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1. DNA sequence data as types of fungal taxa

Author

Barreto, R.W., Gerlach, A.D.C.L., Grube, M., Harder, C.B., Jeppesen, T.S., Kirchmair, M., Kiyashko, A., Knapp, D.G., Knudsen, H., Knudsen, K., Knutsson, T., Kolařík, M., Kõljalg, U., Košuthová, A., Koszka, A., Kotiranta, H., Kotkova, V., Koukol, O., Kout, J., Kovács, G.M., Kříž, M., Kruys, Å., Kučera, V., Kudzma, L., Myllys, L., Nagy, I., Nagy, L.G., Neves, M.A., Niemelä, T., Nimis, P.L., Niveiro, N., Noordeloos, M.E., Nordin, A., Noumeur, S.R., Novozhilov, Y., Nuytinck, J., Ohenoja, E., Oliveira Fiuza, P., Orange, A., Ordynets, A., Ortiz-Santana, B., Pacheco, L., Pál-Fám, F., Palacio, M., Palice, Z., Papp, V., Pärtel, K., Pawlowska, J., Paz, A., Peintner, U., Pennycook, S., Liparini Pereira, O., Pérez Daniëls, P., Pérez-De-Gregorio Capella, M.À., Pérez del Amo, C.M., Pérez Gorjón, S., Pérez-Ortega, S., Pérez-Vargas, I., Rubio Casas, L., Rusevska, K., Saar, G., Saar, I., Salcedo, I., Salcedo Martínez, S.M., Salvador Montoya, C.A., Sánchez-Ramírez, S., Sandoval-Sierra, J.V., Tedebrand, J.-O., Tena Lahoz, R., Temina, M., Thell, A., Thines, M., Thor, G., Thüs, H., Tibell, L., Tibell, S., Timdal, E., Tkalčec, Z., Tønsberg, T., Trichies, G., Triebel, D., Tsurykau, A., Tulloss, R.E., Tuovinen, V., Ulloa Sosa, M., Urcelay, C., Valade, F., Valenzuela Garza, R., van den Boom, P., Van Vooren, N., Vasco-Palacios, A.M., Vauras, J., Velasco Santos, J.M., Vellinga, E., Verbeken, A., Vetlesen, P., Vizzini, A., Voglmayr, H., Volobuev, S., von Brackel, W., Barreto, R.W., Gerlach, A.D.C.L., Grube, M., Harder, C.B., Jeppesen, T.S., Kirchmair, M., Kiyashko, A., Knapp, D.G., Knudsen, H., Knudsen, K., Knutsson, T., Kolařík, M., Kõljalg, U., Košuthová, A., Koszka, A., Kotiranta, H., Kotkova, V., Koukol, O., Kout, J., Kovács, G.M., Kříž, M., Kruys, Å., Kučera, V., Kudzma, L., Myllys, L., Nagy, I., Nagy, L.G., Neves, M.A., Niemelä, T., Nimis, P.L., Niveiro, N., Noordeloos, M.E., Nordin, A., Noumeur, S.R., Novozhilov, Y., Nuytinck, J., Ohenoja, E., Oliveira Fiuza, P., Orange, A., Ordynets, A., Ortiz-Santana, B., Pacheco, L., Pál-Fám, F., Palacio, M., Palice, Z., Papp, V., Pärtel, K., Pawlowska, J., Paz, A., Peintner, U., Pennycook, S., Liparini Pereira, O., Pérez Daniëls, P., Pérez-De-Gregorio Capella, M.À., Pérez del Amo, C.M., Pérez Gorjón, S., Pérez-Ortega, S., Pérez-Vargas, I., Rubio Casas, L., Rusevska, K., Saar, G., Saar, I., Salcedo, I., Salcedo Martínez, S.M., Salvador Montoya, C.A., Sánchez-Ramírez, S., Sandoval-Sierra, J.V., Tedebrand, J.-O., Tena Lahoz, R., Temina, M., Thell, A., Thines, M., Thor, G., Thüs, H., Tibell, L., Tibell, S., Timdal, E., Tkalčec, Z., Tønsberg, T., Trichies, G., Triebel, D., Tsurykau, A., Tulloss, R.E., Tuovinen, V., Ulloa Sosa, M., Urcelay, C., Valade, F., Valenzuela Garza, R., van den Boom, P., Van Vooren, N., Vasco-Palacios, A.M., Vauras, J., Velasco Santos, J.M., Vellinga, E., Verbeken, A., Vetlesen, P., Vizzini, A., Voglmayr, H., Volobuev, S., and von Brackel, W.

Abstract

Nomenclatural type definitions are one of the most important concepts in biological nomenclature. Being physical objects that can be re-studied by other researchers, types permanently link taxonomy (an artificial agreement to classify biological diversity) with nomenclature (an artificial agreement to name biological diversity). Two proposals to amend the International Code of Nomenclature for algae, fungi, and plants (ICN), allowing DNA sequences alone (of any region and extent) to serve as types of taxon names for voucherless fungi (mainly putative taxa from environmental DNA sequences), have been submitted to be voted on at the 11th International Mycological Congress (Puerto Rico, July 2018). We consider various genetic processes affecting the distribution of alleles among taxa and find that alleles may not consistently and uniquely represent the species within which they are contained. Should the proposals be accepted, the meaning of nomenclatural types would change in a fundamental way from physical objects as sources of data to the data themselves. Such changes are conducive to irreproducible science, the potential typification on artefactual data, and massive creation of names with low information content, ultimately causing nomenclatural instability and unnecessary work for future researchers that would stall future explorations of fungal diversity. We conclude that the acceptance of DNA sequences alone as types of names of taxa, under the terms used in the current proposals, is unnecessary and would not solve the problem of naming putative taxa known only from DNA sequences in a scientifically defensible way. As an alternative, we highlight the use of formulas for naming putative taxa (candidate taxa) that do not require any modification of the ICN.

Published
2018

2. A Pan-European Species-directories Infrastructure (PESI)

Author

de Jong, Y., Nimis, P.L., Vignes Lebbe, R., info:eu-repo/grantAgreement/EC/FP7/223806 (IBED, FNWI), and Experimental Plant Systematics (IBED, FNWI)

Abstract

This paper introduces the rationale and aims of the Europewide biodiversity informatics PESI [1] project. PESI defines and coordinates strategies to enhance the quality and reliability of European biodiversity information by integrating the infrastructural components of four major community networks on taxonomic indexing, namely those of marine life, terrestrial plants, fungi and animals, into a joint work programme. This will include functional knowledge networks of both taxonomic experts and regional focal points, which will collaborate on the establishment of standardised and authoritative taxonomic (meta-) data. In addition PESI will coordinate the integration and synchronisation of the European taxonomic information systems into a joint e-infrastructure and the creation of a common userinterface disseminating the pan-European checklists and associated userservices results.

Published
2010

3. Lichens as bioindicators of air pollution by SO2 in the Veneto Region

Author

Nimis, P.L., Lazzarin, G., and Gasparo, D.

Subjects
Veneto, Lichens, Air quality, Biomonitoring, Air pollution, Bioindicators, ltaly
Abstract

This paper presents the results of a study on air pollution by SO2 in the Veneto Region (North Eastern Italy), using the "Calibrated Lichen lndex of Air Quality" (I.A.P.) proposed by Liebendoerfer et al. (1988). This index, based on the frequency of epiphytic lichen species within a sampling grid of 10 units, has been tested by the authors in two preliminary studies carried out in two different areas of Northern ltaly (the town of La Spezia and the northern part of the province of Vicenza), revealing a high degree of correlation with pollution by SO2, measured by automatic recording gauges. The index has been computed for 662 stations scattered throughout the Region of Veneto, whose surface area is of 18,364 km2. The average number of relevés in each station is 3.7, with a total number of 2,425 relevés. The tree genus selected for sampling is Tilia. Altogether, 80 lichen species have been recorded during the survey, with a prevalence of nitrophytic and neutro-basiphytic lichens indicating a diffuse secondary eutrophication of the bark by agricultural activities. Pollution maps for the seven provinces and for the entire region are presented. The evaluation of pollution levels is based on the correlations between the index and SO2 levels found in the preliminary studies. All maps have been drawn by programs of automatic mapping. The results show that in 93.7% of the regional territory there is a very low probability of the occurrence of SO2 concentrations higher than the thresholds established by law; this part of the region has yearly means of the 98th percentiles lower than 84 μg/m3. 25% of the region has moderate pollution levels, 23.4% a low pollution, and 44.9% a very low air pollution. The most polluted areas are located in the Southwestern part of the region. The pollution pattern agrees very well with the location of the main sources of pollution, and with the directions of the prevailing winds. The study presents also the computerized distribution maps of eight selected species (Candelaria concolor, Candelariella xanthostigma, Hypogymnia physodes, Parmelia exasperatula, Parmelia sulcata, Physcia adscendens, Physcia orbicularis, Xanthoria parietina), that are discussed in relation with the main pollution patterns. The lichens species can be subdivided into three main groups, according to their distribution patterns. The main factors affecting the distribution of lichens in the survey area are air pollution and the eutrophication of bark by agricultural activities. A monitoring strategy where bioindicators and instrumental recording of air pollution are used jointly is proposed as a good solution to air pollution mapping aver vast areas. LICHENI COME BIOINDICATORI DI INQUINAMENTO ATMOSFERICO NELLA REGIONE DEL VENETO (ITALIA NORD ORIENTALE). Questo lavoro presenta i risultati di uno studio sull'inquinamento da S02 nella Regione del Veneto, svolto utilizzando l' "Indice lichenico calibrato di qualità dell' Aria" (I.A.P.) proposto da Liebendoerfer et al. (1988). Tale indice, basato sulla somma delle frequenze delle specie licheniche epifite in un reticolo di 10 unità, è stato preliminarmente saggiato in due diverse aree dell' Italia settentrionale (città di La Spezia ed Alto Vicentino), rivelando un'alta grado di predittività rispetto alla contaminazione da anidride solforosa, misurata da apposite centraline. L'indice è stato calcolato per 662 stazioni (per un totale di 2425 rilievi) sparse per un'area di 18.364 km2. Tutti i rilievi sono stati effettuati su Tiglio in un periodo di un anno, compreso tra il Settembre del 1989 ed il Settembre del 1990. Sono state rinvenute 80 specie di licheni, la maggior parte dei quali cresce di norma su substrati eutrofizzati, a reazione neutro-basica, ed è caratteristica dell'alleanza Xanthorion parietinae. Ciò indica una diffusa eutrofizzazione dei substrati dovuta in primo luogo all'intensa attività agricola. Vengono presentate carte della contaminazione dell'aria da anidride solforosa per le sette provincie amministrative, e per l'intera Regione del Veneto. La stima dei livelli d'inquinamento si basa sulle correlazioni, ottenute negli studi preliminari, tra i valori di I.A.P. e le effettive concentrazioni di S02 in atmosfera rilevate da centraline. Le carte sono state ottenute attraverso programmi di cartografia automatica. I risultati dimostrano che nel 93.7 % del territorio regionale la probabilità di superamento delle soglie di SO2 stabilite per legge è bassa o molto bassa (medie annue dei 981 percentili minori di 84 μg/m3). Il 25 % del territorio regionale presenta un moderato inquinamento atmosferico, il 23.4 % un inquinamento modesto, il 44.9 % ha livelli di inquinamento trascurabili. Le aree maggiormente inquinate, quelle cioè in cui maggiore è la probabilità del superamento delle soglie previste dalla legge, si trovano nella porzione sudoccidentale del Veneto, nelle provincie di Padova, Rovigo e Verona. L' andamento generale dell'inquinamento evidenziato dalle carte è in buon accordo con la localizzazione delle principali fonti inquinanti e con la direzione dei venti prevalenti. Lo studio include anche le carte di distribuzione di otto specie licheniche (Candelaria concolor, Candelariella xanthostigma, Hypogymnia physodes, Parmelia exasperatula, Parmelia sulcata, Physcia adscendens, Physcia orbicularis, Xanthoria parietina), anch'esse ottenute per via automatica, che vengono discusse in relazione alla distribuzione spaziale dell'inquinamento atmosferico nel territorio regionale. Si possono distinguere tre gruppi principali di specie, con differenti patterns di distribuzione nell' ambito della regione. I fattori principali che condizionano la distribuzione dei licheni nella Regione Veneto sono l'inquinamento atmosferico e l'eutrofizzazione delle scorze conseguente all'attività agricola. L'utilizzazione congiunta di bioindicatori e del rilevamento strumentale viene proposta come la strategia più appropriata al monitoraggio dell'inquinamento atmosferico su vasta scala.

Published
1991

12. Identification keys on mobile devices: The Dryades experience.

Author

Nimis, P.L., Riccamboni, R., and Martellos, S.

Subjects
*POCKET computer software, *IPHONE (Smartphone), *DATABASES, *CITIZEN science, *BIODIVERSITY, *BIOINFORMATICS
Abstract

This article describes the experience of project Dryades, coordinated by the University of Trieste, in developing interactive identification keys in the form of applications for mobile devices (iPhone/iPad/iPodtouch). All of our keys were previously generated from a database of morpho-anatomical characters using software FRIDA. The applications for mobile devices, which were tested Europe-wide during the project KeyToNature, have proved to be useful in education, in the promotion of nature-aware tourism and in projects of citizen science. The first-generation apps were stand-alone packages which consisted into a sequence of stand-alone HTML pages, while those of the second generation do incorporate the digital key as a true database into the mobile device. All of the hitherto published applications are basically in the form of illustrated dichotomous keys. Future developments will also include a multi-entry query interface, and will be extended to devices which use the Android system. [ABSTRACT FROM PUBLISHER]

Published
2012
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13. Habitat types and lichen conservation in the Alps: Perspectives from a case study in the Stelvio National Park (Italy).

Author

Nascimbene, J., Thor, G., and Nimis, P.L.

Subjects
LICHENS, NATIONAL parks & reserves, SILICEOUS rocks, MOUNTAIN plants, EUROPEAN larch
Abstract

As a basis for promoting a lichen-oriented conservation strategy in alpine protected areas, this case study in the Stelvio National Park aims at comparing lichen communities of five habitats in terms of species richness and composition. Data are derived from an inventory in seven plots with five habitats each: (1) rural sites, (2) montane Picea abies-dominated forests, (3) subalpine Larix decidua/Pinus cembra-dominated forests, (4) small streams on siliceous bedrock, and (5) alpine mosaic of natural grasslands and siliceous rocks. In the analysis, three groups of species were considered: (1) all species, (2) species which in Italy are restricted to the Alps (referred to as “Alpic”), and (3) nationally rare species. A total of 428 species were found, including 79 Alpic and 59 nationally rare species. Substantial differences in the richness and composition of lichen species were found among the five habitats. In a conservation perspective, results indicated two main issues that should be considered: (1) each of the five habitat types contributes to lichen diversity by hosting different lichen assemblages and a pool of associated species and (2) forests managed by non-intensive practices and alpine mosaics should be prioritized in lichen conservation efforts, since they are the richest in Alpic and rare species. [ABSTRACT FROM AUTHOR]

Published
2012
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14. Plant sciences and the Italian National Biodiversity Network.

Author

Martellos, S., Attorre, F., De Felici, S., Cesaroni, D., Sbordoni, V., Blasi, C., and Nimis, P.L.

Subjects
PLANT diversity, BIODIVERSITY, MUSEUMS, UNIVERSITIES & colleges, RESEARCH institutes, COLLECTIVE action, ELECTRONIC information resource searching
Abstract

Several national and global initiatives aim to increase access to biodiversity information worldwide. The Italian National Biodiversity Network, started in the framework of the project “Sistema Ambiente 2010”, will organise and manage biodiversity data hosted by museums, universities and research centres in Italy, in order to make them widely available on the Web. [ABSTRACT FROM PUBLISHER]

Published
2011
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15. Moss bags as indicators of trace element contamination in Pre-alpine streams.

Author

Cesa, M., Azzalini, G., De Toffol, V., Fontanive, M., Fumagalli, F., Nimis, P.L., and Riva, G.

Subjects
TRACE elements in water, MOSSES, BIOACCUMULATION, WATER sampling, WATER pollution, MULTIVARIATE analysis
Abstract

Moss bags of the aquatic bryophyte Rhynchostegium riparioides (Hedw.) C.E.O. Jensen (=Platyhypnidium riparioides (Hedw.) Dixon) were transplanted into freshwaters of the Province of Belluno (NE Italy). This study was aimed at testing the bioaccumulation of trace elements in Pre-alpine Dolomitic streams, where this species does not grow naturally, and where analyses of water samples have never revealed trace element pollution. Mosses were collected after 13, 26 and 59 days of exposure. The concentrations of nine trace elements in the apical shoots were measured. Average concentrations reached in three control stations were adopted as background values, to calculate the contamination factor (CF). Transplants accumulated trace elements and discriminated between non- or scarcely contaminated waters (low CF) and polluted ones (high CF). Furthermore, two patterns of contamination were revealed by multivariate analysis: (I) metals (Cr, Cu, Ni) from galvanic industries, and (II) metals (Pb, Zn) from other industrial/domestic sources or mine sites. [ABSTRACT FROM AUTHOR]

Published
2009
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16. <atl>Bryophytes as indicators of trace metal pollution in the River Brenta (NE Italy)

Author

Nimis, P.L., Fumagalli, F., Bizzotto, A., Codogno, M., and Skert, N.

Subjects
*MOSSES, *TRACE elements
Abstract

The performance of aquatic bryophytes for detecting metal pollution was tested along the River Brenta, in NE Italy. Nine sampling sites were selected, three of them along short tributaries with no anthropic influence upstream, the others along the main bed of the river. Two sites were deliberately placed downstream from a previously known pollution focus. The multivariate analysis (classification and ordination) of the matrix of 10 metals and 38 samples revealed: (i) a good discrimination between ‘clean’ and potentially polluted sites; (ii) two contamination syndromes, one by As and, to a lesser degree, Pb, and the other by Cr, due to agricultural and industrial activities, respectively; and (iii) the previously known pollution focus was clearly detected. The magnitude of contamination was estimated by means of a comparison between local backgrounds and concentrations of metals measured. The distance of aquatic bryophytes from the center of the river was negatively correlated with metal concentrations, which suggests that this factor should be taken into account in the implementation of sampling protocols. [Copyright &y& Elsevier]

Published
2002
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17. Lichen-induced chromatic changes on monuments: a case-study on the Roman amphitheater of Italica (S. Spain)

Author

NIMIS, P.L., SEAWARD, M.R.D., ARIÑO, X., and BARRENO, E.

Abstract

ABSTRACTBased on classification and ordination of vegetational data recorded on the Roman amphitheater of Italica (S. Spain), the compositional variation of lichen communities is related to the main ecological parameters: type of substratum, solar irradiation and eutrophication. The data were further processed by a program of automatic mapping, to produce a model showing the main patterns of lichen-induced chromatic changes within the amphitheater.

Published
1998
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18. THE GENUS SARCOGYNE(ACAROSPORACEAE) IN ANTARCTICA

Author

SEPPELT, R.D., NIMIS, P.L., and CASTELLO, M.

Abstract

Sarcogyne angulosaC. W. Dodge & G. E. Baker, described as an endemic from continental Antarctic localities, is reduced to synonymy withS. privigna(Ach.) A. Massal., a species known from Europe, North America, North Africa and Saudi Arabia, and now Antarctica. The relationship to Polysporina simplex(Davies) V|$$|Ahezda is discussed. It is suggested that the nameSarcogyne griseaDodge, also described as an Antarctic endemic, should be abandoned.Sarcogyne medusulaDodge is transferred toLecidea[Lecidea medusula(C. W. Dodge) Hertel comb. nov.], a Maritime- and Subantarctic species.

Published
1998
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19. I licheni endolitici calcicoli su monumenti

Author

Nimis, P.L. and Zappa, L.

Subjects
Lichens, Endolithic, Limestone, monuments
Abstract

ENDOLITHIC LICHENS ON LIMESTONE MONUMENTS - This paper briefly illustrates the main features of endolithic lichens growing on limestone, with particular regard to some species which have been found growing on monuments. The action of endolithic lichens on stone is also discussed, with some remarks on the possible harmful effects of the application of biocides to remove endolithic lichens from monuments.

Published
1988

20. The lichen vegetation on the cathedral of Orvieto

Author

Nimis, P.L. and Monte, M.

Subjects
Vegetation, Lichens, Orvieto's Cathedral, monuments
Abstract

The lichen vegetation of the Cathedral of Orvieto (Centrai ltaly) has been studied on the basis of 29 phytosociological releves carried out on different parts of the church, and on different substrates. The species by releves matrix has been submitted to classification and ordination to detect different community-types and to study possible ecological gradients. The ecology of the community-types has been studied by means of the ecological indices derived from Wirth (1980). The main causes of lichen growth in different parts of the church, the main aesthetic damages, and the possible measures for eliminating and preventing lichen growth are discussed. LA VEGETAZIONE LICHENlCA DEL DUOMO DI ORVIETO. La vegetazione lichenica del duomo di Orvieto è stata studiata sulla base di 29 rilievi fitosociologici effettuati in diverse parti della chiesa, e su diversi substrati. La matrice delle specie e dei rilievi è stata sottoposta a classificazione ed ordinamento al fine di individuare diversi tipi di vegetazione e di evidenziare possibili gradienti ecologici. L'ecologia dei diversi tipi di vegetazione è stata studiata utilizzando le diagnosi ecologiche proposte da Wirth (1980) per le singole specie. Vengono discussi le principali cause che determinano la crescita dei licheni nelle diversi parti del Duomo, i principali danni estetici da essi creati, e possibili misure di intervento per eliminare e prevenire la crescita dei licheni nella parti maggiormente colpite.

Published
1988

21. La contaminazione da Cesio-134 e Cesio-137 nei macromiceti del Friuli-Venezia Giulia nel 1986

Author

Nimis, P.L., Giovani, C., and Padovani, R.

Subjects
Radioactivity, Fungi, Friuli-Venezia Giulia, Chernobyl
Abstract

NB: Appendice scaricabile su file separato. This study is based on the measure of the 134 Cs and 13 7 Cs content in 298 samples belonging to 120 species of macromicetes, collected in 37 stations throughout the Friuli-Venezia Giulia Region (North Eastern Italy) in September-October 1986. Significant differences in contamination have been recorded both among species collected in the same station, and among average values of the stations themselves. The differences among species of the same stations seem to depend on the depth of the mycelium in the soil: contamination is highest in the fungi with superficial mycelium, lowest in those that are in symbiosis with deep-rooting deciduous trees. This is related to the fact that most of the radionuclides are presently concentrated in the upper horizon of the forest soil, as demonstrated by the analysis of 59 soil samples collected in the 37 stations. The differences among stations are well correlated to the amount of precipitation in the days following the Chernobyl disaster. This allowed the elaboration of a contamination map of the Friuli-Venezia Giulia Region based on precipitation and contamination data: the most polluted areas are located in the Carnian and Julian Pre-Alps, whereas the lowland has been but little affected by radioactive deposition. The average ratio 137 Cs/134 Cs in mushrooms is 2. 7, which is probably due to the presence in the materiai of 137 Cs deriving from nuclear tests.

Published
1986

23. The lichens of the Majella National Park (Central Italy): an annotated checklist

Author

Gabriele Gheza, Luciano Di Martino, Helmut Mayrhofer, Chiara Vallese, Mauro Tretiach, Pier Luigi Nimis, Valter Di Cecco, Renato Benesperi, Elisabetta Bianchi, Josef Hafellner, Luca Di Nuzzo, Paolo Giordani, Juri Nascimbene, Gheza, G., Di Nuzzo, L., Vallese, C., Benesperi, R., Bianchi, E., Di Cecco, V., Di Martino, L., Giordani, P., Hafellner, J., Mayrhofer, H., Nimis, P. L., Tretiach, M., Nascimbene, J., Gheza G., Nuzzo L.D., Vallese C., Benesperi R., Bianchi E., Cecco V.D., Martino L.D., Giordani P., Hafellner J., Mayrhofer H., Nimis P.L., Tretiach M., and Nascimbene J.

Subjects
0106 biological sciences, biodiversity hotspot, Biodiversity, arctic-alpine specie, Disjunct, steppic species, 010603 evolutionary biology, 01 natural sciences, Lichenized Fungi, lichen biota, Ascomycota, Arctic-alpine specie, arctic-alpine species, Lichen, Ecology, Evolution, Behavior and Systematics, National park, Mediterranean mountain, Southern Europe and Mediterranean, Botany, Mediterranean mountains, Archaeology, arctic-alpine species, biodiversity hotspot, climate change, lichen biota, Mediterranean mountains, steppic species, Checklist, Biodiversity hotspot, Herbarium, Taxon, Geography, climate change, QK1-989, Abruzzo, Catalogues and Checklists, 010606 plant biology & botany
Abstract

The botanical exploration of the Majella National Park has a long tradition dating back to the eighteenth century. However, the lichen biota of this area is still poorly investigated. To provide a baseline for future investigations, in this annotated checklist, we summarised all available information on the occurrence of lichens in the Majella National Park, retrieved from previous literature, herbarium material and original data produced by recent research.The checklist includes 342 infrageneric taxa. However, seven taxa are considered as dubious, thus setting the number of accepted taxa at 335, i.e. 45.8% of those currently known to occur in the Abruzzo Region. This checklist provides a baseline of the lichens known to occur in the Majella National Park, highlighting the potential of this area as a hotspot of lichen biodiversity, especially from a biogeographical point of view as indicated by the occurrence of several arctic-alpine species that form disjunct populations in the summit area of the massif.

Published
2021

24. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 12

Author

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

Subjects
Flora, Ascomycota, biology, Basidiomycota, Biodiversity, Botany, Plant Science, biology.organism_classification, lichen, lichen, biodiversity, Bryidae, Geography, Algae, QK1-989, Ascomycota, Basidiomycota, Bryidae, Lichen, Ecology, Evolution, Behavior and Systematics, biodiversity
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

25. Refining the picture: new records to the lichen biota of Italy

Author

Josef Hafellner, Helmut Mayrhofer, Gabriele Gheza, Walter Obermayer, Pier Luigi Nimis, Juri Nascimbene, Göran Thor, Lucia Muggia, Nascimbene J., Gheza G., Hafellner J., Mayrhofer H., Muggia L., Obermayer W., Thor G., and Nimis P.L.

Subjects
herbarium specimens, Rarity, Biodiversity, Distribution (economics), Biological Systematics, Floristics, Floristic, Ascomycota, Biodiversity & Conservation, Lichen, Ecology, Evolution, Behavior and Systematics, Ecology, business.industry, Ephemeral key, Alps, Southern Europe and Mediterranean, Botany, Biota, Species Inventories, Europe, Geography, Taxon, Italy, Habitat, QK1-989, Alp, business, Research Article, floristics, Herbarium specimen
Abstract

Based on the analysis of both historical and recent collections, this paper reports an annotated list of taxa which are new to the lichen biota of Italy or of its administrative regions. Specimens were identified using a dissecting and a compound microscope; routine chemical spot tests and standardized thin-layer chromatography (TLC or HPTLC). The list includes 225 records of 153 taxa. Twenty taxa are new to Italy, the others are new to one or more administrative regions, with 15 second records and 5 third records for Italy. Some of the species belong to recently-described taxa, others are poorly known, sterile or ephemeral lichens which were largely overlooked in Italy. Several species are actually rare, either because of the rarity of their habitats (e.g. old-growth forests), or because in Italy they are at the margins of their bioclimatic distribution. The picture of the lichen biota of Italy has now new pixels, but its grain is still coarse. Further analysis of historical collections, increased efforts in the exploration of some areas, and the taxonomic revision of critical groups are still necessary to provide more complete distributional data for new biogeographic hypotheses, taxonomic and ecological research, and biodiversity conservation.

Published
2021

26. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: II

Author

Ravera, S., Puglisi, M., Vizzini, A., Aleffi, M., Benesperi, R., Decarli, G. B., Berta, G., Bianchi, E., Boccardo, F., Briozzo, I., Clericuzio, M., Cogoni, A., Croce, A., Dagnino, D., De Agostini, A., De Giuseppe, A. B., Di Nuzzo, L., Dovana, F., Fackovcova, Z., Gheza, G., Loppi, S., Malicek, J., Mariotti, M., Nascimbene, J., Nimis, P. L., Paoli, L., Passalacqua, N. G., Plasek, V., Poponessi, S., Prosser, F., Puntillo, D., Puntillo, M., Rovito, S., Sguazzin, F., Sicoli, G., Tiburtini, M., Tomaselli, V., Turcato, C., Vallese, C., Ravera S., Puglisi M., Vizzini A., Aleffi M., Benesperi R., Decarli G.B., Berta G., Bianchi E., Boccardo F., Briozzo I., Clericuzio M., Cogoni A., Croce A., Dagnino D., De Agostini A., De Giuseppe A.B., Di Nuzzo L., Dovana F., Fackovcova Z., Gheza G., Loppi S., Malicek J., Mariotti M., Nascimbene J., Nimis P.L., Paoli L., Passalacqua N.G., Plasek V., Poponessi S., Prosser F., Puntillo D., Puntillo M., Rovito S., Sguazzin F., Sicoli G., Tiburtini M., Tomaselli V., Turcato C., and Vallese C.

Subjects
Ascomycota, Basidiomycota, Jungermanniopsida, Marchantiidae, Bryidae
Abstract

In this contribution, new data concerning bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the bryophyte genera Aneura, Aulacomnium, Dumortiera, Fossombronia, Hennediella, Hygrohypnella, Pohlia, Porella, Riccardia, Tortella, and Tortula, the fungal genera Cortinarius, Mycena, Naucoria, Trichoglossum, and Tubaria and the lichen genera Agonimia, Blastenia, Chaenotheca, Cladonia, Endocarpon, Gyalecta, Lecanographa, Parmeliella, Porpidia, Stenhammarella, and Thelidium.

Published
2021

27. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 9

Author

P. L. Nimis, Nicodemo G. Passalacqua, Fabrizio Boccardo, M. Marziano, Zuzana Fačkovcová, Michele Aleffi, I. Catalano, Elena Pittao, R. Jon, C. Guarino, Luca Paoli, Chiara Vallese, Ilaria Bonini, Jiří Malíček, Anna Guttová, Giulio Pandeli, A. B. De Giuseppe, Sonia Ravera, M. Cabon, Gabriele Gheza, L. Di Nuzzo, Cosimo Matino, F. Sguazzin, Alfredo Vizzini, Domenico Puntillo, G. Aloise, Francesco Dovana, Giovanni Sicoli, Slavomír Adamčík, Silvia Poponessi, Stefano Gianfreda, Marta Puglisi, Ravera S., Vizzini A., Puglisi M., Adamcik S., Aleffi M., Aloise G., Boccardo F., Bonini I., Cabon M., Catalano I., De Giuseppe A.B., Di Nuzzo L., Dovana F., Fackovcova Z., Gheza G., Gianfreda S., Guarino C., Guttova A., Jon R., Malicek J., Marziano M., Matino C., Nimis P.L., Pandeli G., Paoli L., Passalacqua N.G., Pittao E., Poponessi S., Puntillo D., Sguazzin F., Sicoli G., Vallese C., Ravera, Sonia, Vizzini, Alfredo, Puglisi, Marta, Adamčík, Slavomir, Aleffi, Michele, Aloise, Gaetano, Boccardo, Fabrizio, Bonini, Ilaria, Caboň, Miroslav, Catalano, Immacolata, De Giuseppe, Antonio B., Di Nuzzo, Luca, Dovana, Francesco, Fačkovcová, Zuzana, Gheza, Gabriele, Gianfreda, Stefano, Guarino, Carmine, Guttová, Anna, Jon, Raffaello, Malíček, Jiří, Marziano, Mario, Matino, Cosimo, Nimis, Pier Luigi, Pandeli, Giulio, Paoli, Luca, Passalacqua, Nicodemo G., Pittao, Elena, Poponessi, Silvia, Puntillo, Domenico, Sguazzin, Francesco, Sicoli, Giovanni, and Vallese, Chiara

Subjects
0106 biological sciences, Flora, Jungermanniidae, Plant Science, 010603 evolutionary biology, 01 natural sciences, Bryidae, Ascomycota, Algae, lcsh:Botany, Botany, Lichen, Ecology, Evolution, Behavior and Systematics, biology, Basidiomycota, biology.organism_classification, lcsh:QK1-989, Geography, Marchantiidae, Ascomycota Basidiomycota Bryidae Jungermanniidae Marchantiidae, 010606 plant biology & botany
Abstract

In this contribution, new data concerning bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the bryophyte genera Encalypta, Grimmia, and Riccia, for the fungal genera Hericium, Inocybe, Inocutis, Pluteus, and Russula, and for the lichen genera Bryoria, Farnoldia, Hypocenomyce, Lecania, Paracollema, Peltigera, Sarcogyne, and Teloschistes.

Published
2020

28. Notulae to the Italian native vascular flora: 8

Author

Gianluigi Bacchetta, Goffredo Filibeck, Bruno Petriglia, L. Gubellini, Corrado Tietto, Giovanni Maiorca, Francesco Roma-Marzio, Sara Magrini, Federica Bonini, Vito Buono, Daniele Viciani, G. Gestri, Pier Luigi Nimis, Giovanni Spampinato, Lina Podda, Serafino Cannavò, Fabrizio Bartolucci, Claudia Turcato, Simonetta Peccenini, Livia Lunardi, Nicole Hofmann, Sara Mossini, Gianmaria Bonari, Assunta Esposito, Sergio Buono, Robert P. Wagensommer, Daniela Gigante, Leonardo Beccarisi, Andrea Mainetti, Liliana Bernardo, Richard Lorenz, Günter Gottschlich, Luigi Forte, G. Barberis, Giacomo Calvia, Valeria Tomaselli, Chiara Nepi, Gianniantonio Domina, Rita T. Messa Ballarin, Giuliano Mereu, Salvatore Brullo, Simone Ravetto Enri, Luigi Minuto, Nicodemo G. Passalacqua, Manuel Tiburtini, Graziana Fiorini, Enrico Banfi, Michele Lonati, Franco Ballarin, Giovanni Bacaro, Lorenzo Lastrucci, Nicola M. G. Ardenghi, Leonardo Rosati, Franco Caldararo, Gabriele Galasso, Alessandro Ruggero, Mario Calbi, Adriano Stinca, Simonetta Fascetti, Laura Cancellieri, Giovanna Potenza, Davide Dagnino, Carmelo Maria Musarella, Bartolucci F., Domina G., Ardenghi N.M.G., Bacaro G., Bacchetta G., Ballarin F., Banfi E., Barberis G., Beccarisi L., Bernardo L., Bonari G., Bonini F., Brullo S., Buono S., Buono V., Calbi M., Caldararo F., Calvia G., Cancellieri L., Cannavo S., Dagnino D., Esposito A., Fascetti S., Filibeck G., Fiorini G., Forte L., Galasso G., Gestri G., Gigante D., Gottschlich G., Gubellini L., Hofmann N., Lastrucci L., Lonati M., Lorenz R., Lunardi L., Magrini S., Mainetti A., Maiorca G., Mereu G., Ballarin R.T.M., Minuto L., Mossini S., Musarella C.M., Nimis P.L., Passalacqua N.G., Peccenini S., Petriglia B., Podda L., Potenza G., Enri S.R., Roma-Marzio F., Rosati L., Ruggero A., Spampinato G., Stinca A., Tiburtini M., Tietto C., Tomaselli V., Turcato C., Viciani D., Wagensommer R.P., Nepi C., Bartolucci, F., Domina, G., Ardenghi, N. M. G., Bacaro, G., Bacchetta, G., Ballarin, F., Banfi, E., Barberis, G., Beccarisi, L., Bernardo, L., Bonari, G., Bonini, F., Brullo, S., Buono, S., Buono, V., Calbi, M., Caldararo, F., Calvia, G., Cancellieri, L., Cannavo, S., Dagnino, D., Esposito, A., Fascetti, S., Filibeck, G., Fiorini, G., Forte, L., Galasso, G., Gestri, G., Gigante, D., Gottschlich, G., Gubellini, L., Hofmann, N., Lastrucci, L., Lonati, M., Lorenz, R., Lunardi, L., Magrini, S., Mainetti, A., Maiorca, G., Mereu, G., Ballarin, R. T. M., Minuto, L., Mossini, S., Musarella, C. M., Nimis, P. L., Passalacqua, N. G., Peccenini, S., Petriglia, B., Podda, L., Potenza, G., Enri, S. R., Roma-Marzio, F., Rosati, L., Ruggero, A., Spampinato, G., Stinca, A., Tiburtini, M., Tietto, C., Tomaselli, V., Turcato, C., Viciani, D., Wagensommer, R. P., Nepi, C., Bartolucci, F, Domina, G, Ardenghi, Nmg, Bacaro, G, Bacchetta, G, Ballarin, F, Banfi, E, Barberis, G, Beccarisi, L, Bernardo, L, Bonari, G, Bonini, F, Brullo, S, Buono, S, Buono, V, Calbi, M, Caldararo, F, Calvia, G, Cancellieri, L, Cannavò, S, Dagnino, D, Esposito, A, Fascetti, S, Filibeck, G, Fiorini, G, Forte, L, Galasso, G, Gestri, G, Gigante, D, Gottschlich, G, Gubellini, L, Hofmann, N, Lastrucci, L, Lonati, M, Lorenz, R, Lunardi, L, Magrini, S, Mainetti, A, Maiorca, G, Mereu, G, Messa Ballarin, Rt, Minuto, L, Mossini, S, Musarella, Cm, Nimis, Pl, Passalacqua, Ng, Peccenini, S, Petriglia, B, Podda, L, Potenza, G, Ravetto Enri, S, Roma-Marzio, F, Rosati, L, Ruggero, A, Spampinato, G, Stinca, A, Tiburtini, M, Tietto, C, Tomaselli, V, Turcato, C, Viciani, D, Wagensommer, Rp, and Nepi, C

Subjects
0106 biological sciences, Endemic, Floristic data, Italy, Nomenclature, Flora, Nomenclature, Zoology, Floristic data, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, lcsh:QK1-989, Endemic, Italy, lcsh:Botany, Settore BIO/03 - Botanica Ambientale E Applicata, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany
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 for taxa in the genera Ajuga, Chamaemelum, Clematis, Convolvulus, Cytisus, Deschampsia, Eleocharis, Epipactis, Euphorbia, Groenlandia, Hedera, Hieracium, Hydrocharis, Jacobaea, Juncus, Klasea, Lagurus, Leersia, Linum, Nerium, Onopordum, Persicaria, Phlomis, Polypogon, Potamogeton, Securigera, Sedum, Soleirolia, Stachys, Umbilicus, Valerianella, and Vinca. Nomenclatural and distribution updates, published elsewhere, and corrigenda are provided as Suppl. material 1.

Published
2019

29. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 8

Author

Cecilia Totti, Claudia Turcato, Pier Luigi Nimis, Antonio B. De Giuseppe, Elisabetta Bianchi, Fabrizio Boccardo, Valeria Tomaselli, Mauro Mariotti, Leonardo Rosati, Paolo Giordani, Renato Benesperi, Gabriella Arosio, Luca Di Nuzzo, Chiara Vallese, Gabriele Gheza, Maria Zardini, Davide Dagnino, Francesco Dovana, Marta Puglisi, Alfredo Vizzini, Elena Pittao, Giovanna Potenza, Daniel Spitale, Giovanni Sicoli, Ian Briozzo, Jiří Malíček, Stefano Martellos, Nicodemo G. Passalacqua, Helmut Mayrhofer, Simonetta Fascetti, Sonia Ravera, Domenico Puntillo, Juri Nascimbene, Luigi Minuto, Raffaella Trabucco, Ravera, S., Puglisi, M., Vizzini, A., Totti, C., Arosio, G., Benesperi, R., Bianchi, E., Boccardo, F., Briozzo, I., Dagnino, D., de Giuseppe, A. B., Dovana, F., Di Nuzzo, L., Fascetti, S., Gheza, G., Giordani, P., Malicek, J., Mariotti, M. G., Mayrhofer, H., Minuto, L., Nascimbene, J., Nimis, P. L., Martellos, S., Passalacqua, N. G., Pittao, E., Potenza, G., Puntillo, D., Rosati, L., Sicoli, G., Spitale, D., Tomaselli, V., Trabucco, R., Turcato, C., Vallese, C., Zardini, M., Ravera S., Puglisi M., Vizzini A., Totti C., Arosio G., Benesperi R., Bianchi E., Boccardo F., Briozzo I., Dagnino D., de Giuseppe A.B., Dovana F., Di Nuzzo L., Fascetti S., Gheza G., Giordani P., Malicek J., Mariotti M.G., Mayrhofer H., Minuto L., Nascimbene J., Nimis P.L., Martellos S., Passalacqua N.G., Pittao E., Potenza G., Puntillo D., Rosati L., Sicoli G., Spitale D., Tomaselli V., Trabucco R., Turcato C., Vallese C., and Zardini M.

Subjects
0106 biological sciences, Flora, Ascomycota, Basidiomycota, Bryidae, Charophyceae, Marchantiidae, Plant Science, 010603 evolutionary biology, 01 natural sciences, Algae, Ascomycota, Basidiomycota, Bryidae, Charophyceae, Marchantiidae, lcsh:Botany, Botany, Lichen, Ascomycota, Basidiomycota, Bryidae, Charophyceae, Marchantiidae How, lichens, Ecology, Evolution, Behavior and Systematics, biology, biology.organism_classification, lcsh:QK1-989, Geography, Marchantiidae How, 010606 plant biology & botany
Abstract

In this contribution, new data concerning algae, bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the algae genusChara, the bryophyte generaHomalia,Mannia, andTortella, the fungal generaCortinarius,Russula, andStereum, and the lichen generaCetrelia,Cladonia,Enterographa,Graphis,Lecanora,Lepraria,Multiclavula,Mycomicrothelia,Parmelia,Peltigera,Pleopsidium,Psora,Scytinium,Umbilicaria, andRhizocarpon.

Published
2019

30. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 7

Author

Michele Puntillo, Michele Aleffi, Giovanni Sicoli, G. Barberis, Renato Benesperi, Alfredo Vizzini, Elena Pittao, Davide Dagnino, Pier Luigi Nimis, Petra Mair, Juri Nascimbene, Luca Paoli, Filippo Prosser, Mauro Ottonello, Chiara Vallese, F. Sguazzin, Anna Guttová, Antonio B. De Giuseppe, Silvia Poponessi, Marta Puglisi, Wilhelm Tratter, Paolo Giordani, Gabriele Gheza, Nicodemo G. Passalacqua, Zuzana Fačkovcová, Cecilia Totti, Wolfgang von Brackel, Daniel Spitale, Domenico Puntillo, Claudia Turcato, Helmut Mayrhofer, Sonia Ravera, Ravera S., Puglisi M., Vizzini A., Totti C., Aleffi M., Barberis G., Benesperi R., Brackel W., Dagnino D., De Giuseppe A.B., Fackovcova Z., Gheza G., Giordani P., Guttova A., Mair P., Mayrhofer H., Nascimbene J., Nimis P.L., Paoli L., Passalacqua N.G., Pittao E., Poponessi S., Prosser F., Ottonello M., Puntillo D., Puntillo M., Sicoli G., Sguazzin F., Spitale D., Tratter W., Turcato C., Vallese C., Ravera, S., Puglisi, M., Vizzini, A., Totti, C., Aleffi, M., Barberis, G., Benesperi, R., Brackel, W., Dagnino, D., De Giuseppe, A. B., Fackovcova, Z., Gheza, G., Giordani, P., Guttova, A., Mair, P., Mayrhofer, H., Nascimbene, J., Nimis, P. L., Paoli, L., Passalacqua, N. G., Pittao, E., Poponessi, S., Prosser, F., Ottonello, M., Puntillo, D., Puntillo, M., Sicoli, G., Sguazzin, F., Spitale, D., Tratter, W., Turcato, C., and Vallese, C.

Subjects
0106 biological sciences, 0301 basic medicine, Flora, Charophyceae, Jungermanniidae, Ascomycota, Basidiomycota, Bryidae, Plant Science, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Algae, lcsh:Botany, Botany, Lichen, Ascomycota, Basidiomycota, Bryidae, Charophyceae, Jungermanniidae, Ecology, Evolution, Behavior and Systematics, biology, Lichens, taxonomy, flora, 030108 mycology & parasitology, biology.organism_classification, lcsh:QK1-989
Abstract

In this contribution, new data concerning algae, bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the algae genusChara, the bryophyte generaCephalozia,Conardia,Conocephalum,Didymodon,Sphagnum,Tetraplodon, andTortula, the fungal generaEndophyllum,Gymnosporangium,Microbotryum,Phragmidium, andPluteus, and the lichen generaCandelariella,Cladonia,Flavoplaca,Lichenothelia,Peltigera,Placolecis,Rinodina,Scytinium, andSolenopsora.

Published
2019

31. Exploring the relationships between ecology and species traits in cyanolichens: A case study on Italy

Author

Elena Pittao, Marco Peplis, Pier Luigi Nimis, Silvia Ongaro, Juri Nascimbene, Stefano Martellos, Alessandro Chiarucci, Nimis, P. L., Martellos, S., Chiarucci, A., Ongaro, S., Peplis, M., Pittao, E., Nascimbene, J., Nimis P.L., Martellos S., Chiarucci A., Ongaro S., Peplis M., Pittao E., and Nascimbene J.

Subjects
0106 biological sciences, Evolution, Ecology (disciplines), Biodiversity, Plant Science, Biology, 010603 evolutionary biology, 01 natural sciences, Multivariate analyses, Ecological descriptors, Extremophiles, ITALIC 5.0, Reproductive strategies, Species traits, Symbiosis, Extremophile, Reproductive strategie, Ecology, Evolution, Behavior and Systematics, Ecological descriptor, Multivariate analyse, Ecology, Phylogenetic tree, Ecological Modeling, Arid, Light intensity, Habitat, Ordination, Species trait, Adaptation, 010606 plant biology & botany
Abstract

This work provides an overview of the ecology of all bipartite cyanolichens of Italy, exploring the relationships between ecological factors and species traits. A matrix of 205 species and several ecological descriptors was subjected to multivariate analyses (classification and ordination). Six groups of species with similar ecology were delimited, arranged along a gradient of decreasing aridity and light intensity, from extreme dry habitats on sunny calcareous rocks to very humid and shaded habitats on tree bark. The relationships between ecological species groups and traits were assessed by Principal Component Analysis, carried out on a matrix of ecological species groups and percent occurrences of 11 morpho-biological traits in each group. Along the gradient from arid to humid environments, and from more primeval substrata (rocks, mineral soils) to more recent ones (organic soils, tree bark), morphologically simpler, sexually reproducing cyanolichens are gradually replaced by more complex, often asexual species, which suggests that the current ecology of cyanolichens may retain a phylogenetic signal, indicative of the evolutionary footprint in species adaptation processes.

Published
2020

32. Lichen Distribution Patterns in the Ecoregions of Italy

Author

Juri Nascimbene, Marco d'Agostino, Pier Luigi Nimis, Alessandro Chiarucci, Stefano Martellos, DIPARTIMENTO DI SCIENZE BIOLOGICHE, GEOLOGICHE E AMBIENTALI, AREA MIN. 05 - Scienze biologiche, Da definire, Martellos, S., D'Agostino, M., Chiarucci, A., Nimis, P. L., Nascimbene, J., Martellos S., d'Agostino M., Chiarucci A., Nimis P.L., and Nascimbene J.

Subjects
0106 biological sciences, Climate, Distribution (economics), Lichen functional trait, Species richness pattern, 010603 evolutionary biology, 01 natural sciences, Exploration, GIS, ITALIC, Lichen functional traits, Spatial analysis, Baseline (configuration management), Lichen, lcsh:QH301-705.5, Nature and Landscape Conservation, geography, geography.geographical_feature_category, Ecology, business.industry, Ecological Modeling, Bedrock, Biota, Agricultural and Biological Sciences (miscellaneous), Taxon, lcsh:Biology (General), Spatial analysi, Species richness, Physical geography, Scale (map), business, 010606 plant biology & botany
Abstract

open 5 no An outline of the main distribution patterns of lichens in the ecoregions of Italy, accounting for their climatic, geographic, and environmental features, is still missing. On the basis of a GIS-based analysis, we summarized: (1) the main features (e.g., surface, climate, landscape, topographic heterogeneity, bedrock, eutrophication) of the 9 ecoregions adopted in ITALIC, the information system on Italian lichens, and (2) the patterns of richness, functional traits, and ecological requirements of lichens in the ecoregions. Our GIS-based analysis describes for the first time the main features of the 9 ecoregions adopted in ITALIC, highlighting differences which could explain the main lichen patterns. Overall, the exploration of the Italian lichen biota is still a work in progress, some regions being still underexplored, especially in the South, with new taxa being reported every year. Our research could provide a baseline for further advancements in the understanding of species richness and community composition of Italian lichens, at a regional scale. none Martellos S.; d'Agostino M.; Chiarucci A.; Nimis P.L.; Nascimbene J. Martellos S.; d'Agostino M.; Chiarucci A.; Nimis P.L.; Nascimbene J.

Published
2020

33. Notulae to the Italian alien vascular flora: 6

Author

Chiara Steffanini, Gaetano Pazienza, A. Sani, Lorenzo Peruzzi, Adriano Stinca, Francesco Saverio D’Amico, Luigi Forte, Alessandro Ruggero, Giuliano Mereu, Maurizio Trenchi, Giacomo Mei, Gianluigi Bacchetta, Francesca Carruggio, Pietro Medagli, Lorenzo Lazzaro, Liliana Bernardo, Giovanni Maiorca, Domenico Gargano, Franco Caldararo, Gabriele Galasso, Giancarlo Tondi, Domenico Saulle, Sara Magrini, Massimiliano Rempicci, Günter Gottschlich, Francesco Di Carlo, Massimo Terzi, Daniele Viciani, Filippo Prosser, Chiara Nepi, Gianniantonio Domina, Nicola Olivieri, Danio Miserocchi, Alessandro Cavagna, Francesco Festi, Fabrizio Bartolucci, Robert P. Wagensommer, Flavio Mennini, Giovanni Buccomino, Nicodemo G. Passalacqua, Nicola M. G. Ardenghi, Sergio Buono, Giacomo Calvia, Francesco Roma-Marzio, Galasso G., Domina G., Alessandrini A., Ardenghi N.M.G., Bacchetta G., Ballelli S., Bartolucci F., Brundu G., Buono S., Busnardo G., Calvia G., Capece P., D'Antraccoli M., Di Nuzzo L.D., Fanfarillo E., Ferretti G., Guarino R., Iamonico D., Iberite M., Latini M., Lazzaro L., Lonati M., Lozano V., Magrini S., Mei G., Mereu G., Moro A., Mugnai M., Nicolella G., Nimis P.L., Olivieri N., Pennesi R., Peruzzi L., Podda L., Probo M., Prosser F., Enri S.R., Roma-Marzio F., Ruggero A., Scafidi F., Stinca A., Nepi C., Ardenghi N.M., Bernardo L., Buccomino G., Caldararo F., Carruggio F., Cavagna A., D'Amico F.S., Di Carlo F., Festi F., Forte L., Gargano D., Gottschlich G., Maiorca G., Medagli P., Mennini F., Miserocchi D., Passalacqua N.G., Pazienza G., Rempicci M., Sani A., Saulle D., Steffanini C., Terzi M., Tondi G., Trenchi M., Viciani D., Wagensommer R.P., Galasso, Gabriele, Domina, Gianniantonio, Alessandrini, Alessandro, Ardenghi, Nicola M. G., Bacchetta, Gianluigi, Ballelli, Sandro, Bartolucci, Fabrizio, Brundu, Giuseppe, Buono, Sergio, Busnardo, Giuseppe, Calvia, Giacomo, Capece, Paolo, D’Antraccoli, Marco, Di Nuzzo, Luca, Fanfarillo, Emanuele, Ferretti, Giulio, Guarino, Riccardo, Iamonico, Duilio, Iberite, Mauro, Latini, Marta, Lazzaro, Lorenzo, Lonati, Michele, Lozano, Vanessa, Magrini, Sara, Mei, Giacomo, Mereu, Giuliano, Moro, Andrea, Mugnai, Michele, Nicolella, Gianluca, Nimis, Pierluigi, Olivieri, Nicola, Pennesi, Riccardo, Peruzzi, Lorenzo, Podda, Lina, Probo, Massimiliano, Prosser, Filippo, Ravetto Enri, Simone, Roma-Marzio, Francesco, Ruggero, Alessandro, Scafidi, Filippo, Stinca, Adriano, and Nepi, Chiara

Subjects
0106 biological sciences, Flora, alien specie, Alien species, Plant Science, Alien, Biology, 010603 evolutionary biology, 01 natural sciences, Plant science, floristic data, italian flora, lcsh:Botany, Botany, Nomenclature, Ecology, Evolution, Behavior and Systematics, Alien specie, alien species, Italy, Ecology, Floristic data, lcsh:QK1-989, Geography, Alien species, floristic data, Italy, Settore BIO/03 - Botanica Ambientale E Applicata, Floristic data, Italy, nomenclature, 010606 plant biology & botany
Abstract

In this contribution, new data concerning the distribution of vascular flora alien to Italy are presented. It includes new records, confirmations, exclusions, and status changes for Italy or for Italian administrative regions of taxa in the generaAcalypha,Acer,Canna,Cardamine,Cedrus,Chlorophytum,Citrus,Cyperus,Epilobium,Eucalyptus,Euphorbia,Gamochaeta,Hesperocyparis,Heteranthera,Lemna,Ligustrum,Lycium,Nassella,Nothoscordum,Oenothera,Osteospermum,Paspalum,Pontederia,Romulea,Rudbeckia,Salvia,Sesbania,Setaria,Sicyos,Styphnolobium,Symphyotrichum, andTradescantia. Nomenclature and distribution updates, published elsewhere, and corrigenda are provided as supplementary material.

Published
2018

34. Climate warming effects on epiphytes in spruce forests of the Alps

Author

Daniel Spitale, Pier Luigi Nimis, Petra Mair, Juri Nascimbene, Nascimbene, J., Nimis, P. L., Mair, P., Spitale, D., Nascimbene J., Nimis P.L., Mair P., and Spitale D.

Subjects
0106 biological sciences, 010504 meteorology & atmospheric sciences, Lichens, Range (biology), elevational gradients, Occurrence data, Lichen, 010603 evolutionary biology, 01 natural sciences, Single species, mountain areas, elevational gradient, Bryophytes, lichens, elevational gradients, species elevational shifts, mountain areas, South Tyrol, Italy, mountain area, 0105 earth and related environmental sciences, Ecology, Global warming, Bryophytes, SOUTH TYROL, Italy, species elevational shifts, Community composition, Local extinction, Bryophyte, Environmental science, Epiphyte
Abstract

Nascimbene J., Nimis P.L., Mair P. & Spitale D. 2018: Climate warming effects on epiphytes in spruce forests of the Alps. – Herzogia 31: 374–384.Climate warming in the Alps is setting major challenges to biodiversity conservation, potentially threatening epiphytic bryophytes and lichens, whose poikilohydric nature makes their eco-physiology strongly dependent on ambient temperature. In this work, we used species occurrence data along steep elevational-temperature gradients within the range of Alpine spruce-dominated forests for modelling the response of epiphytes to temperature shifts. Results provide evidence for species-specific and differently shaped species-temperature relationships, indicating that the sensitiveness of single species to climate warming is likely to influence community composition. Many epiphytes that currently occur in Alpine forests are vulnerable to warming, and may soon experience local extinction. The local assessment of the current altitudinal range of species may provide a tool to monitor the effects of warming by identifying the most critical species and the locations where their conservation is expected to be more effective.

Published
2018

35. Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 5

Author

Wolfgang von Brackel, Stefano Martellos, Domenico Puntillo, Deborah Isocrono, Daniela Cataldo, Luca Di Nuzzo, Renato Benesperi, Gabriele Gheza, F. Sguazzin, Annalena Cogoni, Silvia Ongaro, Lorenzo Morosini, Sonia Ravera, Enrica Matteucci, Mauro Tretiach, Sergio Enrico Favero Longo, Costantino D'Antonio, Elisabetta Bianchi, Alfredo Vizzini, Silvia Poponessi, Pier Luigi Nimis, Michele Aleffi, Sonia, Ravera, Alfredo, Vizzini, Annalena, Cogoni, Michele, Aleffi, Renato, Benesperi, Elisabetta, Bianchi, Wolfgang von Brackel, Daniela, Cataldo, Costantino, D’Antonio, Luca Di Nuzzo, Sergio Enrico Favero-Longo, Gabriele, Gheza, Deborah, Isocrono, Enrica, Matteucci, Martellos, Stefano, Morosini, Lorenzo, Nimis, Pierluigi, Ongaro, Silvia, Silvia, Poponessi, Domenico, Puntillo, Francesco, Sguazzin, Tretiach, Mauro, Ravera S., Vizzini A., Cogoni A., Aleffi M., Benesperi R., Bianchi E., von Brackel W., Cataldo D., D'Antonio C., Di Nuzzo L., Favero-Longo S.E., Gheza G., Isocrono D., Matteucci E., Martellos S., Morosini L., Nimis P.L., Ongaro S., Poponessi S., Puntillo D., Sguazzin F., and Tretiach M.

Subjects
0106 biological sciences, Flora, Jungermanniidae, Plant Science, 010603 evolutionary biology, 01 natural sciences, Bryidae, floristic data, Algae, Ascomycota, lcsh:Botany, Botany, Lichen, Ascomycota, Basidiomycota, Bryidae, Jungermanniidae, floristic data, Ecology, Evolution, Behavior and Systematics, biology, Basidiomycota, Basidiomycota, Bryidae, biology.organism_classification, lcsh:QK1-989, Geography, 010606 plant biology & botany
Abstract

In this contribution, new data concerning bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the bryophyte genera Diplophyllum and Ptychostomum, the fungal genera Arrhenia, Gymnosporangium, and Sporidesmium and the lichen genera Arthonia, Coenogonium, Flavoplaca, Gyalolechia, Parmotrema, Peltigera, Pterygiopsis, Squamarina, Tornabea, and Waynea.

Published
2018

36. A search tool for the digital biodiversity resources of KeyToNature

Author

Giurgiu, M., Homodi, A., Veija, C., Hagedorn, G., Nimis, Pierluigi, Nimis P.L. and R. Vignes Lebbe (eds.), Giurgiu, M., Homodi, A., Veija, C., Hagedorn, G., and Nimis, Pierluigi

Subjects
metadata search engine, online digital repository, Rich Internet Application
Abstract

The European KeyToNature project has created a framework to gather large amounts of biodiversity-related digital data and metadata from cooperating providers and to make them publicly available via an advanced search engine tool. The novelty of the solution consists in the creation of specific queries for the search web service in the KeyToNature digital repository, in the implementation of a communication protocol between the client application and the repository server, and in other original solutions for metadata presentation.

Published
2010

38. Freshwater lichens of the Italian Alps: a review

Author

Juri Nascimbene, P. L. Nimis, Nascimbene, Juri, Nimis, Pierluigi, Nascimbene, J, and Nimis, P.L.

Subjects
Flora, Lichens, Ecology, Ecology (disciplines), Lichen, Freshwater habitat, Italian Alps, Biology, Aquatic Science, Sexual reproduction, Italian Alp, Bioindication, Habitat, Freshwater habitats, Species richness, Crustose
Abstract

The lichen flora of freshwater habitats in the Italian Alps is reviewed: 20 genera and 43 species are known, of which crustose lichens with sexual reproduction prevail. Freshwater lichen richness is highest near the treeline on siliceous substrata in exposed and well-lit sites. The importance of several ecological factors on freshwater lichen distribution and ecology is discussed.

Published
2006

39. Mapping lichen diversity as an indicator of environmental quality

Author

Christoph Scheidegger, U. Kirschbaum, F. Fornasier, Juliette Asta, S. A. Pirintsos, Pier Luigi Nimis, O. W. Purvis, W. Erhardt, V. Wirth, Marco Ferretti, C. Van Haluwyn, Nimis P.L., Scheidegger Ch., Wolseley P.A. (eds.), Asta, J., Erhardt, W., Ferretti, M., Fornasier, F., Kirschbaum, U., Nimis, Pierluigi, Purvis, W., Pirintsos, S., Scheidegger, C. h., van Haluwyn, C. h., and Wirth, V.

Subjects
Pollution, Lichens, Standardization, media_common.quotation_subject, Air pollution, Lichen, medicine.disease_cause, Lichen Diversity Values, Sampling grid, Geography, medicine, Physical geography, Environmental quality, media_common, Diversity (business)
Abstract

In the last decades, several methods were proposed for assessing environmental quality — mainly air pollution — on the basis of lichen data (see chapter 4, this volume). At the end of the 80s the predictivity of 20 different methods with respect to instrumental pollution data was tested in Switzerland using multiple regression [1, 5]. The highest correlation was found with the sum of frequencies of lichen species within a sampling grid of 10 units positioned on the trunks of free-standing trees. This method was immediately and widely adopted in several other countries, esp. Italy and Germany, with some modifications, chiefly concerning the size of the sampling grid. Since 1987, hundreds of studies were carried out with this approach, which led to its standardization in the form of guidelines both in Germany [13], and in Italy [7].

Published
2002

42. I licheni endolitici calcicoli su monumenti

Author

Nimis, Pierluigi, Zappa, L., Nimis P.L., Monte M. (eds.), Nimis, Pierluigi, and Zappa, L.

Subjects
Lichens, Endolithic, Lichen, Limestone, Monuments
Published
1988

43. The role of lichens in selecting important plant areas in Italy

Author

Ravera, S., Nimis, P. L., Giorgio Brunialti, Frati, L., Isocrono, D., Martellos, S., Munzi, S., Nascimbene, J., Potenza, G., Tretiach, M., Ravera, S., Nimis, P. L., Brunialti, G., Frati, L., Isocrono, D., Martellos, Stefano, Munzi, Luigi, Nascimbene, Juri, Potenza, G., Tretiach, Mauro, Ravera, S, Nimis, P.L., Martellos, S., Munzi, S., Nascimbene, J., and Tretiach, M.

Subjects
Italy, Important Plant Area (IPA) program, lichens, Lichens, Important Plant Areas, Lichen, Forestry, Plant Science, Italy, IPA, lichens, Ecology, Evolution, Behavior and Systematic, Important Plant Area, IPA
Abstract

Aim of the Important Plant Area (IPA) program - integral part of the CBD Global Strategy for Plant Conservation - is the constitution of a network of the most important natural or semi-natural sites for wild plant and fungi conservation. Giving lower plants and fungi the same importance as vascular plants, the program provides to individual countries a considerable freedom of action in the implementation of IPAs number. Three main principles rule the site identification: Criterion A, based on species contribution; Criterion B, based on floristic richness in relation to the biogeographic zone; Criterion C, based on threatened habitats. Italian botanists from different areas of research responded to the call comprehensively, including all the groups of plants in the definition of the IPAs. Nevertheless, experts in lichens, fungi and freshwater algae found some operational difficulties, mostly due to the incomplete knowledge of species distribution, the lack of updated databases and official red lists. In this paper, the methodological approach used to include Italian lichens in the IPA definition is discussed. Seventy two taxa were selected as species of national interest and 21 areas critical for long-term preservation of lichen populations were proposed, including an archaeological area considered representative of cultural heritages as a lichen complex habitat.

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