Your search keyword '"Roberta Marchesini"' showing total 21 results

1. Enhancing Urban Wastewater Treatment through Isolated Chlorella Strain-Based Phytoremediation in Centrate Stream: An Analysis of Algae Morpho-Physiology and Nutrients Removal Efficiency

Author

Costanza Baldisserotto, Sara Demaria, Michela Arcidiacono, Elisa Benà, Pierluigi Giacò, Roberta Marchesini, Lorenzo Ferroni, Linda Benetti, Marcello Zanella, Alessio Benini, and Simonetta Pancaldi

Subjects

nutrient removal, nitrogen, phosphorus, urban wastewaters, centrate, native microalgae, Botany, QK1-989

Abstract

The release of inadequately treated urban wastewater is the main cause of environmental pollution of aquatic ecosystems. Among efficient and environmentally friendly technologies to improve the remediation process, those based on microalgae represent an attractive alternative due to the potential of microalgae to remove nitrogen (N) and phosphorus (P) from wastewaters. In this work, microalgae were isolated from the centrate stream of an urban wastewater treatment plant and a native Chlorella-like species was selected for studies on nutrient removal from centrate streams. Comparative experiments were set up using 100% centrate and BG11 synthetic medium, modified with the same N and P as the effluent. Since microalgal growth in 100% effluent was inhibited, cultivation of microalgae was performed by mixing tap-freshwater with centrate at increasing percentages (50%, 60%, 70%, and 80%). While algal biomass and nutrient removal was little affected by the differently diluted effluent, morpho-physiological parameters (FV/FM ratio, carotenoids, chloroplast ultrastructure) showed that cell stress increased with increasing amounts of centrate. However, the production of an algal biomass enriched in carotenoids and P, together with N and P abatement in the effluent, supports promising microalgae applications that combine centrate remediation with the production of compounds of biotechnological interest; for example, for organic agriculture.

Published

2023

2. Plant Regeneration Above the Species Elevational Leading Edge: Trade-Off Between Seedling Recruitment and Plant Production

Author

Andrea Mondoni, Simone Orsenigo, Thomas Abeli, Graziano Rossi, Lisa Brancaleoni, Anna Corli, Paola Iacumin, Rita Tonin, Roberta Marchesini, and Renato Gerdol

Subjects

alpine plants, ecological niche, foliar traits, germination, global warming, soil, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Mountains and their biota are highly threatened by climate change. An important strategy that alpine plants use to escape this change consists in seed dispersal and the ability of seeds to germinate and establish in new sites at higher elevation. Little is known about the environmental factors that can affect the regeneration of plants above the elevational limit of growth. We present the first field evidence of recruitment success and plant performance in consequence of upward shift from the alpine to the nival life zone. Seeds of four alpine grassland species were sown at the current elevational limit of growth (site A) and 200 m upward, in a nival environment (site N) located in the Italian Alps. At site N part of the seeds were subjected to experimental manipulation of temperature (using an Open Top Chamber, OTC) or soil (using soil from site A). Recruitment success, soil surface temperature and water potential were monitored for five consecutive years. At the end of the experiment, vegetative growth and foliar traits were measured on individuals from all treatments. Mean annual soil surface temperature and length of the growing season at site A were ca. 2°C higher and ca. 44 days longer than at site N. Seedling emergence and seedling establishment generally were higher at N (with or without OTC) on local soil than at site A or at site N with soil originating from site A. Conversely, production was higher at site A and at site N with soil originating from site A. Recruitment success above the elevational leading edge was enhanced by coarser and nutrient-poor soil, which promoted seedling emergence and establishment but constrained plant growth. This trade-off between seedling recruitment and plant production underlines adaptive consequence and environmental filtering, both critical to forecast community assembly and responses of alpine species to climate warming.

Published

2020

3. Removal of Nitrogen and Phosphorus from Thickening Effluent of an Urban Wastewater Treatment Plant by an Isolated Green Microalga

Author

Costanza Baldisserotto, Sara Demaria, Ornella Accoto, Roberta Marchesini, Marcello Zanella, Linda Benetti, Francesco Avolio, Michele Maglie, Lorenzo Ferroni, and Simonetta Pancaldi

Subjects

nutrient removal, nitrogen, phosphorus, urban wastewaters, autochthonous microalgae, Botany, QK1-989

Abstract

Microalgae are photosynthetic microorganisms and are considered excellent candidates for a wide range of biotechnological applications, including the removal of nutrients from urban wastewaters, which they can recover and convert into biomass. Microalgae-based systems can be integrated into conventional urban wastewater treatment plants (WW-TP) to improve the water depuration process. However, microalgal strain selection represents a crucial step for effective phytoremediation. In this work, a microalga isolated from the effluent derived from the thickening stage of waste sludge of an urban WW-TP was selected and tested to highlight its potential for nutrient removal. Ammonium and phosphate abatements by microalgae were evaluated using both the effluent and a synthetic medium in a comparative approach. Parallelly, the isolate was characterized in terms of growth capability, morphology, photosynthetic pigment content and photosystem II maximum quantum yield. The isolated microalga showed surprisingly high biomass yield and removal efficiency of both ammonium and phosphate ions from the effluent but not from the synthetic medium. This suggests its clear preference to grow in the effluent, linked to the overall characteristics of this matrix. Moreover, biomass from microalgae cultivated in wastewater was enriched in photosynthetic pigments, polyphosphates, proteins and starch, but not lipids, suggesting its possible use as a biofertilizer.

Published

2020

4. Contribution to the knowledge of the Bologna lowlands microtheriofaunal coenosis, using long-eared owl's pellets

Author

Davide Malavasi, Roberta Marchesini, and Stefano Mazzotti

Subjects

pellets, Microteriofaunal coenosis, Lowlands, Science, Zoology, QL1-991

Abstract

Abstract About 700 long-eared owl's pellets, containing 4 species of insectivores and 5 species of rodents, were collected and the microteriofaunal coenosis was studied. The result of this research is comparable to other studies carried out in Padane Plain, as consequence of the sameness of the landscape due to the human activities' influence.

Published

1997

5. Plant Regeneration Above the Species Elevational Leading Edge: Trade-Off Between Seedling Recruitment and Plant Production

Author

Paola Iacumin, Rita Tonin, Thomas Abeli, Lisa Brancaleoni, Andrea Mondoni, Roberta Marchesini, Renato Gerdol, Graziano Rossi, Anna Corli, Simone Orsenigo, Mondoni, A., Orsenigo, S., Abeli, T., Rossi, G., Brancaleoni, L., Corli, A., Iacumin, P., Tonin, R., Marchesini, R., and Gerdol, R.

Subjects

0106 biological sciences, 0301 basic medicine, Life zone, Vegetative reproduction, Seed dispersal, lcsh:Evolution, Growing season, alpine plants, ecological niche, foliar traits, germination, global warming, soil, global warming, 010603 evolutionary biology, 01 natural sciences, Grassland, soil, 03 medical and health sciences, lcsh:QH540-549.5, lcsh:QH359-425, ecological niche, Ecology, Evolution, Behavior and Systematics, geography, geography.geographical_feature_category, biology, Ecology, alpine plants, food and beverages, Ambientale, Biota, biology.organism_classification, alpine plant, 030104 developmental biology, foliar trait, Agronomy, foliar traits, germination, Seedling, Germination, Environmental science, lcsh:Ecology

Abstract

Mountains and their biota are highly threatened by climate change. An important strategy that alpine plants use to escape this change consists in seed dispersal and the ability of seeds to germinate and establish in new sites at higher elevation. Little is known about the environmental factors that can affect the regeneration of plants above the elevational limit of growth. We present the first field evidence of recruitment success and plant performance in consequence of upward shift from the alpine to the nival life zone. Seeds of four alpine grassland species were sown at the current elevational limit of growth (site A) and 200 m upward, in a nival environment (site N) located in the Italian Alps. At site N part of the seeds were subjected to experimental manipulation of temperature (using an Open Top Chamber, OTC) or soil (using soil from site A). Recruitment success, soil surface temperature and water potential were monitored for five consecutive years. At the end of the experiment, vegetative growth and foliar traits were measured on individuals from all treatments. Mean annual soil surface temperature and length of the growing season at site A were ca. 2°C higher and ca. 44 days longer than at site N. Seedling emergence and seedling establishment generally were higher at N (with or without OTC) on local soil than at site A or at site N with soil originating from site A. Conversely, production was higher at site A and at site N with soil originating from site A. Recruitment success above the elevational leading edge was enhanced by coarser and nutrient-poor soil, which promoted seedling emergence and establishment but constrained plant growth. This trade-off between seedling recruitment and plant production underlines adaptive consequence and environmental filtering, both critical to forecast community assembly and responses of alpine species to climate warming.

Published

2020

6. Competitive dominance mediates the effects of topography on plant richness in a mountain grassland

Author

Stefano Chelli, Luca Bragazza, Marta Gaia Sperandii, Leonardo Rosati, Michela Marignani, M. Di Donatantonio, Gabriele Midolo, T. G. W. Forte, Goffredo Filibeck, Alessandro Bricca, Camilla Wellstein, Lorenzo Lazzaro, Laura Cancellieri, L. Oddi, Samuele Maestri, T. Macchiavelli, Simona Maccherini, G. Silan, A. L. Conte, Roberta Marchesini, Filibeck, G., Sperandii, M. G., Bragazza, L., Bricca, A., Chelli, S., Maccherini, S., Wellstein, C., Conte, A. L., Di Donatantonio, M., Forte, T. G. W., Lazzaro, L., Macchiavelli, T., Maestri, S., Marchesini, R., Marignani, M., Midolo, G., Oddi, L., Rosati, L., Silan, G., and Cancellieri, L.

Subjects

0106 biological sciences, Biodiversity, Cover, Ecological filter, Functional trait, Landform, Secondary grassland, Soil nutrient, Specific leaf area, Calcifuge, 010603 evolutionary biology, 01 natural sciences, Grassland, Soil pH, Dominance (ecology), Ecology, Evolution, Behavior and Systematics, Agrostis capillaris, Abiotic component, geography, geography.geographical_feature_category, biology, Ecology, food and beverages, biology.organism_classification, Species richness, Settore BIO/03 - Botanica Ambientale e Applicata, 010606 plant biology & botany

Abstract

Small-scale landforms influence plant species richness, but their mechanisms and effects in semi-natural dry grasslands have been poorly investigated. In this study we compared vascular plant richness, species composition, plant traits, soil properties and biomass nutrient content of convex (hillocks) and concave (hollows) karst landforms in a mountain pasture of the Central Apennines (Italy), at a small spatial scale (1 m2 plots). We found hillocks had significantly higher species richness than hollows. On hillocks, smaller Specific Leaf Area and Lateral Width, together with greater allocation of resources to Below-Ground Organs, indicated lower water availability, whereas hollows had deeper (thus moister), more acidic and more fertile soils, with aboveground plant biomass displaying higher nutrient levels. Partial correlation and regression tree models suggested that fine-scale richness patterns were not directly determined by abiotic properties, but were rather the result of competition levels associated with the cover of Agrostis capillaris (=A. tenuis) – a calcifuge and drought-sensitive grass able to achieve dominance only in hollows. The higher functional convergence exhibited by hollows suggests that A. capillaris is a strong competitor both above- and below-ground, mediating the effects of topography by imposing a biotic filter. On hillocks, competition is released by lower levels of available soil water in summer and higher soil pH, resulting in higher species richness and a more functionally divergent assemblage.

Published

2020

7. Removal of nitrogen and phosphorus from thickening effluent of an urban wastewater treatment plant by an isolated green microalga

Author

Michele Maglie, Costanza Baldisserotto, Lorenzo Ferroni, Francesco Avolio, Linda Benetti, Sara Demaria, Roberta Marchesini, Ornella Accoto, Marcello Zanella, and Simonetta Pancaldi

Subjects

0106 biological sciences, Nitrogen, Biofertilizer, Biomass, Plant Science, Photosynthetic pigment, 010501 environmental sciences, Photosynthesis, Autochthonous microalgae, Nitrogen, Nutrient removal, Phosphorus, Urban wastewaters, 01 natural sciences, Article, Urban wastewaters, chemistry.chemical_compound, 010608 biotechnology, Nutrient removal, Effluent, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, LS9_9, LS9_8, Ecology, Botany, food and beverages, Ambientale, Phosphorus, Pulp and paper industry, Phytoremediation, Wastewater, chemistry, QK1-989, Sewage treatment, Autochthonous microalgae

Abstract

Microalgae are photosynthetic microorganisms and are considered excellent candidates for a wide range of biotechnological applications, including the removal of nutrients from urban wastewaters, which they can recover and convert into biomass. Microalgae-based systems can be integrated into conventional urban wastewater treatment plants (WW-TP) to improve the water depuration process. However, microalgal strain selection represents a crucial step for effective phytoremediation. In this work, a microalga isolated from the effluent derived from the thickening stage of waste sludge of an urban WW-TP was selected and tested to highlight its potential for nutrient removal. Ammonium and phosphate abatements by microalgae were evaluated using both the effluent and a synthetic medium in a comparative approach. Parallelly, the isolate was characterized in terms of growth capability, morphology, photosynthetic pigment content and photosystem II maximum quantum yield. The isolated microalga showed surprisingly high biomass yield and removal efficiency of both ammonium and phosphate ions from the effluent but not from the synthetic medium. This suggests its clear preference to grow in the effluent, linked to the overall characteristics of this matrix. Moreover, biomass from microalgae cultivated in wastewater was enriched in photosynthetic pigments, polyphosphates, proteins and starch, but not lipids, suggesting its possible use as a biofertilizer.

Published

2020

8. Fertiliser application positively affects plants performance but reduces seed viability in seashore mallow (Kosteletzkya pentacarpos ): implication for biomass production and species conservation

Author

Simone Orsenigo, Graziano Rossi, Thomas Abeli, Lisa Brancaleoni, Renato Gerdol, and Roberta Marchesini

Subjects

0106 biological sciences, Biomass (ecology), Plant growth, food and beverages, Kosteletzkya pentacarpos, Biology, 010603 evolutionary biology, 01 natural sciences, Nutrient, Agronomy, Germination, Threatened species, Plant species, Production (economics), Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Kosteletzkya pentacarpos seashore mallow, is recognised as an important plant species for several industrial applications, especially in North America and Asia. In Europe, seashore mallow is highly threatened and subject of conservation actions (e.g. reintroduction). In order to define appropriate multipurpose cultivation protocols, suitable for biomass production and for conservation purposes, we investigated the effect of varying levels of soil salt content and nutrient availability on seashore mallow. As expected, seashore mallow had the best performance in terms of growth rate, flowering and fruit production when fertiliser was applied, while salt had only limited effects. Interestingly, seeds produced by fertilised plants showed a lower germination performance and higher mortality than seeds developed from non-fertilised plants. Our results highlight a trade-off between parental plant growth and seed performance, the former being enhanced and the latter being reduced by fertiliser application. The causes of this trade-off are related to a transgenerational maternal effect of fertiliser application that has important implications for seashore mallow cultivation. Biomass production benefits from fertiliser application but if the quality of seeds and the fitness of the next generation are major objectives (e.g. seed production and species conservation), fertiliser application is not recommended.

Published

2017

9. Soil microbial community structure and enzymatic activity along a plant cover gradient in Victoria Land (continental Antarctica)

Author

Mauro Guglielmin, Bjorn J. M. Robroek, Vincent E. J. Jassey, Luca Bragazza, Roberta Marchesini, Muhammad Arif, Nicoletta Cannone, Laboratory of Soil Biology, Université de Neuchâtel (UNINE), Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Laboratoire Ecologie Fonctionnelle et Environnement (ECOLAB), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Observatoire Midi-Pyrénées (OMP), and Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Météo France-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Total organic carbon, Biomass (ecology), [SDE.MCG]Environmental Sciences/Global Changes, Soil Science, Biogeochemistry, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, 15. Life on land, complex mixtures, 01 natural sciences, Microbial population biology, Environmental chemistry, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Plant cover, Lichen, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences

Abstract

In continental Antarctica, autotrophs are exclusively represented by cyanobacteria, algae, lichens and mosses. Consequently, Antarctic soil communities are expected to be rather simple and primarily dominated by microorganisms. Recently, a change in abundance of mosses and lichens has been observed in continental Antarctica in response to an increase of the active permafrost layer, but the implication of this change to soil micro-organisms remains little known. Here we aim to clarify to what extent the abundance of mosses and lichens affects soil biogeochemistry in Victoria Land, with a particular focus on soil microbial abundance and associated soil enzymatic activity. To achieve this aim, we assessed the structure of soil microbiome and the activity of hydrolytic C, N, and P enzymes along a gradient in soil physico-chemical conditions and plant cover. Moss cover strongly relates to the amount of soil organic carbon (SOC), soil water and nutrient content. Soils with higher content of organic carbon were characterized by higher microbial biomass and showed a relatively higher abundance of fungi as compared to bacteria. More specifically, PLFAs biomarkers for Actinomycetes and Gram-positive bacteria were mainly associated to soils with lower SOC. In order to sustain a higher microbial biomass, total activity of hydrolytic enzymes increased with increasing SOC content. Eco-enzymatic stoichiometry, based on C to P and C to N ratios, indicates a higher investment in N- and P-hydrolytic enzymes (ratio < 1), particularly at low SOC content. Oppositely, an increase in C-hydrolytic enzyme activity (ratio ≈ 1) was observed with increasing accumulation of organic carbon. Such a result seems to indicate a stronger role of soil pH at low SOC on enzymatic stoichiometry (abiotic control) whereas with increasing accumulation of organic matter the enzymatic stoichiometry is more affected by microbial metabolism (biotic control).

Published

2019

10. Re-cultivation of Neochloris oleoabundans in exhausted autotrophic and mixotrophic media: the potential role of polyamines and free fatty acids

Author

Alessandra Sabia, Lorenzo Ferroni, Annalisa Maietti, Stefania Biondi, Paola Tedeschi, Simonetta Pancaldi, Martina Giovanardi, Roberta Marchesini, Costanza Baldisserotto, Sabia, Alessandra, Baldisserotto, Costanza, Biondi, Stefania, Marchesini, Roberta, Tedeschi, Paola, Maietti, Annalisa, Giovanardi, Martina, Ferroni, Lorenzo, and Pancaldi, Simonetta

Subjects

Polyamine, Photosynthetic apparatu, Photobioreactor, Chlorophyta, Photosynthetic efficiency, Fatty Acids, Nonesterified, Photosynthesis, Cell morphology, Free fatty acids, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Botany, Polyamines, Food science, Recycling culture media, Neochloris oleoabundan, Growth medium, Free fatty acid, biology, Neochloris oleoabundans, Recycling culture media, Photosynthetic apparatus, Biomass production, Polyamines, Free fatty acids, Ambientale, Photosynthetic apparatus, General Medicine, Neochloris oleoabundans, biology.organism_classification, Culture Media, Biomass production, chemistry, Mixotroph, Biotechnology

Abstract

Neochloris oleoabundans (Chlorophyta) is widely considered one of the most promising microalgae for biotechnological applications. However, the large-scale production of microalgae requires large amounts of water. In this perspective, the possibility of using exhausted growth media for the re-cultivation of N. oleoabundans was investigated in order to simultaneously make the cultivation more economically feasible and environmentally sustainable. Experiments were performed by testing the following media: autotrophic exhausted medium (E+) and mixotrophic exhausted medium after cultivation with glucose (EG+) of N. oleoabundans cells grown in a 20-L photobioreactor (PBR). Both exhausted media were replenished with the same amounts of nitrate and phosphate as the control brackish medium (C). Growth kinetics, nitrate and phosphate consumption, photosynthetic pigments content, photosynthetic efficiency, cell morphology, and lipid production were evaluated. Moreover, the free fatty acid (FFA) composition of exhausted media and the polyamine (PA) concentrations of both algae and media were analyzed in order to test if some molecules, released into the medium, could influence algal growth and metabolism. Results showed that N. oleoabundans can efficiently grow in both exhausted media, if appropriately replenished with the main nutrients (E+ and EG+), especially in E+ and to the same extent as in C medium. Growth promotion of N. oleoabundans was attributed to PAs and alteration of the photosynthetic apparatus to FFAs. Taken together, results show that recycling growth medium is a suitable solution to obtain good N. oleoabundans biomass concentrations, while providing a more sustainable ecological impact on water resources.

Published

2015

11. Use of moss (Tortula muralis Hedw.) for monitoring organic and inorganic air pollution in urban and rural sites in Northern Italy

Author

Alessandro Medici, Paola Pedrini, Simona Coppi, Renato Gerdol, Luca Bragazza, Stefano Benedetti, Roberta Marchesini, and Alessandro Bovolenta

Subjects

Pollution, N, Atmospheric deposition, Biomonitoring, Metals, Nitrogen isotopes, PAH, Atmospheric Science, biology, media_common.quotation_subject, Trace element, Air pollution, biology.organism_classification, medicine.disease_cause, Moss, Isotopes of nitrogen, Deposition (aerosol physics), Environmental chemistry, medicine, Environmental science, Air quality index, General Environmental Science, media_common

Abstract

Concentrations of polycyclic aromatic hydrocarbons (PAHs) and trace metals, as well as stable nitrogen (N) isotope composition, were determined in moss tissues from an urban area and from rural sites in northern Italy. The total PAH contents were higher in the urban area. The percentage fraction of low molecular weight volatile PAHs on total PAHs was greater in rural sites. The mean concentration ratio (urban:rural) was, overall, much lower for trace metals than for PAHs. Among metals, only Pb levels were highest in the city center, and were, in turn, associated with a more positive δ15N signature in moss tissue. This indicates that exposure to slow-moving traffic in the city center resulted both in higher Pb deposition and a greater contribution of NOx, compared with NHx, in atmospheric N pollution. Most metals (namely Cd, Cr, Fe, Ni, V and Zn) were moderately enriched in moss tissues from the urban area, especially in the sectors downwind from the main emission sources. In contrast, Co and Cu contents in the urban area did not differ from those in rural sites. We concluded that organic (PAH) and inorganic (metal) pollution showed varying patterns which reflected differences as regards both emission sources and atmospheric transport pathways. Atmospheric deposition of PAHs peaked in close vicinity to urban emission sources. Conversely, the atmospheric deposition of metals, except Pb, was more diffuse over the territory.

Published

2002

12. Nutrient and carbon relations in subalpine dwarf shrubs after neighbour removal or fertilization in northern Italy

Author

Luca Bragazza, Roberta Marchesini, Renato Gerdol, and Lisa Brancaleoni

Subjects

Competition, ved/biology, Ecology, media_common.quotation_subject, ved/biology.organism_classification_rank.species, food and beverages, Plant community, Growth, Interspecific competition, Biology, biology.organism_classification, Shrub, Competition (biology), Empetrum, Nutrient, Stable isotopes, Vaccinium, Soil fertility, Ecology, Evolution, Behavior and Systematics, media_common, Woody plant

Abstract

Two subalpine dwarf-shrub heath communities with differing levels of soil nutrient availability were subjected to a 3-year experimental manipulation, including nutrient addition or removal of one of the two co-dominant species from each community. The main objective of our study was to assess the relative importance of interspecific competition versus nutrient limitation in relation to soil fertility. We also aimed to investigate if and to what extent current-year shoot size, leaf-based rates of net photosynthesis and foliar nutrient status accounted for the observed changes in the aboveground biomass of the shrubs. At the end of the experiment, neighbour removal increased the aboveground biomass of all shrubs, especially in the more fertile community, while fertilization did not. We concluded that: (1) competition is more effective than nutrient limitation in structuring the vegetation of subalpine heathlands; and (2) competition intensity is stronger in the more fertile community. The observed patterns of variations in aboveground biomass were not consistently related to net photosynthetic rates, size of individual shoots and foliar nutrient status. Hence, we also concluded that the growth response of dwarf shrubs to altered environmental conditions is primarily determined by developmental plasticity.

Published

2002

13. Monitoring temporal trends of air pollution in an urban area using mosses and lichens as biomonitors

Author

Paola Iacumin, Roberta Marchesini, Renato Gerdol, and Lisa Brancaleoni

Subjects

Pollution, Environmental Engineering, Lichens, Nitrogen, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Air pollution, Bryophyta, medicine.disease_cause, Air Pollution, Biomonitoring, medicine, Environmental Chemistry, Lichen, Air quality index, media_common, Pollutant, Air Pollutants, biology, Ecology, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Moss, Italy, Metals, Environmental chemistry, Bioaccumulation, Environmental science, Environmental Monitoring

Abstract

Monitoring air quality by using living organisms as biomonitors has received increasing attention in recent years. However, rather few studies were based on the concomitant use of passive biomonitoring (based on the different sensitivity of living organisms to air pollution) and active biomonitoring (based on their capacity to accumulate pollutants in the tissues). We carried out a repeated survey of an urban area in Northern Italy, with the objective of comparing temporal trends of different kinds of air pollutants with bioindication (passive biomonitoring) and bioaccumulation (active biomonitoring) techniques. During a five-year interval, temporal patterns of moss metal concentrations underwent significant changes probably due to intercurring variations in the importance of different pollution sources. Nitrogen (N) concentration in moss tissues also decreased and was paralleled by increasing diversity of epiphytic lichens. Increasing δ(15)N in moss tissues suggested a higher contribution of oxidized N species compared with reduced N species.

Published

2014

14. Monitoring of heavy metal deposition in Northern Italy by moss analysis

Author

M. Franchi, S. Pison, A. Buffoni, Roberta Marchesini, F. Palmieri, S. Giaquinta, M. Achilli, Luca Bragazza, Renato Gerdol, Pasquale Spezzano, N. De Marco, R. Alber, G. Lorenzoni, and L. Bonetti

Subjects

Deposition, Heavy metal, Moss analysis, Northern Italy, Health, Toxicology and Mutagenesis, Air pollution, chemistry.chemical_element, Toxicology, medicine.disease_cause, Metal, medicine, Cadmium, biology, General Medicine, Particulates, biology.organism_classification, Pollution, Moss, chemistry, visual_art, Environmental chemistry, visual_art.visual_art_medium, Environmental science, Spatial variability, Deposition (chemistry), Hylocomium splendens

Abstract

A survey of heavy metal deposition in the mountainous territories of Northern Italy was carried out in 1995-96. Moss samples (mainly Hylocomium splendens) were collected in a dense network of sites (about 3.2 sites/1000 km(2)) and the data of metal concentrations in moss tissues were statistically correlated with environmental and climatic factors, as well as with bulk deposition of elements and elemental concentrations in the soil. Three main geographic patterns of metal concentration in mosses could be defined: (1) Fe, Ni, and Cr, all derived both by soil particulates and anthropogenic emissions connected with ferrous metal manufacturing, were mostly concentrated in Northwestern Italy; (2) Cu and Zn, as typical multi-source elements, showed rather high concentrations with little ranges of variation over the whole area and small peaks reflecting local source points; (3) Cd and Pb reflected long-distance transport and showed highest concentrations in the regions with highest precipitation, especially in the Eastern Alps.

Published

2000

15. Response of dwarf shrubs to neighbour removal and nutrient addition and their influence on community structure in a subalpine heath

Author

Lisa Brancaleoni, Marisa Menghini, Renato Gerdol, and Roberta Marchesini

Subjects

Biomass (ecology), Ecology, biology, ved/biology, ved/biology.organism_classification_rank.species, Vaccinium uliginosum, Plant Science, Evergreen, Vaccinium myrtillus, biology.organism_classification, Shrub, Competition, Empetrum, Facilitation, Nutrient limitation, Vaccinium, Deciduous, Agronomy, Standing crop, Botany, Shoot, Ecology, Evolution, Behavior and Systematics

Abstract

Summary 1 A 3-year experiment involving nutrient addition and removal of one of two coexisting dwarf shrub species was conducted in two community types in a subalpine heathland on the northern Apennines (Italy). Vaccinium uliginosum occurred at all sites but was associated with the deciduous Vaccinium myrtillus at more sheltered nutrient-rich sites (HV community), and with the evergreen Empetrum hermaphroditum where the habitat was poorer and more exposed (EV community). Length of current-year shoots and fruit production of each species were determined in each of the 3 years, and standing crop at the beginning and end of the experiment. 2 The length of current-year shoots of both deciduous species, but not of the evergreen, varied considerably between years, presumably due to varying temperatures at the beginning of the three growing seasons. Fruit production also varied. 3 Fertilization promoted an increase in the length of V. uliginosum shoots at the HV community but not at the EV community. The removal of V. uliginosum enhanced shoot elongation in V. myrtillus (HV community) but reduced shoot elongation in E. hermaphroditum (EV community). Neighbour removal did not affect shoot length of V. uliginosum at either community. There were few treatment effects on fruiting of these clonal species. 4 The standing crop in untreated stands did not change during the experimental period. Changes in shoot length resulting from environmental manipulations were not accompanied by consistent variation in the standing crop of any species. Standing crop increased only for V. myrtillus after removing V. uliginosum at the HV community (same direction as shoot length). The standing crop of E. hermaphroditum did not change after removing V. uliginosum at the EV community, although shoot length was significantly reduced. The standing crop of V. uliginosum was unaffected by neighbour removal and was decreased by nutrient addition at both communities. 5 None of the shrubs appeared able to utilize more abundant resources to increase above-ground biomass. However, increased shoot length in nutrient-rich habitats gave V. uliginosum a superior ability to capture light compared with V. myrtillus, the latter being more successful when the coexisting competitively superior species was removed. This would support Grime’s theory, indicating that competition becomes more important as soil resource levels increase. Positive interactions appeared to play a role in the more extreme habitat, where E. hermaphroditum normally benefited from the shelter of the V. uliginosum canopy but was able to adapt its architecture when exposed.

Published

2000

16. Bedrock geology interacts with altitude in affecting leaf growth and foliar nutrient status of mountain vascular plants

Author

Renato Gerdol, Paola Iacumin, and Roberta Marchesini

Subjects

0106 biological sciences, N, Altitude, Mycorrhiza, Plant functional type, Soil chemistry, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, NO, Nutrient, Ecology, Evolution, Behavior and Systematics, Ecology, fungi, food and beverages, biology.organism_classification, Agronomy, Bedrock geology, 010606 plant biology & botany

Published

2016

17. Morpho-physiological and biochemical responses in the floating lamina of Trapa natans exposed to molybdenum

Author

Simonetta Pancaldi, Antonella Pagnoni, Cristina Zanzi, Costanza Baldisserotto, Roberta Marchesini, and Lorenzo Ferroni

Subjects

Chloroplasts, Photosystem II, Nitrogen, Trapa, Plant Science, Photosynthetic pigment, Biology, Photosynthesis, Chloroplast, hydrophytes, microspectrofluorimetry, molybdenum, photosystem II, Acclimatization, chemistry.chemical_compound, Microscopy, Electron, Transmission, Botany, Lythraceae, Biological pigment, food and beverages, Pigments, Biological, Cell Biology, General Medicine, chemistry, Thylakoid, Ultrastructure

Abstract

The response to molybdenum (Mo) was studied in the metal-tolerant hydrophyte Trapa natans L. Previously, it was shown that the plant accumulates Mn in the floating lamina by means of phenolic compounds and responded with acclimation responses of the chloroplast. Since the involvement of phenolics has been proposed also in Mo resistance, we tested the response of T. natans to increasing doses (5, 50, 150, 600 microM) of Mo using the photosynthetic apparatus as an indicator of cellular stress. Only 5 microM Mo did not cause evident modifications with respect to controls. Conversely, 50 to 600 microM Mo induced progressively marked alterations of the lamina morphology. The chloroplast ultrastructure showed disorganisation of the thylakoid system, and correspondingly, the photosynthetic pigment pattern was altered with a fall-down in photosynthesis. Microspectrofluorimetry indicated alterations of photosystem II, with differences among the three cell layers (first and second palisade and spongy tissues). While the highest dose caused plant death, 50 and 150 microM Mo-treated plants underwent partial recovery, and the plant survived up to the end of the vegetative season. However, reproduction was unsuccessful. Mo treatment did not induce increase in total phenolics, but only in anthocyanin. In contrast to Mn, detoxification of Mo by chelation inside vacuoles, possibly by anthocyanins, is suggested to be an insufficient mechanism to reduce Mo toxicity, which probably includes an impairment of nitrogen metabolism. However, the metal was accumulated in the lamina. On the whole, T. natans showed limited capabilities to survive Mo excess as compared with Mn.

Published

2010

18. Element concentrations in the forest moss Hylocomium splendens: variation associated with altitude, net primary production and soil chemistry

Author

Luca Bragazza, Roberta Marchesini, and Renato Gerdol

Subjects

Atmospheric deposition, Bioaccumulation, Biomonitor, Metal, Pollution, Health, Toxicology and Mutagenesis, Toxicology, Trees, Soil, Altitude, Metals, Heavy, Botany, Tissue Distribution, Precipitation, Photosynthesis, Biomass (ecology), Air Pollutants, biology, Chemistry, Primary production, Soil chemistry, General Medicine, biology.organism_classification, Moss, Bryopsida, Environmental chemistry, Hylocomium splendens, Environmental Monitoring

Abstract

Net primary production (NPP) of the forest moss Hylocomium splendens increased significantly along an elevational gradient in the southern Alps of Italy. Extracellularly bound metals (Al, Ca, Co, Cr, Fe, Ni, Mo, Ni, Pb) showed declining concentrations in moss tissue with increasing altitude, presumably because the amount of exchange sites on the cell wall increases less than total biomass. Concentrations of intracellular elements did not vary (Cd, Cu, Mg, Na, Zn), or even increased (K) with altitude. The observed patterns were always independent of precipitation amount and soil concentrations of exchangeable elements. A higher soil nutrient status only enhanced K uptake by the moss. We concluded that variations in moss NPP, associated with elevational gradients, may significantly affect estimates of atmospheric deposition based on moss analysis in mountainous regions.

Published

2002

19. Reed (Phragmites australis) decline in a brackish wetland in Italy

Author

Roberta Marchesini, Renato Gerdol, and S Fogli

Subjects

Salinity, Sulphide, Wetland, Aquatic Science, Biology, Sodium Chloride, Sulfides, Oceanography, Poaceae, Die-back, Aerenchyma, Phragmites, Aquatic plant, Organic acids, Botany, Soil Pollutants, Water Pollutants, Phragmites australis, Phytotoxins, Ecosystem, geography, geography.geographical_feature_category, Brackish water, Eutrophication, General Medicine, Pollution, Agronomy, Italy, Soil water, Waterlogging (agriculture), Environmental Monitoring

Abstract

A comparative field study was carried out at two sites (a healthy site and a declining site) in a brackish wetland in northern Italy, with the objective to investigate the symptoms and the possible causes leading to reed (Phragmites australis) decline in this area. The declining reed plants presented many of the symptoms (clumping habit, smaller size, weaker culms, abnormal rhizome and root anatomy, low starch levels in rhizomes) comprised within the so-called reed die-back syndrome, frequently observed in central European wetlands but never recorded previously in (Sub)Mediterranean regions. Soil nutrient levels did not differ much between the two sites, with nitrate concentrations in the soil being even higher at the healthy site (1.54 microg g(-1); die-back site 0.76 microg g(-1)). Hence, eutrophication did not seem to represent a major cause in determining reed decline in this area. High sulphate concentrations in saltwater associated with low soil redox potentials (-215 mV) due to waterlogging resulted in high soil sulphide concentrations. Concentrations of organic acids, especially acetic acid, did not differ remarkably between sites. High sulphide levels presumably accounted for abnormal anatomical formations (callus blocking aerenchyma channels), lower rates of net CO2 exchange and reduced reserve storage, observed at the die-back site. This was associated with a lower mechanical resistance of reed culms which accelerated reed mortality in the die-back areas. We concluded that high sulpihde levels in permanently waterlogged soils may result in die-back of reed stands in Mediterranean wetlands.

Published

2002

20. Growth response of sphagnum capillifolium to nighttime temperature and nutrient level: Mechanisms and implications for global change

Author

Simonetta Pancaldi, Renato Gerdol, Rita Gualandri, A. Bonora, and Roberta Marchesini

Subjects

Peat, biology, Phosphorus, Global warming, chemistry.chemical_element, Sphagnum capillifolium, biology.organism_classification, Photosynthesis, Nitrogen, Sphagnum, Horticulture, Nutrient, chemistry, Botany, General Earth and Planetary Sciences

Abstract

Individuals of Sphagnum capillifolium were cultured for 2 mo under six different combinations of nighttime temperature and nutrients. Low nighttime temperature caused a five-fold reduction of growth. Growth was also reduced when the plants were cultured without any addition of nutrient in the growing medium, but only when nutrient deficiency was coupled with high nighttime temperature. Growth reduction was associated with decreased rates of net photosynthesis, but was not accompanied by a degradation of photosynthetic pigments and/or variations in the pigment ratios, nor was the ultrastructure of chloroplasts significantly altered. The decline in the net photosynthetic rate may be due to a limitation in the enzymatic reactions at unfavorable temperatures. Nitrogen and, especially, phosphorus appeared to limit growth of Sphagnum capillifolium at optimal temperatures. A nighttime temperature of 50C was above the lower threshold triggering the synthesis of red wall-pigments, known to be promoted by nighttime chilling. Climate warming is expected to increase the growth rates of Sphagnum, but the consequences on the carbon balance of peatlands cannot be predicted because temperature rise may also enhance breakdown of peat.

Published

1998

21. Water- and nutrient-use efficiency of a deciduous species, Vaccinium myrtillus, and an evergreen species, V. vitis-idaea, in a subalpine dwarf shrub heath in the southern Alps, Italy

Author

Luca Bragazza, Paola Iacumin, Renato Gerdol, and Roberta Marchesini

Subjects

biology, ved/biology, ved/biology.organism_classification_rank.species, food and beverages, Drought deciduous, Understory, Evergreen, biology.organism_classification, Vaccinium myrtillus, Shrub, Horticulture, Deciduous, Ericaceae, Botany, Water-use efficiency, Ecology, Evolution, Behavior and Systematics

Abstract

Periodic measurements of gas-exchange rates and determinations of foliar N and P concentrations were used for evaluating instantaneous water-use efficiency and photosynthetic nutrient-use efficiency in two co-existing dwarf shrubs of different growth form (V. myrtillus, deciduous, and V. vitis-idaea, evergreen) in a subalpine heath in the southern Alps of Italy. Those data were compared with cumulative assessments of water-use efficiency and photosynthetic nutrient-use efficiency obtained by measuring leaf carbon isotope discrimination in leaf tissues and by estimating nutrient resorption from senescing leaves. V. myrtillus presented higher dry-weight based rates of net photosynthesis (A weight ) compared to V. vitis-idaea. A weight was positively correlated with foliar-nutrient status and intercellular-to-ambient gradient in CO 2 concentrations. A weight was, furthermore, negatively correlated with leaf specific mass. Instantaneous photosynthetic nutrient-use efficiency did not differ between the two species but the percentages of N and P pools resorbed from senescing leaves were somewhat higher in the deciduous species. The evergreen species showed lower P concentrations in senescing leaves which indicated a higher proficiency in resorbing phosphorus compared to the deciduous species. In addition, the evergreen species achieved a higher carbon gain per unit foliar N and P, due to a longer mean residence time of both nutrients. The two species did not differ from each other with respect to both instantaneous and long-term water-use efficiency. This was consistent with the climatic pattern, showing no sign of water deficiency through the growing season. Current-year V. vitis-idaea leaves had a significantly higher δ 13 C compared to previous-year leaves, possibly mirroring a long term acclimation of evergreen leaves, as far as they age, to the habitat conditions in the understory where evergreen species are usually confined within mixed dwarf-shrub communities.