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1. Mapping tropical forest aboveground biomass using airborne SAR tomography

Author

Naveen Ramachandran, Sassan Saatchi, Stefano Tebaldini, Mauro Mariotti d’Alessandro, and Onkar Dikshit

Subjects
Medicine, Science
Abstract

Abstract Mapping tropical forest aboveground biomass (AGB) is important for quantifying emissions from land use change and evaluating climate mitigation strategies but remains a challenging problem for remote sensing observations. Here, we evaluate the capability of mapping AGB across a dense tropical forest using tomographic Synthetic Aperture Radar (TomoSAR) measurements at P-band frequency that will be available from the European Space Agency’s BIOMASS mission in 2024. To retrieve AGB, we compare three different TomoSAR reconstruction algorithms, back-projection (BP), Capon, and MUltiple SIgnal Classification (MUSIC), and validate AGB estimation from models using TomoSAR variables: backscattered power at 30 m height, forest height (FH), backscatter power metric (Q), and their combination. TropiSAR airborne campaign data in French Guiana, inventory plots, and airborne LiDAR measurements are used as reference data to develop models and calculate the AGB estimation uncertainty. We used univariate and multivariate regression models to estimate AGB at 4-ha grid cells, the nominal resolution of the BIOMASS mission. Our results show that the BP-based variables produced better AGB estimates compared to their counterparts, suggesting a more straightforward TomoSAR processing for the mission. The tomographic FH and AGB estimation have an average relative uncertainty of less than 10% with negligible systematic error across the entire biomass range (~ 200–500 Mg ha−1). We show that the backscattered power at 30 m height at HV polarization is the best single measurement to estimate AGB with significantly better accuracy than the LiDAR height metrics, and combining it with FH improved the accuracy of AGB estimation to less than 7% of the mean. Our study implies that using multiple information from P-band TomoSAR data from the BIOMASS mission provides a new capability to map tropical forest biomass and its changes accurately.

Published
2023
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2. Remarks on the exotic flora of Capo Mortola (Ventimiglia, northern Italy) and its changes over time

Author

Mauro Mariotti and Elena Zappa

Subjects
Botany, QK1-989
Abstract

In this study, we compared current data and data of the census made in the 1990s related to the vascular flora of Capo Mortola (Ventimiglia, Italy), considering 270 taxa not dependent on crop management. The current status reported 198 alien species: 5 invasive, 65 naturalized 75 casual, 38 occurring as casual in human-dominated systems, but without direct intervention by humans and not close to parent plant, 15 occurring as casual alien, but still with some uncertainties for a definitive classification, and plus 3 cryptogenic and 1 eradicated (extinct) taxa, while in 1996 were 229 species: 87 naturalized and 142 adventitious (casual). Of these, 40 taxa show an increasing trend and 41 a decreasing or disappearing trend. If we consider the wild areas of Capo Mortola, 10 taxa are new to the Italian flora (7 casual and 3 naturalized) while 13 are new to the Ligurian flora only (all casual). If we also consider the neglected areas of the Botanical Gardens, 18 new casual species for the Italian flora and 10 for the Ligurian one would be added. In addition, 9 status changes are proposed on a national scale and 17 on a regional scale. An in-depth analysis was conducted on the presence and the local history of a subset of 34 exotic plants, 11 of which are new or have a new status for the Italian flora.

Published
2022
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3. Tomato (Solanum lycopersicum L.) accumulation and allergenicity in response to nickel stress

Author

Enrica Roccotiello, Elena Nicosia, Lorenzo Pierdonà, Pietro Marescotti, Maria Antonietta Ciardiello, Ivana Giangrieco, Adriano Mari, Danila Zennaro, Denise Dozza, Michele Brancucci, and Mauro Mariotti

Subjects
Medicine, Science
Abstract

Abstract Vegetables represent a major source of Ni exposure. Environmental contamination and cultural practices can increase Ni amount in tomato posing significant risk for human health. This work assesses the tomato (Solanum lycopersicum L.) response to Ni on the agronomic yield of fruits and the related production of allergens. Two cultivars were grown in pots amended with Ni 0, 30, 60, 120, and 300 mg kg−1, respectively. XRF and ICP-MS analyses highlighted the direct increase of fruit Ni content compared to soil Ni, maintaining a stable biomass. Leaf water content increased at Ni 300 mg kg−1. Total protein content and individual allergenic components were investigated using biochemical (RP-HPLC and N-terminal amino acid sequencing) and immunological (inhibition tests of IgE binding by SPHIAa assay on the FABER testing system) methodologies. Ni affected the fruit tissue concentration of pathogenesis-related proteins and relevant allergens (LTP, profilin, Bet v 1-like protein and TLP). This study elucidates for the first time that tomato reacts to exogenous Ni, uptaking the metal while changing its allergenic profiles, with potential double increasing of exposure risks for consumers. This evidence highlighted the importance of adequate choice of low-Ni tomato cultivars and practices to reduce Ni uptake by potentially contaminated matrices.

Published
2022
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4. Notulae to the Italian native vascular flora: 12

Author

Fabrizio Bartolucci, Gianniantonio Domina, Carlo Argenti, Gianluigi Bacchetta, Sandro Ballelli, Enrico Banfi, Davide Barberis, Giuseppina Barberis, Alessio Bertolli, Rossano Bolpagni, Gianmaria Bonari, Federica Bonini, Ian Briozzo, Giuseppe Brundu, Thomas Bruschi, Mario Calbi, Michele Callegari, Giacomo Calvia, Davide Campoccia, Laura Cancellieri, Giacomo Cangelmi, Stefano Carfagno, Francesca Carruggio, Gabriele Casazza, Viviana Cavallaro, Salvatore Cherchi, Bernadette Ciocia, Fabio Conti, Alessandro Crisafulli, Davide Dagnino, Alice Dalla Vecchia, Giuseppe De Fine, Valerio Del Nero, Alfredo Di Filippo, Franz G. Dunkel, Francesco Festi, Goffredo Filibeck, Mauro Fois, Luigi Forte, Franca Fratolin, Gabriele Galasso, Daniela Gigante, Günter Gottschlich, Leonardo Gubellini, Nicole Hofmann, Pedro Jiménez-Mejías, Valentina L. A. Laface, Michele Lonati, Vanessa Lozano, Andrea Mainetti, Mauro Mariotti, Giacomo Mei, Francesco Minutillo, Luigi Minuto, Carmelo M. Musarella, Ginevra Nota, Simone Orsenigo, Mattia Pallanza, Nicodemo G. Passalacqua, Gaetano Pazienza, Lorenzo Pinzani, Marco Pittarello, Lina Podda, Filippo Prosser, Simone Ravetto Enri, Giovanni Riva, Francesco Santi, Anna Scoppola, Alberto Selvaggi, Federico Selvi, Giovanni Spampinato, Adriano Stinca, Valeria Tomaselli, Giulia Tomasi, Giancarlo Tondi, Claudia Turcato, Thomas Wilhalm, and Lorenzo Lastrucci

Subjects
Botany, QK1-989
Abstract

In this contribution, new data concerning the distribution of native vascular flora in Italy are presented. It includes new records, confirmations, exclusions, and status changes to the Italian administrative regions. Nomenclatural and distribution updates, published elsewhere, and corrigenda are provided as Suppl. material 1.

Published
2021
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5. New national and regional Annex I Habitat records: from #26 to #36

Author

Giovanni Rivieccio, Michele Aleffi, Claudia Angiolini, Simonetta Bagella, Giuseppe Bazan, Federica Bonini, Maria Carmela Caria, Simona Casavecchia, Miris Castello, Davide Dagnino, Maria Carla de Francesco, Emanuele Farris, Emanuele Fanfarillo, Tiberio Fiaschi, Luigi Forte, Lorenzo Gianguzzi, Flavia Landucci, Fabio Maneli, Francesca Mantino, Mauro Mariotti, Gianfranco Pirone, Livio Poldini, Silvia Poponessi, Safiya Praleskouskaya, Angela Stanisci, Valeria Tomaselli, Francesco Pio Tozzi, Claudia Turcato, Roberto Venanzoni, and Daniela Gigante

Subjects
Plant culture, SB1-1110, Plant ecology, QK900-989
Abstract

New Italian data on the distribution of the Annex I Habitats 1510*, 2130*, 2250*, 3180*, 3260, 5230*, 6410, 7140, 7220*, 9320 are reported in this contribution. Specifically, 14 new occurrences in Natura 2000 sites are presented and 20 new cells are added in the EEA 10 km × 10 km reference grid. The new data refer to the Italian administrative regions of Abruzzo, Apulia, Friuli Venezia Giulia, Liguria, Marche, Molise, Sardinia, Sicily, Tuscany and Umbria.

Published
2021
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6. Proposals for improvement of Annex I of Directive 92/43/EEC: Central Italy

Author

Simona Casavecchia, Marina Allegrezza, Claudia Angiolini, Edoardo Biondi, Federica Bonini, Eva Del Vico, Emanuele Fanfarillo, Bruno Foggi, Daniela Gigante, Lorenzo Gianguzzi, Cesare Lasen, Simona Maccherini, Mauro Mariotti, Simone Pesaresi, Gianfranco Pirone, Livio Poldini, Federico Selvi, Roberto Venanzoni, Daniele Viciani, Marisa Vidali, and Giampiero Ciaschetti

Subjects
Plant culture, SB1-1110, Plant ecology, QK900-989
Abstract

The main purpose of the 92/43/EEC Habitats Directive is to contribute to the conservation of biodiversity, understood as habitat types and species of the flora and fauna of the European Union. To achieve this goal, natural and semi-natural biodiversity as a whole must be recognized and included in its annexes. As for the conservation of biotopes, named habitat types, Italy is unfortunately lacking as it the Annex I does not include important ecosystems that are typical of its territory, rare for biogeographical reasons or threatened. Therefore, the opportunity to identify a first list of significant habitats for central Italy is discussed here. For each of the new proposed types (new habitats or new subtypes) a sheet has been prepared to highlight their salient characteristics. The new proposals concern seven habitat types and one subtype: sedge and reeds formations (Freshwater large sedge and reed beds), willow shrublands (Shrubby willow formations of river banks and fens), Apennine garrigues (Apennine hilly and montane garrigues), a new subtype of Annex I Habitat 6130 (Communities of herbaceous and dwarf shrub-suffrutescent plants of Italian ultramafic substrates), ancient olive groves ("Centuries-old olive groves" with evergreen Quercus spp. and arborescent matorral), secondary meadows (Italian submontane and montane pastured meadows dominated by Cynosurus cristatus), badlands (Pioneer halophilous and sub-halophilous communities of “calanchi” and “biancane” badlands) and hop-hornbeam woods (Italian-Balkan hop-hornbeam woods).

Published
2021
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7. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 12

Author

Sonia Ravera, Marta Puglisi, Alfredo Vizzini, Silvia Assini, Matteo Barcella, Gabriele Berta, Fabrizio Boccardo, Ilaria Bonini, Francesca Bottegoni, Romina Ciotti, Marco Clericuzio, Annalena Cogoni, Davide Dagnino, Antonio De Agostini, Antonio B. De Giuseppe, Francesco Dovana, Gabriele Gheza, Deborah Isocrono, Giovanni Maiorca, Mauro Mariotti, Juri Nascimbene, Pier Luigi Nimis, Silvia Ongaro, Giulio Pandeli, Nicodemo G. Passalacqua, Giovanna Pezzi, Silvia Poponessi, Filippo Prosser, Domenico Puntillo, Michele Puntillo, Giovanni Sicoli, Claudia Turcato, and Chiara Vallese

Subjects
Botany, QK1-989
Abstract

In this contribution, new data concerning bryophytes, fungi and lichens of the Italian flora are presented. It includes new records, confirmations or exclusions for the bryophyte genera Acaulon, Campylopus, Entosthodon, Homomallium, Pseudohygrohypnum, and Thuidium, the fungal genera Entoloma, Cortinarius, Mycenella, Oxyporus, and Psathyrella and the lichen genera Anaptychia, Athallia, Baeomyces, Bagliettoa, Calicium, Nephroma, Pectenia, Phaeophyscia, Polyblastia, Protoparmeliopsis, Pyrenula, Ramalina, and Sanguineodiscus.

Published
2021
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8. High Megabenthic Complexity and Vulnerability of a Mesophotic Rocky Shoal Support Its Inclusion in a Mediterranean MPA

Author

Francesco Enrichetti, Giorgio Bavestrello, Valentina Cappanera, Mauro Mariotti, Francesco Massa, Lorenzo Merotto, Paolo Povero, Ilaria Rigo, Margherita Toma, Leonardo Tunesi, Paolo Vassallo, Sara Venturini, and Marzia Bo

Subjects
animal forests, Eunicella cavolini, Antipathella subpinnata, Lytocarpia myriophyllum, fishing impact, trammel net, Biology (General), QH301-705.5
Abstract

The deep shoal of Punta del Faro (Ligurian Sea, Mediterranean Sea) is a mesophotic rocky elevation hosting complex animal forests threatened by fishing activities. To identify appropriate conservation measures and set a reference example for similar cases, we present a detailed characterization of its megabenthic communities and a quantification of the fishing pressure. The results highlight the high natural value of the area, presenting high biodiversity (111 megabenthic and demersal species) and diverse types of animal forest, predominantly dominated by cnidarians. The tridimensional seascape is among the most complex in the eastern Ligurian Sea, but the long-term evaluation of its environmental status suggested consistent affects due to the high abundance of lost fishing gear (0.65 items m−2) directly entangled with structuring cnidarians. The artisanal and recreational fishing pressure are currently moderate. However, the use of bottom-contact fishing gear causes significant modifications to the seafloor’s integrity. This study emphasizes the high conservation value and vulnerability of the shoal, highlighting the importance of its protection through its inclusion in the Portofino MPA, whose external perimeter is 200 m from the study area. A critical discussion of the advantages and disadvantages is provided with a map of the possible extension of the MPA boundaries.

Published
2023
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9. New national and regional Annex I Habitat records: from #16 to #20

Author

Giovanni Rivieccio, Simonetta Bagella, Giuseppe Bazan, Federica Bonini, Maria Carmela Caria, Davide Dagnino, Mauro Mariotti, Claudia Turcato, and Lorenzo Gianguzzi

Subjects
Plant culture, SB1-1110, Plant ecology, QK900-989
Abstract

New data on the distribution of the Annex I Habitats 3120, 3260, 6310, 9180* and 92A0 are reported in this contribution. In detail, 3 new occurrences in Natura 2000 Sites are presented and 5 new cells in the EEA 10 km x 10 km Reference grid are added. The new data refer to Italy and in particular to the Administrative Regions of Liguria, Sardinia, Sicily and Umbria. This issue of the section “Habitat records” includes an Errata corrige referring to the last released issue.

Published
2020
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10. A first checklist of the alien-dominated vegetation in Italy

Author

Daniele Viciani, Marisa Vidali, Daniela Gigante, Rossano Bolpagni, Mariacristina Villani, Alicia Teresa Rosario Acosta, Michele Adorni, Michele Aleffi, Marina Allegrezza, Claudia Angiolini, Silvia Assini, Simonetta Bagella, Gianmaria Bonari, Maurizio Bovio, Francesco Bracco, Giuseppe Brundu, Gabriella Buffa, Marco Caccianiga, Lucilla Carnevali, Simona Ceschin, Giampiero Ciaschetti, Annalena Cogoni, Valter Di Cecco, Bruno Foggi, Anna Rita Frattaroli, Piero Genovesi, Rodolfo Gentili, Lorenzo Lazzaro, Michele Lonati, Fernando Lucchese, Andrea Mainetti, Mauro Mariotti, Pietro Minissale, Bruno Paura, Mauro Pellizzari, Enrico Vito Perrino, Gianfranco Pirone, Laura Poggio, Livio Poldini, Silvia Poponessi, Irene Prisco, Filippo Prosser, Marta Puglisi, Leonardo Rosati, Alberto Selvaggi, Lucio Sottovia, Giovanni Spampinato, Angela Stanisci, Adriano Stinca, Roberto Venanzoni, and Lorenzo Lastrucci

Subjects
Plant culture, SB1-1110, Plant ecology, QK900-989
Abstract

This study provides a first step toward the knowledge of the alien-dominated and co-dominated plant communities present in Italy. The first ever checklist of the alien phytocoenoses described or reported in literature for the Italian territory has been compiled, produced by data-mining in national and local thematic literature. The resulting vegetation-type draft-list has been checked in the light of the most recent syntaxonomic documentation and updated with regards to syntaxonomy and nomenclature, with special reference to the frame proposed in the Italian Vegetation Prodrome. The list includes 27 vascular and one bryophyte vegetation classes, hosting 194 low rank alien-dominated syntaxa. The different vegetation types detected for each syntaxonomic class and macro-vegetation group, defined by physiognomical and ecological attributes, are discussed.

Published
2020
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11. Effects of Bacterial and Fungal Inocula on Biomass, Ecophysiology, and Uptake of Metals of Alyssoides utriculata (L.) Medik.

Author

Silvia Priarone, Sara Romeo, Simone Di Piazza, Stefano Rosatto, Mirca Zotti, Mauro Mariotti, and Enrica Roccotiello

Subjects
Fv/Fm, metals, performance index, PGP, Botany, QK1-989
Abstract

The inoculation of plants with plant-growth-promoting microorganisms (PGPM) (i.e., bacterial and fungal strains) is an emerging approach that helps plants cope with abiotic and biotic stresses. However, knowledge regarding their synergic effects on plants growing in metal-rich soils is limited. Consequently, the aim of this study was to investigate the biomass, ecophysiology, and metal accumulation of the facultative Ni-hyperaccumulator Alyssoides utriculata (L.) Medik. inoculated with single or mixed plant-growth-promoting (PGP) bacterial strain Pseudomonas fluorescens Migula 1895 (SERP1) and PGP fungal strain Penicillium ochrochloron Biourge (SERP03 S) on native serpentine soil (n = 20 for each treatment). Photosynthetic efficiency (Fv/Fm) and performance indicators (PI) had the same trends with no significant differences among groups, with Fv/Fms > 1 and PI up to 12. However, the aboveground biomass increased 4–5-fold for single and mixed inoculated plants. The aboveground/belowground dry biomass ratio was higher for plants inoculated with fungi (30), mixed (21), and bacteria (17). The ICP-MS highlighted that single and mixed inocula were able to double the aboveground biomass’ P content. Mn metal accumulation significantly increased with both single and mixed PGP inocula, and Zn accumulation increased only with single PGP inocula, whereas Cu accumulation increased twofold only with mixed PGP inocula, but with a low content. Only Ni metal accumulation approached the hyperaccumulation level (Ni > 1000 mg/kg DW) with all treatments. This study demonstrated the ability of selected single and combined PGP strains to significantly increase plant biomass and plant tolerance of metals present in the substrate, resulting in a higher capacity for Ni accumulation in shoots.

Published
2023
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12. Ethnomedicinal and Ethnobotanical Survey in the Aosta Valley Side of the Gran Paradiso National Park (Western Alps, Italy)

Author

Cristina Danna, Laura Poggio, Antonella Smeriglio, Mauro Mariotti, and Laura Cornara

Subjects
Cogne valley, Valsavarenche valley, Rhêmes valley, BioRefugia, cultural heritage, traditional knowledge, Botany, QK1-989
Abstract

Most of traditional knowledge about plants and their uses is fast disappearing because of socio-economic and land use changes. This trend is also occurring in bio-cultural refugia, such as mountain areas. New data on Traditional Ethnobotanical Knowledge (TEK) of Italian alpine regions were collected relating to three valleys (Cogne, Valsavarenche, Rhêmes) of the Gran Paradiso National Park. Extensive dialogues and semi-structured interviews with 68 native informants (30 men, 38 women; mean age 70) were carried out between 2017 and 2019. A total of 3918 reports were collected, concerning 217 taxa (including 10 mushrooms, 1 lichen) mainly used for medicinal (42%) and food (33%) purposes. Minor uses were related to liquor making (7%), domestic (7%), veterinary (5%), forage (4%), cosmetic (1%) and other (2%). Medicinal plants were used to treat 14 ailment categories, of which the most important were respiratory (22%), digestive (19%), skin (13%), musculoskeletal (10%) and genitourinary (10%) diseases. Data were also evaluated by quantitative ethnobotanical indexes. The results show a rich and alive traditional knowledge concerning plants uses in the Gran Paradiso National Park. Plants resources may provide new opportunities from the scientific point of view, for the valorization of local products for health community and for sustainable land management.

Published
2022
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13. Evaluation of P-Band SAR Tomography for Mapping Tropical Forest Vertical Backscatter and Tree Height

Author

Naveen Ramachandran, Sassan Saatchi, Stefano Tebaldini, Mauro Mariotti d’Alessandro, and Onkar Dikshit

Subjects
forest structure, LiDAR, Polarimetry, SAR Tomography, TropiSAR, Science
Abstract

Low-frequency tomographic synthetic aperture radar (TomoSAR) techniques provide an opportunity for quantifying the dynamics of dense tropical forest vertical structures. Here, we compare the performance of different TomoSAR processing, Back-projection (BP), Capon beamforming (CB), and MUltiple SIgnal Classification (MUSIC), and compensation techniques for estimating forest height (FH) and forest vertical profile from the backscattered echoes. The study also examines how polarimetric measurements in linear, compact, hybrid, and dual circular modes influence parameter estimation. The tomographic analysis was carried out using P-band data acquired over the Paracou study site in French Guiana, and the quantitative evaluation was performed using LiDAR-based canopy height measurements taken during the 2009 TropiSAR campaign. Our results show that the relative root mean squared error (RMSE) of height was less than 10%, with negligible systematic errors across the range, with Capon and MUSIC performing better for height estimates. Radiometric compensation, such as slope correction, does not improve tree height estimation. Further, we compare and analyze the impact of the compensation approach on forest vertical profiles and tomographic metrics and the integrated backscattered power. It is observed that radiometric compensation increases the backscatter values of the vertical profile with a slight shift in local maxima of the canopy layer for both the Capon and the MUSIC estimators. Our results suggest that applying the proper processing and compensation techniques on P-band TomoSAR observations from space will allow the monitoring of forest vertical structure and biomass dynamics.

Published
2021
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14. Root and Shoot Response to Nickel in Hyperaccumulator and Non-Hyperaccumulator Species

Author

Stefano Rosatto, Mauro Mariotti, Sara Romeo, and Enrica Roccotiello

Subjects
dose-response, ecophysiology, facultative hyperaccumulator, metal uptake, Botany, QK1-989
Abstract

The soil–root interface is the micro-ecosystem where roots uptake metals. However, less than 10% of hyperaccumulators’ rhizosphere has been examined. The present study evaluated the root and shoot response to nickel in hyperaccumulator and non-hyperaccumulator species, through the analysis of root surface and biomass and the ecophysiological response of the related aboveground biomass. Ni-hyperaccumulators Alyssoides utriculata (L.) Medik. and Noccaea caerulescens (J. Presl and C. Presl) F.K. Mey. and non-hyperaccumulators Alyssum montanum L. and Thlaspi arvense L. were grown in pot on Ni-spiked soil (0–1000 mg Ni kg−1, total). Development of root surfaces was analysed with ImageJ; fresh and dry root biomass was determined. Photosynthetic efficiency was performed by analysing the fluorescence of chlorophyll a to estimate the plants’ physiological conditions at the end of the treatment. Hyperaccumulators did not show a Ni-dependent decrease in root surfaces and biomass (except Ni 1000 mg kg−1 for N. caerulescens). The non-hyperaccumulator A. montanum suffers metal stress which threatens plant development, while the excluder T. arvense exhibits a positive ecophysiological response to Ni. The analysis of the root system, as a component of the rhizosphere, help to clarify the response to soil nickel and plant development under metal stress for bioremediation purposes.

Published
2021
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15. Notulae to the Italian native vascular flora: 2

Author

Fabrizio Bartolucci, Gianniantonio Domina, Michele Adorni, Carlo Argenti, Giovanni Astuti, Sergio Bangoni, Fabrizio Buldrini, Mirella Benedetta Campochiaro, Francesca Carruggio, Lorenzo Cecchi, Fabio Conti, Antonia Cristaudo, Francesco Saverio D’Amico, Giuseppe D'Auria, Emilio Di Gristina, Franz-Georg Dunkel, Luigi Forte, Carmen Gangale, Luigi Ghillani, Günter Gottschlich, Francesca Mantino, Mauro Mariotti, Carmen Novaro, Nicola Olivieri, Gino Palladino, Marziano Pascale, Alessandra Pepe, Enrico Vito Perrino, Lorenzo Peruzzi, Sergio Picollo, Domenico Puntillo, Francesco Roma-Marzio, Alessandro Rosiello, Giovanni Russo, Claudio Santini, Federico Selvi, Filippo Scafidi, Anna Scoppola, Adriano Stinca, Milena Villa, and Chiara Nepi

Subjects
Botany, QK1-989
Abstract

In this contribution new data concerning the Italian distribution of native vascular flora are presented. It includes new records, exclusions, and confirmations to the Italian administrative regions for taxa in the genera Arctostaphylos, Artemisia, Buglossoides, Convolvulus, Crocus, Damasonium, Epipogium, Ficaria, Filago, Genista, Heptaptera, Heracleum, Heteropogon, Hieracium, Myosotis, Ononis, Papaver, Pilosella, Polygonum, Pulmonaria, Scorzonera, Silene, Trifolium, Vicia and Viola.

Published
2016
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16. Traditional Uses of Medicinal Plants by Ethnic People in the Kavrepalanchok District, Central Nepal

Author

Gabriele Ambu, Ram Prasad Chaudhary, Mauro Mariotti, and Laura Cornara

Subjects
traditional ecological knowledge, ethnopharmacology, medicinal plants, conservation, Botany, QK1-989
Abstract

In rural areas of Nepal, where it is difficult to get access to Government health care facilities, people depend on medicinal plants and local healers for health problems. This study concerns an ethnobotanical survey of the Kavrepalanchok District, reporting some unusual uses of medicinal plants and original recipes. A total of 32 informants were interviewed, 24 of them being key informants. Ethnobotanical uses concerned 116 taxa, of which 101 were medicinal plants, with the most representative species belonging to Asteraceae, Fabaceae, Lamiaceae, and Zingiberaceae. Ethnobotanical indexes were used to evaluate the ethnopharmacological importance of each plant species and the degree of agreement among the informants’ knowledge. Informant consensus factor (Fic) showed that the fever category had the greatest agreement. Highest fidelity level (FL) values were found for Calotropis gigantea used for dermatological diseases, Drymaria cordata for fever, Mangifera indica and Wrightia arborea for gastrointestinal disorders. Data document the richness of the local flora and the traditional knowledge on medicinal plant species used by ethnic communities in rural areas. The active involvement of local populations in the conservation and management of medicinal plant species will encourage future projects for the sustainable development of the biological and cultural diversity of these rural areas of Nepal.

Published
2020
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17. Signal Processing Options for High Resolution SAR Tomography of Natural Scenarios

Author

Yanghai Yu, Mauro Mariotti d’Alessandro, Stefano Tebaldini, and Mingsheng Liao

Subjects
airborne radar, synthetic aperture radar (SAR) tomography, three-dimensional back-projection, Science
Abstract

Synthetic Aperture Radar (SAR) Tomography is a technique to provide direct three-dimensional (3D) imaging of the illuminated targets by processing SAR data acquired from different trajectories. In a large part of the literature, 3D imaging is achieved by assuming mono-dimensional (1D) approaches derived from SAR Interferometry, where a vector of pixels from multiple SAR images is transformed into a new vector of pixels representing the vertical profile of scene reflectivity at a given range, azimuth location. However, mono-dimensional approaches are only suited for data acquired from very closely-spaced trajectories, resulting in coarse vertical resolution. In the case of continuous media, such as forests, snow, ice sheets and glaciers, achieving fine vertical resolution is only possible in the presence of largely-spaced trajectories, which involves significant complications concerning the formation of 3D images. The situation gets even more complicated in the presence of irregular trajectories with variable headings, for which the one theoretically exact approach consists of going back to raw SAR data to resolve the targets by 3D back-projection, resulting in a computational burden beyond the capabilities of standard computers. The first aim of this paper is to provide an exhaustive discussion of the conditions under which high-quality tomographic processing can be carried out by assuming a 1D, 2D, or 3D approach to image formation. The case of 3D processing is then further analyzed, and a new processing method is proposed to produce high-quality imaging while largely reducing the computational burden, and without having to process the original raw data. Furthermore, the new method is shown to be easily parallelized and implemented using GPU processing. The analysis is supported by results from numerical simulations as well as from real airborne data from the ESA campaign AlpTomoSAR.

Published
2020
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18. The BIOMASS Level 2 Prototype Processor: Design and Experimental Results of Above-Ground Biomass Estimation

Author

Francesco Banda, Davide Giudici, Thuy Le Toan, Mauro Mariotti d’Alessandro, Kostas Papathanassiou, Shaun Quegan, Guido Riembauer, Klaus Scipal, Maciej Soja, Stefano Tebaldini, Lars Ulander, and Ludovic Villard

Subjects
biomass, sar, polarimetry, tomography, interferometry, forest height, forest disturbance, earth explorer, dtm, Science
Abstract

BIOMASS is ESA’s seventh Earth Explorer mission, scheduled for launch in 2022. The satellite will be the first P-band SAR sensor in space and will be operated in fully polarimetric interferometric and tomographic modes. The mission aim is to map forest above-ground biomass (AGB), forest height (FH) and severe forest disturbance (FD) globally with a particular focus on tropical forests. This paper presents the algorithms developed to estimate these biophysical parameters from the BIOMASS level 1 SAR measurements and their implementation in the BIOMASS level 2 prototype processor with a focus on the AGB product. The AGB product retrieval uses a physically-based inversion model, using ground-canceled level 1 data as input. The FH product retrieval applies a classical PolInSAR inversion, based on the Random Volume over Ground Model (RVOG). The FD product will provide an indication of where significant changes occurred within the forest, based on the statistical properties of SAR data. We test the AGB retrieval using modified airborne P-Band data from the AfriSAR and TropiSAR campaigns together with reference data from LiDAR-based AGB maps and plot-based ground measurements. For AGB estimation based on data from a single heading, comparison with reference data yields relative Root Mean Square Difference (RMSD) values mostly between 20% and 30%. Combining different headings in the estimation process significantly improves the AGB retrieval to slightly less than 20%. The experimental results indicate that the implemented retrieval scheme provides robust results that are within mission requirements.

Published
2020
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19. Ground and Volume Decomposition as a Proxy for AGB from P-Band SAR Data

Author

Francesco Banda, Mauro Mariotti d’Alessandro, and Stefano Tebaldini

Subjects
biomass, sar, polarimetry, tomography, interferometry, Science
Abstract

In this work, the role of volume scattering obtained from ground and volume decomposition of P-band synthetic aperture radar (SAR) data as a proxy for biomass is investigated. The analysis here presented originates from the BIOMASS L2 activities, part of which were focused on strengthening the physical foundations of the SAR-based retrieval of forest above-ground biomass (AGB). A critical analysis of the observed strong correlation between tomographic intensity and AGB is done in order to propose simplified AGB proxies to be used during the interferometric phase of BIOMASS. In particular, the aim is to discuss whether, and to what extent, volume scattering obtained from ground/volume decomposition can provide a reasonable alternative to tomography. To do this, both are tested on P-band data collected at Paracou during the TropiSAR campaign and cross-validated against in-situ AGB measurements. Results indicate that volume backscattered power as obtained by ground/volume decomposition is weakly correlated to AGB, notwithstanding different solutions for volume scattering are tested, and support the conclusion that forest structure actually plays a non-negligible role in AGB retrieval in dense tropical forests.

Published
2020
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20. Cross Sensor Simulation of Tomographic SAR Stacks

Author

Mauro Mariotti d’Alessandro and Stefano Tebaldini

Subjects
SAR, tomography, simulation, wavenumbers, orbits, biomass, Science
Abstract

This paper presents an algorithm for simulating tomographic synthetic aperture radar (SAR) data based on another stack actually gathered by a real acquisition system. Through the procedure here proposed, the simulated system can be evaluated according to its capability to image complex natural media rather than reference point targets. This feature is particularly important whenever the biophysical properties of the target of interest must be preserved and cannot be easily modeled. The system to be simulated may be different from the original one concerning resolution, off-nadir angles, bandwidth and central frequency. The algorithm here proposed handles these differences by properly taking into account the wavenumbers of the target illuminated by the real survey and requested by the simulated one. The complex images constituting the synthetic stack are associated with the effective vertical interferometric wavenumber peculiar of the geometry to be simulated, regardless of the original data. Furthermore, the three-dimensional resolution cell of the simulated tomographic system is consistent with the simulated geometry concerning size and spatial orientation. These two latter features cannot be guaranteed by simply filtering the original stack. The simulator here proposed has been used to simulate the tomographic stack expected from the forthcoming European Space Agency (ESA) BIOMASS mission. The relationship between baseline distribution and 3D focusing capability was explored; special attention has been paid to the robustness of tomographic power at being a good proxy for the above ground biomass in tropical regions.

Published
2019
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21. The ASI Integrated Sounder-SAR System Operating in the UHF-VHF Bands: First Results of the 2018 Helicopter-Borne Morocco Desert Campaign

Author

Stefano Perna, Giovanni Alberti, Paolo Berardino, Lorenzo Bruzzone, Dario Califano, Ilaria Catapano, Luca Ciofaniello, Elena Donini, Carmen Esposito, Claudia Facchinetti, Roberto Formaro, Gianluca Gennarelli, Christopher Gerekos, Riccardo Lanari, Francesco Longo, Giovanni Ludeno, Mauro Mariotti d’Alessandro, Antonio Natale, Carlo Noviello, Gianfranco Palmese, Claudio Papa, Giulia Pica, Fabio Rocca, Giuseppe Salzillo, Francesco Soldovieri, Stefano Tebaldini, and Sanchari Thakur

Subjects
Synthetic Aperture Radar (SAR), Airborne SAR, Sounder, P-Band, helicopter-borne radar, UHF and VHF bands, Science
Abstract

This work is aimed at showing the present capabilities and future potentialities of an imaging radar system that can be mounted onboard flexible aerial platforms, such as helicopters or small airplanes, and may operate in the UHF and VHF frequency bands as Sounder and as Synthetic Aperture Radar (SAR). More specifically, the Sounder operates at 165 MHz, whereas the SAR may operate either at 450 MHz or at 860 MHz. In the work, we present the first results relevant to a set of Sounder and SAR data collected by the radar during a helicopter-borne campaign conducted in 2018 over a desert area in Erfoud, Morocco, just after the conclusion of a system upgrading procedure. In particular, a first analysis of the focusing capabilities of the Sounder mode and of the polarimetric and interferometric capabilities of the SAR mode is conducted. The overall system, originally developed by CO.RI.S.T.A. according to a ASI funding set up in 2010, has been upgraded in the frame of a contract signed in 2015 between ASI and different private and public Italian Research Institutes and Universities, namely CO.RI.S.T.A., IREA-CNR, Politecnico di Milano and University of Trento.

Published
2019
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22. The plant endemism in the Maritime and Ligurian Alps

Author

Gabriele Casazza, Giuseppina Barberis, Maria Guerrina, Elena Zappa, Mauro Mariotti, and Luigi Minuto

Subjects
Maritime and Ligurian Alps, biogeography, speciation, refugia, endemic species, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

The Maritime and Ligurian Alps have a flora characterised by a very high number of endemic species in relation to their small geographical extension. This area is considered one of the most important centres of diversification of the Alps and a Mediterranean hotspot of biodiversity. In the last years many studies were performed in order to describe the distribution and phylogeographical patterns of endemism. Despite these studies, Maritime and Ligurian Alps still lack in a broad view about the evolution of endemisms in this area. In this review, we examine the knowledge about the distribution patterns of endemic plant species living in the Maritime and Ligurian Alps in order to identify the evolutionary and biogeographical mechanisms operating on them.

Published
2016
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35. The BIOMASS DEM Prototype Processor: Overview and First Results.

Author

Muriel Pinheiro, Simone Mancon, Mauro Mariotti d'Alessandro, Pau Prats, Joel A. Amao Oliva, Nida Sakar, Gustavo D. Martín del Campo-Becerra, Matteo Nannini, Rolf Scheiber, Alberto Alonso 0001, Marc Jäger 0001, Nestor Yague-Martinez, Francesco Banda, Davide Giudici, Stefano Tebaldini, Kostas Papathanassiou, and Klaus Scipal

Published
2021
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41. The ASI P-Band Helicopter-Borne Integrated Sounder-Sar System: Preliminary Results of The 2018 Morocco Desert Campaign.

Author

Stefano Perna, Claudia Facchinetti, Roberto Formaro, Gianluca Gennarelli, Christopher Gerekos, Riccardo Lanari, Francesco Longo 0003, Giovanni Ludeno, Mauro Mariotti d'Alessandro, Antonio Natale, Carlo Noviello, Giovanni Alberti, Gianfranco Palmese, Claudio Papa, Giulia Pica, Fabio Rocca, Giuseppe Salzillo, Francesco Soldovieri, Stefano Tebaldini, Sanchari Thakur, Paolo Berardino, Lorenzo Bruzzone, Dario Califano, Ilaria Catapano, Luca Ciofaniello, Elena Donini, and Carmen Esposito

Published
2019
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