The Italian endemic forest plants: an annotated inventory and synthesis of knowledge

Background and aims – Forests are among the most threatened ecosystems worldwide, and endemic plants are often a vulnerable component of the flora of a given territory. So far, however, understory forest endemics of southern Europe have received little attention and are poorly known for several aspects. Material and methods – We developed the first list of native vascular plants that are restricted to Italian forests. Available information on taxonomy, regional distribution, ecology, biology, functional traits, and conservation status was collected for each taxon, allowing to identify major knowledge gaps and calculate baseline statistics. Key results – The list includes 134 taxa, most of which are linked to closed-canopy forest habitats, while the others are also found in margins and gaps. The forest and non-forest Italian endemic flora differed in terms of taxonomic and life-form distribution. The rate and density of forest endemism increased with decreasing latitude and were highest in Sicily, Calabria, and Basilicata, where paleoendemic mono- or oligotypic genera also occur. Endemic phanerophytes were especially numerous on islands. Beech and deciduous oak forests were the most important habitats, but hygrophilous woodlands also host numerous endemics. Overall, the ecology, biology, and functional traits of the forest endemic taxa are still poorly known. The ratio diploids/polyploids was highest in the south and on the islands. Almost 24% of the taxa were assessed as “Critically Endangered”, “Endangered”, or “Vulnerable”, and 24% were categorized as “Data Deficient”, based on the IUCN system. Increasing frequency and intensity of fires was the most frequent threat. Conclusions – This work can contribute to implement the European forest plant species list and serve as a basis for further research on a unique biological heritage of the continent. However, more knowledge about these globally rare taxa is needed, to support their conservation in changing forest landscapes.

[1]  B. Graae,et al.  The European Forest Plant Species List (EuForPlant): Concept and applications , 2022, Journal of Vegetation Science.

[2]  F. Selvi,et al.  Plant mortality on ultramafic soils after an extreme heat and drought event in the Mediterranean area , 2021, Plant and Soil.

[3]  A. Coppi,et al.  Population genetic structure of Gymnospermium scipetarum subsp. eddae (Berberidaceae), an endangered Forest endemic from the Southern Apennines (Italy) , 2021, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology.

[4]  J. Peñuelas,et al.  Global Change and Forest Disturbances in the Mediterranean Basin: Breakthroughs, Knowledge Gaps, and Recommendations , 2021, Forests.

[5]  David A. Luther,et al.  Global assessment of forest quality for threatened terrestrial vertebrate species in need of conservation translocation programs , 2021, PloS one.

[6]  M. M. Vale,et al.  Endemism increases species' climate change risk in areas of global biodiversity importance , 2021 .

[7]  F. Bussotti,et al.  Understorey changes after an extreme drought event are modulated by overstorey tree species mixtures in thermophilous deciduous forests , 2021, Forest Ecology and Management.

[8]  Ioannis P. Kokkoris,et al.  Plant Endemism Centres and Biodiversity Hotspots in Greece , 2021, Biology.

[9]  M. Perring,et al.  The need for an understory decision support system for temperate deciduous forest management , 2021 .

[10]  J. Thompson Plant Evolution in the Mediterranean , 2020 .

[11]  L. Peruzzi,et al.  A deep dive into the ancestral chromosome number and genome size of flowering plants. , 2020, The New phytologist.

[12]  L. Peruzzi,et al.  Red list of threatened vascular plants in Italy , 2020, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology.

[13]  Sandra Gonçalves,et al.  Endemic Plant Species Conservation: Biotechnological Approaches , 2020, Plants.

[14]  Denis Bastianelli,et al.  TRY plant trait database - enhanced coverage and open access. , 2019, Global change biology.

[15]  Bin Wang,et al.  The functional role of temperate forest understorey vegetation in a changing world , 2019, Global change biology.

[16]  A. Leriche,et al.  What is a tree in the Mediterranean Basin hotspot? A critical analysis , 2019, Forest Ecosystems.

[17]  M. Peregrym,et al.  The genus Gymnospermium (Berberidaceae) in Italy: identity and relationships of the populations at the western limit of the genus range , 2018, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology.

[18]  Z. Barina,et al.  Checklist of vascular plants of Albania , 2018, Phytotaxa.

[19]  E. Farris,et al.  Pollination features and floral volatiles of Gymnospermium scipetarum (Berberidaceae) , 2018, Journal of plant research.

[20]  Giuseppe Fenu,et al.  Red Listing plants under full national responsibility: Extinction risk and threats in the vascular flora endemic to Italy , 2018, Biological Conservation.

[21]  A. Santangelo,et al.  An updated checklist of the vascular flora native to Italy , 2018 .

[22]  Francesco Maria Raimondo,et al.  At the intersection of cultural and natural heritage: Distribution and conservation of the type localities of Italian endemic vascular plants , 2017 .

[23]  D. Mabberley Mabberley's Plant-book by David J. Mabberley , 2017 .

[24]  W. Blanckenhorn,et al.  Taxonomic resolution and treatment effects – alone and combined – can mask significant biodiversity reductions , 2017 .

[25]  J. Lundberg,et al.  An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants : APG II THE ANGIOSPERM PHYLOGENY GROUP * , 2003 .

[26]  L. Peruzzi,et al.  The avoidance of self-interference in the Tuscan endemic spring geophyte Crocus etruscus Parl. (Iridaceae) , 2016 .

[27]  Itay Mayrose,et al.  The Chromosome Counts Database (CCDB) - a community resource of plant chromosome numbers. , 2015, The New phytologist.

[28]  L. Peruzzi,et al.  Seed morphology and genome size in two Tuscan Crocus (Iridaceae) endemics: C. etruscus and C. ilvensis , 2015 .

[29]  P. Colombo,et al.  Flower and fruit structure of the endangered species Petagnaea gussonei (Sprengel) Rauschert (Saniculoideae, Apiaceae) and implications for its reproductive biology , 2015 .

[30]  Francesco Maria Raimondo,et al.  An inventory of the names of vascular plants endemic to Italy, their loci classici and types , 2015 .

[31]  Domenico Guida,et al.  Classification and mapping of the ecoregions of Italy , 2014 .

[32]  L. Peruzzi,et al.  Seed dormancy and germination in three Crocus ser. Verni species (Iridaceae): implications for evolution of dormancy within the genus. , 2014, Plant biology.

[33]  L. Peruzzi,et al.  An inventory of vascular plants endemic to Italy , 2014 .

[34]  J. Lorite,et al.  Hotspots within hotspots: Endemic plant richness, environmental drivers, and implications for conservation , 2014 .

[35]  D. Lanzerath,et al.  Concepts and Values in Biodiversity , 2014 .

[36]  P. Hollingsworth,et al.  Conservation Priorities in a Biodiversity Hotspot: Analysis of Narrow Endemic Plant Species in New Caledonia , 2013, PloS one.

[37]  L. Peruzzi,et al.  The Italian Loci Classici Census , 2012 .

[38]  L. Peruzzi,et al.  Cytogenetic characterization of endemics: past and future , 2012 .

[39]  M. Daws,et al.  Adaptation to habitat in Aquilegia species endemic to Sardinia (Italy): Seed dispersal, germination and persistence in the soil , 2012 .

[40]  E. Mattana,et al.  Spatial genetic structure of Aquilegia taxa endemic to the island of Sardinia. , 2012, Annals of botany.

[41]  Tara G Martin,et al.  A guide to eliciting and using expert knowledge in Bayesian ecological models. , 2010, Ecology letters.

[42]  W. Willner,et al.  Phytogeographical evidence for post‐glacial dispersal limitation of European beech forest species , 2009 .

[43]  W. Barthlott,et al.  A global assessment of endemism and species richness across island and mainland regions , 2009, Proceedings of the National Academy of Sciences.

[44]  P. Luca,et al.  Analysis of the genus Petagnaea Caruel (Apiaceae), using new molecular and literature data , 2009, Plant Systematics and Evolution.

[45]  Canran Liu,et al.  Global Warming and Extinctions of Endemic Species from Biodiversity Hotspots , 2006, Conservation biology : the journal of the Society for Conservation Biology.

[46]  R. Mittermeier,et al.  Biodiversity hotspots for conservation priorities , 2000, Nature.

[47]  G. Peterken A method for assessing woodland flora for conservation using indicator species , 1974 .

[48]  OUP accepted manuscript , 2022, Forestry: An International Journal Of Forest Research.

[49]  L. Peruzzi,et al.  Phylogeny, karyotype evolution and taxonomy of Crocus series Verni (Iridaceae) , 2014, Plant Systematics and Evolution.

[50]  L. Cecchi,et al.  Low genetic diversity and contrasting patterns of differentiation in the two monotypic genera Halacsya and Paramoltkia (Boraginaceae) endemic to the Balkan serpentines , 2014 .

[51]  Frédéric Médail,et al.  Hot-Spots Analysis for Conservation of Plant Biodiversity in the Mediterranean Basin , 1997 .