Next Article in Journal
Bibliometric Analysis of Literature in Snake Venom-Related Research Worldwide (1933–2022)
Next Article in Special Issue
Island Hopping through Urban Filters: Anthropogenic Habitats and Colonized Landscapes Alter Morphological and Performance Traits of an Invasive Amphibian
Previous Article in Journal
Effect of Dietary 4-Phenylbuthyric Acid Supplementation on Acute Heat-Stress-Induced Hyperthermia in Broiler Chickens
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Animals
Volume 12
Issue 16
10.3390/ani12162057
animals-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Communication

Non-Native Turtles (Chelydridae) in Freshwater Ecosystems in Italy: A Threat to Biodiversity and Human Health?

by
Giuseppe Esposito
1,2,*,†,
Luciano Di Tizio
3,†,
Marino Prearo
1,2,
Alessandro Dondo
1,2,
Carlo Ercolini
1,
Gianpiero Nieddu
4,
Angelo Ferrari
1 and
Paolo Pastorino
1,2
1
The Veterinary Medical Research Institute for Piedmont, Liguria and Valle D’Aosta, Via Bologna 148, 10154 Turin, Italy
2
Regional Reference Centre for Biodiversity of Aquatic Environments, Via Maritano Lino 22, 10051 Avigliana, Italy
3
Societas Herpetologica Italica, Personal Address: Via Federico Salomone 112, 66100 Chieti, Italy
4
Freelance Veterinarian, Via Alcide De Gasperi 15, 27100 Pavia, Italy
*
Author to whom correspondence should be addressed.
These authors contributed equally to this work.
Animals 2022, 12(16), 2057; https://doi.org/10.3390/ani12162057
Submission received: 14 July 2022 / Revised: 9 August 2022 / Accepted: 11 August 2022 / Published: 12 August 2022
(This article belongs to the Special Issue The Effects of Urbanization on Herpetofauna)
Browse Figures
Review Reports Versions Notes

Abstract

:

Simple Summary

Marketed globally, freshwater turtles are popular pets. However, the introduction of non-native species can pose a serious threat to biodiversity as well as to human health as carriers of potentially zoonotic pathogens. This update reports the distribution of two species of the Chelydridae family, i.e., the snapping turtle (Chelydra serpentina) and the alligator snapping turtle (Macrochelys temminckii). Their potential impact on human health and biodiversity is also discussed.

Abstract

Marketed globally, freshwater turtles are popular pets. Two species of the Chelydridae family are increasingly reported in Italy: the snapping turtle (Chelydra serpentina) and the alligator snapping turtle (Macrochelys temminckii). Both pose potential threats to public safety and habitat biodiversity. This update reports on their distribution and impact on biodiversity and human health. The recent increase in the number of C. serpentina in urban and rural areas suggests illegal importation into the country. Findings are reported for the north (35% and 100% for C. serpentina and M. temminckii, respectively) and the central-northern regions (60% for C. serpentina), predominantly Umbria and Latium, and the Tiber River catchment area in particular. Because omnivorous, Chelydridae species can affect native biodiversity; because they are carriers of pathogens, they endanger public health. Monitoring plans need to take account of this neglected threat.

Graphical Abstract

1. Introduction

Globalization, coupled with expanding trade and transport, has opened pathways to biological invasion [1]. The steady accumulation of invasive alien species (IAS) [2] is projected to impact on socio-ecological conditions globally. Driven by transportation, climate change, and socio-economic change [3], the movement of biological species is closely related to the environment [4]. In general, the share of reported species by environment has decreased between 2012 and 2019: freshwater (44%), marine (43%), terrestrial (10%), and transitional (3%), with most (42%) reported for Europe [4].
The total cost of IAS in Europe between 1960 and 2020 was estimated at EUR 116 billion, albeit considerably underestimated [5]. Introduced by human activity (deliberately or inadvertently), the arrival of IAS has serious repercussions on the stability of ecosystems and human life. In Italy alone, more than 3000 alien species are reported, with an overall cost (between 1990 and 2020) estimated at about EUR 705 million [6]. Under European Union (EU) Regulation 1143/2014 [7] and Italian Legislative Decree no. 230/2017 [8], bans and measures have been set to prevent and manage the introduction and spread of IAS and mitigate their negative effect on the environment and biodiversity.
Marketed globally, freshwater turtles are popular pets, especially with children. Several non-native turtle species have been reported in recent years in European terrestrial and aquatic natural environments [9]. They are generally opportunistic species, colonising various freshwater habitats generally close to urban areas. Reports in urban areas appear to be increasing both in the number of individuals and in the variety of species, including those whose possession is prohibited. Among them, for example, species such as the pond slider (Trachemys scripta), the river cooter (Pseudemys concinna), and the false map turtle (Graptemys pseudogeographica) have been introduced for nursery purposes and as pets [9].
When intentionally abandoned due to rapid growth or by accidental escape, however, they enter wild or semi-natural habitats. The most widely sold is the American pond slider (Trachemys scripta). It was listed among the IAS of EU concern in 2016, and ranked among the top 100 most harmful IAS [7]. Reports of species of the Chelydridae family (Gray, 1831) have become increasingly frequent in Europe [9]. They are mainly carnivorous and tendentially nocturnal species. Moreover, they are potentially dangerous for public health and safety and their sale and possession is illegal in Italy [8].
Within the Chelydridae family (Gray, 1831), widespread in the Americas, are two genera Chelydra and Macrochelys, which include species of the largest freshwater turtles living today. The snapping turtle (C. serpentina) (Linnaeus, 1758) has been considered the only species of the genus Chelydra that is found from southern Canada to the southern United States, and the one most frequently exported [9]. They grow to considerable size: the males (larger) can reach 50 cm in carapace length and about 20 kg in live weight [9].
The alligator snapping turtle (herein referred to as M. temminckii) (Troost in Harlan, 1835) is the largest freshwater turtle among the species found in North America; its carapace can reach up to 66 cm in length and its body weight up to hundreds of kilos [9]. Its native range is limited to the river systems that flow into the northern Gulf of Mexico from Texas to Florida [10,11]. Recent taxonomic revisions have been proposed based on morphological and genetic data, with the identification of new species and subspecies [12,13]. Our study does not consider these revisions because we believe it impossible to distinguish the species solely by morphological characteristics and establish the area of origin of the turtles imported into Italy.
In Italy, alligator and snapping turtles were sold via the pet market until banned [14,15,16]. They were placed on the list of dangerous animals, together with the Caspian turtle (Mauremys capsica) (Gmelin, 1774).
According to the International Union for Conservation of Nature (IUCN), IAS are a leading cause of the decline in biodiversity worldwide. IAS threaten the existence of many native species and ecosystems and hasten the destruction of habitats. Assessments of their impact on local ecosystems and targeted eradication and/or containment plans are needed. The rise in the number of reports and/or captures of adult individuals of C. serpentina and M. temminckii is cause for alarm for alarm in Italy. Accordingly, we analysed the current distribution for non-native chelydrid turtles and characterized their potential threat to biodiversity and human health.

2. Materials and Methods

2.1. Update of Chelydridae in Italy: Literature Search

We carried out a search of print and online literature to find recent information about the two species. To achieve this, we consulted national and regional atlases of reptiles, scientific publications, and mass media articles with national or local circulation. The electronic databases Google Scholar (https://scholar.google.it/; accessed on 23 June 2022) and Scopus (https://www.scopus.com/; accessed on 26 July 2022) were queried using the search terms “Chelydra serpentina” and “Macrochelys temminckii” combined with “Italy, distribution, Mediterranean distribution”. Very few of the retrieved records referred to reports for Italy.

2.2. Study Area

Italy is a central-southern European country (Figure 1) rich in mountains and streams. The major rivers arise in the Alps, while the rivers with a short course and a torrential regime arise in the Apennines. The Po is longest river (about 650 km long, average flow rate 1460 m3/s, basin roughly 70,000 km2); it drains the Po Valley from west to east before emptying into the Adriatic Sea. The three largest pre-Alpine lakes are Garda, Maggiore, and Como, which is also the deepest (about −410 m).
Italy is located near the centre of the temperate zone of the northern hemisphere; its Mediterranean climate is strongly influenced by the seas surrounding the peninsula. According to Köppen classification [17], there are three climatic zones: boreal-polar in the north, temperate in most areas, and arid in the south, including the islands of Sicily and Sardinia.

3. Results and Discussion

Between 2000 and 2021, 40 reports of the snapping turtle (Chelydra serpentina) were made; 39 (97.5%) of the 41 specimens identified were isolated individuals (sighted and/or captured); 2 (2.5%) were found in 2020, 1 of which in Lake Lucinasco (Figure 2). Only 4 (9.8%) individuals were identified up to 2010, and 37 (90.2%) have been reported since 2011. No individuals have been reported for Sicily or Sardinia (Figure 1); most reports come from the north and the central-northern areas of the country and one report for the Adriatic coast in 2002 [18]. Since 2011, reports have come from the regions of Umbria and Latium (n = 14; 34.1%) and the Tiber River basin in particular [19,20,21] (Table 1 and Table 2).
Between 2012 and 2021, there were only five reports of the alligator snapping turtle (Macrochelys temminckii) (Figure 1). While the incidence does not appear significant in absolute terms, it raises cause for concern since four of these five reports come from the same site, Lake Lucinasco (Imperia, Liguria): in addition to the one individual found in 2020 and the three in 2021 (Figure 2), two individuals of C. serpentina were reported in 2020 at the same site. However, the turtles were captured and removed from the natural environment.
The difference in the number of finds between the two species probably stems from their behaviour. The snapping turtle (C. serpentina) is usually active during the day and only sometimes at night [22]. After coming out of hibernation in late April, the turtle’s activity varies between males and females throughout the reproductive season (May–August) [23]. Differently, the alligator snapping turtle (M. temminckii) is predominantly nocturnal [24,25]; juveniles follow a different activity pattern (Spangler, 2017) [25], thus reducing the risk of nocturnal predation until they have grown in size [26]. What little is known about its ecology is that it is a bottom species preferring deep waters in late summer and midwinter [27,28], which explains the low number of sightings. Many of the individuals of both species were adults that very probably were abandoned because of difficult management once grown.
In America, C. serpentina is not classified as an endangered species, whereas M. temminckii is listed as a vulnerable species by the World Union for Conservation of Nature (IUCN); nonetheless, both are included in the Appendix III of the Washington Convention (CITES, Convention on International Trade in Endangered Species). The illegal possession and trade of these animals are punishable by Law no. 150/1992 [14]. Additionally, worth noting, the two recognized species of Macrochelys are proposed for listing as “threatened” in the U.S. Endangered Species Act [29,30].
Both species are omnivorous and can negatively affect the aquatic communities of colonized environments through the predation of a variety of animal species [31,32]. For instance, the analysis of the gastrointestinal tract contents of M. temminckii revealed their ability to prey on a wide range of organisms (e.g., fish, shrimp, molluscs, turtles, insects, and small mammals) [32]. However, vegetation could be ingested incidental to capture of animal prey [32]. Furthermore, they can compete with the European pond turtle (Emys orbicularis) (Linnaeus, 1758) [33] for food, spawning sites, basking sites, etc. or prey on it. The pond turtle is a protected species in most countries where present; it is classified as vulnerable in Europe or as endangered in several European countries including Italy.
In addition to their negative impact on biodiversity, C. serpentina and M. temminckii pose a potential health threat to humans. They primarily pose a significant zoonotic risk to pet owners, zookeepers, and veterinarians [34]. Immunocompromised people, such as children, pregnant women, chronic disease patients, and those on immunosuppressive therapy, are particularly vulnerable [35]. Direct contact with turtles or contaminated environments, such as soil and water, can spread potential pathogenic microorganisms such as bacteria or viruses. For example, several bacteria infect the gastrointestinal tract of turtles and contaminate the environment through shedding. Neglecting to clean the pond/aquaria increases the bacterial load in the water environment, potentially causing diseases in turtles. Humans can also become infected with pathogenic bacteria through direct or indirect contact with turtles. If pet owners do not maintain proper hygiene (i.e., washing hands or using gloves) after touching their turtles or water, the bacteria can cause human infections. Humans are primarily infected through the fecal–oral route, but infection can also be transmitted through bites or claw scratches [36]. Contamination from turtles can cause severe diarrhea, septicemia, gastrointestinal disorder, sepsis, and in severe cases, death [37]. As a result, some countries set up some rules and regulations to address this issue. For example, small turtles were prohibited from sale and distribution in the USA and Canada to prevent the horizontal spread of pathogenic bacteria from turtles to humans [38]. This ban was a strong public health measure aimed at preventing the spread of zoonotic bacteria [39]. Even though pet turtles are widely raised in many developed and developing countries, such rules do not exist [38]. In the literature, most studies focused the attention on Salmonella spp. found in pet turtles. For example, Salmonella hartford from a pet turtle was isolated from a 7-month-old patient in 1963, and the patient’s family owned a pet turtle [40]. In 1964 and 1965, a total of 100 cases of S. java and S. panama infections were reported in pet turtles [41,42]. In the late 1970s, the infection rate of Salmonella spp. in pet turtles from United States was 85%, and turtles were responsible for about 14% of nontyphoidal salmonellosis [43]. Many reptiles, including testudines, are carriers of salmonellosis in humans [44,45]. In 1975, the U.S. Food and Drug Administration banned the sale and import of pond turtles because of the thousands of cases of salmonellosis it causes every year [46,47]. Contamination by Salmonella spp. of clinical interest by turtles is very rarely reported for Europe [48,49]. Other human pathogenic bacteria isolated in freshwater turtle include Aeromonas spp., Citrobacter spp., Enterobacter spp., Klebsiella spp., Proteus spp., and Serratia spp. [50].
Wild and domestic animals act as vectors to leptospirosis for humans, a systemic disease that is the most widespread zoonosis worldwide [51]. Transmission to humans commonly occurs through contact with the urine of animal reservoirs (e.g., rodents and livestock animals), either directly or via contaminated surfaces [51,52]. In this regard, herpetofauna, including reptiles and amphibians, turn out to be carriers of different serotypes of Leptospira spp. [53]. In recent years, there have been increasing reports of this zoonotic bacterium in some freshwater turtle species, especially from urban environment. For instance, occurrence has been highlighted in the American pond slider (Trachemys scripta spp.) captured from urban ponds of the metropolitan city of Turin, Italy [53], and in a natural park located in Valbrembo of Northern Italy [54], in Geoffroy’s side-necked turtle (Phrynops geoffroanus) from urban stream in the city of Jaboticabal, Brazil [55], and in Blanding’s turtles (Emydoidea blandingii) from an urban setting DuPage County, IL, USA [56]. Furthermore, a recent study in Italy on specimens found dead after the hibernation period showed that these reptiles can carry pathogens such as Chlamydiaceae [57].

4. Conclusions

The recent increase in the distribution of freshwater turtles of the Chelydridae family, especially in central Italy, raises cause for alarm. They endanger human health and safety and threaten many native species and ecosystems. Known for their bite and aggressiveness when out of water and if annoyed, a bite can result in injury or amputation of fingers. They are often abandoned in public and/or rural areas (e.g., parks, rivers, and canals) mainly because difficult to manage when adults. Urban parks are green areas usually located within a city, with the purpose of providing a recreational space in contact with nature for citizens and other visitors. These areas are often inhabited by freshwater turtles, probably due to accidental escapes or via voluntary releases. So, even if they are seemingly harmless, reptiles may serve as both reservoirs and accidental hosts for various pathogens to humans. Monitoring plans are needed to keep the expansion of these reptiles under control and to evaluate their reproductive capacity in the perspective of climate change.

Author Contributions

G.E., L.D.T. and P.P. conceptualised research; investigation by G.E., L.D.T., M.P., A.D., C.E., G.N., A.F. and P.P.; G.E. and L.D.T. conducted data analysis; methodology by G.E., L.D.T. and P.P.; supervision by P.P.; writing—original draft by G.E., L.D.T. and P.P. All authors have reviewed and edited the final draft of the manuscript. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Acknowledgments

A special thanks for their assistance is owed to the Municipality of Lucinasco and to Carlo Siffredi, the Forestry, Environmental and Agri-food Units Command of the Carabinieri Corps (Comando Stazione Carabinieri Nucleo Forestale Pontedassio (IM)), Manuel Maggioli, the civil protection unit of Lucinasco, and Francesco Brunelli.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Seebens, H.; Blackburn, T.M.; Dyer, E.E.; Genovesi, P.; Hulme, P.E.; Jeschke, J.M.; Pagad, S.; Pyšek, P.; Winter, M.; Arianoutsou, M.; et al. No saturation in the accumulation of alien species worldwide. Nat. Commun. 2017, 8, 14435. [Google Scholar] [CrossRef]
  2. Seebens, H.; Bacher, S.; Blackburn, T.M.; Capinha, C.; Dawson, W.; Dullinger, S.; Genovesi, P.; Hulme, P.E.; van Kleunen, M.; Kühn, I.; et al. Projecting the continental accumulation of alien species through to 2050. Glob. Chang. Biol. 2021, 27, 970–982. [Google Scholar] [CrossRef]
  3. Essl, F.; Lenzner, B.; Bacher, S.; Bailey, S.; Capinha, C.; Daehler, C.; Dullinger, S.; Genovesi, P.; Hui, C.; Hulme, P.E.; et al. Drivers of future alien species impacts: An expert-based assessment. Glob. Chang. Biol. 2020, 26, 4880–4893. [Google Scholar] [CrossRef]
  4. Stranga, Y.; Katsanevakis, S. Eight years of BioInvasions Records: Patterns and trends in alien and cryptogenic species records. Manag. Biol. Invasions 2021, 12, 221. [Google Scholar] [CrossRef]
  5. Haubrock, P.J.; Turbelin, A.J.; Cuthbert, R.N.; Novoa, A.; Taylor, N.G.; Angulo, E.; Ballesteros-Mejia, L.; Bodey, T.W.; Capinha, C.; Diagne, C.; et al. Economic costs of invasive alien species across Europe. NeoBiota 2021, 67, 153–190. [Google Scholar] [CrossRef]
  6. Haubrock, P.; Cuthbert, R.; Tricarico, E.; Diagne, C.; Courchamp, F.; Gozlan, R. The recorded economic costs of alien invasive species in Italy. NeoBiota 2021, 67, 247–266. [Google Scholar] [CrossRef]
  7. Regulation (EU) No 1143/2014 and Subsequent Amendments of the European Parliament and of the Council of 22 October 2014 on the Prevention and Management of the Introduction and Spread of Invasive Alien Species. Available online: https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A02014R1143-20191214 (accessed on 8 August 2022).
  8. Decreto Legislativo 15 Dicembre 2017, n. 230-Adeguamento della Normativa Nazionale alle Disposizioni del Regolamento (UE) n. 1143/2014 del Parlamento Europeo e del Consiglio del 22 Ottobre 2014. Available online: https://www.mite.gov.it/sites/default/files/dlgs_15_12_2017_230_specie_esotiche_invasive_0.pdf (accessed on 3 January 2022).
  9. Ferri, V.; Soccini, C. Guida alle Tartarughe e Testuggini del Mondo; Franco Muzzio Editore: Padua, Italy, 2015; pp. 1–432. [Google Scholar]
  10. Pritchard, P.C.H. Encyclopaedia of Turtles; TFH Publication: Neptune, NJ, USA, 1979; pp. 1–896. [Google Scholar]
  11. Pritchard, P.C.H. The Alligator Snapping Turtle: Biology and Conservation; Krieger Publishing: Malabar, FL, USA, 2006; pp. 1–140. [Google Scholar]
  12. Folt, B.; Guyer, C. Evaluating recent taxonomic changes for alligator snapping turtles (Testudines: Chelydridae). Zootaxa 2015, 3947, 447–450. [Google Scholar] [CrossRef]
  13. Travis, M.T.; Granatosky, M.C.; Bourque, J.R.; Krysko, K.L.; Moler, P.E.; Tony Gamble, T.; Suarez, E.; Leone, E.; Enge, K.M.; Roman, J. Taxonomic assessment of Alligator Snapping Turtles (Chelydridae: Macrochelys), with the description of two new species from the southeastern United States. Zootaxa 2014, 3786, 141–165. [Google Scholar] [CrossRef]
  14. Law 7 Febbraio 1992, n. 150-Disciplina dei Reati Relativi All’applicazione in Italia della Convenzione sul Commercio Internazionale delle Specie Animali e Vegetali in via di Estinzione, Firmata a Washington il 3 Marzo 1973, di cui alla Legge 19 Dicembre 1975, n. 874, e del Regolamento (CEE) n. 3626/82, e Successive Modificazioni, Nonché Norme Per la Commercializzazione e la Detenzione di Esemplari Vivi di Mammiferi e Rettili Che Possono Costituire Pericolo Per la Salute e L’incolumità Pubblica. Available online: https://www.mite.gov.it/sites/default/files/archivio/normativa/legge_07_02_1992_150.pdf (accessed on 13 February 2022).
  15. Law 19 Dicembre 1975, n. 874-Ratifica ed Esecuzione della Convenzione sul Commercio Internazionale delle Specie Animali e Vegetali in via di Estinzione, Firmata a Washington il 3 Marzo 1973 (G.U. 24 Febbraio 1976, n. 49, S.O.). Available online: https://www.mite.gov.it/sites/default/files/legge_19_12_1975_874.pdf (accessed on 13 February 2022).
  16. Council Regulation (EEC) No 3626/82 of 3 December 1982 on the Implementation in the Community of the Convention on International Trade in Endangered Species of Wild Fauna and Flora. Available online: https://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:31982R3626&from=EN (accessed on 5 January 2022).
  17. Cui, D.; Liang, S.; Wang, D. Observed and projected changes in global climate zones based on Köppen climate classification. Wiley Interdiscip. Rev. Clim. Chang. 2021, 12, e701. [Google Scholar] [CrossRef]
  18. Brugnola, L. Rinvenimento di rettili alloctoni sul territorio abruzzese. In Atlante dei Rettili d’Abruzzo; Di Tizio, L., Pellegrini, M., Di Francesco, N., Carafa, M., Eds.; Ianieri e Talea Edizioni: Pescara, Italy, 2008; pp. 191–195. [Google Scholar]
  19. Bagnoli, C.; Carpaneto, G.M. Specie alloctone occasionalmente reperite nel Lazio. In Anfibi e Rettili del Lazio; Bologna, M.A., Capula, M., Carpaneto, G.M., Eds.; Fratelli Palombi Editori: Rome, Italy, 2000; pp. 1–160. [Google Scholar]
  20. Ferri, V.; De Luca, L.; Soccini, C.; Pandolfi, M. La Tartaruga Azzannatrice, Chelydra Serpentina (Linnaeus, 1758), nel Fiume Tevere (Lazio). Biol. Ambient. 2016, 30, 45–48. Available online: http://www.cisba.eu/images/rivista/biologia_ambientale/BA2016/BA_2016_COMPLETO.pdf#page=47 (accessed on 10 January 2022).
  21. Ferri, V.; Grano, M.; Marini, D.; Soccini, C.; Filippi, E.; Cervoni, F.; Masulli, A. La biodiversità aliena dei Cheloni nel Lazio: Monitoraggio dei nuclei di testuggini esotiche terrestri e palustri introdotti negli ambienti naturali della regione. In Proceedings of the Atti del II Congresso Nazionale Testuggini e Tartarughe, Albenga, Italy, 11–13 April 2019; pp. 1–220, ISBN ISBN 979-12-200-6157-5. [Google Scholar]
  22. Obbard, M.E.; Brooks, R.J. A Radio-Telemetry and Mark–Recapture Study of Activity in the Common Snapping Turtle, Chelydra serpentina. Copeia 1981, 3, 630–637. [Google Scholar] [CrossRef]
  23. Brown, G.P.; Brooks, R.J. Sexual and Seasonal Differences in Activity in a Northern Population of Snapping Turtles, Chelydra serpentina. Herpetologica 1993, 49, 311–318. Available online: http://www.jstor.org/stable/3892749 (accessed on 5 February 2022).
  24. Ewert, M.A. Nests, nesting and aerial basking of Macrochelys under natural conditions, and comparisons with Chelydra (Testudines: Chelydridae). Herpetologica 1976, 32, 150–156. Available online: https://www.jstor.org/stable/3891731 (accessed on 5 February 2022).
  25. Spangler, S.J. Ecology of Hatchling Alligator Snapping Turtles (Macrochelys temminckii). Ph.D. Thesis, MSU, Abishekapatti, India, 2017; p. 3207. Available online: https://bearworks.missouristate.edu/theses/3207 (accessed on 15 March 2022).
  26. Dreslik, M.J.; Carr, J.L.; Ligon, D.B.; Kessler, E.J. Recovery of the alligator snapping turtle (Macrochelys temminckii) in the Mississippi River Valley drainages of southern Illinois, Oklahoma, and Louisiana. Ill. Nat. Hist. Surv. 2017, 28, 1–59. [Google Scholar]
  27. Riedle, J.D.; Shipman, P.A.; Fox, S.F.; Leslie, D.M., Jr. Microhabitat use, home range, and movements of the alligator snapping turtle, Macrochelys temminckii, in Oklahoma. Southwest. Nat. 2006, 51, 35–40. [Google Scholar] [CrossRef]
  28. Howey, C.A.F.; Dinkelacker, S.A. Habitat selection of the alligator snapping turtle (Macrochelys temminckii) in Arkansas. J. Herpetol. 2009, 43, 589–596. [Google Scholar] [CrossRef]
  29. Department of the Interior, Fish and Wildlife Service. Endangered and Threatened Wildlife and Plants; 12-Month Petition Finding and Threatened Species Status with Section 4(d) Rule for Suwannee Alligator Snapping Turtle. Federal Register/Volume 86, No. 65/Wednesday, 7 April 2021/Proposed Rules. Available online: https://www.govinfo.gov/content/pkg/FR-2021-04-07/pdf/2021-06946.pdf (accessed on 8 August 2022).
  30. Department of the Interior, Fish and Wildlife, Service. Endangered and Threatened Wildlife and Plants; Threatened Species Status with Section 4(d) Rule for Alligator Snapping Turtle. Federal Register/Volume 86, No. 214/Tuesday, 9 November 2021/Proposed Rules. Available online: https://www.govinfo.gov/content/pkg/FR-2021-11-09/pdf/2021-23994.pdf (accessed on 8 August 2022).
  31. Punzo, F. Studies on the Feeding Behavior, Diet, Nesting Habits and Temperature Relationships of Chelydra serpentina osceola (Chelonia: Chelydridae). J. Herpetol. 1975, 9, 207–210. [Google Scholar] [CrossRef]
  32. Elsey, R.M. Food habits of Macrochelys temminckii (Alligator snapping turtle) from Arkansas and Louisiana. Southeast. Nat. 2006, 5, 443–452. [Google Scholar] [CrossRef]
  33. Cadi, A.; Joly, P. Competition for basking places between the endangered European pond turtle (Emys orbicularis galloitalica) and the introduced red-eared slider (Trachemys scripta elegans). Can. J. Zool. 2003, 81, 1392–1398. [Google Scholar] [CrossRef]
  34. Scheelings, T.F.; Lightfoot, D.; Holz, P. Prevalence of Salmonella in Australian reptiles. J. Wildl. Dis. 2011, 47, 1–11. [Google Scholar] [CrossRef]
  35. Bosch, S.; Tauxe, R.V.; Behravesh, C.B. Turtle-associated salmonel-losis, United States, 2006–2014. Emerg. Infect. Dis. 2016, 22, 1149–1155. [Google Scholar]
  36. Stam, F.; Romkens, T.E.H.; Hekker, T.A.M.; Smulders, Y.M. Turtle-associated human salmonellosis. Clin. Infect. Dis. 2003, 37, e167–e169. [Google Scholar] [CrossRef]
  37. Kuroki, T.; Ito, K.; Ishihara, T.; Furukawa, I.; Kaneko, A.; Suzuki, Y.; Seto, J.; Kamiyama, T. Turtle-associated Salmonella infections in Kanagawa, Japan. Jpn. J. Infect. Dis. 2015, 68, 333–337. [Google Scholar] [CrossRef]
  38. FDA. Salmonella and Turtle Safety; U.S. Food and Drug Administration: Washington, DC, USA, 2016.
  39. Ebani, V.V.; Fratini, F.; Bertelloni, F.; Cerri, D.; Tortoli, E. Isolation and identification of mycobacteria from captive reptiles. Res. Vet. Sci. 2012, 93, 1136–1138. [Google Scholar] [CrossRef]
  40. Hersey, E.; Mason, D.V. Salmonella Surveillance Report; Centers for Disease Control and Prevention: Atlanta, GA, USA, 1963; Volume 10. [Google Scholar]
  41. Williams, L.P.; Helsdon, H.L. Pet turtles as a cause of human salmonellosis. JAMA 1965, 192, 347–351. [Google Scholar] [CrossRef]
  42. Rosenstein, B.J.; Russo, P.; Hinchliffe, M.C. A family outbreak of salmonellosis traced to a pet turtle. N. Engl. J. Med. 1965, 272, 960–961. [Google Scholar] [CrossRef]
  43. Keymer, I.F. The unsuitability of non-domesticated animals as pets. Vet. Rec. 1972, 91, 373–381. [Google Scholar] [CrossRef]
  44. Nagano, N.; Oana, S.; Nagano, Y.; Arakawa, Y. A severe Salmonella enterica serotype Paratyphi B infection in a child related to a pet turtle, Trachemys scripta elegans. Jpn. J. Infect. Dis. 2006, 59, 132. Available online: https://www.niid.go.jp/niid/JJID/59/132.pdf (accessed on 3 February 2022).
  45. Hidalgo-Vila, J.; Díaz-Paniagua, C.; Pérez-Santigosa, N.; de Frutos-Escobar, C.; Herrero-Herrero, A. Salmonella in free-living exotic and native turtles and in pet exotic turtles from SW Spain. Res. Vet. Sci. 2008, 85, 449–452. [Google Scholar] [CrossRef]
  46. Warwick, C. Red-eared terrapin farms and conservation. Oryx 1986, 20, 237–240. [Google Scholar] [CrossRef]
  47. Ramsay, N.F.; Ng, P.K.A.; O’Riordan, R.M.; Chou, L.M. The red-eared slider (Trachemys scripta elegans) in Asia: A review. In Biological Invaders in Inland Waters: Profiles, Distribution, and Threats. Invading Nature-Springer Series in Invasion Ecology; Gherardi, F., Ed.; Springer: Dordrecht, The Netherlands, 2007; Volume 2. [Google Scholar] [CrossRef]
  48. Soccini, C.; Ferri, V. Bacteriological screening of Trachemys scripta elegans and Emys orbicularis in the Po plain (Italy). Biologia 2004, 59, 201–207. [Google Scholar]
  49. Bringsøe, H.; NOBANIS-Invasive Alien Species Fact Sheet-Trachemys scripta. Online Database of the North European and Baltic Network on Invasive Alien Species. 2006. Available online: www.nobanis.org (accessed on 10 February 2022).
  50. Hossain, S.; Heo, G.J. Pet-turtles: A potential source of human pathogenic bacteria. Arch. Microbiol. 2021, 203, 3785–3792. [Google Scholar] [CrossRef]
  51. Adler, B.; de la Peña Moctezuma, A. Leptospira and leptospirosis. Vet. Microbiol. 2010, 140, 287–296. [Google Scholar] [CrossRef]
  52. Levett, P.N. Leptospirosis. Clin. Microbiol. Rev. 2001, 14, 296–326. [Google Scholar] [CrossRef] [PubMed]
  53. Dezzutto, D.; Barbero, R.; Canale, G.; Acutis, P.L.; Biolatti, C.; Dogliero, A.; Mitzy, M.D.; Francone, P.; Colzani, A.; Bergagna, S.; et al. Detection of Leptospira spp. in water turtle (Trachemys scripta) living in ponds of urban parks. Vet. Sci. 2017, 4, 51. [Google Scholar] [CrossRef] [PubMed]
  54. Bonacina, E.; Oltolina, M.; Robbiati, R.; Pinzauti, P.; Ebani, V.V. Serological survey on the occurrence of anti-Leptospira spp. antibodies in red-eared terrapins (Trachemys scripta elegans) living in a natural park of northern Italy. Animals 2021, 11, 602. [Google Scholar] [CrossRef] [PubMed]
  55. Oliveira, J.P.; Kawanami, A.E.; Silva, A.S.L.; Chung, D.G.; Werther, K. Detection of Leptospira spp. in wild Phrynops geoffroanus (Geoffroy’s side-necked turtle) in urban environment. Acta Trop. 2016, 164, 165–168. [Google Scholar] [CrossRef]
  56. Grimm, K.; Mitchell, M.A.; Thompson, D.; Maddox, C. Seroprevalence of Leptospira spp. in Blanding’s Turtles (Emydoidea blandingii) from DuPage County, Illinois, USA. J. Herpetol. Med. Surg. 2015, 25, 28–32. [Google Scholar] [CrossRef]
  57. Bellinati, L.; Pesaro, S.; Marcer, F.; Danesi, P.; Natale, A.; Ceglie, L. Detection of a Novel Chlamydia Species in Invasive Turtles. Animals 2022, 12, 784. [Google Scholar] [CrossRef]
  58. Corriere della Sera. Tartaruga-Alligatore Trovata nel Milanese. 2012. Available online: https://milano.corriere.it/milano/notizie/cronaca/12_giugno_25/tartaruga-alligatore-trovata-binasco-zona-agricola-201745655883.shtml (accessed on 11 January 2022).
  59. Corriere della Sera. Catturata la Tartaruga Alligatore di Villa Reale: «Era un Pericolo». 2013. Available online: https://milano.corriere.it/notizie/cronaca/13_aprile_15/catturata-tartaruga-alligatore-giardini-villa-reale-212657376603.shtml (accessed on 5 January 2022).
  60. La Repubblica. Imperia Trovate due Tartarughe “Azzannatrici” e una “Alligatore”. 2020. Available online: https://genova.repubblica.it/cronaca/2020/06/25/news/imperia_trovate_due_tartarughe_azzannatrici_e_una_alligatore_-260187083/ (accessed on 5 February 2022).
  61. Il Secolo XIX. Imperia, Rimosse Alcune Tartarughe “Azzannatrici” dal Laghetto di Lucinasco: Erano Pericolose. 2021. Available online: https://www.ilsecoloxix.it/imperia/2021/09/25/news/imperia-rimosse-alcune-tartarughe-azzannatrici-dal-laghetto-di-lucinasco-erano-pericolose-1.40741408 (accessed on 15 February 2022).
  62. Corriere del Veneto. Rovigo Tartaruga Azzannatrice sul Po. 2009. Available online: https://corrieredelveneto.corriere.it/veneto/notizie/cronaca/2009/23-giugno-2009/rovigo-tartaruga-azzannatrice-po-1601494279646.shtml (accessed on 27 January 2022).
  63. Corriere della Sera. L’azzannatrice. 2010. Available online: https://roma.corriere.it/foto_del_giorno/home/index_20100828.shtml (accessed on 5 February 2022).
  64. Corriere della Sera. Una «Azzannatrice» CATTURATA Fuori Roma. 2011. Available online: https://www.corriere.it/animali/11_marzo_16/tartaruga-azzannatrice-salvata-anguillara_21d3f7a8-4fd9-11e0-acff-d18cea4068c4.shtml (accessed on 10 January 2022).
  65. Quotidiano del Cilento. Perdifumo: Ritrovato Esemplare di Tartaruga Azzannatrice. 2011. Available online: https://www.infocilento.it/notizie/Cilento_Perdifumo-ritrovato-esemplare-di-tartaruga-azzannatrice_10670.html (accessed on 5 March 2022).
  66. Trg Media. Gubbio: Tartaruga “Illegale” Abbandonata al Bottaccione. 2012. Available online: https://www.trgmedia.it/Gubbio-tartaruga-illegale-abbandonata-al-Bottaccione/news-49251.aspx (accessed on 11 March 2022).
  67. Il Tirreno. Trovata “Tartaruga Azzannatrice”. 2012. Available online: https://iltirreno.gelocal.it/pistoia/cronaca/2012/06/14/news/trovata-tartaruga-azzannatrice-1.5265025 (accessed on 21 February 2022).
  68. Bliz Quotidiano. Tartaruga Azzannatrice Trovata nel Tevere: Esemplare Esotico e Molto Pericoloso. 2012. Available online: https://www.blitzquotidiano.it/foto-notizie/tartaruga-azzannatrice-stimigliano-pericolosa-tevere-1345552/ (accessed on 15 February 2022).
  69. Roma Today. Fidene: Trovata Tartaruga Azzannatrice nel Parco Specie Pericolosa. 2012. Available online: https://www.Romatoday.it/zone/montesacro/fidene-serpentara/tartaruga-azzannatrice-parco-peter-pan.html#_ga=2.168854434.2045943226.1633880393-762325118.1633538745 (accessed on 1 March 2022).
  70. Forlì Today. Sguazzava Nelle Acque del Bidente: Pescata una Tartaruga Carnivora. 2014. Available online: https://www.forlitoday.it/cronaca/foto-albano-venturini-tartaruga-carnivora.html (accessed on 15 January 2022).
  71. La Nazione. Trovata una Tartaruga Azzannatrice sul Lungomare; è Pericolosa Per L’uomo. 2014. Available online: https://www.lanazione.it/livorno/cronaca/trovata-una-tartaruga-azzannatrice-sul-lungomare-%C3%A8-pericolosa-per-l-uomo-1.109597 (accessed on 13 February 2022).
  72. Modena Today. Casinalbo Ritrovata una Grossa Tartaruga Azzannatrice. 2014. Available online: https://www.modenatoday.it/cronaca/tartaruga-azzannatrice-casinalbo.html (accessed on 5 February 2022).
  73. La Stampa. Catturata a Oleggio la Tartaruga “Azzannatrice”. 2015. Available online: https://www.lastampa.it/novara/2015/02/21/news/catturata-a-oleggio-la-tartaruga-azzannatrice-1.35296915 (accessed on 6 February 2022).
  74. Nanopress. Tartaruga Azzannatrice Trovata Per Caso a Velletri. È Pericolosa. 2015. Available online: https://www.nanopress.it/articolo/tartaruga-azzannatrice-trovata-per-caso-a-velletri/75635/ (accessed on 5 February 2022).
  75. Il Mio Primo Quotidiano. Toscana Trovata una Tartaruga Azzannatrice. 2015. Available online: https://www.ilmioprimoquotidiano.it/toscana-trovata-una-tartaruga-azzannatrice/ (accessed on 5 February 2022).
  76. Mainfatti. 2016. Available online: https://web.archive.org/web/20160531185234/http://www.mainfatti.it/Corpo-Forestale-dello-Stato/Strambino-sequestrata-tartaruga-azzannatrice-abbandonata_0140200033.htm (accessed on 23 February 2022).
  77. Il Messaggero. Tartaruga Azzannatrice Scoperta dalla Forestale alla Periferia di Cori: Animale. Pericoloso. 2016. Available online: https://www.ilmessaggero.it/latina/tartaruga_azzannatrice_scoperta_dalla_forestale_cori_latina_pericoloso-1793950.html (accessed on 17 January 2022).
  78. Il Giornale. Milano Abbandonata una Tartaruga Azzannatrice: “È Molto Pericolosa”. 2016. Available online: https://www.ilgiornale.it/news/cronache/milano-abbandonata-tartaruga-azzannatrice-molto-pericolosa-1267131.html (accessed on 30 January 2022).
  79. La Repubblica. Trovata Pericolosa Tartaruga “Azzannatrice” nel Napoletano. 2018. Available online: https://video.repubblica.it/edizione/napoli/trovata-pericolosa-tartaruga-azzannatrice-nel-napoletano/301546/302174 (accessed on 5 February 2022).
  80. Corriere della Sera. Lodi Trovata Testuggine Azzannatrice. 2018. Available online: https://milano.corriere.it/foto-gallery/cronaca/18_aprile_05/lodi-trovata-testuggine-azzannatrice-b9ad576e-38ec-11e8-88e7-5b815ecb2975.shtml (accessed on 22 January 2022).
  81. Cuoioindiretta. Tartaruga Azzannatrice Trovata Per Strada a Fucecchio. 2018. Available online: https://www.ilcuoioindiretta.it/?p=59513 (accessed on 28 January 2022).
  82. Ansa. Tartaruga Azzannatrice Trovata in un Parco nel Milanese. 2018. Available online: https://www.ansa.it/canale_ambiente/notizie/animali/2018/08/22/tartaruga-azzannatrice-trovata-in-un-parco-nel-milanese_cbb11c0d-7a18-49bb-b11a-940a6530d2e1.html (accessed on 5 March 2022).
  83. Quotidiano Piemontese. Esemplare di Tartaruga Azzannatrice Scoperta nel Parco Villa Pallavicino di Stresa. 2018. Available online: https://www.quotidianoPiemontese.it/2018/12/03/esemplare-di-tartaruga-azzannatrice-scoperta-nel-parco-villa-pallavicino-di-stresa/ (accessed on 5 March 2022).
  84. Roma Today. Tevere: Trovata Tartaruga Azzannatrice Sulle Rive del Fiume. 2020. Available online: https://www.Romatoday.it/cronaca/tartaruga-azzannatrice-tevere.html (accessed on 13 March 2022).
  85. Riviera 24. 2020. Available online: https://www.riviera24.it/2020/06/lucinasco-tartarughe-azzannatrici-recuperate-dai-carabinieri-forestali-627694/ (accessed on 11 March 2022).
  86. Meteoweb. Recuperata una Bellissima ma Pericolosa Tartaruga Azzannatrice nel Bolognese: un suo Morso può Staccare il Dito di un Uomo. 2020. Available online: https://www.meteoweb.eu/2020/06/recuperata-tartaruga-azzannatrice/1442084/ (accessed on 14 February 2022).
  87. Treviso Today. Tartaruga Azzannatrice Abbandonata in un Fosso: Intervengono i Carabinieri. 2021. Available online: https://www.trevisotoday.it/cronaca/tartaruga-azzannatrice-carabinieri-dosson-7-maggio-2021.html (accessed on 5 March 2022).
  88. La Repubblica. A Collegno Spunta una tartaruga Azzannatrice Abbandonata. L’appello: “Non Allevate Animali Pericolosi e Protetti”. 2021. Available online: https://torino.repubblica.it/cronaca/2021/06/08/news/collegno_trovata_tartaruga_azzannatrice-304863004/ (accessed on 20 February 2022).
  89. Umbria 24. Trovata in un Laghetto la “Tartaruga Aggressiva”: Portata in Umbria Illegalmente e Abbandonata. 2021. Available online: http://www.umbria24.it/cronaca/trovata-in-un-laghetto-la-tartaruga-aggressiva-portata-in-italia-illegalmente-e-abbandonata (accessed on 6 March 2022).
  90. Il Fatto Quotidiano. Narni Catturata una Tartaruga Azzannatrice: “Pericolosa Per L’incolumità Pubblica”. 2021. Available online: https://www.ilfattoquotidiano.it/2021/08/05/narni-catturata-una-tartaruga-azzannatrice-pericolosa-per-lincolumita-pubblica/6283744/ (accessed on 27 January 2022).
Animals 12 02057 g001 550
Figure 1. Native distribution (in fuchsia (A)) and distribution of Chelydridae in aquatic environments in Italy from 2000 to 2021 ((B), alligator snapping turtle (Macrochelys temminckii); (C), snapping turtle (Chelydra serpentina)).
Figure 1. Native distribution (in fuchsia (A)) and distribution of Chelydridae in aquatic environments in Italy from 2000 to 2021 ((B), alligator snapping turtle (Macrochelys temminckii); (C), snapping turtle (Chelydra serpentina)).
Animals 12 02057 g001
Animals 12 02057 g002 550
Figure 2. Adult individuals of the alligator snapping turtle (Macrochelys temminckii) (a,b) and the snapping turtle (Chelydra serpentina) (c,d) from Lake Lucinasco (Liguria, Italy): (a,c) front view and head detail; (b,d) top view with detail of the carapace. Photo courtesy of Vasco Menconi (a,b), and Manuel Maggioli (c,d).
Figure 2. Adult individuals of the alligator snapping turtle (Macrochelys temminckii) (a,b) and the snapping turtle (Chelydra serpentina) (c,d) from Lake Lucinasco (Liguria, Italy): (a,c) front view and head detail; (b,d) top view with detail of the carapace. Photo courtesy of Vasco Menconi (a,b), and Manuel Maggioli (c,d).
Animals 12 02057 g002
Table
Table 1. Alligator snapping turtle (Macrochelys temminckii) reported in aquatic environments in Italy.
Table 1. Alligator snapping turtle (Macrochelys temminckii) reported in aquatic environments in Italy.
SiteRegionDiscovery AreaYearTW #TCL #References
Binasco/MilanoLombardiaRice fields20121[58]
MilanoLombardiaUrban area201315100 *1[59]
LucinascoLiguriaArtificial pond20201[60]
LucinascoLiguriaArtificial pond20213[61]
* Whole individual including tail. # TW = total weight, TCL = total carapace length; expressed in kilograms (kg) and centimetres (cm), respectively.
Table
Table 2. Snapping turtle (Chelydra serpentina) reported in aquatic environments in Italy.
Table 2. Snapping turtle (Chelydra serpentina) reported in aquatic environments in Italy.
SiteRegionDiscovery AreaYearTW #TCL #References
NepiLazioStream20001[19]
PescaraAbruzzoUrban area20021[18]
CanaroVenetoRiver2009101[62]
Parco Nazionale del CirceoLazioRural area201020701[63]
AnguillaraLazioRural area201120601[64]
Noce AltaCampaniaRural area201151[65]
GalleseLazioRiver20111[20]
FilaccianoLazioRiver20111[20]
BotaccioneUmbriaRiver20121[66]
Badia a PaccianaToscanaRural area20121[67]
StimiglianoLazioRiver20121[68]
FideneLazioUrban area20121[69]
Ponzano RomanoLazioRiver20121[20]
Poggio MirtetoLazioRiver20121[20]
CusercoliEmilia-RomagnaRiver201424~1001[70]
LivornoToscanaUrban area20142.8331[71]
CasinalboEmilia-RomagnaUrban area2014>5301[72]
Castelnuovo di PortoLazioUrban area20141[20]
MonterotondoLazioRiver20141[20]
MonterotondoLazioRiver20141[20]
RomaLazioRiver20141[20]
Oleggio (fraz. San Giovanni)PiemonteRural area2015251[73]
VelletriLazioRural area20151[74]
FucecchioToscanaRiver20151[75]
Strambino (fraz. Crotte)PiemonteRural area20161[76]
CoriLazioRural area201671[77]
MilanoLombardiaRiver20161[78]
Pomigliano d’ArcoCampaniaUrban area20181[79]
Castiglione d’AddaLombardiaRural area20188351[80]
FucecchioToscanaRural area2018151[81]
ArconateLombardiaUrban area2018401[82]
Parco Villa PallavicinoPiemontePond2018>61[83]
MonterotondoLazioRiver20201[84]
LucinascoLiguriaArtificial pond20202[85]
CodrignanoEmilia-RomagnaArtificial pond20201[86]
CasierVenetoRiver2021~101[87]
CollegnoPiemonteRiver20211[88]
CannaraUmbriaUrban area2021251[89]
NarniUmbriaArtificial pond20211[90]
OtricoliUmbriaRiver1[89]
# TW = total weight, TCL = total carapace length; expressed in kilograms (kg) and centimetres (cm), respectively.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Esposito, G.; Di Tizio, L.; Prearo, M.; Dondo, A.; Ercolini, C.; Nieddu, G.; Ferrari, A.; Pastorino, P. Non-Native Turtles (Chelydridae) in Freshwater Ecosystems in Italy: A Threat to Biodiversity and Human Health? Animals 2022, 12, 2057. https://doi.org/10.3390/ani12162057

AMA Style

Esposito G, Di Tizio L, Prearo M, Dondo A, Ercolini C, Nieddu G, Ferrari A, Pastorino P. Non-Native Turtles (Chelydridae) in Freshwater Ecosystems in Italy: A Threat to Biodiversity and Human Health? Animals. 2022; 12(16):2057. https://doi.org/10.3390/ani12162057

Chicago/Turabian Style

Esposito, Giuseppe, Luciano Di Tizio, Marino Prearo, Alessandro Dondo, Carlo Ercolini, Gianpiero Nieddu, Angelo Ferrari, and Paolo Pastorino. 2022. "Non-Native Turtles (Chelydridae) in Freshwater Ecosystems in Italy: A Threat to Biodiversity and Human Health?" Animals 12, no. 16: 2057. https://doi.org/10.3390/ani12162057

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop