1. Sustainable fabrication of dimorphic plant derived ZnO nanoparticles and exploration of their biomedical and environmental potentialities

Author

Bassant Naiel, Manal Fawzy, Alaa El Din Mahmoud, and Marwa Waseem A. Halmy

Subjects

Green synthesis, Halophyte, Anti-skin cancer, Antimicrobial, Antioxidants, Mediterranean region, Medicine, Science

Abstract

Abstract Although, different plant species were utilized for the fabrication of polymorphic, hexagonal, spherical, and nanoflower ZnO NPs with various diameters, few studies succeeded in synthesizing small diameter ZnO nanorods from plant extract at ambient temperature. This work sought to pioneer the ZnO NPs fabrication from the aqueous extract of a Mediterranean salt marsh plant species Limoniastrum monopetalum (L.) Boiss. and assess the role of temperature in the fabrication process. Various techniques have been used to evaluate the quality and physicochemical characteristics of ZnO NPs. Ultraviolet–visible spectroscopy (UV–VIS) was used as the primary test for formation confirmation. TEM analysis confirmed the formation of two different shapes of ZnO NPs, nano-rods and near hexagonal NPs at varying reaction temperatures. The nano-rods were about 25.3 and 297.9 nm in diameter and in length, respectively while hexagonal NPs were about 29.3 nm. The UV–VIS absorption spectra of the two forms of ZnO NPs produced were 370 and 365 nm for nano-rods and hexagonal NPs, respectively. FT-IR analysis showed Zn–O stretching at 642 cm−1 and XRD confirmed the crystalline structure of the produced ZnO NPs. Thermogravimetric analysis; TGA was also used to confirm the thermal stability of ZnO NPs. The anti-tumor activities of the two prepared ZnO NPs forms were investigated by the MTT assay, which revealed an effective dose-dependent cytotoxic effect on A-431 cell lines. Both forms displayed considerable antioxidant potential, particularly the rod-shaped ZnO NPs, with an IC50 of 148.43 µg mL−1. The rod-shaped ZnO NPs were superior candidates for destroying skin cancer, with IC50 of 93.88 ± 1 µg mL−1 ZnO NPs. Thus, rod-shaped ZnO NPs are promising, highly biocompatible candidate for biological and biomedical applications. Furthermore, both shapes of phyto-synthesized NPs demonstrated effective antimicrobial activity against various pathogens. The outcomes highlight the potential of phyto-synthesized ZnO NPs as an eco-friendly alternative for water and wastewater disinfection.

Published

2024

2. Sustainable fabrication of dimorphic plant derived ZnO nanoparticles and exploration of their biomedical and environmental potentialities.

Author

Naiel, Bassant, Fawzy, Manal, Mahmoud, Alaa El Din, and Halmy, Marwa Waseem A.

Subjects

*SALT marsh plants, *WATER disinfection, *ULTRAVIOLET-visible spectroscopy, *NANOPARTICLES, *ABSORPTION spectra

Abstract

Although, different plant species were utilized for the fabrication of polymorphic, hexagonal, spherical, and nanoflower ZnO NPs with various diameters, few studies succeeded in synthesizing small diameter ZnO nanorods from plant extract at ambient temperature. This work sought to pioneer the ZnO NPs fabrication from the aqueous extract of a Mediterranean salt marsh plant species Limoniastrum monopetalum (L.) Boiss. and assess the role of temperature in the fabrication process. Various techniques have been used to evaluate the quality and physicochemical characteristics of ZnO NPs. Ultraviolet–visible spectroscopy (UV–VIS) was used as the primary test for formation confirmation. TEM analysis confirmed the formation of two different shapes of ZnO NPs, nano-rods and near hexagonal NPs at varying reaction temperatures. The nano-rods were about 25.3 and 297.9 nm in diameter and in length, respectively while hexagonal NPs were about 29.3 nm. The UV–VIS absorption spectra of the two forms of ZnO NPs produced were 370 and 365 nm for nano-rods and hexagonal NPs, respectively. FT-IR analysis showed Zn–O stretching at 642 cm−1 and XRD confirmed the crystalline structure of the produced ZnO NPs. Thermogravimetric analysis; TGA was also used to confirm the thermal stability of ZnO NPs. The anti-tumor activities of the two prepared ZnO NPs forms were investigated by the MTT assay, which revealed an effective dose-dependent cytotoxic effect on A-431 cell lines. Both forms displayed considerable antioxidant potential, particularly the rod-shaped ZnO NPs, with an IC50 of 148.43 µg mL−1. The rod-shaped ZnO NPs were superior candidates for destroying skin cancer, with IC50 of 93.88 ± 1 µg mL−1 ZnO NPs. Thus, rod-shaped ZnO NPs are promising, highly biocompatible candidate for biological and biomedical applications. Furthermore, both shapes of phyto-synthesized NPs demonstrated effective antimicrobial activity against various pathogens. The outcomes highlight the potential of phyto-synthesized ZnO NPs as an eco-friendly alternative for water and wastewater disinfection. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparison of phenological traits, growth patterns, and seasonal dynamics of non-structural carbohydrate in Mediterranean tree crop species.

Author

Tixier, Aude, Guzmán-Delgado, Paula, Sperling, Or, Amico Roxas, Adele, Laca, Emilio, and Zwieniecki, Maciej A

Subjects

Pistacia, Juglans, Carbon, Carbohydrates, Logistic Models, Temperature, Seasons, Mediterranean Region, Carbohydrate Metabolism, Climate Change, Prunus dulcis

Abstract

Despite non-structural carbohydrate (NSC) importance for tree productivity and resilience, little is known about their seasonal regulations and trade-off with growth and reproduction. We characterize the seasonal dynamics of NSC in relation to the aboveground phenology and temporal growth patterns of three deciduous Mediterranean species: almond (Prunus dulcis (Mill.) D. A. Webb), walnut (Juglans regia L.) and pistachio (Pistacia vera L.). Seasonal dynamics of NSC were synchronous between wood tissues from trunk, branches and twigs. Almond had almost identical levels and patterns of NSC variation in twigs, branches and trunks whereas pistachio and walnut exhibited clear concentration differences among plant parts whereby twigs had the highest and most variable NSC concentration, followed by branches and then trunk. While phenology had a significant influence on NSC seasonal trends, there was no clear trade-off between NSC storage and growth suggesting that both were similarly strong sinks for NSC. A temporal trade-off observed at the seasonal scale was influenced by the phenology of the species. We propose that late senescing species experience C allocation trade-off at the end of the growing season because of C-limiting thermal conditions and priority allocation to storage in order to survive winter.

Published

2020

4. Yields and resilience outcomes of organic, cover crop, and conventional practices in a Mediterranean climate

Author

Li, Meng, Peterson, Caitlin A, Tautges, Nicole E, Scow, Kate M, and Gaudin, Amélie CM

Subjects

Agriculture, Land and Farm Management, Agricultural, Veterinary and Food Sciences, Crop and Pasture Production, Zero Hunger, Crop Production, Crops, Agricultural, Solanum lycopersicum, Mediterranean Region, Organic Agriculture, Zea mays

Abstract

Adaptive management practices that maximize yields while improving yield resilience are required in the face of resource variability and climate change. Ecological intensification such as organic farming and cover cropping are lauded in some studies for fostering yield resilience, but subject to criticism in others for their low productivity. We implemented a quantitative framework to assess yield resilience, emphasizing four aspects of yield dynamics: yield, yield stability, yield resistance (i.e., the ability of systems to avoid crop failure under stressful growing conditions), and maximum yield potential. We compared the resilience of maize-tomato rotation systems after 24 years of irrigated organic, cover cropped, and conventional management in a Mediterranean climate, and identified crop-specific resilience responses of tomato and maize to three management systems. Organic management maintained tomato yields comparable to those under conventional management, while increasing yield stability and resistance. However, organic and cover cropped system resulted in 36.1% and 35.8% lower maize yields and reduced yield stability and resistance than the conventional system. Our analyses suggest that investments in ecological intensification approaches could potentially contribute to long-term yield resilience, however, these approaches need to be tailored for individual crops and systems to maximize their benefits, rather than employing one-size-fits-all approaches.

Published

2019

5. A decade of rain exclusion in a Mediterranean forest reveals trade-offs of leaf chemical defenses and drought legacy effects.

Author

Laoué J, Havaux M, Ksas B, Orts JP, Reiter IM, Fernandez C, and Ormeno E

Subjects

Mediterranean Region, Climate Change, Chlorophyll metabolism, Carotenoids metabolism, Carotenoids analysis, Photosynthesis, Trees metabolism, Flavonols metabolism, Flavonols analysis, Droughts, Plant Leaves metabolism, Plant Leaves chemistry, Quercus metabolism, Quercus physiology, Rain, Forests

Abstract

Increasing aridity in the Mediterranean region will result in longer and recurrent drought. These changes could strongly modify plant defenses, endangering tree survival. We investigate the response of chemical defenses from central and specialized metabolism in Quercus pubescens Willd. to future Mediterranean drought using a long-term drought experiment in natura where trees have been submitted to amplified drought (~ -30% annual precipitation) since April 2012. We focused on leaf metabolites including chlorophylls and carotenoids (central metabolism) and flavonols (specialized metabolism). Measurements were performed in summer from 2016 to 2022. Amplified drought led to higher concentrations of total photosynthetic pigments over the 2016-2022 period. However, it also led to lower AZ/VAZ and flavonol concentrations. Additionally, chemical defenses of Q. pubescens responded to previous precipitation where low precipitation 1 year and/or 2 years preceding sampling was associated to low concentrations of VAZ, flavonol and high neoxanthin concentrations. Our study indicates that the decline of flavonol concentration under long-term drought is counterbalanced by a higher production of several central metabolites. Such results are potentially due to an adjustment in tree metabolism, highlighting the importance of performing long-term experimental studies in natura for assessing drought legacy effects and thus forest adaptation to climate change., (© 2024. The Author(s).)

Published

2024

6. Intrapopulation germinability may help the Mediterranean plant species Poterium spinosum L. to cope with climate changes and landscape fragmentation.

Author

Bonanno G and Veneziano V

Subjects

Seeds growth & development, Temperature, Mediterranean Region, Biodiversity, Germination physiology, Climate Change, Ecosystem

Abstract

Poterium spinosum L. is a key plant species forming typical shrub communities, distributed across the Mediterranean eastern coasts. The conservation of P. spinosum is thus of the utmost importance, especially due to the ever-increasing environmental pressures like climate changes and habitat fragmentation. This study, in particular, investigated for the first time the germination variability of P. spinosum at intrapopulation level, by analysing the germination behavior of five different subpopulations growing along the coasts of Sicily. For a more exhaustive picture of the main drivers of biodiversity loss affecting the distributional area of P. spinosum, the trends of climate and land-cover changes were also studied over the periods 1931-2020 and 1958-2018, respectively. The results found significant intrapopulation variability in P. spinosum, whose germination parameters showed that fruits and seeds from distinct subpopulations respond differently to diverse temperatures. Seeds showed generally higher values of final germination percentage (FGP) compared to fruits, and at higher temperatures: the highest FGP in seeds was 70% at 20 °C, whereas in fruits was 58.2% at 15 °C. The environmental threats showed worrying trends across the study area: during 1931-2020, the average temperature increased by 1.5 °C, whereas the average rainfall declined from 710 to 650 mm. Similarly, in the period 1958-2018, the analysis of the CORINE land-cover changes showed a highly fragmented agricultural landscape, where natural areas were reduced to 2.5-5.0%. Germination variability at intrapopulation level should be considered as a fundamental adaptation strategy, which can increase the reproductive success of P. spinosum under climate and land-cover changes., (© 2024. The Author(s).)

Published

2024

7. Alpine viper in changing climate: thermal ecology and prospects of a cold-adapted reptile in the warming Mediterranean.

Author

Mizsei E, Radovics D, Rák G, Budai M, Bancsik B, Szabolcs M, Sos T, and Lengyel S

Subjects

Animals, Male, Female, Ecosystem, Body Temperature Regulation physiology, Greece, Cold Temperature, Adaptation, Physiological, Mediterranean Region, Acclimatization physiology, Phylogeny, Body Temperature physiology, Viperidae physiology, Climate Change

Abstract

In a rapidly changing thermal environment, reptiles are primarily dependent on in situ adaptation because of their limited ability to disperse and the restricted opportunity to shift their ranges. However, the rapid pace of climate change may surpass these adaptation capabilities or elevate energy expenditures. Therefore, understanding the variability in thermal traits at both individual and population scales is crucial, offering insights into reptiles' vulnerability to climate change. We studied the thermal ecology of the endangered Greek meadow viper (Vipera graeca), an endemic venomous snake of fragmented alpine-subalpine meadows above 1600 m of the Pindos mountain range in Greece and Albania, to assess its susceptibility to anticipated changes in the alpine thermal environment. We measured preferred body temperature in artificial thermal gradient, field body temperatures of 74 individuals in five populations encompassing the entire geographic range of the species, and collected data on the available of temperatures for thermoregulation. We found that the preferred body temperature (T p ) differed only between the northernmost and the southernmost populations and increased with female body size but did not depend on sex or the gravidity status of females. T p increased with latitude but was unaffected by the phylogenetic position of the populations. We also found high accuracy of thermoregulation in V. graeca populations and variation in the thermal quality of habitats throughout the range. The overall effectiveness of thermoregulation was high, indicating that V. graeca successfully achieves its target temperatures and exploits the thermal landscape. Current climatic conditions limit the activity period by an estimated 1278 h per year, which is expected to increase considerably under future climate scenarios. Restricted time available for thermoregulation, foraging and reproduction will represent a serious threat to the fitness of individuals and the persistence of populations in addition to habitat loss due to mining, tourism or skiing and habitat degradation due to overgrazing in the shrinking mountaintop habitats of V. graeca., (© 2024. The Author(s).)

Published

2024

8. Genetic homogeneity, lack of larvae recruitment, and clonality in absence of females across western Mediterranean populations of the starfish Coscinasterias tenuispina.

Author

Pérez-Portela, Rocío, Garcia-Cisneros, Alex, Campos-Canet, Marta, and Palacín, Creu

Subjects

*STARFISHES, *FISH populations, *SEXING of fish, *FISH genetics

Abstract

We here analysed the populations' genetic structure of Coscinasterias tenuispina, an Atlantic-Mediterranean fissiparous starfish, focusing on the western Mediterranean, to investigate: the distribution and prevalence of genetic variants, the relative importance of asexual reproduction, connectivity across the Atlantic-Mediterranean transition, and the potential recent colonisation of the Mediterranean Sea. Individuals from 11 Atlantic-Mediterranean populations of a previous study added to 172 new samples from five new W Mediterranean sites. Individuals were genotyped at 12 microsatellite loci and their gonads histologically analysed for sex determination. Additionally, four populations were genotyped at two-time points. Results demonstrated genetic homogeneity and low clonal richness within the W Mediterranean, due to the dominance of a superclone, but large genetic divergence with adjacent areas. The lack of new genotypes recruitment over time, and the absence of females, confirmed that W Mediterranean populations were exclusively maintained by fission and reinforced the idea of its recent colonization. The existence of different environmental conditions among basins and/or density-depend processes could explain this lack of recruitment from distant areas. The positive correlation between clonal richness and heterozygote excess suggests that most genetic diversity is retained within individuals in the form of heterozygosity in clonal populations, which might increase their resilience. [ABSTRACT FROM AUTHOR]

Published

2021

9. Tsunami generation potential of a strike-slip fault tip in the westernmost Mediterranean.

Author

Estrada, F., González-Vida, J. M., Peláez, J. A., Galindo-Zaldívar, J., Ortega, S., Macías, J., Vázquez, J. T., and Ercilla, G.

Subjects

*TSUNAMIS, *STRIKE-slip faults (Geology), *SEISMIC response, *THEORY of wave motion

Abstract

Tsunamis are triggered by sudden seafloor displacements, and usually originate from seismic activity at faults. Nevertheless, strike-slip faults are usually disregarded as major triggers, as they are thought to be capable of generating only moderate seafloor deformation; accordingly, the tsunamigenic potential of the vertical throw at the tips of strike-slip faults is not thought to be significant. We found the active dextral NW–SE Averroes Fault in the central Alboran Sea (westernmost Mediterranean) has a historical vertical throw of up to 5.4 m at its northwestern tip corresponding to an earthquake of Mw 7.0. We modelled the tsunamigenic potential of this seafloor deformation by Tsunami-HySEA software using the Coulomb 3.3 code. Waves propagating on two main branches reach highly populated sectors of the Iberian coast with maximum arrival heights of 6 m within 21 and 35 min, which is too quick for current early-warning systems to operate successfully. These findings suggest that the tsunamigenic potential of strike-slip faults is more important than previously thought, and should be taken into account for the re-evaluation of tsunami early-warning systems. [ABSTRACT FROM AUTHOR]

Published

2021

10. Assessing effectiveness of exclusion fences in protecting threatened plants.

Author

Lorite, Juan, Salazar-Mendías, Carlos, Pawlak, Roza, and Cañadas, Eva María

Subjects

*ENDANGERED plants, *BIODIVERSITY, *CLIMATE change, *CONSERVATION biology

Abstract

Overgrazing stands out as threat factors on biodiversity, being especially harmful in the Mediterranean, due to strong human pressure and an accelerated climate change acting synergistically. Fencing is a common tool used in conservation biology to tackle this problem. Advantages of fences are usually fast, intuitive, and easy to evaluate. However, disadvantages could also arise (increasing interspecific competition, disturbing habitat structure, limiting pollination, reducing dispersion). Together with management issues (maintenance, conflicts with stakeholders, and pulling effect). Effectiveness of fencing for conservation has been frequently assessed for animals, while it is almost a neglected topic in plants. We evaluated the outcome of fencing three threatened and narrow-endemic plants. Selected 5 populations were only partly fenced, which allowed comparing different variables inside and outside the fence. For evaluating the fencing effects, we sampled several habitats (vegetation cover, composition, density of target species), and target-species features (individual size, neighbouring species, and fruit-set). Fencing had strong effects on the habitat and on target-species individuals, showing contrasting responses at species and population level. Particularly, for Erodium cazorlanum, fence had a positive effect in one case, and negative in another. In Hormathophylla baetica effect was positive in all populations. Finally, fencing negatively affected Solenanthus reverchonii by increasing competition and limiting seed-dispersal. Fencing outcome was different in assessed species, highlighting the need to a case-by-case evaluation to determine the net balance (pros vs. cons), also its suitability and most favourable option (i.e. permanent vs. temporary fences). [ABSTRACT FROM AUTHOR]

Published

2021

11. Impacts of sheep versus cattle livestock systems on birds of Mediterranean grasslands.

Author

Ramos, Rita F., Diogo, João A., Santana, Joana, Silva, João P., Reino, Luís, Schindler, Stefan, Beja, Pedro, Lomba, Angela, and Moreira, Francisco

Subjects

*LIVESTOCK, *PASTURES, *BIODIVERSITY, *BIRD diversity

Abstract

Mediterranean pastures are experiencing strong changes in management, involving shifts from sheep to cattle-based livestock systems. The impacts of such shifts on biodiversity are still poorly understood. Here, we sought to contrast the grazing regime, vegetation structure, bird species richness and abundance, between sheep and cattle grazed parcels, to understand the mechanisms through which management decisions impact farmland birds. During spring 2019, we characterized livestock management, bird populations and sward structure in 23 cattle and 27 sheep grazed parcels. We used a Structural Equation Model to infer the direct and indirect effects of sheep and cattle grazing on birds. Although no effects were found on overall species richness, there were species-specific responses to sheep and cattle grazed systems. Grazing pressure (variable integrating stocking rate and the number of days in the parcel) had negative impacts on the prevalence/abundance of Zitting Cisticola, Corn Bunting and Little Bustard, either directly or indirectly, through the effects of grazing pressure on vegetation height. Animal density and vegetation cover had direct positive effects in Galerida spp. and Common Quail, respectively. Zitting Cisticola and Little Bustard also showed a direct response to livestock type. Our study emphasizes the importance of grazing pressure as a driver of negative impacts for bird populations in Mediterranean grasslands. Since the ongoing transition from sheep to cattle-based systems involves increases in stocking rate, and therefore potentially higher grazing pressure, we propose a policy change to cap the maximum allowed grazing pressure. At the landscape scale, a mix of sheep and cattle grazed fields would be beneficial for maintaining bird diversity. [ABSTRACT FROM AUTHOR]

Published

2021

12. Assessing adaptive requirements and breeding potential of spelt under Mediterranean environment.

Author

Curzon, Arie Y., Kottakota, Chandrasekhar, Nashef, Kamal, Abbo, Shahal, Bonfil, David J., Reifen, Ram, Bar-El, Shimrit, Rabinovich, On, Avneri, Asaf, and Ben-David, Roi

Subjects

*SPELT, *WHEAT breeding, *GRAIN proteins, *PHOTOPERIODISM, *GRAIN yields, *MINERAL content of grain

Abstract

The rising demand for spelt wheat (Triticum aestivum ssp. spelta) as a high-value grain crop has raised interest in its introduction into non-traditional spelt growing areas. This study aimed to assess adaptive constrains of spelt under short Mediterranean season. At first screening of a wide spelt collection for phenology and allelic distribution at the photoperiod (PPD) and vernalization (VRN) loci was done. In addition an in-depth phenotypic evaluation of a selected panel (n = 20) was performed, including agronomically important traits and concentration of grain mineral (GMC) and grain protein (GPC) content. Results from both wide screening and in-depth in panel (group of 18 spelt lines and two bread wheat lines) evaluation shows that the major adaptive constraint for spelt under Mediterranean conditions is late heading, caused by day length sensitivity, as evident from phenology and allelic profile (PPD and VRN). All lines carrying the photoperiod-sensitive allele (PPD-D1b) were late flowering (> 120DH). Based on the panel field evaluations those consequently suffer from low grain yield and poor agronomic performances. As for minerals, GMC for all but Zn, significantly correlated with GPC. In general, GMC negatively correlated with yield which complicated the assessment of GMC per-se and challenge the claim for higher mineral content in spelt grains. The exceptions were, Fe and Zn, which did not correlate with yield. Spelt lines showing high Fe and Zn concentration in a high-yield background illustrate their potential for spelt wheat breeding. Improving spelt adaptation to Mediterranean environments could be mediated by introducing the insensitive-PPD-D1a allele to spelt wheat background. Following this breeding path spelt could better compete with bread wheat under short season with limited and fluctuating rain fall. [ABSTRACT FROM AUTHOR]

Published

2021

13. Spatial patterns of lower respiratory tract infections and their association with fine particulate matter.

Author

Asri, Aji Kusumaning, Pan, Wen-Chi, Lee, Hsiao-Yun, Su, Huey-Jen, Wu, Chih-Da, and Spengler, John D.

Subjects

*RESPIRATORY infections, *PARTICULATE matter, *DATABASES, *ESTIMATES

Abstract

This study aimed to identify the spatial patterns of lower respiratory tract infections (LRIs) and their association with fine particulate matter (PM2.5). The disability-adjusted life year (DALY) database was used to represent the burden each country experiences as a result of LRIs. PM2.5 data obtained from the Atmosphere Composition Analysis Group was assessed as the source for main exposure. Global Moran's I and Getis-Ord Gi* were applied to identify the spatial patterns and for hotspots analysis of LRIs. A generalized linear mixed model was coupled with a sensitivity test after controlling for covariates to estimate the association between LRIs and PM2.5. Subgroup analyses were performed to determine whether LRIs and PM2.5 are correlated for various ages and geographic regions. A significant spatial auto-correlated pattern was identified for global LRIs with Moran's Index 0.79, and the hotspots of LRIs were clustered in 35 African and 4 Eastern Mediterranean countries. A consistent significant positive association between LRIs and PM2.5 with a coefficient of 0.21 (95% CI 0.06–0.36) was identified. Furthermore, subgroup analysis revealed a significant effect of PM2.5 on LRI for children (0–14 years) and the elderly (≥ 70 years), and this effect was confirmed to be significant in all regions except for those comprised of Eastern Mediterranean countries. [ABSTRACT FROM AUTHOR]

Published

2021

14. Contrasting multitaxon responses to climate change in Mediterranean mountains.

Author

Di Nuzzo, Luca, Vallese, Chiara, Benesperi, Renato, Giordani, Paolo, Chiarucci, Alessandro, Di Cecco, Valter, Di Martino, Luciano, Di Musciano, Michele, Gheza, Gabriele, Lelli, Chiara, Spitale, Daniel, and Nascimbene, Juri

Subjects

*CLIMATE change, *SPECIES diversity, *CRYPTOGAMS, *BRYOPHYTES

Abstract

We explored the influence of climatic factors on diversity patterns of multiple taxa (lichens, bryophytes, and vascular plants) along a steep elevational gradient to predict communities' dynamics under future climate change scenarios in Mediterranean regions. We analysed (1) species richness patterns in terms of heat-adapted, intermediate, and cold-adapted species; (2) pairwise beta-diversity patterns, also accounting for its two different components, species replacement and richness difference; (3) the influence of climatic variables on species functional traits. Species richness is influenced by different factors between three taxonomic groups, while beta diversity differs mainly between plants and cryptogams. Functional traits are influenced by different factors in each taxonomic group. On the basis of our observations, poikilohydric cryptogams could be more impacted by climate change than vascular plants. However, contrasting species-climate and traits-climate relationships were also found between lichens and bryophytes suggesting that each group may be sensitive to different components of climate change. Our study supports the usefulness of a multi-taxon approach coupled with a species traits analysis to better unravel the response of terrestrial communities to climate change. This would be especially relevant for lichens and bryophytes, whose response to climate change is still poorly explored. [ABSTRACT FROM AUTHOR]

Published

2021

15. Natron glass beads reveal proto-Silk Road between the Mediterranean and China in the 1st millennium BCE.

Author

Lü, Qin-Qin, Henderson, Julian, Wang, Yongqiang, and Wang, Binghua

Subjects

*GLASS beads, *DIFFUSION, *GLASS industry

Abstract

Natron-based glass was a vital part of material culture in the Mediterranean and Europe for nearly two millennia, but natron glass found elsewhere on the Eurasian Continent has not received adequate discussion, despite its influence on ancient Asian glass. Here we present a new interpretation of natron glass finds from both the West and the East. After establishing the compositional types and technological sequence of Mediterranean natron glass (eighth-second century BCE) using trace elements, we report the analysis of a mid-1st millennium BCE glass bead from Xinjiang, China, which was likely made with Levantine raw glass, and identify common types of stratified eye beads in Eurasia based on a compositional and typological comparison. Combining these findings, we propose that a considerable number of Mediterranean natron glass products had arrived in East Asia at least by the fifth century BCE, which may have been a contributing factor in the development of native Chinese glass-making. The swift diffusion of natron glass across Eurasia in the 1st millennium BCE was likely facilitated by a three-stage process involving maritime and overland networks and multiple forms of trade and exchange, indicating a highly adaptable and increasingly efficient transcontinental connection along the 'Proto-Silk Road'. [ABSTRACT FROM AUTHOR]

Published

2021

16. Early evidence of sheep lambing de-seasoning in the Western Mediterranean in the sixth millennium BCE.

Author

Tornero, Carlos, Balasse, Marie, Bréhard, Stéphanie, Carrère, Isabelle, Fiorillo, Denis, Guilaine, Jean, Vigne, Jean-Denis, and Manen, Claire

Subjects

*CATTLE parturition, *SHEEP physiology, *SHEEP ranchers, *NEOLITHIC Period

Abstract

Today, sheep farmers in the Western Mediterranean de-season their ewes to achieve autumnal births. This strategy contrasts sharply with spring lambing further north, and provides benefits in terms of out-of-season availability of animal products. These competences are closely linked to specific sheep physiology and favorable Western Mediterranean climatic conditions. It is not known exactly how far back in the past the ability to de-season Mediterranean sheep breeds extends. This study shows that this practice existed seven millennia ago in Southern France, at an early stage of the major agricultural expansion of the Neolithic into the Western Mediterranean. To achieve this reproductive management regime, three prerequisites were required: (i) the ability of sheep to give birth in autumn, constituting early evidence for the genetic selection of specimens with prolonged reproductive fertility; (ii) intentional management of female and male interactions within the herd, which would have required good knowledge of the timing of the fertility cycle in ewes, and; (iii) adequate pasture resources to support lactation in the autumn, possibly favored by autumnal rains, substantiating previous paleoclimatological data for the existence of a Mediterranean-type precipitation regime at that time. Moreover, we also show that winter foddering of sheep occurred, using forest resources, and that this maintained good body weights for spring mating. These findings add pivotal information about shepherding practices and the socio-economic abilities of Early Neolithic communities, which allowed for the extension of their areas of influence from the Eastern Mediterranean area to the West during the Early Neolithic agricultural expansion in Europe. [ABSTRACT FROM AUTHOR]

Published

2020

17. Genetic diversity and population structure of the rockpool shrimp Palaemon elegans based on microsatellites: evidence for a cryptic species and differentiation across the Atlantic–Mediterranean transition.

Author

González-Castellano, Inés, González-López, Jorge, González-Tizón, Ana M., and Martínez-Lage, Andrés

Subjects

*PALAEMON, *MICROSATELLITE repeats, *HETEROZYGOSITY, *SPECIES diversity

Abstract

The rockpool shrimp Palaemon elegans is an ecologically important crustacean species within the European coastline fauna. In the present study, genetic diversity and population structure and connectivity were assessed by examining 21 polymorphic microsatellite loci at 13 sampling sites located along the natural distribution range. All localities showed similar levels of genetic variability. Significant deficits of heterozygosity were recorded, most likely due to the presence of null alleles. Genetic structure analyses revealed two clearly genetically distinct groups within P. elegans but without following any geographical or oceanographic basis. Thus, our results provided nuclear evidence for the existence of a Mediterranean cryptic species within P. elegans, highlighting the need to revise its taxonomic status. Regarding P. elegans sensu stricto, population structuring was reported across the Atlantic–Mediterranean transition area, where the Almería-Orán Front restricts the gene flow between the Atlantic and the Mediterranean population. Moreover, while population connectivity was suggested between all Mediterranean localities, some substructure was found within the Atlantic group. Canary Islands exhibited a weak but significant genetic differentiation from all Atlantic mainland localities, consistent with the isolation-by-distance pattern detected throughout the Atlantic population. Overall, all these findings provided new insights into the population biology of P. elegans complex. [ABSTRACT FROM AUTHOR]

Published

2020

18. Persistent warm Mediterranean surface waters during the Roman period.

Author

Margaritelli, G., Cacho, I., Català, A., Barra, M., Bellucci, L. G., Lubritto, C., Rettori, R., and Lirer, F.

Subjects

*OCEAN temperature, *FORAMINIFERA, *TEMPERATURE, ROMAN Period, Great Britain, 55 B.C.-449 A.D.

Abstract

Reconstruction of last millennia Sea Surface Temperature (SST) evolution is challenging due to the difficulty retrieving good resolution marine records and to the several uncertainties in the available proxy tools. In this regard, the Roman Period (1 CE to 500 CE) was particularly relevant in the socio-cultural development of the Mediterranean region while its climatic characteristics remain uncertain. Here we present a new SST reconstruction from the Sicily Channel based in Mg/Ca ratios measured on the planktonic foraminifer Globigerinoides ruber. This new record is framed in the context of other previously published Mediterranean SST records from the Alboran Sea, Minorca Basin and Aegean Sea and also compared to a north Hemisphere temperature reconstruction. The most solid image that emerges of this trans-Mediterranean comparison is the persistent regional occurrence of a distinct warm phase during the Roman Period. This record comparison consistently shows the Roman as the warmest period of the last 2 kyr, about 2 °C warmer than average values for the late centuries for the Sicily and Western Mediterranean regions. After the Roman Period a general cooling trend developed in the region with several minor oscillations. We hypothesis the potential link between this Roman Climatic Optimum and the expansion and subsequent decline of the Roman Empire. [ABSTRACT FROM AUTHOR]

Published

2020

19. Climate change over the Mediterranean and current destruction of marine ecosystem.

Author

Kim, Go-Un, Seo, Kyong-Hwan, and Chen, Deliang

Subjects

*CLIMATE change, *MARINE ecology, *TELECONNECTIONS (Climatology), *MONSOONS

Abstract

The Mediterranean is one of the most vulnerable regions to climate change and its summer climate is known to be affected by the South Asian summer monsoon (SASM) through the monsoon–desert teleconnection. In future, rainfall is expected to increase not only over the SASM area but also over the East Asian summer monsoon (EASM) and equatorial Atlantic regions. Here we show that the remote forcing regions affect the Mediterranean climate in the future. A subset of CMIP5 climate simulations exhibits an increase in the descending motion over the Western Mediterranean in the future. This strengthened subsidence comes from the SASM, EASM, and Atlantic forcings: the SASM and EASM heating induces the Gill-type Rossby wave response, and the Atlantic forcing causes the northeastward wave energy propagation. The sea surface temperature change over the Western Mediterranean is consistent with the subsidence change both in the future and in the recent decades. The chlorophyll-a concentration and fisheries landings have decreased in the recent period along with sea surface temperature warming. Our results suggest that special attention is required to conserve the marine ecosystem in the Mediterranean as climate warms. [ABSTRACT FROM AUTHOR]

Published

2019

20. Diverse phylogenetic neighborhoods enhance community resistance to drought in experimental assemblages

Author

Adrián Escudero, Pablo Ferrandis, Rocío Chaves, and Arantzazu L. Luzuriaga

Subjects

0106 biological sciences, Conservation of Natural Resources, Science, Biodiversity, drought, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Species Specificity, experimental assemblages, Phylogenetics, Stress, Physiological, Ecosystem, Community ecology, Plant ecology, Phylogeny, Plant Physiological Phenomena, annual plants, Multidisciplinary, Phylogenetic tree, Resistance (ecology), Ecology, Mediterranean Region, fungi, coexistence, Water, food and beverages, Plant community, 15. Life on land, Plants, Droughts, 010601 ecology, Phylogenetic diversity, Habitat, Spain, Linear Models, community assembly, phylogenetic diversity, Medicine, niche complementarity, common garden

Abstract

Although the role played by phylogeny in the assembly of plant communities remains as a priority to complete the theory of species coexistence, experimental evidence is lacking. It is still unclear to what extent phylogenetic diversity is a driver or a consequence of species assembly processes. We experimentally explored how phylogenetic diversity can drive the community level responses to drought conditions in annual plant communities. We manipulated the initial phylogenetic diversity of the assemblages and the water availability in a common garden experiment with two irrigation treatments: average natural rainfall and drought, formed with annual plant species of gypsum ecosystems of Central Spain. We recorded plant survival and the numbers of flowering and fruiting plants per species in each assemblage. GLMMs were performed for the proportion of surviving, flowering, fruiting plants per species and for total proportion of surviving species and plants per pot. In water limited conditions, high phylogenetic diversity favored species coexistence over time with higher plant survival and more flowering and fruiting plants per species and more species and plants surviving per pot. Our results agree with the existence of niche complementarity and the convergence of water economy strategies as major mechanisms for promoting species coexistence in plant assemblages in semiarid Mediterranean habitats. Our findings point to high phylogenetic diversity among neighboring plants as a plausible feature underpinning the coexistence of species, because the success of each species in terms of surviving and producing offspring in drought conditions was greater when the initial phylogenetic diversity was higher. Our study is a step forward to understand how phylogenetic relatedness is connected to the mechanisms determining the maintenance of biodiversity.

Published

2021

21. Genetic homogeneity, lack of larvae recruitment, and clonality in absence of females across western Mediterranean populations of the starfish Coscinasterias tenuispina

Author

Marta Campos-Canet, Alex Garcia-Cisneros, Rocío Pérez-Portela, and Creu Palacín

Subjects

Western Mediterranean, Male, Mediterranean climate, Heterozygote, Time Factors, Asexual reproduction, Population genetics, Science, Zoology, Estrelles de mar, Article, Starfish, Mediterranean sea, Animals, Cluster Analysis, Gonads, Marine biology, Genetic diversity, Genètica de poblacions, Multidisciplinary, Geography, biology, Mediterranean Region, Ecological genetics, Genetic Variation, Reproducció asexual, Bayes Theorem, Biodiversity, Sex Determination Processes, biology.organism_classification, Clone Cells, Starfishes, Colonisation, Genetic divergence, Larva, Coscinasterias tenuispina, Genetic structure, Medicine, Mediterrània occidental, Female, Molecular ecology, Population Genetics

Abstract

We here analysed the populations’ genetic structure ofCoscinasterias tenuispina,an Atlantic-Mediterranean fissiparous starfish,focusing on the western Mediterranean,to investigate: the distribution and prevalence of genetic variants, the relative importance of asexual reproduction, connectivity across the Atlantic-Mediterranean transition, and the potential recent colonisation of the Mediterranean Sea. Individuals from 11 Atlantic-Mediterranean populations of a previous study added to 172 new samples from five new W Mediterranean sites. Individuals were genotyped at 12 microsatellite loci and their gonads histologically analysed for sex determination. Additionally, four populations were genotyped at two-time points. Results demonstrated genetic homogeneity and low clonal richness within the W Mediterranean, due to the dominance of asuperclone, but large genetic divergence with adjacent areas. The lack of new genotypes recruitment over time, and the absence of females, confirmed that W Mediterranean populations were exclusively maintained by fission and reinforced the idea of its recent colonization. The existence of different environmental conditions among basins and/or density-depend processes could explain this lack of recruitment from distant areas. The positive correlation between clonal richness and heterozygote excess suggests that most genetic diversity is retained within individuals in the form of heterozygosity in clonal populations, which might increase their resilience.

Published

2021

22. Clay and climatic variability explain the global potential distribution of Juniperus phoenicea toward restoration planning

Author

Mohammed A, Dakhil, Reham F, El-Barougy, Ali, El-Keblawy, and Emad A, Farahat

Subjects

Conservation of Natural Resources, Mediterranean Region, Juniperus, Clay, Humans, Ecosystem, Trees

Abstract

Juniperus phoenicea is a medicinal conifer tree species distributed mainly in the Mediterranean region, and it is IUCN Red Listed species, locally threatened due to arid conditions and seed over-collection for medicinal purposes, particularly in the East-Mediterranean region. Several studies have addressed the potential distribution of J. phoenicea using bioclimatic and topographic variables at a local or global scale, but little is known about the role of soil and human influences as potential drivers. Therefore, our objectives were to determine the most influential predictor factors and their relative importance that might be limiting the regeneration of J. phoenicea, in addition, identifying the most suitable areas which could be assumed as priority conservation areas. We used ensemble models for species distribution modelling. Our findings revealed that aridity, temperature seasonality, and clay content are the most important factors limiting the potential distribution of J. phoenicea. Potentially suitable areas of the output maps, in which J. phoenicea populations degraded, could be assumed as decision-support tool reforestation planning. Other suitable areas, where there was no previous tree cover are a promising tool for afforestation and conservation planning. Finally, conservation actions are needed for natural habitats, particularly in the arid and semi-arid regions, which are highly threatened by global warming.

Published

2022

23. Elucidating the limiting factors for regeneration and successful establishment of the thermophilic tree Ziziphus spina-christi under a changing climate

Author

Yotam Zait, Amnon Schwartz, and Irit Konsens

Subjects

0301 basic medicine, Mediterranean climate, Climate Change, Plant physiology, lcsh:Medicine, Germination, Photosynthesis, Article, 03 medical and health sciences, 0302 clinical medicine, Plant ecology, lcsh:Science, Relative species abundance, Ziziphus spina-christi, Multidisciplinary, biology, Mediterranean Region, lcsh:R, Temperature, Water, Ziziphus, biology.organism_classification, Photosynthetic capacity, Horticulture, 030104 developmental biology, Seedling, Seedlings, Plant stress responses, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Due to climate change, winter temperatures are predicted to increase worldwide. For thermophilic trees, highly sensitive to low temperatures, an increase in winter temperatures may be beneficial for survival and regeneration. Ziziphus spina-christi is a thermophilic tree that has recently become more abundant and widespread in the eastern Mediterranean, presumably due to a gradual increase in winter temperatures. We aim to define the temperature limitations for seed germination and the growth and survival of young seedlings to broaden our understanding of the future geographical distribution of this species. We studied effects of temperature on germination, growth, and photosynthesis in a controlled environment with four different day/night temperature regimes (34/28 °C, 28/22 °C, 22/16 °C and 16/10 °C). Effects of endocarp on germination and seed germination in the field were also studied. Results showed that germination has a lower thermal optimum (34–22 °C, 63.5–67.5% germination) than growth and photosynthesis (34–28 °C). Moderate cold stress (22/16 °C), did not affect germination capacity, but strongly reduced seedling growth (71%) and photosynthetic capacity (44.6%). Under severe cold stress (16/10 °C), germination still occurs (22%), but seedlings cannot perform growth and photosynthesis. We conclude that slow seedling growth, not germination, is the main barrier for successful establishment of Z. spina-christi under low temperature. Warmer winters could lead to earlier establishment of seedlings and increase their chance of survival the following summer. This may explain the recent increase in the tree’s relative abundance and further highlight the potential spread of this species at higher altitudes and latitudes across the Mediterranean.

Published

2020

24. The role of forest structure and composition in driving the distribution of bats in Mediterranean regions

Author

Orly Razgour, Roberto Novella-Fernandez, Jesús Nogueras Montiel, Carlos Ibanez, Javier Juste, and Patrick E. Osborne

Subjects

Multidisciplinary, Mediterranean Region, Chiroptera, Animals, Forests, Ecosystem, Trees

Abstract

Forests are key native habitats in temperate environments. While their structure and composition contribute to shaping local-scale community assembly, their role in driving larger-scale species distributions is understudied. We used detailed forest inventory data, an extensive dataset of occurrence records, and species distribution models integrated with a functional approach, to disentangle mechanistically how species-forest dependency processes drive the regional-scale distributions of nine forest specialist bats in a Mediterranean region in the south of Spain. The regional distribution patterns of forest bats were driven primarily by forest composition and structure rather than by climate. Bat roosting ecology was a key trait explaining the strength of the bat-forest dependency relationships. Tree roosting bats were strongly associated with mature and heterogeneous forest with large trees (diameters > 425 mm). Conversely, and contrary to what local-scale studies show, our results did not support that flight-related traits (wing loading and aspect ratio) drive species distributional patterns. Mediterranean forests are expected to be severely impacted by climate change. This study highlights the utility of disentangling species-environment relationships mechanistically and stresses the need to account for species-forest dependency relationships when assessing the vulnerability of forest specialists towards climate change.

Published

2022

25. Population structure and adaptive variation of Helichrysum italicum (Roth) G. Don along eastern Adriatic temperature and precipitation gradient

Author

Tonka Ninčević, Marija Jug-Dujaković, Martina Grdiša, Zlatko Liber, Filip Varga, Dejan Pljevljakušić, and Zlatko Šatović

Subjects

Helichrysum, Multidisciplinary, Plant genetics, immortelle, wild populations, AFLP markers, genetic diversity, local adaptation, outlier loci detection, Mediterranean Region, Population genetics, Science, Genetic Drift, Temperature, Genetic Variation, Bayes Theorem, Adaptation, Physiological, Article, Genetics, Medicine, Amplified Fragment Length Polymorphism Analysis, Selection, Genetic, Plant sciences

Abstract

Immortelle (Helichrysum italicum (Roth) G. Don; Asteraceae) is a perennial plant species native to the Mediterranean region, known for many properties with wide application mainly in perfume and cosmetic industry. A total of 18 wild H. italicum populations systematically sampled along the eastern Adriatic environmental gradient were studied using AFLP markers to determine genetic diversity and structure and to identify loci potentially responsible for adaptive divergence. Results showed higher levels of intrapopulation diversity than interpopulation diversity. Genetic differentiation among populations was significant but low, indicating extensive gene flow between populations. Bayesian analysis of population structure revealed the existence of two genetic clusters. Combining the results of FST - outlier analysis (Mcheza and BayeScan) and genome-environment association analysis (Samβada, LFMM) four AFLP loci strongly associated with the bioclimatic variables Bio03 Isothermality, Bio08 Mean temperature of the wettest quarter, Bio15 Precipitation seasonality, and Bio17 Precipitation of driest quarter were found to be the main variables driving potential adaptive genetic variation in H. italicum along the eastern Adriatic environmental gradient. Redundancy analysis revealed that the partitioning of genetic variation was mainly associated with the adaptation to temperature oscillations. The results of the research may contribute to a clearer understanding of the importance of local adaptations for the genetic differentiation of Mediterranean plants and allow the planning of appropriate conservation strategies. However, considering that the identified outlier loci may be linked to genes under selection rather than being the target of natural selection, future studies must aim at their additional analysis.

Published

2021

26. Kikuchi-Fujimoto disease in the Eastern Mediterranean zone

Author

Abdel Rahman Al Manasra, Hamzeh Al-Domaidat, Mohd Asim Aideh, Doaa Al Qaoud, Majd Al Shalakhti, Sohaib Al khatib, Jehad Fataftah, Raed Al-Taher, and Mohammad Nofal

Subjects

Adult, Male, Multidisciplinary, Jordan, Adolescent, Mediterranean Region, Biopsy, Middle Aged, Young Adult, Child, Preschool, Prevalence, Humans, Female, Lymph Nodes, Child, Histiocytic Necrotizing Lymphadenitis, Retrospective Studies

Abstract

Kikuchi–Fujimoto disease (KFD) is a rare benign and self-limiting syndrome. We aim to review cases of KFD at our institution as a rare illness in the Arab ethnic descent and to analyse reports from most countries in the East Mediterranean zone. This is a retrospective study in which the histopathology database was searched for the diagnosis of KFD. A full review of KFD patients’ medical records was done. Data regarding demographic features, clinical presentation, laboratory findings, comorbidities, and management protocols were obtained. Published KFD cases from east Mediterranean countries were discussed and compared to other parts of the world. Out of 1968 lymph node biopsies studied, 11 (0.6%) cases of KFD were identified. The mean age of patients with KFD was 32 years (4–59). 73% (8/11) were females. The disease was self-limiting in 5 patients (45%); corticosteroid therapy was needed in 4 patients (34%). One patient was treated with methotrexate and one with antibiotics. One patient died as a consequence of lymphoma. Jordanians and Mediterranean populations, especially those of Arab ethnic background, seem to have low rates of KFD. The genetic susceptibility theory may help to explain the significantly higher disease prevalence among East Asians. Early diagnosis of KFD—although challenging—is essential to reduce the morbidity related to this illness.

Published

2021

27. The changing distribution of Leishmania infantum Nicolle, 1908 and its Mediterranean sandfly vectors in the last 140 kys

Author

Viktor Sebestyén and Attila János Trájer

Subjects

0301 basic medicine, Mediterranean climate, Parasitic infection, Climate Change, lcsh:Medicine, Article, 03 medical and health sciences, 0302 clinical medicine, Mediterranean sea, Refugium (population biology), Animals, Glacial period, Leishmania infantum, lcsh:Science, Holocene, Multidisciplinary, biology, Mediterranean Region, Ecology, lcsh:R, Last Glacial Maximum, biology.organism_classification, Insect Vectors, Sandfly, 030104 developmental biology, Geography, Biogeography, Phlebotomus, Interglacial, lcsh:Q, 030217 neurology & neurosurgery

Abstract

The understanding of the effects of past climatic changes on the distribution of vector arthropods can strongly support the understanding of the future potential impact of anthropogenic climatic change on the geographical risk of vector-borne diseases. The zoogeographical patterns of the European sandfly vectors may suffer the continuously changing climate of the last 140 kys. The former range of L. infantum and six Phlebotomus species were modelled for the Last Interglacial, the Last Glacial Maximum and the Mid-Holocene Periods. It was found that the potential distribution of the parasite was much smaller in the Last Glacial Period L. infantum mainly could persist in the western shelves of the Mediterranean Sea. West and East Mediterranean sandfly species inhabited partly distinct refugia. The Apennine Peninsula, Sicily and the Iberian refugium formed a habitat chain along with the coastal areas of the West Mediterranean Basin. There was no direct connection between the Eastern and the Western sandfly refugia in the last 140 kys. The modelled distribution of sandfly taxa for the Middle Holocene Period can explain the relict populations of sandfly taxa in such Central European countries. The former genetic studies strongly confirm the existence of the modelled glacial refugees.

Published

2019

28. Wheat and barley can increase grain yield in shade through acclimation of physiological and morphological traits in Mediterranean conditions

Author

M. L. López-Díaz, Victor Rolo, M. G. Arenas-Corraliza, and Gerardo Moreno

Subjects

0301 basic medicine, Chlorophyll, Light, Acclimatization, lcsh:Medicine, Biology, Photosynthesis, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Quantitative Trait, Heritable, Stress, Physiological, Light responses, Cultivar, lcsh:Science, Triticum, 2. Zero hunger, Multidisciplinary, Mediterranean Region, Crop yield, lcsh:R, Hordeum, 15. Life on land, Heat, Adaptation, Physiological, Plant Leaves, 030104 developmental biology, chemistry, Agronomy, Compensation point, Photosynthetically active radiation, lcsh:Q, Hordeum vulgare, Light stress, Edible Grain, 030217 neurology & neurosurgery

Abstract

Major cereal yields are expected to decline significantly in coming years due to the effects of climate change temperature rise. Agroforestry systems have been recognized as a useful land management strategy that could mitigate these effects through the shelter provided by trees, but it is unclear how shade affects cereal production. Most cereal species and cultivars have been selected for full light conditions, making it necessary to determine those able to acclimate to low irradiance environments and the traits that drive this acclimation. A greenhouse experiment was conducted in central Spain to assess the photosynthetic response, leaf morphology and grain yield of nine cultivars of winter wheat (Triticum aestivum L.) and barley (Hordeum vulgare L.) at three levels of photosynthetic active radiation (100%, 90% and 50%). Cultivars were selected according to three different precocity categories and were widely used in the studied area. The main objective was to assess whether the species and cultivars could acclimate to partial shade through physiological and morphological acclimations and thus increase their grain yield for cultivation in agroforestry systems. Both species increased grain yield by 19% in shade conditions. However, they used different acclimation strategies. Barley mostly performed a physiological acclimation, while wheat had a major morphological adjustment under shaded environment. Barley had lower dark respiration (42%), lower light compensation point (73%) and higher maximum quantum yield (48%) than wheat in full light conditions, revealing that it was a more shade-tolerant species than wheat. In addition, to acclimate to low irradiance conditions, barley showed a 21% reduction of the carotenoids/chlorophyll ratio in the lowest irradiance level compared to 100% light availability and adjusted the chlorophyll a/b ratio, photosystem II quantum efficiency, electron transport rate and non-photochemical quenching to shade conditions. On the other hand, wheat showed a 48% increase in single leaf area in the 50% irradiance level than in full light to maximize light capture. Our results showed that current commercialized wheat and barley cultivars had sufficient plasticity for adaptation to shade, supporting tree presence as a tool to reduce the negative effects of climate change.

Published

2019

29. Remotely sensed indicators and open-access biodiversity data to assess bird diversity patterns in Mediterranean rural landscapes

Author

Cristina Domingo, Pere Serra, Xavier Pons, Jorge Palma, Inês Ribeiro, Tiago Domingos, and Vânia Proença

Subjects

0301 basic medicine, Mediterranean climate, 0106 biological sciences, 010504 meteorology & atmospheric sciences, Biodiversity, lcsh:Medicine, Forests, 010603 evolutionary biology, 01 natural sciences, Normalized Difference Vegetation Index, Article, Birds, 03 medical and health sciences, 0302 clinical medicine, Geographical distance, Animals, Satellite imagery, Ecosystem, Community ecology, lcsh:Science, 0105 earth and related environmental sciences, Multidisciplinary, Portugal, Ecology, Mediterranean Region, lcsh:R, Vegetation, 15. Life on land, 030104 developmental biology, Geography, Habitat, lcsh:Q, Physical geography, Indicator value, Species richness, 030217 neurology & neurosurgery

Abstract

Changes in ecosystem area are often used to assess human impacts on habitats and estimate biodiversity change. However, because species respond to structural changes at fine spatial scales the use of area alone may not capture all relevant changes. Operational costs limit the assessment of biodiversity change at a simultaneously fine spatial resolution and large scales. The development of cost-effective and expedite methods to monitor biodiversity change is therefore required. We use open access satellite imagery and biodiversity data to investigate the importance of variables of habitat extent and structure in explaining species richness and community dissimilarity of forest and open-land birds at the regional scale. Moreover, because Mediterranean landscapes are subject to seasonal dynamics, we explore the indicator value of remotely sensed variables measured in spring and summer. A large-scale dataset of bird occurrence data, including 8042 observations and 78 species, distributed by 40 landscape-sized cells, was assembled from GBIF after controlling for data quality. We found that summer satellite imagery, when the green perennial vegetation is more apparent, is particularly suited to model the diversity patterns of forest species, because distribution of tree cover in the landscape is well captured. Summer data is also useful to monitor the perennial elements that shape landscape structure and the habitat of open-land species. Specifically, mean NDVI and a second-order NDVI texture variable, were found to be good indicators of forest and open-land habitats, respectively. The use of spring imagery appears to be useful to monitor habitat structure within open-land habitat patches. Overall, NDVI texture measures were found to be good predictors of bird diversity patterns at large scales. Also, we were able to successfully conduct a regional scale analysis using open-access data, which illustrates their potential to inform large scale biodiversity monitoring.

Published

2019

30. A Mediterranean mesophotic coral reef built by non-symbiotic scleractinians

Author

Eliana Valenzano, Caterina Longo, Stefania Nunzia Lisco, Cataldo Pierri, Massimo Moretti, Giuseppe Corriero, Adriana Giangrande, Frine Cardone, Carlotta Nonnis Marzano, Maria Flavia Gravina, Francesco De Giosa, Maria Mastrodonato, Senem Onen Tarantini, Maria Mercurio, Corriero, Giuseppe, Pierri, Cataldo, Mercurio, Maria, NONNIS MARZANO, Carlotta, ONEN TARANTINO, Senm, FLAVIA GRAVINA, Maria, Lisco, Stefania, Moretti, Massimo, DE GIOSA, Francesco, Valenzano, Elena, Giangrande, Adriana, Mastrototaro, Maria, Longo, Catertina, and Cardone, Frine

Subjects

Mediterranean Sea, cold water corals, 0301 basic medicine, Mediterranean climate, Settore BIO/07, Coral, lcsh:Medicine, Mesophotic habitat, Article, 03 medical and health sciences, 0302 clinical medicine, Animals, Symbiosis, lcsh:Science, Reef, Polychaete, geography, Multidisciplinary, geography.geographical_feature_category, biology, Ecology, Coral Reefs, Mediterranean Region, lcsh:R, Mesophotic coral reef, Coral reef, Biodiversity, biology.organism_classification, Anthozoa, Invertebrates, 030104 developmental biology, Polycyathus muellerae, Benthic zone, scleractinians, Mediterranean sea, coral reef, lcsh:Q, 030217 neurology & neurosurgery

Abstract

This is the first description of a Mediterranean mesophotic coral reef. The bioconstruction extended for 2.5 km along the Italian Adriatic coast in the bathymetric range −30/−55 m. It appeared as a framework of coral blocks mostly built by two scleractinians, Phyllangia americana mouchezii (Lacaze-Duthiers, 1897) and Polycyathus muellerae (Abel, 1959), which were able to edify a secondary substrate with high structural complexity. Scleractinian corallites were cemented by calcified polychaete tubes and organized into an interlocking meshwork that provided the reef stiffness. Aggregates of several individuals of the bivalve Neopycnodonte cochlear (Poli, 1795) contributed to the compactness of the structure. The species composition of the benthic community showed a marked similarity with those described for Mediterranean coralligenous communities and it appeared to be dominated by invertebrates, while calcareous algae, which are usually considered the main coralligenous reef-builders, were poorly represented. Overall, the studied reef can be considered a unique environment, to be included in the wide and diversified category of Mediterranean bioconstructions. The main reef-building scleractinians lacked algal symbionts, suggesting that heterotrophy had a major role in the metabolic processes that supported the production of calcium carbonate. The large amount of available suspended organic matter in the area could be the main nutritional source for these species, as already suggested in the literature referred to Mediterranean cold-water corals.

Published

2019

31. Impacts of sheep versus cattle livestock systems on birds of Mediterranean grasslands

Author

João A. Diogo, Pedro Beja, Francisco Moreira, Rita F. Ramos, Luís Reino, João P. Silva, Joana Santana, Angela Lomba, and Stefan Schindler

Subjects

Grassland ecology, 0106 biological sciences, Conservation of Natural Resources, Livestock, Science, animal diseases, Biodiversity, Cisticola, 010603 evolutionary biology, 01 natural sciences, Article, Grazing pressure, Birds, Environmental impact, 03 medical and health sciences, Mediterranean grasslands, parasitic diseases, Grazing, Animals, Corn bunting, Herbivory, Bustard, 030304 developmental biology, 0303 health sciences, Sheep, Multidisciplinary, biology, Mediterranean Region, business.industry, livestock systems, Agriculture, Models, Theoretical, biology.organism_classification, Grassland, Agronomy, birds, impact, Medicine, Cattle, Species richness, business, Agroecology

Abstract

Mediterranean pastures are experiencing strong changes in management, involving shifts from sheep to cattle-based livestock systems. The impacts of such shifts on biodiversity are still poorly understood. Here, we sought to contrast the grazing regime, vegetation structure, bird species richness and abundance, between sheep and cattle grazed parcels, to understand the mechanisms through which management decisions impact farmland birds. During spring 2019, we characterized livestock management, bird populations and sward structure in 23 cattle and 27 sheep grazed parcels. We used a Structural Equation Model to infer the direct and indirect effects of sheep and cattle grazing on birds. Although no effects were found on overall species richness, there were species-specific responses to sheep and cattle grazed systems. Grazing pressure (variable integrating stocking rate and the number of days in the parcel) had negative impacts on the prevalence/abundance of Zitting Cisticola, Corn Bunting and Little Bustard, either directly or indirectly, through the effects of grazing pressure on vegetation height. Animal density and vegetation cover had direct positive effects in Galerida spp. and Common Quail, respectively. Zitting Cisticola and Little Bustard also showed a direct response to livestock type. Our study emphasizes the importance of grazing pressure as a driver of negative impacts for bird populations in Mediterranean grasslands. Since the ongoing transition from sheep to cattle-based systems involves increases in stocking rate, and therefore potentially higher grazing pressure, we propose a policy change to cap the maximum allowed grazing pressure. At the landscape scale, a mix of sheep and cattle grazed fields would be beneficial for maintaining bird diversity.

Published

2021

32. Biogeography of Rhaponticoides, an Irano-Turanian element in the Mediterranean flora.

Author

Bozkurt M, Calleja Alarcón JA, Uysal T, Garcia-Jacas N, Ertuğrul K, and Susanna A

Subjects

Phylogeny, Phylogeography, Bayes Theorem, Europe, Mediterranean Region, Asteraceae

Abstract

Floristic relationships between the Irano-Turanian and Mediterranean regions have been known from old. However, only a few biogeographical analyses based on molecular data have evaluated the history of steppe plants within the Mediterranean basin. Our study aims to contribute to a better understanding of the migratory and diversification processes by reconstructing the biogeography of Rhaponticoides (Cardueae), distributed in the Mediterranean and Irano-Turanian regions. We generated nuclear and plastid sequences that were analyzed by Bayesian inference. We used the resulting phylogeny for dating the diversification of the genus and examining the dispersal pathways. Two clades were recovered, an Irano-Turanian clade and a Mediterranean clade. The origin of the genus was placed in the Anatolian plateau in the Middle Miocene. The genus experienced several diversifications and expansions correlated to the Messinian salinity crisis and the environmental changes in the Pliocene and the Quaternary. Rhaponticoides migrated following two routes reflecting the two souls of the genus: Irano-Turanian taxa colonized the steppes of Eurasia whilst Mediterranean species migrated via eastern and central Mediterranean and North Africa, leaving a trail of species; both pathways ended in the Iberian Peninsula. Our study also confirms that more work is needed to unravel phylogenetic relationships in Rhaponticoides., (© 2022. The Author(s).)

Published

2022

33. Richness and Diversity in Dust Stormborne Biomes at the Southeast Mediterranean.

Author

Katra, Itzhak, Arotsker, Luba, Krasnov, Helena, Zaritsky, Arieh, Kushmaro, Ariel, and Ben-Dov, Eitan

Subjects

*BIOMES, *ECOSYSTEMS, *DUST storms, *BIOTIC communities, *PATHOGENIC microorganisms

Abstract

Dust storms include particulate matter that is transported over land and sea with biota that could impact downwind ecosystems. In addition to the physico-chemical compositions, organismal diversities of dust from two storm events in southern Israel, December 2012 (Ev12) and January 2013 (Ev13), were determined by pyro-sequencing using primers universal to 16S and 18S rRNA genes and compared. The bio-assemblages in the collected dust samples were affiliated with scores of different taxa. Distinct patterns of richness and diversity of the two events were influenced by the origins of the air masses: Ev13 was rich with reads affiliated to Betaproteobacteria and Embryophyta, consistent with a European origin. Ev12, originated in north-Africa, contained significantly more of the Actinobacteria and fungi, without conifers. The abundance of bacterial and eukaryotic reads demonstrates dissemination of biological material in dust that may impose health hazards of pathogens and allergens, and influence vegetation migration throughout the world. [ABSTRACT FROM AUTHOR]

Published

2014

34. Behavioral effects induced by organic insecticides can be exploited for a sustainable control of the Orange Spiny Whitefly Aleurocanthus spiniferus

Author

Daniele Cornara, Khaled Djelouah, Vincenzo Verrastro, Selma Mokrane, Elena Romero, Francesco Tortorici, Alberto Fereres, and Giuseppe Cavallo

Subjects

0106 biological sciences, Limonins, Male, Insecticides, Oviposition, Biological pest control, Crop health, quality, protection, lcsh:Medicine, Orange (colour), Whitefly, Biology, 01 natural sciences, Insect Control, Article, law.invention, Toxicology, Environmental impact, Hemiptera, chemistry.chemical_compound, law, Ornamental plant, Pyrethrin, Pyrethrins, Oils, Volatile, Animals, Mineral Oil, Plant Oils, lcsh:Science, Essential oil, Multidisciplinary, Mediterranean Region, Clitoria ternatea, lcsh:R, fungi, Feeding Behavior, 15. Life on land, biology.organism_classification, Fruit and berries, 010602 entomology, Production systems, Azadirachtin, chemistry, lcsh:Q, Female, Clitoria, Entomology, 010606 plant biology & botany, Citrus sinensis

Abstract

The Orange Spiny Whitefly (OSW) Aleurocanthus spiniferus (Hemiptera: Aleyrodidae) represents a new serious threat to Citrus spp., grapevine and ornamental plants in the whole Mediterranean area. Such threat urgently calls for the development of a sustainable control strategy, including insecticides compatible with biological control, and applicable also in organic citrus farming that represent an essential part of Mediterranean agricultural economy. Therefore, we evaluated the toxicity and the effects on host searching, oviposition, and probing and feeding behavior exerted on OSW by organic insecticides supposed to have limited side effects on environment and ecosystem services, i.e. sweet orange essential oil (EO), extract of Clitoria ternatea (CT), mineral oil, pyrethrin and azadirachtin. Despite none of the compounds caused a significant mortality of any of the OSW instars, we observed interesting effects on whitefly behavior: (i) EO and pyrethrin showed a relevant repellent effect, with impairment of both adults landing and oviposition on treated plants; (ii) CT and pyrethrin strongly affected probing behavior. Here, in the light of our findings, we discuss possible OSW sustainable control strategies and further research perspectives.

Published

2020

35. Evidence of genetic isolation between two Mediterranean morphotypes of Parazoanthus axinellae

Author

Federica Costantini, Lorenzo Signorini, Marko Terzin, Marco Abbiati, Adriana Villamor, Villamor, Adriana, Signorini, Lorenzo F., Costantini, Federica, Terzin, Marko, and Abbiati, Marco

Subjects

0301 basic medicine, Sympatry, Species complex, Reproductive Isolation, Science, Parazoanthus, Parazoanthus axinellae, Article, 03 medical and health sciences, 0302 clinical medicine, Mediterranean sea, Mediterranean Sea, Animals, Ecosystem, Phylogeny, Genetic diversity, Multidisciplinary, biology, Ecology, Mediterranean Region, Genetic Variation, Zoantharia, integrative taxonomy, connectivity, Biodiversity, biology.organism_classification, Anthozoa, Genetic divergence, 030104 developmental biology, Genetics, Population, Sea Anemones, HEXACORALLIA ZOANTHARIA, POPULATION-GENETICS, SPECIES BOUNDARIES, ANTHOZOA, CNIDARIA, CONNECTIVITY, ZOANTHIDEA, PHYLOGENY, CONSERVATION, EVOLUTION, Medicine, cryptic specie, Molecular ecology, Genetic isolate, 030217 neurology & neurosurgery

Abstract

Coralligenous assemblages are among the most species-rich and vulnerable habitats of the Mediterranean Sea. Nevertheless, data on connectivity patterns on species inhabiting these habitats, crucial to define management and protection priorities, are largely lacking. Moreover, unreliable species-level taxonomy can confound ecological studies and mislead management strategies. In the northwestern Mediterranean two Parazoanthus axinellae morphotypes differing in size, color and preferred substrate are found in sympatry. In this study, we used COI and ITS sequence polymorphism to assess (1) the genetic divergence between the two morphotypes, (2) their connectivity patterns and (3) their phylogenetic position within the Parazoanthidae. Specimens of P. axinellae were sampled in 11 locations along the northwestern Mediterranean; in 6 locations, samples of the two morphotypes were collected in sympatry. Small genetic diversity and structure were found within morphotypes, while marked and consistent differentiation was detected between them. Moreover, the less widespread morphotype appeared to be closer to Pacific species as P. juanfernandezii and P. elongatus. Our findings confirmed the limited knowledge on Parazoanthus species complex, and how this gap can have important implication for the conservation strategies of this widespread and valuable genus in the Mediterranean Sea.

Published

2020

36. Global, regional, and country seroprevalence of Toxoplasma gondii in pregnant women: a systematic review, modelling and meta-analysis

Author

Jobert Richie Nansseu, Emilie Lettitia Youda, Dahlia Noelle Tounouga, Joel Noutakdie Tochie, Paule Sandra D. Sime, Anne Olive Bekolo, Nadia S. Ymele, and Jean Joel Bigna

Subjects

Epidemiology, Science, 030231 tropical medicine, Antibodies, Protozoan, Global Health, Article, 03 medical and health sciences, 0302 clinical medicine, Web of knowledge, Pregnancy, Seroepidemiologic Studies, medicine, Seroprevalence, Humans, 030212 general & internal medicine, Multidisciplinary, biology, business.industry, Mediterranean Region, Significant difference, Toxoplasma gondii, Pacific States, medicine.disease, biology.organism_classification, Toxoplasmosis, Eastern mediterranean, Immunoglobulin M, Meta-analysis, Pregnancy Complications, Parasitic, Medicine, Infectious diseases, Female, Americas, business, Toxoplasma, Demography

Abstract

Efficient health-care for pregnant women require accurate data on the prevalence of toxoplasmosis in pregnancy at global, regional, and country levels. In this systematic review with meta- and modelling-analysis, we searched PubMed, EMBASE, Web of Knowledge, Global Index Medicus, and Africa Journal Online to identify studies that reported enough data to compute the immunoglobulins (Ig) M or G seroprevalence estimates of Toxoplasma gondii in pregnant women up to December 31st, 2018, without any language restriction. The global and regional estimates were done using a random-effects meta-analysis. We included 250 studies with 723,655 pregnant women. The global IgM seroprevalence was 1.9% (95%CI: 1.7–2.3). At the regional level, Eastern Mediterranean had the highest IgM seroprevalence (4.1%, 95%CI: 2.8–5.5) and The Americas, the lowest (1.1%, 0.8–1.4), with a statistically significant difference between WHO regions (p p

Published

2020

37. The origin of sheep settlement in Western Mediterranean

Author

Daniel Petit, Mohammed Piro, Asmae Kandoussi, Ismaïl Boujenane, Abderrahman Maftah, Bouabid Badaoui, Clément Auger, Bruno Serranito, and Agnès Germot

Subjects

0301 basic medicine, Mediterranean climate, Evolution, Population, lcsh:Medicine, Zoology, Genetic relationship, North africa, Breeding, DNA, Mitochondrial, Article, Nucleotide diversity, Evolution, Molecular, 03 medical and health sciences, otorhinolaryngologic diseases, Animals, lcsh:Science, education, Phylogeny, education.field_of_study, Sheep, Multidisciplinary, Middle East, Ecology, Mediterranean Region, lcsh:R, 0402 animal and dairy science, Genetic Variation, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Arid, Breed, Genetics, Population, 030104 developmental biology, Geography, Haplotypes, lcsh:Q, geographic locations

Abstract

The arrival of Neolithic culture in North Africa, especially domestic animals has been essentially documented from archaeological records. As the data relative to sheep are scarce, we studied the genetic relationship between Moroccan sheep breeds and Mediterranean ones using the sequencing of 628 bp of the mitochondrial DNA control region in 193 Moroccan individuals, belonging to six breeds, and 652 sequences from other breeds in Europe and Middle East. Through Network analysis and an original phylogenetically derived method, the connection proportions of each Moroccan breed to foreign ones were estimated, highlighting the strong links between Moroccan and Iberian breeds. The first founders of Moroccan sheep population were issued at 79% from Iberia and 21% from a territory between Middle East and Africa. Their calculated expansion times were respectively 7,100 and 8,600 years B.P. This suggests that Neolithization was introduced by a double influence, from Iberia and from another route, maybe Oriental or Sub-Saharan. The consequence of the environmental changes encountered by founders from Iberia was tested using different neutrality tests. There are significant selection signatures at the level of Moroccan and European breeds settled in elevated altitudes, and an erosion of nucleotide diversity in Moroccan breeds living in arid areas.

Published

2020

38. Effect of foliar and soil application of plant growth promoting bacteria on growth, physiology, yield and seed quality of maize under Mediterranean conditions

Author

Nikolaos Katsenios, Aspasia Efthimiadou, Nikola Djordjevic, George Katsaros, Marianna Giannoglou, and Sofia Chanioti

Subjects

0106 biological sciences, Chlorophyll, Microbial metabolism, Physiology, Plant Development, Bacillus subtilis, Biology, medicine.disease_cause, Photosynthesis, 01 natural sciences, Zea mays, Article, Plant breeding, Soil, Yield (wine), medicine, Transpiration, Analysis of Variance, Multidisciplinary, Bacteria, Mediterranean Region, Plant Transpiration, 04 agricultural and veterinary sciences, Total dissolved solids, biology.organism_classification, Plant Leaves, Productivity (ecology), Seeds, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Azotobacter chroococcum, 010606 plant biology & botany

Abstract

The use of plant growth promoting bacteria (PGPB) as biostimulants favors the increase of crop productivity and the improvement of yield quality. The main objective of the present study was to investigate the effect of the PGPB biostimulants (Azotobacter chroococcum, Bacillus subtilis, Bacillus megatherium and their mixes) and the application method (foliar and soil) on the growth, the physiology, the yield and the quality of maize. The obtained results showed that A. chroococcum treatment increased the chlorophyll content up to 6.1%, the photosynthetic rate up to 18.4% and the transpiration rate up to 34.3%. The highest maize yields were performed by the treatments B. megatherium (244.67 g) and the mix of A. chroococcum and B. subtilis (1:1) (243.67 g) when applied on the soil. The Soil application of the PGPB resulted in increased yield of maize from 5.5 to 13.4% compared to control treatment. Concerning quality characteristics, B. subtilis treatment increased total solids content in harvested maize seeds by 92%, as well as crude fiber content by 46% compared to control. The results confirmed that the use of PGPB could contribute as a new cultivation practice for sustainable growth, productivity and quality of grain crops.

Published

2020

39. Mediterranean precipitation isoscape preserved in bone collagen δ2H

Author

Noreen Tuross, Damià Ramis, Linda M. Reynard, Miguel Contreras-Martínez, Peter van Dommelen, Saskia E. Ryan, Michele Guirguis, and Elisa Pompianu

Subjects

Mediterranean climate, 010506 paleontology, Stable isotope analysis, δ18O, Isoscapes, Fauna, Preservation, Biological, lcsh:Medicine, Biology, Oxygen Isotopes, 01 natural sciences, Article, Bone and Bones, Animals, Humans, Precipitation, Water cycle, lcsh:Science, 0105 earth and related environmental sciences, Herbivore, Multidisciplinary, Mediterranean Region, 010401 analytical chemistry, lcsh:R, 0104 chemical sciences, Geochemistry, Spatial variability, lcsh:Q, Cattle, Physical geography, Collagen, Hydrogen

Abstract

The prehistory of the Mediterranean region has long been a subject of considerable interest, particularly the links between human groups and regions of origin. We utilize the spatial variation in the δ2H and δ18O values of precipitation (isoscapes) to develop proxies for geographic locations of fauna and humans. Bone collagen hydrogen isotope ratios (δ2H) in cattle (and to a lesser extent, ovicaprids) across the Mediterranean reflect the isotopic differences observed in rainfall (but δ18O values do not). We conclude that δ2H in herbivore bone collagen can be used as a geolocation tracer and for palaeoenvironmental studies such as tracing past isotopic variations in the global hydrological cycle. In contrast, human bone δ2H values are relatively tightly grouped and highly distinct from precipitation δ2H values, likely due to human-specific food practices and environmental modifications. Given the inter-species variability in δ2H, care should be taken in the species selected for study.

Published

2020

40. Radiocarbon analysis of modern olive wood raises doubts concerning a crucial piece of evidence in dating the Santorini eruption

Author

Lior Regev, Elisabetta Boaretto, and Yael Ehrlich

Subjects

010506 paleontology, Future studies, Archaeological record, lcsh:Medicine, Volcanic Eruptions, 01 natural sciences, Article, law.invention, law, Olea, Humans, 0601 history and archaeology, Radiocarbon dating, Carbon Radioisotopes, Israel, lcsh:Science, History, Ancient, 0105 earth and related environmental sciences, geography, Multidisciplinary, Vulcanian eruption, geography.geographical_feature_category, 060102 archaeology, Mediterranean Region, Tree trunk, Radiometric Dating, lcsh:R, 06 humanities and the arts, Archaeology, Wood, Volcano, lcsh:Q, Geology

Abstract

Charred olive wood is abundant in the archaeological record, especially around the Mediterranean. As the outermost ring closest to the bark is assumed to represent the latest time that the tree was alive, the radiocarbon date obtained from the outermost rings of an olive branch buried during the Santorini volcanic eruption is regarded as crucial evidence for the date of this cataclysmic event. The date of this eruption has far reaching consequences in the archaeology of the Aegean, Egypt and the Levant, and the understanding of their interconnections. We analyzed the radiocarbon concentrations in cross-sections from a modern olive tree trunk as well as from a living branch, and obtained near-annual resolution dates using the radiocarbon “bomb peak”. In both cases we show that radiocarbon dates of the last formed wood along the circumference are not chronologically homogenous, and can differ by up to a few decades. Thus the outermost wood layer does not necessarily represent the date of the last year of growth. These findings challenge the interpretation of the results obtained from dating the olive branch from the Santorini volcanic eruption, as it could predate the eruption by a few decades. In addition, our results are also significant for any future studies based on archaeologically preserved olive wood.

Published

2018

41. Climate-driven shifts in algal-bacterial interaction of high-mountain lakes in two years spanning a decade

Author

Manuel Villar-Argaiz, Juan Manuel González-Olalla, Ismael L. Lozano, Presentación Carrillo, and Juan Manuel Medina-Sánchez

Subjects

0106 biological sciences, 0301 basic medicine, Food Chain, Nitrogen, Climate, Science, 01 natural sciences, Article, Phosphorus metabolism, 03 medical and health sciences, Food chain, Microalgae, Ecosystem, Biomass, Nitrogen cycle, Trophic level, Multidisciplinary, Microbial food web, Bacteria, Ecology, Mediterranean Region, 010604 marine biology & hydrobiology, Global change, Phosphorus, Commensalism, Carbon, Lakes, 030104 developmental biology, Spain, Environmental science, Medicine

Abstract

Algal-bacterial interactions include mutualism, commensalism, and predation. However, how multiple environmental conditions that regulate the strength and prevalence of a given interaction remains unclear. Here, we test the hypothesis that the prevailing algal-bacterial interaction shifted in two years (2005 versus 2015), due to increased temperature (T) and Saharan dust depositions in high-mountain lakes of Sierra Nevada (S Spain). Our results support the starting hypothesis that the nature of the prevailing algal-bacterial interaction shifted from a bacterivory control exerted by algae to commensalism, coinciding with a higher air and water T as well as the lower ratio sestonic nitrogen (N): phosphorous (P), related to greater aerosol inputs. Projected global change conditions in Mediterranean region could decline the functional diversity and alter the role of mixotrophy as a carbon (C) by-pass in the microbial food web, reducing the biomass-transfer efficiency up the web by increasing the number of trophic links.

Published

2018

42. Clay and climatic variability explain the global potential distribution of Juniperus phoenicea toward restoration planning.

Author

Dakhil MA, El-Barougy RF, El-Keblawy A, and Farahat EA

Subjects

Clay, Conservation of Natural Resources, Ecosystem, Humans, Mediterranean Region, Trees, Juniperus

Abstract

Juniperus phoenicea is a medicinal conifer tree species distributed mainly in the Mediterranean region, and it is IUCN Red Listed species, locally threatened due to arid conditions and seed over-collection for medicinal purposes, particularly in the East-Mediterranean region. Several studies have addressed the potential distribution of J. phoenicea using bioclimatic and topographic variables at a local or global scale, but little is known about the role of soil and human influences as potential drivers. Therefore, our objectives were to determine the most influential predictor factors and their relative importance that might be limiting the regeneration of J. phoenicea, in addition, identifying the most suitable areas which could be assumed as priority conservation areas. We used ensemble models for species distribution modelling. Our findings revealed that aridity, temperature seasonality, and clay content are the most important factors limiting the potential distribution of J. phoenicea. Potentially suitable areas of the output maps, in which J. phoenicea populations degraded, could be assumed as decision-support tool reforestation planning. Other suitable areas, where there was no previous tree cover are a promising tool for afforestation and conservation planning. Finally, conservation actions are needed for natural habitats, particularly in the arid and semi-arid regions, which are highly threatened by global warming., (© 2022. The Author(s).)

Published

2022

43. Comparison of phenological traits, growth patterns, and seasonal dynamics of non-structural carbohydrate in Mediterranean tree crop species

Author

Adele Amico Roxas, Emilio A. Laca, Or Sperling, Aude Tixier, Paula Guzmán-Delgado, Maciej A. Zwieniecki, Agroécologie [Dijon], Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Department of Plant Sciences, University of California, and Department of Plant Sciences, Agriculture Research Organization (ARO), Negev, Israel.

Subjects

0106 biological sciences, 0301 basic medicine, Mediterranean climate, Physiology, Climate Change, Carbohydrates, lcsh:Medicine, Growing season, Juglans, 01 natural sciences, Article, 03 medical and health sciences, lcsh:Science, Multidisciplinary, Pistacia, biology, Phenology, Mediterranean Region, lcsh:R, Temperature, biology.organism_classification, Prunus dulcis, Carbon, Horticulture, 030104 developmental biology, Deciduous, Logistic Models, Productivity (ecology), [SDE]Environmental Sciences, Carbohydrate Metabolism, lcsh:Q, Seasons, Plant sciences, 010606 plant biology & botany

Abstract

Despite non-structural carbohydrate (NSC) importance for tree productivity and resilience, little is known about their seasonal regulations and trade-off with growth and reproduction. We characterize the seasonal dynamics of NSC in relation to the aboveground phenology and temporal growth patterns of three deciduous Mediterranean species: almond (Prunus dulcis (Mill.) D. A. Webb), walnut (Juglans regia L.) and pistachio (Pistacia vera L.). Seasonal dynamics of NSC were synchronous between wood tissues from trunk, branches and twigs. Almond had almost identical levels and patterns of NSC variation in twigs, branches and trunks whereas pistachio and walnut exhibited clear concentration differences among plant parts whereby twigs had the highest and most variable NSC concentration, followed by branches and then trunk. While phenology had a significant influence on NSC seasonal trends, there was no clear trade-off between NSC storage and growth suggesting that both were similarly strong sinks for NSC. A temporal trade-off observed at the seasonal scale was influenced by the phenology of the species. We propose that late senescing species experience C allocation trade-off at the end of the growing season because of C-limiting thermal conditions and priority allocation to storage in order to survive winter.

Published

2019

44. The role of forest structure and composition in driving the distribution of bats in Mediterranean regions.

Author

Novella-Fernandez R, Juste J, Ibañez C, Nogueras J, Osborne PE, and Razgour O

Subjects

Animals, Ecosystem, Forests, Mediterranean Region, Trees, Chiroptera

Abstract

Forests are key native habitats in temperate environments. While their structure and composition contribute to shaping local-scale community assembly, their role in driving larger-scale species distributions is understudied. We used detailed forest inventory data, an extensive dataset of occurrence records, and species distribution models integrated with a functional approach, to disentangle mechanistically how species-forest dependency processes drive the regional-scale distributions of nine forest specialist bats in a Mediterranean region in the south of Spain. The regional distribution patterns of forest bats were driven primarily by forest composition and structure rather than by climate. Bat roosting ecology was a key trait explaining the strength of the bat-forest dependency relationships. Tree roosting bats were strongly associated with mature and heterogeneous forest with large trees (diameters > 425 mm). Conversely, and contrary to what local-scale studies show, our results did not support that flight-related traits (wing loading and aspect ratio) drive species distributional patterns. Mediterranean forests are expected to be severely impacted by climate change. This study highlights the utility of disentangling species-environment relationships mechanistically and stresses the need to account for species-forest dependency relationships when assessing the vulnerability of forest specialists towards climate change., (© 2022. The Author(s).)

Published

2022

45. Population structure and adaptive variation of Helichrysum italicum (Roth) G. Don along eastern Adriatic temperature and precipitation gradient.

Author

Ninčević T, Jug-Dujaković M, Grdiša M, Liber Z, Varga F, Pljevljakušić D, and Šatović Z

Subjects

Amplified Fragment Length Polymorphism Analysis, Mediterranean Region, Adaptation, Physiological, Bayes Theorem, Genetic Drift, Genetic Variation, Helichrysum physiology, Selection, Genetic, Temperature

Abstract

Immortelle (Helichrysum italicum (Roth) G. Don; Asteraceae) is a perennial plant species native to the Mediterranean region, known for many properties with wide application mainly in perfume and cosmetic industry. A total of 18 wild H. italicum populations systematically sampled along the eastern Adriatic environmental gradient were studied using AFLP markers to determine genetic diversity and structure and to identify loci potentially responsible for adaptive divergence. Results showed higher levels of intrapopulation diversity than interpopulation diversity. Genetic differentiation among populations was significant but low, indicating extensive gene flow between populations. Bayesian analysis of population structure revealed the existence of two genetic clusters. Combining the results of F ST  - outlier analysis (Mcheza and BayeScan) and genome-environment association analysis (Samβada, LFMM) four AFLP loci strongly associated with the bioclimatic variables Bio03 Isothermality, Bio08 Mean temperature of the wettest quarter, Bio15 Precipitation seasonality, and Bio17 Precipitation of driest quarter were found to be the main variables driving potential adaptive genetic variation in H. italicum along the eastern Adriatic environmental gradient. Redundancy analysis revealed that the partitioning of genetic variation was mainly associated with the adaptation to temperature oscillations. The results of the research may contribute to a clearer understanding of the importance of local adaptations for the genetic differentiation of Mediterranean plants and allow the planning of appropriate conservation strategies. However, considering that the identified outlier loci may be linked to genes under selection rather than being the target of natural selection, future studies must aim at their additional analysis., (© 2021. The Author(s).)

Published

2021

46. Publisher Correction: Chryseobacterium schmidteae sp. nov. a novel bacterial species isolated from planarian Schmidtea mediterranea.

Author

Kangale, Luis Johnson, Raoult, Didier, Ghigo, Eric, and Fournier, Pierre-Edouard

Subjects

*BACTERIA

Published

2021

47. Genomic signatures of local adaptation to the degree of environmental predictability in rotifers

Author

Manuel Serra, María José Carmona, Lluis Franch-Gras, Christoph Hahn, Eduardo M. García-Roger, and Africa Gómez

Subjects

0301 basic medicine, Genome evolution, Genotype, Acclimatization, Rotifera, lcsh:Medicine, Single-nucleotide polymorphism, Environment, Biology, Balancing selection, Polymorphism, Single Nucleotide, Genome, Article, 03 medical and health sciences, Animals, Selection, Genetic, Predictability, lcsh:Science, Ecosystem, Selection (genetic algorithm), Local adaptation, Multidisciplinary, Mediterranean Region, lcsh:R, Genomics, Adaptation, Physiological, 030104 developmental biology, Spain, Evolutionary biology, lcsh:Q, Adaptation

Abstract

Environmental fluctuations are ubiquitous and thus essential for the study of adaptation. Despite this, genome evolution in response to environmental fluctuations —and more specifically to the degree of environmental predictability– is still unknown. Saline lakes in the Mediterranean region are remarkably diverse in their ecological conditions, which can lead to divergent local adaptation patterns in the inhabiting aquatic organisms. The facultatively sexual rotifer Brachionus plicatilis shows diverging local adaptation in its life-history traits in relation to estimated environmental predictability in its habitats. Here, we used an integrative approach —combining environmental, phenotypic and genomic data for the same populations– to understand the genomic basis of this diverging adaptation. Firstly, a novel draft genome for B. plicatilis was assembled. Then, genome-wide polymorphisms were studied using genotyping by sequencing on 270 clones from nine populations in eastern Spain. As a result, 4,543 high-quality SNPs were identified and genotyped. More than 90 SNPs were found to be putatively under selection with signatures of diversifying and balancing selection. Over 140 SNPs were correlated with environmental or phenotypic variables revealing signatures of local adaptation, including environmental predictability. Putative functions were associated to most of these SNPs, since they were located within annotated genes. Our results reveal associations between genomic variation and the degree of environmental predictability, providing genomic evidence of adaptation to local conditions in natural rotifer populations.

Published

2018

48. Diet-related selectivity of macroplastic ingestion in green turtles (Chelonia mydas) in the eastern Mediterranean

Author

Jessica A. Arrowsmith, Hannah Bowdery, Wayne J. Fuller, Tamara S. Galloway, Brendan J. Godley, Jonathon H. Lee, Tierney Chalmers, Penelope K. Lindeque, Charlotte E. Bain, Annette C. Broderick, Lucy C. M. Omeyer, Emily M. Duncan, and Robin T. E. Snape

Subjects

0301 basic medicine, Zoology, lcsh:Medicine, Biology, Test (biology), Article, law.invention, Predation, 03 medical and health sciences, Eating, 0302 clinical medicine, law, Marine vertebrate, Ingestion, Animals, 14. Life underwater, Carapace, Turtle (robot), lcsh:Science, Multidisciplinary, Ecology, Mediterranean Region, Conservation biology, lcsh:R, Feeding Behavior, Animal Feed, Diet, Turtles, Eastern mediterranean, 030104 developmental biology, lcsh:Q, Plastic pollution, Plastics, 030217 neurology & neurosurgery

Abstract

Understanding the drivers of key interactions between marine vertebrates and plastic pollution is now considered a research priority. Sea turtles are primarily visual predators, with the ability to discriminate according to colour and shape; therefore these factors play a role in feeding choices. Classification methodologies of ingested plastic currently do not record these variables, however here, refined protocols allow us to test the hypothesis that plastic is selectively ingested when it resembles the food items of green turtles (Chelonia mydas). Turtles in the eastern Mediterranean displayed strong diet-related selectivity towards certain types (sheet and threadlike), colours (black, clear and green) and shapes (linear items strongly preferred) of plastic when compared to the environmental baseline of plastic beach debris. There was a significant negative relationship between size of turtle (curved carapace length) and number/mass of plastic pieces ingested, which may be explained through naivety and/or ontogenetic shifts in diet. Further investigation in other species and sites are needed to more fully ascertain the role of selectivity in plastic ingestion in this marine vertebrate group.

Published

2018

49. Using genetic markers to unravel the origin of birds converging towards pre-migratory sites

Author

Georgios Kotoulas, Kresimir Mikulic, Konstantinos Sotiropoulos, Marco Gustin, Maurizio Sarà, Dimitris Tsaparis, Anastasios Bounas, and Anastasios Bounas, Dimitris Tsaparis, Marco Gustin, Kresimir Mikulic, Georgios Kotoulas, Konstantinos Sotiropoulos , Maurizio Sara'

Subjects

Genetic Markers, 0106 biological sciences, Population Dynamics, Settore BIO/05 - Zoologia, lcsh:Medicine, Kestrel, lesser kestrel, pre-migratory stage, microsatellites, genetic of migration, Breeding, 010603 evolutionary biology, 01 natural sciences, Article, 010605 ornithology, Birds, Sexual Behavior, Animal, Animals, Ecosystem, 14. Life underwater, lcsh:Science, Temporal scales, Falconiformes, Multidisciplinary, biology, Mediterranean Region, Ecology, lcsh:R, Falco naumanni, Balkan Peninsula, 15. Life on land, biology.organism_classification, Eastern mediterranean, Geography, Genetic marker, Animal Migration, lcsh:Q, Origin of birds, Seasons

Abstract

Identifying patterns of individual movements in spatial and temporal scales can provide valuable insight into the structure of populations and the dynamics of communities and ecosystems. Especially for migrating birds, that can face a variety of unfavorable conditions along their journey, resolving movements of individuals across their annual cycle is necessary in order to design better targeted conservation strategies. Here, we studied the movements of a small migratory falcon, the Lesser Kestrel (Falco naumanni), by genetically assigning feathers from individuals of unknown origin that concentrate in large roosts during the pre-migratory period. Our findings suggest that birds from multiple breeding populations in the Central and Eastern Mediterranean region move towards two pre-migratory sites in the Balkans, some of them detouring greatly from their expected flyways, travelling more than 500 km to reach these sites and prepare for the post-nuptial migration. By identifying the origin of individuals using the pre-migratory sites, not only we provide a better understanding of the possible impact of local threats at these sites on multiple breeding populations but also inform the design of effective conservation actions for the species.

Published

2018

50. Dental calculus and isotopes provide direct evidence of fish and plant consumption in Mesolithic Mediterranean

Author

Anita Radini, Dusan Boric, Marialetizia Carra, Andrea Zupancich, Gregorio Oxilia, Giuseppina Mutri, Isabella Caricola, Dario Vujević, Mario Šlaus, Emanuela Cristiani, Harry K. Robson, Cristiani E., Radini A., Boric D., Robson H.K., Caricola I., Carra M., Mutri G., Oxilia G., Zupancich A., Slaus M., and Vujevic D.

Subjects

Mediterranean climate, Marine conservation, 010506 paleontology, lcsh:Medicine, Subsistence economy, Mediterranean, 01 natural sciences, Mediterranean Basin, Article, Cave, Isotopes, dental calculus, isotope analysis, fish, plant foods, Mesolithic, Calculus, Animals, 0601 history and archaeology, Dental Calculus, 14. Life underwater, lcsh:Science, Holocene, 0105 earth and related environmental sciences, geography, Multidisciplinary, geography.geographical_feature_category, 060102 archaeology, Mediterranean Region, lcsh:R, Fishes, 06 humanities and the arts, Feeding Behavior, Plants, Diet, Archaeology, Archipelago, lcsh:Q, Vlakno, isotopes

Abstract

In this contribution we dismantle the perceived role of marine resources and plant foods in the subsistence economy of Holocene foragers of the Central Mediterranean using a combination of dental calculus and stable isotope analyses. The discovery of fish scales and flesh fragments, starch granules and other plant and animal micro-debris in the dental calculus of a Mesolithic forager dated to the end of the 8th millenium BC and buried in the Vlakno Cave on Dugi Otok Island in the Croatian Archipelago demonstrates that marine resources were regularly consumed by the individual together with a variety of plant foods. Since previous stable isotope data in the Eastern Adriatic and the Mediterranean region emphasises that terrestrial-based resources contributed mainly to Mesolithic diets in the Mediterranean Basin, our results provide an alternative view of the dietary habits of Mesolithic foragers in the Mediterranean region based on a combination of novel methodologies and data.

Published

2018