Your search keyword '"Silvana Munzi"' showing total 11 results

1. Organisms with high dispersal ability as a proxy for biogeographical characterisation of the Mediterranean biome

Author

Dušan Senko, Marek Svitok, Marek Slovák, Zuzana Fačkovcová, Luca Paoli, Jaromír Kučera, Silvana Munzi, Joelle Breidy, Hiba Dokmak, and Anna Guttová

Subjects

Climatic Stability, Lichens, Modelling, Mediterranean Basin, Symbioses, Ecology, QH540-549.5

Abstract

The Mediterranean biome offers a diverse range of habitats, particularly rocky environments, known for their long-term stability and persistence. Adapted to these rocky surfaces, chasmophytes thrive in this region, benefiting from reduced competition and human interference. The distribution of stress-tolerant cryptogams with generally broad niches represents a significant gap in the biogeography of the region. This study investigates whether complex symbiotic organisms with a potential for long-distance dispersal could serve as biogeographic indicators for delimitation of the Mediterranean biome's boundaries. Through comprehensive chorology data research, saxicolous lichen congeners of the genus Solenopsora were mapped across the Mediterranean Basin as a model area. Environmental predictors (climate and geology) were employed to predict suitable habitats, shedding light on the lichens' ecological niches. Habitat suitability models consistently aligned with the Mediterranean's geographical area, indicating a tight link between lichen distribution and Mediterranean climate classification. While climate change may pose vulnerabilities, no significant range shifts beyond the latitudinal limit of the Mediterranean were predicted. Despite overlapping climatic niches, differences in microhabitat preferences in terms of insolation were observed among studied taxa. Vulnerable regions with potential habitat decreases were identified under future scenarios, emphasizing the importance of environmental heterogeneity in securing local species persistence. This study supports the hypothesis that these lichen symbiotic systems are restricted to the Mediterranean Basin, highlighting their potential to reflect Mediterranean climate, environmental stability, and indicate the boundaries of the Mediterranean biome. Our investigation demonstrates that collection-based research can yield significant contributions to current biogeography.

Published

2024

2. Hormetic Effect of Wood Distillate on Hydroponically Grown Lettuce

Author

Riccardo Fedeli, Cristina Cruz, Stefano Loppi, and Silvana Munzi

Subjects

antioxidants, pyroligneous acid, soilless culture, sustainable agriculture, wood vinegar, Botany, QK1-989

Abstract

The addition of biostimulants to nutrient solutions of hydroponically grown crops to speed up plant growth and improve plant yield and quality has been attracting more and more attention. This study investigated the effects of wood distillate (WD) addition to hydroponically grown lettuce (Lactuca sativa L.) plants. Two concentrations of WD, 0.2% and 0.5%, were added to the nutrient solution, and biometric (i.e., leaf fresh weight, root fresh weight, root length and root surface area), photosynthetic (i.e., chlorophyll a, chlorophyll b, and carotenoid content) and biochemical (i.e., electrolyte leakage, total polyphenols, total flavonoids, and total antioxidant power content) parameters were evaluated. The effects of WD were hormetic, as the 0.2% concentration stimulated biometric and biochemical parameters, while the 0.5% concentration inhibited plant growth. Based on these results, it can be suggested that the addition of 0.2% WD to the nutrient solution has a stimulating effect on the growth of lettuce plants, and could be a successful strategy to boost the yield of crops grown hydroponically.

Published

2024

3. Wood Distillate Enhances Seed Germination of Chickpea, Lettuce, and Basil

Author

Viviana Maresca, Riccardo Fedeli, Andrea Vannini, Silvana Munzi, Ana Corrêa, Cristina Cruz, and Stefano Loppi

Subjects

bio-based fertilizers, biostimulant, pyroligneous acid, wood vinegar, radicle length, seed priming, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Seed priming with synthetic chemicals may be harmful to the environment and human health. Their replacement with bio-based compounds may overcome these concerns. In this study, we assessed the effectiveness of wood distillate (WD) in enhancing in vitro germination of crop plants using basil, chickpea, and lettuce as case studies. Seeds of the three species were soaked for 24 h in 0.25% and 0.17% WD solutions and then left to germinate for 7 days at 20 °C in a dark germination chamber. Seed pre-treatment with 0.25% WD enhanced germination in all tested species, while 0.17% WD stimulated germination in lettuce and chickpea, but not in basil. For lettuce, 0.17% WD worked better than 0.25% WD. Radicle length of basil and chickpea increased following pre-treatment with 0.25% WD, while in lettuce, it increased after pre-treatment with 0.17% WD. Treating seeds with appropriate WD solutions is a potential strategy to improve germination of crop plants.

Published

2024

4. Lichen as Multipartner Symbiotic Relationships

Author

Lourdes Morillas, Javier Roales, Cristina Cruz, and Silvana Munzi

Subjects

symbiosis, microbiome, partnership, mycobiont, photobiont, holobiont, Science

Abstract

Lichens have long been considered as composite organisms composed of algae and/or cyanobacteria hosted by a fungus in a mutualistic relationship. Other organisms have been gradually discovered within the lichen thalli, such as multiple algal species, yeasts, or even viruses. Of pivotal relevance is the existence of the lichen microbiome, which is a community of microorganisms that can be found living together on the lichen surface. This community performs a growing number of functions. In this entry, we explore the journey of lichens being considered from a dual partnership to a multi-species symbiotic relationship.

Published

2022

5. Words apart: Standardizing forestry terms and definitions across European biodiversity studies

Author

Giovanni Trentanovi, Thomas Campagnaro, Tommaso Sitzia, Francesco Chianucci, Giorgio Vacchiano, Christian Ammer, Michał Ciach, Thomas A. Nagel, Miren del Río, Yoan Paillet, Silvana Munzi, Kris Vandekerkhove, Andrés Bravo-Oviedo, Andrea Cutini, Ettore D'Andrea, Pallieter De Smedt, Inken Doerfler, Dimitris Fotakis, Jacob Heilmann-Clausen, Jeňýk Hofmeister, Jan Hošek, Philippe Janssen, Sebastian Kepfer-Rojas, Nathalie Korboulewsky, Bence Kovács, Daniel Kozák, Thibault Lachat, Anders Mårell, Radim Matula, Martin Mikoláš, Björn Nordén, Péter Ódor, Marko Perović, Elisabeth Pötzelsberger, Peter Schall, Miroslav Svoboda, Flóra Tinya, Mariana Ujházyová, and Sabina Burrascano

Subjects

Forest management, Multi-taxon, Terminology, Silviculture, Data harmonization, Ecology, QH540-549.5

Abstract

Forest biodiversity studies conducted across Europe use a multitude of forestry terms, often inconsistently. This hinders the comparability across studies and makes the assessment of the impacts of forest management on biodiversity highly context-dependent. Recent attempts to standardize forestry and stand description terminology mostly used a top-down approach that did not account for the perspectives and approaches of forest biodiversity experts. This work aims to establish common standards for silvicultural and vegetation definitions, creating a shared conceptual framework for a consistent study on the effects of forest management on biodiversity. We have identified both strengths and weaknesses of the silvicultural and vegetation information provided in forest biodiversity studies. While quantitative data on forest biomass and dominant tree species are frequently included, information on silvicultural activities and vegetation composition is often lacking, shallow, or based on broad and heterogeneous classifications. We discuss the existing classifications and their use in European forest biodiversity studies through a novel bottom-up and top-driven review process, and ultimately propose a common framework. This will enhance the comparability of forest biodiversity studies in Europe, and puts the basis for effective implementation and monitoring of sustainable forest management policies. The standards here proposed are potentially adaptable and applicable to other geographical areas and could be extended to other forest interventions.

Published

2023

6. Editorial: Terrestrial Ecosystem Nitrogen Fluxes via the Atmosphere-Land System

Author

Anna Andreetta, Lourdes Morillas, and Silvana Munzi

Subjects

nitrogen, soil, deposition, nutrient bioavailability, physicochemical transformation, biogeochemical cycle, Environmental sciences, GE1-350

Published

2022

7. Handbook of field sampling for multi-taxon biodiversity studies in European forests

Author

Sabina Burrascano, Giovanni Trentanovi, Yoan Paillet, Jacob Heilmann-Clausen, Paolo Giordani, Simonetta Bagella, Andrés Bravo-Oviedo, Thomas Campagnaro, Alessandro Campanaro, Francesco Chianucci, Pallieter De Smedt, Itziar García-Mijangos, Dinka Matošević, Tommaso Sitzia, Réka Aszalós, Gediminas Brazaitis, Andrea Cutini, Ettore D'Andrea, Inken Doerfler, Jeňýk Hofmeister, Jan Hošek, Philippe Janssen, Sebastian Kepfer Rojas, Nathalie Korboulewsky, Daniel Kozák, Thibault Lachat, Asko Lõhmus, Rosana Lopez, Anders Mårell, Radim Matula, Martin Mikoláš, Silvana Munzi, Björn Nordén, Meelis Pärtel, Johannes Penner, Kadri Runnel, Peter Schall, Miroslav Svoboda, Flóra Tinya, Mariana Ujházyová, Kris Vandekerkhove, Kris Verheyen, Fotios Xystrakis, and Péter Ódor

Subjects

Biodiversity, Field methods, Multi-taxon, Indicators, Sampling protocol, Forest stand structure, Ecology, QH540-549.5

Abstract

Forests host most terrestrial biodiversity and their sustainable management is crucial to halt biodiversity loss. Although scientific evidence indicates that sustainable forest management (SFM) should be assessed by monitoring multi-taxon biodiversity, most current SFM criteria and indicators account only for trees or consider indirect biodiversity proxies. Several projects performed multi-taxon sampling to investigate the effects of forest management on biodiversity, but the large variability of their sampling approaches hampers the identification of general trends, and limits broad-scale inference for designing SFM. Here we address the need of common sampling protocols for forest structure and multi-taxon biodiversity to be used at broad spatial scales. We established a network of researchers involved in 41 projects on forest multi-taxon biodiversity across 13 European countries. The network data structure comprised the assessment of at least three taxa, and the measurement of forest stand structure in the same plots or stands. We mapped the sampling approaches to multi-taxon biodiversity, standing trees and deadwood, and used this overview to provide operational answers to two simple, yet crucial, questions: what to sample? How to sample? The most commonly sampled taxonomic groups are vascular plants (83% of datasets), beetles (80%), lichens (66%), birds (66%), fungi (61%), bryophytes (49%). They cover different forest structures and habitats, with a limited focus on soil, litter and forest canopy. Notwithstanding the common goal of assessing forest management effects on biodiversity, sampling approaches differed widely within and among taxonomic groups. Differences derive from sampling units (plots size, use of stand vs. plot scale), and from the focus on different substrates or functional groups of organisms. Sampling methods for standing trees and lying deadwood were relatively homogeneous and focused on volume calculations, but with a great variability in sampling units and diameter thresholds. We developed a handbook of sampling methods (SI 3) aimed at the greatest possible comparability across taxonomic groups and studies as a basis for European-wide biodiversity monitoring programs, robust understanding of biodiversity response to forest structure and management, and the identification of direct indicators of SFM.

Published

2021

8. Nitrogen Deposition Effects on Soil Properties, Microbial Abundance, and Litter Decomposition Across Three Shrublands Ecosystems From the Mediterranean Basin

Author

Mauro Lo Cascio, Lourdes Morillas, Raúl Ochoa-Hueso, Manuel Delgado-Baquerizo, Silvana Munzi, Javier Roales, Donatella Spano, Cristina Cruz, Antonio Gallardo, Esteban Manrique, María Esther Pérez-Corona, Teresa Dias, Costantino Sirca, and Simone Mereu

Subjects

air pollution, anthropogenic disturbance, coordinated research networks, mediterranean semiarid ecosystems, soil extracellular enzymatic activity, soil organic matter decomposition, Environmental sciences, GE1-350

Abstract

Atmospheric nitrogen (N) inputs in the Mediterranean Basin are projected to increase due to fossil fuel combustion, fertilizer use, and the exacerbation of agricultural production processes. Although increasing N deposition is recognized as a major threat to ecosystem functioning, little is known about how local environmental conditions modulate ecosystem function response to N addition, particularly in the context of Mediterranean-Basin ecosystems. Here, we assess how N addition affects important ecosystem properties associated with litter decomposition, soil physical-chemical properties, soil extracellular enzymatic activity and microbial abundance across three long-term N addition experimental sites in the Mediterranean Basin. Sites were located in El Regajal (Madrid, Spain), Capo Caccia (Alghero, Italy), and Arrábida (Lisbon, Portugal) and are all representative of Mediterranean shrublands. No common pattern for litter decomposition process or other studied variables emerged among the control plots of the studied sites. Nitrogen supply only affected soil pH, a major driver of decomposition, in two out of three experimental sites. Moreover, when we explored the role of N addition and soil pH in controlling litter decay, we found that the effects of these factors were site-dependent. Our results point out to local ecosystem features modulating N addition effects in controlling litter decomposition rates in Mediterranean ecosystems, suggesting that the responses of soil functioning to N deposition are site-dependent. These findings provide further knowledge to understand contrasting ecosystem responses to N additions based on a single field experiments.

Published

2021

9. Non-Toxic Increases in Nitrogen Availability Can Improve the Ability of the Soil Lichen Cladonia rangiferina to Cope with Environmental Changes

Author

Lourdes Morillas, Javier Roales, Cristina Cruz, and Silvana Munzi

Subjects

soil lichens, soil biocrust, global change, climate change, biomonitoring, synergetic effects, Biology (General), QH301-705.5

Abstract

Climate change and atmospheric nitrogen (N) deposition on drylands are greatly threatening these especially vulnerable areas. Soil biocrust-forming lichens in drylands can provide early indicators of these disturbances and play a pivotal role, as they contribute to key ecosystem services. In this study, we explored the effects of different long-term water availability regimes simulating climate changes and their interaction with N addition on the physiological response of the soil lichen Cladonia rangiferina. Three sets of this lichen were subjected to control, reduced watering, and reduced watering and N addition (40 kg NH4NO3 ha−1 year−1) treatments for 16 months. Finally, all samples were subjected to daily hydration cycles with N-enriched water at two levels (40 and 80 kg NH4NO3 ha−1 year−1) for 23 days. We found that reduced watering significantly decreased the vitality of this lichen, whereas N addition unexpectedly helped lichens subjected to reduced watering to cope with stress produced by high temperatures. We also found that long-term exposure to N addition contributed to the acclimation to higher N availability. Overall, our data suggest that the interactions between reduced watering and increased N supply and temperature have an important potential to reduce the physiological performance of this soil lichen.

Published

2022

10. Resilience of Epiphytic Lichens to Combined Effects of Increasing Nitrogen and Solar Radiation

Author

Lourdes Morillas, Javier Roales, Cristina Cruz, and Silvana Munzi

Subjects

nitrogen pollution, forest decay, global change, chlorophyll fluorescence, Fv/Fm ratio, mediterranean ecosystems, Biology (General), QH301-705.5

Abstract

Lichens are classified into different functional groups depending on their ecological and physiological response to a given environmental stressor. However, knowledge on lichen response to the synergistic effect of multiple environmental factors is extremely scarce, although vital to get a comprehensive understanding of the effects of global change. We exposed six lichen species belonging to different functional groups to the combined effects of two nitrogen (N) doses and direct sunlight involving both high temperatures and ultraviolet (UV) radiation for 58 days. Irrespective of their functional group, all species showed a homogenous response to N with cumulative, detrimental effects and an inability to recover following sunlight, UV exposure. Moreover, solar radiation made a tolerant species more prone to N pollution’s effects. Our results draw attention to the combined effects of global change and other environmental drivers on canopy defoliation and tree death, with consequences for the protection of ecosystems.

Published

2021

11. New Interpretative Scales for Lichen Bioaccumulation Data: The Italian Proposal

Author

Elva Cecconi, Lorenzo Fortuna, Renato Benesperi, Elisabetta Bianchi, Giorgio Brunialti, Tania Contardo, Luca Di Nuzzo, Luisa Frati, Fabrizio Monaci, Silvana Munzi, Juri Nascimbene, Luca Paoli, Sonia Ravera, Andrea Vannini, Paolo Giordani, Stefano Loppi, and Mauro Tretiach

Subjects

biomonitoring, native lichens, lichen transplants, air pollution, trace elements, background levels, Flavoparmelia caperata, Xanthoria parietina, Evernia prunastri, Pseudevernia furfuracea, Meteorology. Climatology, QC851-999

Abstract

The interpretation of lichen bioaccumulation data is of paramount importance in environmental forensics and decision-making processes. By implementing basic ideas underlying previous interpretative scales, new dimensionless, species-independent “bioaccumulation scales” for native and transplanted lichens are proposed. Methodologically consistent element concentration datasets were populated with data from biomonitoring studies relying on native and transplanted lichens. The scale for native lichens was built up by analyzing the distribution of ratios between element concentration data and species-specific background concentration references (B ratios), herein provided for Flavoparmelia caperata and Xanthoria parietina (foliose lichens). The scale for transplants was built up by analyzing the distribution of ratios between element concentration in exposed and unexposed samples (EU ratio) of Evernia prunastri and Pseudevernia furfuracea (fruticose lichens). Both scales consist of five percentile-based classes; namely, “Absence of”, “Low”, “Moderate”, “High”, and “Severe” bioaccumulation. A comparative analysis of extant interpretative tools showed that previous ones for native lichens suffered from the obsolescence of source data, whereas the previous expert-assessed scale for transplants failed in describing noticeable element concentration variations. The new scales, based on the concept that pollution can be quantified by dimensionless ratios between experimental and benchmark values, overcome most critical points affecting the previous scales.

Published

2019