Ornamental Vascular Plant Diversity in Basilicata (Southern Italy)

Abstract

This investigation focuses on urban ornamental greenery, a field of research that is still relatively unexplored in Italy but is becoming increasingly important both from a botanical point of view and in relation to sustainable land management and planning. A checklist of the ornamental vascular flora of Basilicata (Southern Italy) is reported here. A total of 281 taxa were recorded, including trees, shrubs, herbaceous plants, and succulents cultivated in parks, gardens, and street trees. Such taxa (including 265 species s. str., 6 varieties, 5 subspecies, and 11 forms) belong to 201 genera, included in 94 families, among which the most represented are Rosaceae, Oleaceae, Asteraceae, Pinaceae, Cupressaceae, and Fabaceae. Phanerophytes represent the dominant growth form, and the chorological spectrum is composed mainly of Asian and American taxa. Taxa from subtropical and tropical biomes also showed a significant presence. This study highlighted the clear prevalence in the Basilicata ornamental flora of alien taxa (approximately 80%, of which 21% are naturalized aliens) compared to native ones, which is a phenomenon that is unfortunately widespread and observed worldwide.

1. Introduction

The term “ornamental plants” usually refers to plants cultivated for aesthetic and decorative purposes [1]. These plants are defined as ornamental for their characteristics, such as the beauty of their flowers and leaves, their pleasant fragrance, and the attractive texture of their foliage, which motivate their cultivation [2,3,4].

From an aesthetic perspective, ornamental plants contribute to the beauty of the landscape and are commonly used in the planning of lawns, gardens, shopping centers, and landscaped areas [5]. They are intentionally cultivated for decorative purposes rather than for food production or by-products, and can be employed as architectural elements, in flower beds, hedges, or on sunny windowsills.

Beyond their visual appeal, many ornamental species are also distinguished by their pleasant fragrance, which enhances their overall aesthetic value [2].

However, their role goes far beyond a mere decorative function: they are fundamental components of the urban environment, capable of providing numerous essential ecosystem services. These include climate regulation through shading and evapotranspiration, which help mitigate the effects of urban heat islands; air purification through the absorption of gaseous pollutants and particulate matter; and the ability to retain and filter storm water, reducing the risks of soil erosion and flooding, as well as improving the quality of wastewater [6,7]. They also contribute to nutrient cycling and the evolution of fertile soils, support crucial ecological processes such as pollination, and provide food and shelter for urban wildlife, particularly pollinating insects and birds [8]. Added to these are cultural, psychological, and social benefits: green spaces enriched with ornamental plants promote citizens’ psycho-physical well-being, stimulate social interaction, offer recreational opportunities, and serve as inspiration for artistic and creative activities [9].

At the same time, the critical aspects associated with the use of ornamental species cannot be overlooked. Many taxa are known for their toxic properties due to the presence of alkaloids, cyanogenic glycosides, saponins, or other bioactive molecules, which can cause serious adverse effects if accidentally ingested by children or pets [10]. Other species release allergenic substances in the form of pollen, latex, or volatile compounds, posing problems for sensitive individuals [11]. In this context, a study recently conducted in Sicily highlighted that most ornamental species cultivated in urban parks and gardens present potential toxic or allergenic risks, emphasizing the need for stricter criteria in their selection and management [12]. Another critical element is the role of ornamental species as vectors for the introduction of alien invasive plants. The extensive global trade of ornamental plants facilitates the spread of exotic taxa, many of which show strong invasive potential, with significant consequences for native ecosystems, local biodiversity, and the ecological functions of urban and periurban habitats [13,14].

Despite the ecological, social, and economic importance of the ornamental sector, scientific research dedicated to these species remains limited, particularly in Italy, where specific studies are sporadic and mostly included in broader investigations on alien vascular flora or invasive species [15,16]. In contrast, in other countries, ornamental plants have been the subject of in-depth research highlighting their multifunctionality and potential applications. Some studies have tested their effectiveness in phytoremediation processes, demonstrating the ability of different ornamental species to tolerate and accumulate heavy metals, thereby enabling soil and water decontamination interventions [17,18]. Other investigations have analyzed the use of ornamental plants in constructed wetlands for the treatment of urban and industrial wastewater, showing that the combined use of multiple species can improve purification performance while reducing environmental impact [19]. Many other studies have documented the ability of certain ornamental species to remove volatile organic compounds (VOCs) and other harmful substances from the air, benefiting indoor air quality and occupant health [20]. Finally, some ornamental species have been evaluated as sensitive bioindicators of air or soil pollution, representing useful tools for environmental monitoring, while other studies have explored the toxicity of shrubs and trees widely cultivated for aesthetic purposes but potentially hazardous to humans and urban fauna [21,22].

In recent years, however, systematic studies of ornamental flora have also progressed in Italy. In particular, two recent publications have provided specific and comprehensive contributions regarding the Apulia [23] and Sicily [24] regions. In Apulia, 287 ornamental taxa were recorded, whereas in Sicily, where the study of ornamental flora has historical roots going back more than forty years and can be considered the best-documented region in Italy on this topic, 928 taxa were recorded. In both studies, a significant percentage of taxa were included in the list of Italy’s alien vascular flora, with a strong predominance of occasional aliens and naturalized neophytes. These results highlight, on the one hand, the extraordinary floristic richness associated with ornamental use in the two regions, and on the other, the need to develop further research aimed at systematizing knowledge at the national level, while promoting sustainable management strategies and preventing the risks associated with the spread of potentially invasive species.

In this survey, we report the first contribution to the checklist of the ornamental vascular flora of the Basilicata region (Southern Italy) (Figure 1). Basilicata, with an area of approximately 9995 km², is among the smallest regions in Italy and, with just over half a million inhabitants, has one of the lowest population densities in the country [25]. The administrative structure is divided into only two provinces: Potenza, which serves as the regional capital, and Matera. Its territory functions as a geo-crossroads between the Adriatic side (Apulia), the Tyrrhenian side (Calabria), and the inland area (Campania), with outlets to both the Tyrrhenian and Ionian Seas. The dominance of the Lucanian Apennines results in a predominantly mountainous and hilly topography, interrupted by a few plains [25]. This orographic structure, with altitudinal ranges from sea level up to 2267 m at Monte Pollino, creates, despite Basilicata’s limited territorial extent, a complex climatic mosaic: the inland areas exhibit a continental climate with cold, snowy winters; the hilly zones show a temperate sub-continental climate; along the Ionian coast there is a hot-arid Mediterranean alternation; the smaller Tyrrhenian strip enjoys milder and more humid conditions [25]. This climatic complexity allows the region to host a wide spectrum of plant taxa from different bioclimatic areas. Currently, knowledge of the ornamental flora of Basilicata is almost entirely lacking. Indeed, no specific contributions are available, and the only information comes from studies that briefly report the naturalization status of some cultivated exotic species in the region [26].

Our investigation, although preliminary, aims to fill this gap by compiling a checklist of the main ornamental taxa cultivated in the Basilicata region. For the purposes of this study, the term “ornamental plants” is used in its broadest sense, encompassing both native and non-native taxa, including trees, shrubs, annual and perennial herbaceous species, as well as bulbs and tubers, all cultivated for decorative purposes in street tree plantings, historic villas, and public and private gardens in the Basilicata region. In addition to its descriptive purpose, the study aims to provide a knowledge base useful for subsequent evaluations by local administrations, both in terms of the aesthetic and landscape enhancement of the species employed and for the analysis of potential risks associated with their spread. Particular attention is devoted, in this context, to issues related to the invasive capacity of certain species and their effects on public health, especially with regard to the possible increase in allergies.

2. Results

A total of 281 taxa were recorded (Appendix A 

Table A1. List of ornamental taxa surveyed in the Basilicata region, sorted by family, growth form (according to [39,40]), area of geographical origin (derived from [39]), biome origin (according to [39]), time of residence (archaeophyte/neophyte) and status (native/alien) in Italy (both derived from [41,42]).

Family	Taxa	Growth Form	Geographical Origin	Biome Origin	Time of Residence	Status in Italy
Acanthaceae	Acanthus mollis L.	H scap	Mediterranean	Temperate		Native
Aizoaceae	Carpobrotus acinaciformis (L.) L.Bolus	Ch suffr	S Africa	Subtropical	Neophyte	Invasive alien
Aizoaceae	Carpobrotus edulis (L.) N.E.Br.	Ch suffr	S Africa	Subtropical	Neophyte	Invasive alien
Aizoaceae	Mesembryanthemum cordifolium L.f.	Ch suffr	Cape Province	Subtropical	Neophyte	Invasive alien
Altingiaceae	Liquidambar styraciflua L.	P scap	USA, C America	Temperate	Neophyte	Casual alien
Amaranthaceae	Amaranthus cruentus L.	T scap	S America	Tropical		Cultivated
Amaryllidaceae	Agapanthus africanus (L.) Hoffmanns.	G rhiz	S Africa	Subtropical		Cultivated
Amaryllidaceae	Clivia miniata Regel	G rhiz	S Africa	Subtropical		Cultivated
Amaryllidaceae	Narcissus tazetta L.	G bulb	Mediterranean	Subtropical		Native
Anacardiaceae	Cotinus coggygria Scop.	P caesp, P scap	C-S Europe, C Asia	Temperate		Native
Anacardiaceae	Pistacia lentiscus L.	P caesp, P scap	Mediterranean	Subtropical		Native
Anacardiaceae	Schinus molle L.	P scap	S America	Subtropical	Neophyte	Naturalized alien
Apocynaceae	Carissa macrocarpa (Eckl.) A.DC.	P caesp	S Africa	Shrubland	Neophyte	Naturalized alien
Apocynaceae	Cascabela thevetia (L.) Lippold	P caesp, P scap	C-S America	Tropical	Neophyte	Naturalized alien
Apocynaceae	Catharanthus roseus (L.) G.Don	Ch frut	Madagascar	Tropical	Neophyte	Naturalized alien
Apocynaceae	Mandevilla laxa (Ruiz & Pav.) Woodson	P lian	S America	Tropical		Cultivated
Apocynaceae	Nerium oleander L.	P caesp	Mediterranean, S-W Asia	Subtropical		Native
Apocynaceae	Trachelospermum jasminoides (Lindl.) Lem.	P lian	E Asia	Subtropical	Neophyte	Casual alien
Apocynaceae	Vinca major L.	Ch rept	S Europe, Caucasus	Temperate		Native
Apocynaceae	Vinca major var. variegata Loudon	Ch rept	Horticultural	Temperate		Cultivated
Aquifoliaceae	Ilex aquifolium L.	P caesp, P scap	Europe, N-W Africa	Temperate		Native
Aquifoliaceae	Ilex aquifolium L. ‘Aurea Marginata’	P scap	Horticultural	Temperate		Cultivated
Araceae	Zantedeschia aethiopica (L.) Spreng.	G rhiz	S Africa	Tropical	Neophyte	Invasive alien
Araliaceae	Hedera canariensis Willd.	P lian	Canarie Island	Temperate	Neophyte	Naturalized alien
Araliaceae	Hedera helix L.	P lian	Europe, W Asia	Temperate		Native
Araucariaceae	Araucaria araucana (Molina) K.Koch	P scap	S America	Temperate		Cultivated
Araucariaceae	Araucaria columnaris (G.Forst.) Hook.	P scap	New Caledonia	Tropical		Cultivated
Araucariaceae	Araucaria heterophylla (Salisb.) Franco	P scap	Norfolk Island	Tropical		Cultivated
Arecaceae	Chamaerops humilis L.	NP	Mediterranean	Subtropical		Native
Arecaceae	Phoenix canariensis H.Wildpret	P scap	Canarie Island	Subtropical	Neophyte	Naturalized alien
Arecaceae	Syagrus romanzoffiana (Cham.) Glassman	P scap	S America	Tropical		Casual alien
Arecaceae	Trachycarpus fortunei (Hook.) H.Wendl.	P scap	E Asia	Temperate	Neophyte	Invasive alien
Arecaceae	Washingtonia filifera var. robusta (H.Wendl.) Parish	P scap	Mexico	Shrubland	Neophyte	Naturalized alien
Asparagaceae	Agave americana L.	P caesp	Mexico	Tropical	Neophyte	Invasive alien
Asparagaceae	Agave americana var. marginata Trel.	P caesp	Mexico	Tropical	Neophyte	Invasive alien
Asparagaceae	Asparagus falcatus L.	P lian	S-E Africa, India	Tropical	Neophyte	Casual alien
Asparagaceae	Asparagus setaceus (Kunth) Jessop	G rhiz	S-E Africa	Tropical	Neophyte	Naturalized alien
Asparagaceae	Aspidistra elatior Blume	G rhiz	Japan	Subtropical	Neophyte	Casual alien
Asparagaceae	Cordyline australis (G.Forst.) Endl.	P caesp	New Zealand	Subtropical	Neophyte	Casual alien
Asparagaceae	Ruscus aculeatus L.	G rhiz	C-S Europe, N Africa, Caucasus	Temperate		Native
Asparagaceae	Yucca gigantea Lem.	P caesp	C America	Tropical	Neophyte	Casual alien
Asphodelaceae	Aloe arborescens Mill.	P succ	S Africa	Shrubland	Neophyte	Naturalized alien
Asphodelaceae	Aloe vera (L.) Burm.f.	P succ, NP	Oman	Shrubland	Archaeophyte	Naturalized alien
Asphodelaceae	Kniphofia uvaria (L.) Oken	Ch succ	Cape Province	Temperate	Neophyte	Casual alien
Asphodelaceae	Phormium tenax J.R.Forst. & G.Forst.	G rhiz	Norfolk Island, New Zealand	Temperate	Neophyte	Casual alien
Asphodelaceae	Phormium tenax J.R.Forst. & G.Forst. ‘Variegata’	G rhiz	Horticultural	Temperate		Cultivated
Asteraceae	Calendula suffruticosa Vahl	Ch suffr	S-W Mediterranean	Subtropical		Native
Asteraceae	Chrysanthemum indicum L.	Ch frut	E Asia	Temperate		Cultivated
Asteraceae	Dahlia × hortensis Guillaumin	G rhiz	Horticultural	Tropical		Cultivated
Asteraceae	Dimorphotheca fruticosa (L.) DC.	H scap	Cape Province	Subtropical	Neophyte	Casual alien
Asteraceae	Dimorphotheca sinuata DC.	H caesp	S Africa	Subtropical		Cultivated
Asteraceae	Euryops pectinatus (L.) Cass.	P caesp	S Africa	Subtropical		Cultivated
Asteraceae	Farfugium japonicum (L.) Kitam.	H caesp	China, Japan	Subtropical		Cultivated
Asteraceae	Gazania rigens (L.) Gaertn.	H caesp	S Africa	Subtropical	Neophyte	Naturalized alien
Asteraceae	Helianthus annuus L.	T scap	S America	Temperate	Neophyte	Casual alien
Asteraceae	Helianthus tuberosus L.	G bulb	N America	Temperate	Neophyte	Invasive alien
Asteraceae	Senecio angulatus L.f.	P lian	Cape Province	Subtropical	Neophyte	Invasive alien
Asteraceae	Tagetes erecta L.	T scap	C America	Subtropical	Neophyte	Casual alien
Asteraceae	Zinnia elegans Jacq.	T scap	C America	Tropical	Neophyte	Casual alien
Balsaminaceae	Impatiens hawkeri W.Bull	H scap	Papuasia	Tropical		Cultivated
Begoniaceae	Begonia cucullata Willd.	H scap	S America	Tropical		Cultivated
Berberidaceae	Berberis thunbergii DC. ‘Atropurpureum’	Ch suffr	Japan	Temperate		Cultivated
Berberidaceae	Nandina domestica Thunb.	P caesp	China	Temperate	Neophyte	Casual alien
Betulaceae	Alnus cordata Desf.	P scap	Corse	Temperate		Native
Betulaceae	Corylus avellana L.	P caesp	Europe, Caucasus	Temperate		Native
Betulaceae	Ostrya carpinifolia Scop.	P scap	S-C Europe, Caucasus	Temperate		Native
Bignoniaceae	Campsis grandiflora (Thunb.) K.Schum.	P lian	China, Japan	Temperate		Cultivated
Bignoniaceae	Campsis radicans (L.) Bureau	P lian	S-E USA	Subtropical	Neophyte	Naturalized alien
Bignoniaceae	Catalpa bignonioides Walter	P scap	N America	Temperate	Neophyte	Naturalized alien
Bignoniaceae	Tecomaria capensis (Thunb.) Spach	P caesp	S Africa	Subtropical	Neophyte	Casual alien
Buxaceae	Buxus sempervirens L.	NP	C-S Europe, N Africa, Caucasus	Temperate		Native
Cactaceae	Opuntia ficus-indica (L.) Mill.	P succ	Mexico	Tropical	Neophyte	Invasive alien
Cactaceae	Opuntia humifusa (Raf.) Raf.	P succ	USA, Mexico	Shrubland	Neophyte	Invasive alien
Cactaceae	Opuntia tuna (L.) Mill.	P succ	C America	Tropical	Neophyte	Naturalized alien
Calycanthaceae	Calycanthus floridus L.	P caesp	N America	Temperate	Neophyte	Casual alien
Cannabaceae	Celtis australis L.	P scap	S Europe, N-W Africa, Caucasus	Subtropical		Native
Cannaceae	Canna indica L.	G rhiz	C-S America	Tropical	Neophyte	Naturalized alien
Capparaceae	Capparis spinosa L.	NP	Mediterranean	Subtropical		Native
Caprifoliaceae	Abelia × grandiflora (Rovelli ex André) Rehder	P caesp	Artificial hybrid	Temperate		Cultivated
Caprifoliaceae	Lonicera japonica Thunb.	P caesp	E Asia	Temperate	Neophyte	Invasive alien
Caprifoliaceae	Symphoricarpos albus (L.) S.F.Blake	P caesp	N America, Mexico	Temperate	Neophyte	Naturalized alien
Caprifoliaceae	Weigela florida (Bunge) A.DC. ‘Variegata’	P caesp	Horticultural	Temperate		Cultivated
Celastraceae	Euonymus japonicus Thunb.	P caesp	Japan	Subtropical	Neophyte	Naturalized alien
Celastraceae	Euonymus japonicus Thunb. ‘Aureomarginatus’	P caesp	Japan	Subtropical		Cultivated
Commelinaceae	Tradescantia fluminensis Vell.	G rhiz	S America	Tropical	Neophyte	Invasive alien
Commelinaceae	Tradescantia pallida (Rose) D.R.Hunt	G rhiz	Mexico	Tropical	Neophyte	Casual alien
Convolvulaceae	Ipomoea purpurea (L.) Roth	P lian	C-S America	Tropical	Neophyte	Naturalized alien
Crassulaceae	Aeonium arboreum (L.) Webb & Berthel.	NP	Canarie Island	Subtropical	Archaeophyte	Invasive alien
Crassulaceae	Aeonium arboreum (L.) Webb & Berthel. ‘Atropurpureum’	NP	Canarie Island	Subtropical		Cultivated
Crassulaceae	Crassula ovata (Mill.) Druce	NP succ	S Africa	Subtropical	Neophyte	Casual alien
Crassulaceae	Petrosedum rupestre (L.) P.V.Heath	Ch succ	C-W Europe, Turkey	Temperate		Native
Cupressaceae	Chamaecyparis lawsoniana (A.Murray bis) Parl.	P scap	N America	Temperate	Neophyte	Casual alien
Cupressaceae	Cupressus sempervirens f. horizontalis (Mill.) Voss	P scap	Mediterranean, Iran	Temperate	Archaeophyte	Naturalized alien
Cupressaceae	Cupressus sempervirens L.	P scap	Mediterranean, Iran	Temperate	Archaeophyte	Naturalized alien
Cupressaceae	Hesperocyparis arizonica (Greene) Bartel	P scap	N America	Temperate	Neophyte	Naturalized alien
Cupressaceae	Hesperocyparis macrocarpa (Hartw.) Bartel	P scap	California	Temperate	Neophyte	Naturalized alien
Cupressaceae	×Hesperotropsis leylandii (A.B.Jacks. & Dallim.) Garland & Gerry Moore	P scap	Artificial hybrid	Temperate		Cultivated
Cupressaceae	Juniperus chinensis f. pfltzeriana (Spaeth) Rehder	P caesp, P scap	E Asia	Temperate	Neophyte	Casual alien
Cupressaceae	Platycladus orientalis (L.) Franco	P scap	C-E Asia	Temperate	Neophyte	Naturalized alien
Cupressaceae	Sequoia sempervirens (D.Don) Endl.	P scap	Oregon, California,	Temperate	Neophyte	Naturalized alien
Cupressaceae	Thuja occidentalis L.	P scap	N-E America	Temperate	Neophyte	Casual alien
Cupressaceae	Thuja plicata Donn ex D.Don	P scap	N America	Temperate	Neophyte	Casual alien
Cycadaceae	Cycas revoluta Thunb.	P caesp	China, Japan, Taiwan	Subtropical	Neophyte	Casual alien
Cyperaceae	Cyperus alternifolius L.	G rhiz	Madagascar	Tropical	Neophyte	Invasive alien
Ebenaceae	Diospyros kaki Thunb.	P scap	E Asia	Temperate	Neophyte	Naturalized alien
Elaeagnaceae	Elaeagnus angustifolia L.	P scap	C Asia	Temperate	Neophyte	Naturalized alien
Elaeagnaceae	Elaeagnus pungens Thunb.	P scap	China	Temperate	Neophyte	Invasive alien
Elaeagnaceae	Elaeagnus × submacrophylla Servett.	P scap	Korea, Japan	Temperate	Neophyte	Casual alien
Ericaceae	Arbutus unedo L.	P scap	Mediterranean	Temperate		Native
Ericaceae	Rhododendron arboreum Sm.	P caesp	India, Tibet	Temperate		Cultivated
Ericaceae	Rhododendron simsii Planch.	P caesp	China, Taiwan	Subtropical		Cultivated
Ericaceae	Rhododendron japonicum (A.Gray) Suringar	P caesp	Japan	Temperate		Cultivated
Euphorbiaceae	Euphorbia pulcherrima Willd.	NP	C America	Tropical	Neophyte	Casual alien
Euphorbiaceae	Ricinus communis L.	P caesp, P scap	N-E Africa	Tropical	Archaeophyte	Invasive alien
Fabaceae	Acacia dealbata Link	P scap	Australia	Temperate	Neophyte	Invasive alien
Fabaceae	Acacia saligna (Labill.) H.L.Wendl.	P scap	Australia	Subtropical	Neophyte	Invasive alien
Fabaceae	Albizia julibrissin Durazz.	P scap	S Asia	Temperate	Neophyte	Casual alien
Fabaceae	Ceratonia siliqua L.	P scap	Mediterranean, Caucasus	Subtropical		Native
Fabaceae	Cercis siliquastrum L.	P scap	S-E Europe	Temperate		Native
Fabaceae	Erythrostemon gilliesii (Hook.) Klotzsch	P scap	S America	Temperate	Neophyte	Naturalized alien
Fabaceae	Laburnum anagyroides Medik.	P caesp	S Europe	Temperate		Native
Fabaceae	Robinia pseudoacacia L.	P scap	N America	Temperate	Neophyte	Invasive alien
Fabaceae	Spartium junceum L.	P caesp	Mediterranean	Temperate		Native
Fabaceae	Wisteria sinensis (Sims) DC.	P lian	China	Temperate	Neophyte	Naturalized alien
Fagaceae	Castanea sativa Mill.	P scap	Balkans, Caucasus	Temperate		Native
Fagaceae	Fagus sylvatica L. ‘Purpurea’	P scap	Horticultural	Temperate		Cultivated
Fagaceae	Quercus cerris L.	P scap	C-S Europe, Caucasus	Temperate		Native
Fagaceae	Quercus ilex L.	P scap	S Europe, Mediterranean	Temperate		Native
Fagaceae	Quercus petraea (Matt.) Liebl.	P scap	Europe, Caucasus	Temperate		Native
Fagaceae	Quercus pubescens Willd. s.l.	P scap	C-W Mediterranean	Temperate		Cultivated
Fagaceae	Quercus robur L.	P scap	Europe, Caucasus	Temperate		Native
Fagaceae	Quercus suber L.	P scap	C-W Mediterranean	Temperate		Native
Garryaceae	Aucuba japonica Thunb.	P caesp	E Asia	Temperate	Neophyte	Casual alien
Geraniaceae	Pelargonium peltatum (L.) L’Hér.	Ch suffr	Cape Province	Subtropical	Neophyte	Casual alien
Geraniaceae	Pelargonium zonale (L.) L’Hér.	Ch suffr	Cape Province	Subtropical		Cultivated
Ginkgoaceae	Ginkgo biloba L.	P scap	China	Temperate	Neophyte	Casual alien
Hamamelidaceae	Loropetalum chinense (R.Br.) Oliv.	P caesp	China, Japan	Temperate		Cultivated
Hyacinthaceae	Hyacinthus orientalis L.	G bulb	W Asia	Temperate	Archaeophyte	Casual alien
Hydrangeaceae	Deutzia scabra Thunb.	P caesp	Japan	Temperate		Cultivated
Hydrangeaceae	Hydrangea macrophylla (Thunb.) Ser.	P caesp	Japan	Temperate	Neophyte	Naturalized alien
Hydrangeaceae	Hydrangea quercifolia W. Bartram	P caesp	USA	Temperate		Cultivated
Hydrangeaceae	Philadelphus coronarius L.	P caesp	Caucasus	Temperate		Native
Iridaceae	Freesia refracta (Jacq.) Klatt	G bulb	S Africa	Subtropical		Cultivated
Iridaceae	Freesia leichtlinii Klatt subsp. alba (G.L.Mey.) J.C.Manning & Goldblatt	G bulb	Cape Province	Subtropical	Neophyte	Naturalized alien
Iridaceae	Iris × germanica L.	G rhiz	E Mediterranean	Temperate	Archaeophyte	Naturalized alien
Juglandaceae	Juglans regia L.	P scap	Caucasus	Temperate		Cryptogenic
Lamiaceae	Coleus scutellarioides (L.) Benth.	H scap	S-E Asia, Australia	Tropical	Neophyte	Casual alien
Lamiaceae	Lavandula angustifolia Mill.	NP	S-W Europe	Temperate		Native
Lamiaceae	Salvia offiChinalis L.	Ch suffr	C-S Europe	Temperate		Native
Lamiaceae	Salvia rosmarinus Spenn.	NP	Mediterranean	Temperate		Native
Lamiaceae	Vitex agnus-castus L.	P caesp, P scap	Mediterranean, C-S Asia	Subtropical		Native
Lauraceae	Laurus nobilis L.	P caesp, P scap	Mediterranean	Subtropical		Native
Liliaceae	Lilium candidum L.	G bulb	E Mediterranean, W Asia	Temperate	Archaeophyte	Naturalized alien
Liliaceae	Tulipa agenensis Redouté	G bulb	E Mediterranean	Subtropical	Neophyte	Naturalized alien
Liliaceae	Tulipa raddii Reboul	G bulb	Turkey	Temperate	Neophyte	Naturalized alien
Lythraceae	Cuphea hyssopifolia Kunth	Ch suffr	C America	Tropical	Neophyte	Casual alien
Lythraceae	Lagerstroemia indica L.	P caesp, P scap	S Asia	Subtropical	Neophyte	Casual alien
Lythraceae	Punica granatum L.	P scap	Caucasus	Temperate	Archaeophyte	Naturalized alien
Magnoliaceae	Liriodendron tulipifera L.	P scap	N America	Temperate	Neophyte	Naturalized alien
Magnoliaceae	Magnolia grandiflora L.	P scap	N America	Subtropical	Neophyte	Casual alien
Magnoliaceae	Magnolia × soulangeana Soul.-Bod.	P scap	China	Temperate		Cultivated
Malvaceae	Abutilon theophrasti Medik.	P caesp	C Asia	Subtropical	Archaeophyte	Invasive alien
Malvaceae	Hibiscus syriacus L.	P caesp	E Asia	Temperate		Casual alien
Malvaceae	Hibiscus × rosa-sinensis L.	P caesp	W Pacific	Tropical	Neophyte	Casual alien
Malvaceae	Tilia cordata Mill.	P scap	Europe, N-C Asia	Temperate		Native
Malvaceae	Tilia platyphyllos Scop.	P scap	Europe, Caucasus	Temperate		Native
Meliaceae	Melia azedarach L.	P scap	E Asia, Australia	Tropical	Neophyte	Naturalized alien
Moraceae	Broussonetia papyrifera (L.) Vent.	P scap	E Asia	Temperate	Neophyte	Invasive alien
Moraceae	Morus alba L.	P scap	E Asia	Temperate	Archaeophyte	Naturalized alien
Moraceae	Morus nigra L.	P scap	W Asia	Temperate	Archaeophyte	Naturalized alien
Musaceae	Musa × paradisiaca L.	G rhiz	Malaysia	Tropical	Neophyte	Casual alien
Myrtaceae	Eucalyptus camaldulensis Dehnh.	P scap	Australia	Shrubland	Neophyte	Invasive alien
Myrtaceae	Metrosideros excelsa Sol. ex Gaertn.	P scap	New Zealand	Subtropical	Neophyte	Casual alien
Myrtaceae	Myrtus communis L.	P caesp, P scap	Mediterranean, W Asia	Temperate		Native
Myrtaceae	Myrtus communis subsp. tarentina (L.) Nyman	P caesp, P scap	S Europe	Temperate		Native
Nyctaginaceae	Bougainvillea glabra Choisy	P lian	C-S America	Tropical	Neophyte	Casual alien
Nyctaginaceae	Bougainvillea spectabilis Willd.	P lian	C-S America	Tropical	Neophyte	Casual alien
Nyctaginaceae	Mirabilis jalapa L.	G bulb	C America	Subtropical	Neophyte	Invasive alien
Nymphaeaceae	Nymphaea alba L.	I rad	Europe, N Africa, N-C Asia	Temperate		Native
Oleaceae	Chrysojasminum fruticans (L.) Banfi	P caesp	Mediterranean, Caucasus	Temperate		Native
Oleaceae	Forsythia × intermedia Zabel	P scap	Artificial hybrid	Subtropical	Neophyte	Casual alien
Oleaceae	Fraxinus angustifolia Vahl	P scap	Mediterranean	Temperate		Native
Oleaceae	Fraxinus ornus L.	P scap	Mediterranean	Temperate		Native
Oleaceae	Jasminum polyanthum Franch.	P caesp	China	Subtropical	Neophyte	Casual alien
Oleaceae	Ligustrum japonicum Thunb.	P caesp, P scap	E Asia	Temperate	Neophyte	Casual alien
Oleaceae	Ligustrum lucidum W.T.Aiton	P scap	E Asia	Temperate	Neophyte	Invasive alien
Oleaceae	Ligustrum lucidum W.T.Aiton ‘Excelsum Superbum’	P scap	Horticultural	Temperate		Cultivated
Oleaceae	Ligustrum ovalifolium Hassk.	P caesp, P scap	Japan	Temperate	Neophyte	Invasive alien
Oleaceae	Ligustrum ovalifolium Hassk. ‘Aureum’	P caesp, P scap	Japan	Temperate		Cultivated
Oleaceae	Ligustrum sinense Lour.	P caesp, P scap	S-E Asia	Subtropical	Neophyte	Invasive alien
Oleaceae	Ligustrum vulgare L.	P caesp	Europe, N Africa, Iran	Temperate		Native
Oleaceae	Olea Europeea L.	P scap	Mediterranean, Africa, S-W Asia	Temperate		Native
Oleaceae	Osmanthus fragrans Lour.	P caesp, P scap	C-E Asia	Subtropical		Cultivated
Oleaceae	Syringa vulgaris L.	P caesp, P scap	S-E Europe	Temperate	Neophyte	Naturalized alien
Onagraceae	Fuchsia × standishii J.Harrison	P scap	Artificial hybrid	Tropical		Cultivated
Paeoniaceae	Paeonia × suffruticosa Andrews	Ch suffr	China	Temperate	Neophyte	Historical record
Passifloraceae	Passiflora caerulea L.	P lian	S America	Subtropical	Neophyte	Naturalized alien
Paulowniaceae	Paulownia tomentosa (Thunb.) Steud.	P scap	China, Korea	Temperate	Neophyte	Invasive alien
Phytolaccaceae	Phytolacca americana L.	P scap	N-C America	Temperate	Neophyte	Invasive alien
Pinaceae	Abies alba Mill.	P scap	S Europe	Temperate		Native
Pinaceae	Abies cephalonica Loudon	P scap	Greece	Temperate	Neophyte	Invasive alien
Pinaceae	Abies nordmanniana (Steven) Spach	P scap	Caucasus	Temperate		Cultivated
Pinaceae	Abies pinsapo Boiss.	P scap	Spain	Temperate		Cultivated
Pinaceae	Cedrus atlantica (Endl.) Manetti ex Carrière	P scap	N-W Africa	Temperate	Neophyte	Naturalized alien
Pinaceae	Cedrus deodara (Roxb. ex D.Don) G.Don	P scap	C Asia	Temperate	Neophyte	Naturalized alien
Pinaceae	Cedrus libani A.Rich.	P scap	Turkey, Lebanon	Temperate	Neophyte	Casual alien
Pinaceae	Picea abies (L.) H.Karst.	P scap	Europe, N-W Asia	Temperate		Native
Pinaceae	Picea orientalis (L.) Peterm.	P scap	Turkey/Caucasus	Temperate		Cultivated
Pinaceae	Picea pungens Engelm. ‘Kosteriana’	P scap	N America	Temperate		Cultivated
Pinaceae	Pinus halepensis Mill.	P scap	Mediterranean	Temperate		Native
Pinaceae	Pinus nigra J.F.Arnold	P scap	S-E Europe, Caucasus	Temperate		Native
Pinaceae	Pinus pinea L.	P scap	S Europe, Lebanon	Temperate	Archaeophyte	Naturalized alien
Pittosporaceae	Pittosporum tobira (Thunb.) W.T.Aiton	P caesp	Korea, Japan	Subtropical	Neophyte	Naturalized alien
Pittosporaceae	Pittosporum tobira (Thunb.) W.T.Aiton ‘Albomarginata’	P caesp	Korea, Japan	Subtropical		Cultivated
Pittosporaceae	Pittosporum tobira (Thunb.) W.T.Aiton ‘Nanum’	P caesp	Horticultural	Subtropical		Cultivated
Plantaginaceae	Antirrhinum majus L.	Ch frut	Spain, France	Temperate	Archaeophyte	Naturalized alien
Platanaceae	Platanus × hispanica Mill. ex Münchh.	P scap	Artificial hybrid	Temperate	Neophyte	Invasive alien
Plumbaginaceae	Plumbago auriculata Lam.	P lian	S Africa	Subtropical	Neophyte	Naturalized alien
Poaceae	Bambusa vulgaris Schrad. ex J.C.Wendl.	P scap	China	Tropical		Cultivated
Poaceae	Cortaderia selloana (Schult. & Schult.f.) Asch. & Graebn.	H caesp	S America	Subtropical	Neophyte	Invasive alien
Poaceae	Phyllostachys nigra (Lodd. ex Lindl.) Munro	P caesp	China	Temperate	Neophyte	Naturalized alien
Polygonaceae	Polygala myrtifolia L.	NP	S Africa	Subtropical	Neophyte	Casual alien
Portulacaceae	Portulaca grandiflora Hook.	T scap	S America	Subtropical	Neophyte	Naturalized alien
Primulaceae	Cyclamen persicum Mill.	G bulb	Algeria, E Mediterranean	Subtropical	Neophyte	Naturalized alien
Pteridaceae	Adiantum capillus-veneris L.	G rhiz	Cosmopolitan	Temperate		Native
Ranunculaceae	Clematis × jackmanii T.Moore	P lian	Artificial hybrid	Temperate		Cultivated
Rhamnaceae	Rhamnus alaternus L.	P caesp	Mediterranean	Temperate		Native
Rosaceae	Chaenomeles speciosa (Sweet) Nakai	P scap	China	Temperate	Neophyte	Casual alien
Rosaceae	Cotoneaster pannosus Franch.	P caesp	China	Temperate	Neophyte	Naturalized alien
Rosaceae	Crataegus monogyna Jacq.	P caesp	Europe, N-W Africa, Caucasus	Temperate		Native
Rosaceae	Cydonia oblonga Mill.	P scap	S-W Asia	Temperate	Archaeophyte	Naturalized alien
Rosaceae	Eriobotrya japonica (Thunb.) Lindl.	P scap	China	Temperate	Neophyte	Naturalized alien
Rosaceae	Kerria japonica (L.) DC.	P caesp	China, Japan	Temperate	Neophyte	Naturalized alien
Rosaceae	Photinia serratifolia (Desf.) Kalkman	P caesp, P scap	E Asia	Temperate	Neophyte	Casual alien
Rosaceae	Photinia × fraseri Dress	P caesp, P scap	China	Temperate		Cultivated
Rosaceae	Prunus cerasifera Ehrh. ‘Pissardi’	P scap	Horticultural	Temperate		Naturalized alien
Rosaceae	Prunus laurocerasus L.	P scap	S-E Europe, Caucasus	Temperate	Neophyte	Invasive alien
Rosaceae	Prunus serrulata Lindl.	P scap	E Asia	Temperate		Cultivated
Rosaceae	Pyracantha coccinea M.Roem.	P caesp	C-S Europe, Caucasus	Temperate		Native
Rosaceae	Rosa banksiae W.T.Aiton	NP	C hina	Temperate	Neophyte	Naturalized alien
Rosaceae	Rosa × centifolia L.	NP	Artificial hybrid	Temperate	Archaeophyte	Casual alien
Rosaceae	Rosa × hybrida Vill.	NP	Artificial hybrid	Temperate		Cultivated
Rosaceae	Spiraea × vanhouttei (Briot) Carrière	P caesp	Artificial hybrid	Temperate	Neophyte	Casual alien
Rutaceae	Citrus × aurantium L.	P scap	S-E Asia	Subtropical	Archaeophyte	Casual alien
Rutaceae	Citrus × limon (L.) Osbeck	P scap	Artificial hybrid	Subtropical	Archaeophyte	Casual alien
Salicaceae	Populus alba L.	P scap	C-S Europe, C Asia	Temperate		Native
Salicaceae	Populus nigra L.	P scap	Europe, N Africa, O Asia	Temperate		Native
Salicaceae	Salix babylonica L.	P scap	China, Korea	Temperate	Neophyte	Casual alien
Sapindaceae	Acer campestre L.	P scap	Europe, N-W Africa, W Asia	Temperate		Native
Sapindaceae	Acer negundo L.	P scap	N-C America	Temperate	Neophyte	Invasive alien
Sapindaceae	Acer palmatum Thunb. ‘Atropurpureum’	P scap	Horticultural	Temperate		Cultivated
Sapindaceae	Acer pseudoplatanus L.	P scap	Europe, Caucasus	Temperate		Native
Sapindaceae	Acer pseudoplatanus L. ‘Atropurpureum’	P scap	Horticultural	Temperate		Cultivated
Sapindaceae	Aesculus hippocastanum L.	P scap	Balkans, Turkey	Temperate	Neophyte	Invasive alien
Saxifragaceae	Bergenia crassifolia (L.) Fritsch	Ch caesp	C-N Asia	Temperate	Neophyte	Casual alien
Scrophulariaceae	Buddleja davidii Franch.	P caesp	China	Temperate	Neophyte	Invasive alien
Simaroubaceae	Ailanthus altissima (Mill.) Swingle	P scap	China	Temperate	Neophyte	Invasive alien
Solanaceae	Brugmansia arborea (L.) Sweet	P scap	C-S America	Tropical		Cultivated
Solanaceae	Capsicum annuum L.	T scap	S America	Tropical	Neophyte	Casual alien
Solanaceae	Cestrum nocturnum L.	P caesp	C-S America	Tropical		Cultivated
Solanaceae	Cestrum parqui (Lam.) L’Hér.	P caesp	S America	Subtropical	Neophyte	Invasive alien
Solanaceae	Nicotiana glauca Graham	P caesp	Bolivia, Brazil	Subtropical	Neophyte	Invasive alien
Solanaceae	Petunia × atkinsiana (Sweet) D.Don ex W.H.Baxter	T scap	Artificial hybrid	Subtropical	Neophyte	Naturalized alien
Strelitzaceae	Strelitzia reginae Banks	G rhiz	Cape Province	Subtropical		Cultivated
Tamaricaceae	Tamarix africana Poir.	P caesp, P scap	W Mediterranean	Subtropical	Neophyte	Native
Tamaricaceae	Tamarix arborea (Sieber ex Ehrenb.) Bunge	P scap	N Africa, S Europe	Shrubland		Native
Tamaricaceae	Tamarix canariensis Willd.	P caesp	Canarie Island	Subtropical		Cultivated
Tamaricaceae	Tamarix gallica L.	P caesp	S-W Europe, N-W Africa	Temperate		Native
Taxaceae	Taxus baccata L.	P scap	Europe, N-W Africa, Caucasus	Temperate		Native
Taxaceae	Taxus baccata L. ‘Fastigiata’	P scap	Horticultural	Temperate		Cultivated
Taxaceae	Taxus baccata L. ‘Fastigiata Aurea’	P scap	Horticultural	Temperate		Cultivated
Theaceae	Camellia japonica L.	P scap	S-E Asia	Subtropical		Cultivated
Ulmaceae	Ulmus minor subsp. canescens Bartolucci & Galasso	P scap	C-W-E Mediterranean	Temperate		Native
Verbenaceae	Duranta erecta L.	P caesp	C-S America	Tropical		Cultivated
Verbenaceae	Lantana camara L.	P caesp	C-S America	Subtropical	Neophyte	Naturalized alien
Viburnaceae	Viburnum odoratissimum Ker Gawl.	P caesp	Asia	Subtropical		Cultivated
Viburnaceae	Viburnum opulus L.	P caesp	Europe, N-C Asia, N-W Africa	Temperate		Native
Viburnaceae	Viburnum rhytidophyllum Hemsl.	P caesp, P scap	China	Temperate	Neophyte	Casual alien
Viburnaceae	Viburnum tinus L.	P caesp	Mediterranean	Subtropical		Native
Vitaceae	Parthenocissus quinquefolia (L.) Planch.	P lian	N America	Temperate	Neophyte	Invasive alien
Vitaceae	Parthenocissus tricuspidata (Siebold & Zucc.) Planch.	P lian	E Asia	Temperate	Neophyte	Naturalized alien

), distributed as follows: 237 species sensu stricto, 2 subspecies, 3 varieties, 3 forms, 17 cultivars, and 19 hybrids (Figure 2). Specifically, 1 taxon belongs to Pteridophyta, 1 to Ginkgophyta, 1 to Cycadophyta, 29 to Pinophyta, and 249 to Magnoliophyta (of which 214 are Magnoliopsida and 35 Liliopsida). The recorded taxa belong to 201 genera, distributed in 94 families.

The families with the highest number of specific and infraspecific taxa are Rosaceae (16 taxa, 5.7%), Oleaceae (15 taxa, 5.3%), Asteraceae (13 taxa, 4.6%), Pinaceae (13 taxa, 4.6%), Cupressaceae (11 taxa, 3.9%), and Fabaceae (10 taxa, 3.6%) (Figure 3). The genera with the highest number of taxa are Ligustrum (7), Quercus (6), Acer (5), Abies (4), Tamarix (4), and Viburnum (4).

Regarding growth forms, there is a predominance of phanerophytes (P) (particularly scapose and cespitose), i.e., 206 taxa. They are followed by geophytes (G) (27 taxa), chamaephytes (Ch) (18 taxa), nanophanerophytes (NP) (13 taxa), and hemicryptophytes (H) (9 taxa). Lower percentages are observed in therophytes (T) (7 taxa) and hydrophytes (I) (1 taxon) (Figure 4).

Regarding the geographic origin of the recorded taxa, the largest percentage is represented by the Asian contingent, followed by the American contingent and the European one. The African contingent represents the dominant component, with the Mediterranean and Oceanic groups following in relative abundance. Horticultural taxa and artificial hybrids are comparatively minor elements within the dataset (Figure 5).

The most represented biome of origin is the temperate biome (160 taxa, 57.0%), and the vast majority of taxa, with respect to their residence time in Italy, fall into the neophyte category (135 taxa, 48.0%).

Regarding their status in Italy, only 64 taxa are native, while 215 taxa are alien; the remaining taxa belong to the historical category (1 taxon) and the cryptogenic category (1 taxon).

Considering the tendency of alien taxa to naturalize, 61 taxa are cultivated, 59 taxa are naturalized (i.e., tending to form stable populations), 55 taxa are casual aliens (i.e., showing a tendency to naturalize but not forming stable populations separate from cultivated plants), and 40 taxa are invasive aliens (i.e., potentially posing a threat to biodiversity by competing with native species) (Figure 6).

3. Discussion

The census carried out within the framework of our research has made permitted to draw up a preliminarylist of ornamental taxa from Basilicata (Appendix A Table A1), highlighting how the bioclimatic heterogeneity of the region, which extends from coastal areas to hills and up to the mountainous reliefs of the Lucanian Apennines, creates ecological conditions suitable for the cultivation of ornamental species originating from different geographical and climatic contexts. In fact, in mountainous or hilly areas, taxa typical of cold and temperate climates are found, such as Abies alba Mill., A. cephalonica Loudon, A. pinsapo Boiss., Cedrus atlantica (Endl.) Manetti ex Carrière, C. deodara (Roxb. ex D. Don) G. Don, C. libani A. Rich., Picea abies (L.) H. Karst., P. pungens Engelm., Sequoia sempervirens (D. Don) Endl., Taxus baccata L., etc. Along the coasts, the warm climate allows the establishment of species of subtropical and tropical origin, such as Aeonium arboreum (L.) Webb & Berthel., Agapanthus africanus (L.) Hoffmanns., Araucaria columnaris (G.Forst.) Hook., A. heterophylla (Salisb.) Franco, Cascabela thevetia (L.) Lippold, Hibiscus × rosa-sinensis L., Metrosideros excelsa Sol. ex Gaertn., Musa × paradisiaca L., Syagrus romanzoffiana (Cham.) Glassman, etc. Although the coasts cover a limited area compared to the rest of the region, when subtropical and tropical species are considered together, they account for almost 40% of the recorded taxa, a significant percentage that testifies to the importance of this contingent in characterizing the regional ornamental flora of Basilicata. The contingent of Mediterranean climate taxa also proved to be well represented overall, bearing witness to the growing interest in the use of native species for ornamental purposes and, more generally, to greater attention towards sustainable solutions compatible with local ecological conditions.

This heritage intertwines with another element of great importance in the Basilicata plant landscape, namely the presence of monumental species and so-called monumental trees which, while largely belonging to native taxa such as Castanea sativa Mill., Fagus sylvatica L., Quercus cerris L., Q. pubescens Willd., Pinus heldreichii subsp. leucodermis (Antoine) A.E.Murray, and Taxus baccata, also include species introduced for ornamental purposes and now fully integrated into the regional landscape. A striking example is represented by Sequoia sempervirens cultivated in Campomaggiore Vecchio (Potenza) [30,31]. The coexistence of exotic ornamental species and native monumental trees prompts reflections on the importance of reconciling aesthetic enhancement with the conservation of genetic resources and historical-cultural heritage. From this perspective, urban green planning and management strategies should be oriented towards resilient taxa adaptable to Basilicata bioclimatic conditions and ongoing climate change, while simultaneously promoting the protection of centuries-old specimens, recognized as elements of high ecological, identity, and landscape value.

The census of ornamental flora in Basilicata has also highlighted a dual aspect of relevance for urban and periurban green planning: on the one hand, the presence of many taxa that combine aesthetic value with productive function; on the other, the spread of ornamental species that can have negative effects on human health, both due to intrinsic toxicity and allergenic potential. The use of ornamental plants that also play a role in providing food represents a strategic resource from the perspective of landscape multifunctionality. Species such as Castanea sativa, Citrus × aurantium L., C. × limon (L.) Osbeck, Corylus avellana L., Diospyros kaki Thunb., Juglans regia L., Musa × paradisiaca L., and Punica granatum L. not only enrich green spaces with their aesthetic value and the seasonality of their blooms but also provide food products of high nutritional and cultural value. These plants, rooted in the Mediterranean agricultural and culinary tradition, also represent a bridge between the botanical and agro-food heritage of the region, contributing to strengthening the sense of local identity and promoting sustainable green management practices. Species such as Aloe arborescens Mill. and A. vera L. add further value as they offer phytotherapeutic and medicinal benefits, thus acting as ornamental plants with a functional role in promoting well-being [32,33].

At the same time, our study highlighted the need for greater awareness regarding the use of potentially harmful ornamental taxa. Some genera and species very common in urban contexts, such as Cupressus spp., Hesperocyparis spp., Pinus spp., Ailanthus altissima, Olea europaea L., Quercus ilex L., and Populus sp. pl., are responsible for allergic phenomena such as pollinosis [34,35,36], which represent an increasing problem for public health, especially in densely populated areas and near schools and hospitals. Another negative aspect is the presence of poisonous ornamental plants such as Cascabela thevetia (L.) Lippold, Laburnum anagyroides Medik., Melia azedarach L., Nerium oleander L., Nicotiana glauca Graham, Ricinus communis L., Tagetes erecta L., Taxus baccata L., and Thuja occidentalis L. These plants, although endowed with undeniable decorative value, contain toxic secondary metabolites that can pose a serious risk in the event of accidental ingestion or contact, particularly for children and domestic animals [37,38,39]. In light of these considerations, it is essential to adopt a critical and selective approach in the choice of ornamental species to be introduced into new public and private gardens. The integration of ornamental and food plants can foster the creation of more resilient, multifunctional green spaces rooted in local traditions, while the exclusion or controlled management of toxic and allergenic species can help reduce risks to population health. In the long term, such strategies would not only enhance the horticultural heritage of Basilicata but also promote a model of ornamental greenery that is sustainable, safe, and aligned with community needs.

Our investigation also revealed a considerable number of alien species in the flora of Basilicata, a phenomenon that is unfortunately widespread and observed worldwide. The predominant presence of alien ornamental taxa in the ornamental flora of Basilicata (almost 80%, of which 55% have begun the process of naturalization, with a large predominance of naturalized alien species) (Figure 6 and Figure 7) compared to native species represents an alert, as it shows how landscaping and ornamental choices of recent decades have favored the introduction of exotic species, often to the detriment of local plant components. This imbalance weakens the resilience of native flora, threatening local biodiversity and generating ecological imbalances that are difficult to contain. The massive use of alien ornamental plants becomes even more relevant when considering alien species that, in addition to competing with native flora, are dangerous to public health. This is the case, for example, of Melia azedarach, a plant of high ornamental value but characterized by high toxicity: its fruits are poisonous and potentially lethal, even if its young specimens are easily found in nurseries and the species is now naturalized in Basilicata. At the same time, the presence and spread of other invasive alien species pose a growing threat to local ecosystems. Some, such as Acacia saligna (Labill.) H. L. Wendl., Ailanthus altissima, Carpobrotus acinaciformis (L.) L. Bolus, C. edulis (L.) N.E.Br., Opuntia ficus-indica (L.) Mill., and Robinia pseudoacacia L., are known for their extraordinary ability to rapidly colonize new environments, altering natural habitats and denying native species of resources and space. All this makes these species particularly dangerous and difficult to manage, requiring interventions no longer limited to simple containment measures, but oriented towards true eradication programs. The eradication of invasive alien species is an action that, besides being complex and costly, is in some cases also difficult to implement. The eradication of Ailanthus altissima, for example, represents one of the most complex challenges in invasive species management. This plant, in fact, possesses an extraordinary vegetative regeneration capacity: even when cut or pollarded, it very rapidly produces a number of root suckers which not only ensure its survival but even favor its further spread. This characteristic makes simple mechanical interventions ineffective and often leads to an increase in population density, worsening the problem instead of containing it. For this reason, the management of tree-of-heaven requires integrated approaches that combine mechanical and chemical practices associated with repeated and long-term interventions, in order to truly reduce the vitality of the species and limit its spread [40,41].

In view of this, the problem of biological invasions can no longer be addressed as a marginal issue. Their spread, fueled by nursery practices not always attentive and by a growing demand for exotic ornamental species, today requires radically more effective prevention, awareness and management strategies. Recently, the issue of invasive species has finally returned to the center of the debate in Italy, with initiatives aimed not only at raising public awareness of the risks associated with their introduction and spread, but also at promoting good practices both in nursery production and gardening [23]. However, in order for such measures to produce concrete results, it will be necessary to complement education and prevention programs with constant commitment in terms of monitoring, timely eradication interventions, and stricter protection policies.

4. Materials and Methods

To assess the composition of ornamental plants cultivated in Basilicata, a survey was conducted in two main phases. First, data already available in the literature regarding the regional ornamental flora were examined [16,26].

Subsequently, between 2024 and 2025, direct field observations were carried out throughout the provinces of Basilicata. Specifically, surveys were conducted during the spring, summer, and autumn of 2024, and during the spring and summer of 2025, in order to observe plants during their flowering period and thus ensure accurate identification of the various taxa. In particular, we organized daily field excursions, and we excluded the ornamental plants cultivated inside botanical gardens and the surroundings of the biggest cities.

To represent the main climatic gradients of the region, the surveys included sites distributed along the coastal, hilly, and mountainous areas. In particular, urban and peri-urban environments were examined, including street tree plantings, historic villas, and both public and private gardens. The investigated localities cover 13 urban areas, which are reported in

Table 1. List of the main investigated localities.

City	Province	Localities	Geographical Coordinates
Potenza	Potenza	Villa del Prefetto	40°38′20″ N; 15°48′05″ E
		Villa di Santa Maria	40°38′37″ N; 15°48′15″ E
		Parco Baden Powell	40°38′58″ N; 15°47′51″ E
		Parco di Montereale	40°37′59″ N; 15°47′56″ E
		Parco del Fiore Bianco	40°39′27″ N; 15°48′22″ E
		Parco dell’Europa Unita	40°38′40″ N; 15°47′22″ E
		Parco fluviale del Basento	40°37′33″ N; 15°48′16″ E
		Parco Portofino	40°39′11″ N; 15°47′54″ E
		Parco del Seminario	40°38′08″ N; 15°48′09″ E
		Giardinetto di Parco Aurora	40°39′13″ N; 15°47′48″ E
		Corso G. Garibaldi	40°38′18″ N; 15°48′30″ E
		Corso Umberto I	40°38′12″ N; 15°48′08″ E
		Viale Dante	40°37′55″ N; 15°48′09″ E
		Via Baracca	40°38′07″ N; 15°48′32″ E
		Via D. di Giura	40°39′04″ N; 15°47′56″ E
		Rondò Tre Cancelli	40°39′02″ N; 15°48′01″ E
		Via E. Ciccotti	40°39′12″ N; 15°48′00″ E
		Via Siracusa	40°39′01″ N; 15°47′45″ E
		Viale Mediterraneo	40°38′04″ N; 15°47′18″ E
		P.zza Lattuchella	40°38′30″ N; 15°47′18″ E
Avigliano	Potenza	Villa del Monastero	40°43′56″ N; 15°43′13″ E
		Villa Falcone e Borsellino	40°43′47″ N; 15°43′16″ E
Campomaggiore Vecchio	Potenza	Parco dei Ruderi	40°34′35″ N; 16°05′50″ E
Maratea	Potenza	Villa Comunale Cardinale Gennari	39°59′49″ N; 15°43′35″ E
Melfi	Potenza	Villa Comunale	40°59′37″ N; 15°39′17″ E
Rionero in Vulture	Potenza	Villa Giulia Catena	40°55′22″N; 15°40′23″ E
		Villa Gen. Pennella	40°55′17″ N; 15°40′42″ E
		Giardino di Palazzo Fortunato	40°55′31″ N; 15°40′29″ E
Terranova di Pollino	Potenza	Via Convento	39°58′48″ N; 16°17′39″ E
Venosa	Potenza	Villa Comunale	40°57′37″ N; 15°48′50″ E
Matera	Matera	Villa Unità di Italia	40°40′10″ N; 16°36′24″ E
		Parco G. Paolo II	40°39′53″ N; 16°36′22″ E
		Parco Macamarda	40°40′04″ N; 16°35′49″ E
		Parco IV Novembre	40°40′16″ N; 16°36′00″ E
		Parco Rione Pini	40°39′27″ N; 16°36′42″ E
		Parco del Castello	40°39′50″ N; 16°36′23″ E
		Parco Serra Venerdì	40°40′09″ N; 16°35′24″ E
		Parco dei Quattro Evangelisti	40°40′32″ N; 16°34′40″ E
		Via Don Milani	40°39′35″ N; 16°36′35″ E
		Via Lanera	40°39′38″ N; 16°36′05″ E
		Via dei Dauni	40°40′59″ N; 16°34′55″ E
		Via dell′Agricoltura	40°40′31″ N; 16°34′24″ E
		Via Gravina	40°40′51″ N; 16°34′58″ E
		Via dei Bizantini	40°40′43″ N; 16°35′16″ E
		Via Lanfranchi	40°39′28″ N; 16°36′51″ E
Bernalda	Matera	Villa Comunale	40°24′28″ N; 16°41′12″ E
		Giardini di Palazzo Margherita	40°24′26″ N; 16°41′15″ E
Montescaglioso	Matera	Villa Belvedere Baden Powell	40°33′18″ N; 16°40′16″ E
Pisticci	Matera	Villa Comunale	40°23′17″ N; 16°33′39″ E
Policoro	Matera	Villa Comunale	40°12′35″ N; 16°40′39″ E
		Parco Angela Rocco	40°12′39″ N; 16°40′43″ E
		Giardini Murati	40°12′54″ N; 16°40′43″ E

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Taxonomic identification was performed with the support of authoritative floristic references [42,43,44,45,46,47,48,49,50]. Recorded taxa are listed in Appendix A Table A1. The nomenclature adopted follows the Plants of the World Online database (POWO, https://powo.science.kew.org, accessed on 5 September 2025) [27], and the taxon names are presented in alphabetical order. The checklist includes not only species sensu stricto but also infraspecific categories (subspecies, varieties, forms, cultivars) and hybrids. For each taxon, the following information was reported: family (according to [27]); growth form (according to [27,28]); geographic area of origin (derived from [27]); biome of origin (according to [27]); residence time (archaeophyte/neophyte) and status in Italy (native/alien), in accordance with [26,29].

5. Conclusions

Our investigation contributes to the knowledge of urban ornamental greenery, a field of research that has so far received limited attention at the national level but is gaining increasing interest, not only from a botanical perspective but also in practical and managerial terms. Urban ornamental greenery, in fact, represents a strategic element in territorial planning and in the sustainable management of public and private spaces, thereby requiring the development of targeted and informed strategies capable of integrating aesthetic, functional, and ecological requirements. In addition, our investigation contributes by initiating studies into the ornamental flora of Basilicata, which has remained largely unexplored until now. The number of taxa recorded, amounting to 281, is significant when compared to the limited size of the region, even though most of these are ornamental species commonly used in other Italian regions as well. The data collected in this first contribution provides a useful basis not only for further studies on the exotic component present in the Basilicata territory, but also to support municipal administrations in future actions of recovery, conservation, enhancement, and qualification of the plant heritage, with particular attention given to biodiversity protection and citizens’ well-being.