Your search keyword '"Luciano Bosso"' showing total 63 results

1. Species distribution modelling and landscape connectivity as tools to inform management and conservation for the critically endangered Himalayan brown bear (Ursus arctos isabellinus) in the Deosai National Park, Pakistan

Author

Tosif Fida, Alireza Mohammadi, Kamran Almasieh, Luciano Bosso, Shams Ud Din, Urwah Shamas, Muhammad Ali Nawaz, and Muhammad Kabir

Subjects

conservation, Himalayan brown bear, landscape connectivity, species distribution models, wildlife management, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The main cause of the global threat to large carnivore populations living in high-altitude areas is human pressure. The Himalayan brown bear (Ursus arctos isabellinus, hereafter bear) is listed as a critically endangered species, and it dominates the higher altitudes of the North and Western Himalayan landscapes. Here, we used species distribution modelling and landscape connectivity to find bears’ suitable habitats and corridors in the Deosai National Park (DNP) and surrounding areas. Species distribution models detected a bear’s suitable habitat of 1,125 km2, of which ca. 73% was covered by DNP. The most crucial predictors in determining the bears’ distribution were elevation—particularly if it was between 3,500 and 4,500 meters above sea level—as well as the bears’ distance from rivers, cattle, and the DNP borders. We discovered robust connectivity among presence points in the core of the study area, particularly within the DNP boundaries, by using the electrical circuit theory models. Landscape connectivity values were indeed low in some areas outside and close to the DNP confines. Based on our findings, it is imperative to protect habitats and corridors that allow the bears to migrate between the suitable patches, particularly beyond the park’s boundaries, to improve bear conservation.

Published

2025

2. Applying a Random Encounter Model to Estimate the Asiatic Black Bear (Ursus thibetanus) Density from Camera Traps in the Hindu Raj Mountains, Pakistan

Author

Faizan Ahmad, Tomoki Mori, Muhammad Rehan, Luciano Bosso, and Muhammad Kabir

Subjects

Asiatic black bear, camera traps, conservation, distribution range, random encounter model, vulnerable species, Biology (General), QH301-705.5

Abstract

Estimating the population density of vulnerable species, such as the elusive and nocturnal Asiatic black bear (Ursus thibetanus), is essential for wildlife conservation and management. We used camera traps and a Random Encounter Model (REM) to estimate the population density of U. thibetanus during the autumn and winter seasons in the Hindu Raj Mountains. We installed 23 camera traps from October to December 2020 and acquired 66 independent pictures of Asiatic black bears over 428 trap nights. Our results showed that the bears preferred lowland areas with the presence of Quercus spp. We estimated, using the REM, a population density of U. thibetanus of 1.875 (standard error = 0.185) per square kilometer, which is significantly higher than that in other habitats. Our results showed that during autumn and winter, the bear population density tends to concentrate at lower elevations. Forest cover showed a positive correlation with the rates of bear encounters unlike the Euclidean distance to human settlements, altitude, and aspect variables. The approaches used here are cost-effective for estimating the population density of rare and vulnerable species such as U. thibetanus, and can be used to estimate their population density in Pakistan. Population density estimation can identify areas where the bears live and human–bear conflicts occurred and use this information in future wildlife management plans.

Published

2024

3. Patterns of spatial distribution, diel activity and human-bear conflict of Ursus thibetanus in the Hindu Kush mountains, Pakistan

Author

Faizan Ahmad, Muhammad Ali Nawaz, Mohammad Salim, Muhammad Rehan, Mohammad Farhadinia, Luciano Bosso, and Muhammad Kabir

Subjects

Asiatic black bear, Camera trapping, Conservation, Distribution, Human-bear conflict, Ursus thibetanus, Ecology, QH540-549.5

Abstract

The Asiatic black bear (Ursus thibetanus) is an elusive mammal and its conservation is currently a challenge in Pakistan due to the negative interaction with human communities and habitat fragmentation. We investigated the distribution, activity pattern and human-bear conflict of the Asiatic black bear in the Hindu Kush, a major mountains system in Pakistan. Our study was conducted from October 2020 to December 2020 in the Bahrain Valley, placed in the southeastern area of the Hindu Kush. We firstly carried out a preliminary sign survey for the bear's presence and, then, we installed an infrared sensor camera traps in the potential suitable habitat for the bear, 23 locations for 152 trap nights, to monitor its activity. Furthermore, to understand human-bear conflict, a questionnaire survey was submitted to 107 local people living in the bear’s habitat. The Asiatic black bear was photographed in 12 camera stations with 60 different capture events. We obtained a trap success percent of 64.8% between 2,100 m - 2,400 m above the sea level while the total trap success calculated for the whole camera trapping survey of the bears was 39.5%. The bears showed a bimodal activity pattern with peaks just after sunset and during the night (88% of observations from 00:00 to 06:00 and 18:00 to 24:00). We observed that the female and male bears and their puppies were not hibernating in subzero temperatures until December. Local communities had concerns over livestock and crops losses in the area. Our findings showed once again that the Asiatic black bear urgently needs effective management plans to guarantee its conservation in Pakistan.

Published

2022

4. An African bat in Europe, Plecotus gaisleri: Biogeographic and ecological insights from molecular taxonomy and Species Distribution Models

Author

Leonardo Ancillotto, Luciano Bosso, Sonia Smeraldo, Emiliano Mori, Giuseppe Mazza, Matthias Herkt, Andrea Galimberti, Fausto Ramazzotti, and Danilo Russo

Subjects

bioacoustics, biomod2, cryptic species, molecular identification, Plecotus gaisleri, Species Distribution Modeling, Ecology, QH540-549.5

Abstract

Abstract Because of the high risk of going unnoticed, cryptic species represent a major challenge to biodiversity assessments, and this is particularly true for taxa that include many such species, for example, bats. Long‐eared bats from the genus Plecotus comprise numerous cryptic species occurring in the Mediterranean Region and present complex phylogenetic relationships and often unclear distributions, particularly at the edge of their known ranges and on islands. Here, we combine Species Distribution Models (SDMs), field surveys and molecular analyses to shed light on the presence of a cryptic long‐eared bat species from North Africa, Plecotus gaisleri, on the islands of the Sicily Channel, providing strong evidence that this species also occurs in Europe, at least on the islands of the Western Mediterranean Sea that act as a crossroad between the Old Continent and Africa. Species Distribution Models built using African records of P. gaisleri and projected to the Sicily Channel Islands showed that all these islands are potentially suitable for the species. Molecular identification of Plecotus captured on Pantelleria, and recent data from Malta and Gozo, confirmed the species' presence on two of the islands in question. Besides confirming that P. gaisleri occurs on Pantelleria, haplotype network reconstructions highlighted moderate structuring between insular and continental populations of this species. Our results remark the role of Italy as a bat diversity hotspot in the Mediterranean and also highlight the need to include P. gaisleri in European faunal checklists and conservation directives, confirming the usefulness of combining different approaches to explore the presence of cryptic species outside their known ranges—a fundamental step to informing conservation.

Published

2020

5. Expanding or shrinking? range shifts in wild ungulates under climate change in Pamir-Karakoram mountains, Pakistan.

Author

Hussain Ali, Jaffar Ud Din, Luciano Bosso, Shoaib Hameed, Muhammad Kabir, Muhammad Younas, and Muhammad Ali Nawaz

Subjects

Medicine, Science

Abstract

Climate change is expected to impact a large number of organisms in many ecosystems, including several threatened mammals. A better understanding of climate impacts on species can make conservation efforts more effective. The Himalayan ibex (Capra ibex sibirica) and blue sheep (Pseudois nayaur) are economically important wild ungulates in northern Pakistan because they are sought-after hunting trophies. However, both species are threatened due to several human-induced factors, and these factors are expected to aggravate under changing climate in the High Himalayas. In this study, we investigated populations of ibex and blue sheep in the Pamir-Karakoram mountains in order to (i) update and validate their geographical distributions through empirical data; (ii) understand range shifts under climate change scenarios; and (iii) predict future habitats to aid long-term conservation planning. Presence records of target species were collected through camera trapping and sightings in the field. We constructed Maximum Entropy (MaxEnt) model on presence record and six key climatic variables to predict the current and future distributions of ibex and blue sheep. Two representative concentration pathways (4.5 and 8.5) and two-time projections (2050 and 2070) were used for future range predictions. Our results indicated that ca. 37% and 9% of the total study area (Gilgit-Baltistan) was suitable under current climatic conditions for Himalayan ibex and blue sheep, respectively. Annual mean precipitation was a key determinant of suitable habitat for both ungulate species. Under changing climate scenarios, both species will lose a significant part of their habitats, particularly in the Himalayan and Hindu Kush ranges. The Pamir-Karakoram ranges will serve as climate refugia for both species. This area shall remain focus of future conservation efforts to protect Pakistan's mountain ungulates.

Published

2021

6. Do We Need to Use Bats as Bioindicators?

Author

Danilo Russo, Valeria B. Salinas-Ramos, Luca Cistrone, Sonia Smeraldo, Luciano Bosso, and Leonardo Ancillotto

Subjects

biodiversity, Chiroptera, climate change, environment, foraging, forest, Biology (General), QH301-705.5

Abstract

Bats show responses to anthropogenic stressors linked to changes in other ecosystem components such as insects, and as K-selected mammals, exhibit fast population declines. This speciose, widespread mammal group shows an impressive trophic diversity and provides key ecosystem services. For these and other reasons, bats might act as suitable bioindicators in many environmental contexts. However, few studies have explicitly tested this potential, and in some cases, stating that bats are useful bioindicators more closely resembles a slogan to support conservation than a well-grounded piece of scientific evidence. Here, we review the available information and highlight the limitations that arise in using bats as bioindicators. Based on the limited number of studies available, the use of bats as bioindicators is highly promising and warrants further investigation in specific contexts such as river quality, urbanisation, farming practices, forestry, bioaccumulation, and climate change. Whether bats may also serve as surrogate taxa remains a controversial yet highly interesting matter. Some limitations to using bats as bioindicators include taxonomical issues, sampling problems, difficulties in associating responses with specific stressors, and geographically biased or delayed responses. Overall, we urge the scientific community to test bat responses to specific stressors in selected ecosystem types and develop research networks to explore the geographic consistency of such responses. The high cost of sampling equipment (ultrasound detectors) is being greatly reduced by technological advances, and the legal obligation to monitor bat populations already existing in many countries such as those in the EU offers an important opportunity to accomplish two objectives (conservation and bioindication) with one action.

Published

2021

7. Zoonotic Risk: One More Good Reason Why Cats Should Be Kept Away from Bats

Author

Valeria B. Salinas-Ramos, Emiliano Mori, Luciano Bosso, Leonardo Ancillotto, and Danilo Russo

Subjects

bat, cat, COVID-19, SARS-CoV-2, spillback, spillover, Medicine

Abstract

Bats are often unfairly depicted as the direct culprit in the current COVID-19 pandemic, yet the real causes of this and other zoonotic spillover events should be sought in the human impact on the environment, including the spread of domestic animals. Here, we discuss bat predation by cats as a phenomenon bringing about zoonotic risks and illustrate cases of observed, suspected or hypothesized pathogen transmission from bats to cats, certainly or likely following predation episodes. In addition to well-known cases of bat rabies, we review other diseases that affect humans and might eventually reach them through cats that prey on bats. We also examine the potential transmission of SARS-CoV-2, the causal agent of COVID-19, from domestic cats to bats, which, although unlikely, might generate a novel wildlife reservoir in these mammals, and identify research and management directions to achieve more effective risk assessment, mitigation or prevention. Overall, not only does bat killing by cats represent a potentially serious threat to biodiversity conservation, but it also bears zoonotic implications that can no longer be neglected.

Published

2021

8. Body Size Variation in Italian Lesser Horseshoe Bats Rhinolophus hipposideros over 147 Years: Exploring the Effects of Climate Change, Urbanization and Geography

Author

Valeria B. Salinas-Ramos, Paolo Agnelli, Luciano Bosso, Leonardo Ancillotto, Víctor Sánchez-Cordero, and Danilo Russo

Subjects

bat, Bergmann’s rule, climate change, land use change, light pollution, morphology, Biology (General), QH301-705.5

Abstract

Body size in animals commonly shows geographic and temporal variations that may depend upon several environmental drivers, including climatic conditions, productivity, geography and species interactions. The topic of body size trends across time has gained momentum in recent years since this has been proposed as a third universal response to climate change along with changes in distribution and phenology. However, disentangling the genuine effects of climate change from those of other environmental factors is often far from trivial. In this study, we tested a set of hypotheses concerning body size variation across time and space in Italian populations of a rhinolophid bat, the lesser horseshoe bat Rhinolophus hipposideros. We examined forearm length (FAL) and cranial linear traits in a unique historical collection of this species covering years from 1869 to 2016, representing, to the best of our knowledge, the longest time series ever considered in a morphological assessment of a bat species. No temporal changes occurred, rejecting the hypotheses that body size varied in response to climate change or urbanization (light pollution). We found that FAL increased with latitude following a Bergmann’s rule trend, whereas the width of upper incisors, likely a diet-related trait, showed an opposite pattern which awaits explanation. We also confirmed that FAL is sexually dimorphic in this species and ruled out that insularity has any detectable effect on the linear traits we considered. This suggests that positive responses of body size to latitude do not mean per se that concurring temporal responses to climate change are also expected. Further investigations should explore the occurrence of these patterns over larger spatial scales and more species in order to detect the existence of general patterns across time and space.

Published

2020

9. Habitat suitability and movement corridors of grey wolf (Canis lupus) in Northern Pakistan.

Author

Muhammad Kabir, Shoaib Hameed, Hussain Ali, Luciano Bosso, Jaffar Ud Din, Richard Bischof, Steve Redpath, and Muhammad Ali Nawaz

Subjects

Medicine, Science

Abstract

Habitat suitability models are useful to understand species distribution and to guide management and conservation strategies. The grey wolf (Canis lupus) has been extirpated from most of its historic range in Pakistan primarily due to its impact on livestock and livelihoods. We used non-invasive survey data from camera traps and genetic sampling to develop a habitat suitability model for C. lupus in northern Pakistan and to explore the extent of connectivity among populations. We detected suitable habitat of grey wolf using a maximum entropy approach (Maxent ver. 3.4.0) and identified suitable movement corridors using the Circuitscape 4.0 tool. Our model showed high levels of predictive performances, as seen from the values of area under curve (0.971±0.002) and true skill statistics (0.886±0.021). The main predictors for habitat suitability for C. lupus were distances to road, mean temperature of the wettest quarter and distance to river. The model predicted ca. 23,129 km2 of suitable areas for wolf in Pakistan, with much of suitable habitat in remote and inaccessible areas that appeared to be well connected through vulnerable movement corridors. These movement corridors suggest that potentially the wolf range can expand in Pakistan's Northern Areas. However, managing protected areas with stringent restrictions is challenging in northern Pakistan, in part due to heavy dependence of people on natural resources. The habitat suitability map provided by this study can inform future management strategies by helping authorities to identify key conservation areas.

Published

2017

10. Potential distribution of Xylella fastidiosa in Italy: a maximum entropy model

Author

Luciano BOSSO, Danilo RUSSO, Mirko DI FEBBRARO, Gennaro CRISTINZIO, and Astolfo ZOINA

Subjects

emerging pest, EPPO, Maxent, olive quick decline syndrome, Botany, QK1-989

Abstract

Species distribution models may provide realistic scenarios to explain the influence of bioclimatic variables in the context of emerging plant pathogens. Xylella fastidiosa is a xylem-limited Gram-negative bacterium causing severe diseases in many plant species. We developed a maximum entropy model for X. fastidiosa in Italy. Our objectives were to carry out a preliminary analysis of the species’ potential geographical distribution and determine which eco-geographical variables may favour its presence in other Italian regions besides Apulia. The analysis of single variable contribution showed that precipitation of the driest (40.3%) and wettest (30.4%) months were the main factors influencing model performance. Altitude, precipitation of warmest quarter, mean temperature of coldest quarter, and land cover provided a total contribution of 19.5%. Based on the model predictions, X. fastidiosa has a high probability (> 0.8) of colonizing areas characterized by: i) low altitude (0–150 m a.s.l.); ii) precipitations in the driest month < 10 mm, in the wettest month ranging between 80–110 mm and during the warmest quarter < 60 mm; iii) mean temperature of coldest quarter ≥ 8°C; iv) agricultural areas comprising intensive agriculture, complex cultivation patterns, olive groves, annual crops associated with permanent crops, orchards and vineyards; forest (essentially oak woodland); and Mediterranean shrubland. Species distribution models showed a high probability of X. fastidiosa occurrence in the regions of Apulia, Calabria, Basilicata, Sicily, Sardinia and coastal areas of Campania, Lazio and south Tuscany. Maxent models achieved excellent levels of predictive performance according to area under curve (AUC), true skill statistic (TSS) and minimum difference between training and testing AUC data (AUCdiff). Our study indicated that X. fastidiosa has the potential to overcome the current boundaries of distribution and affect areas of Italy outside Apulia.

Published

2016

11. What story does geographic separation of insular bats tell? A case study on Sardinian rhinolophids.

Author

Danilo Russo, Mirko Di Febbraro, Hugo Rebelo, Mauro Mucedda, Luca Cistrone, Paolo Agnelli, Pier Paolo De Pasquale, Adriano Martinoli, Dino Scaravelli, Cristiano Spilinga, and Luciano Bosso

Subjects

Medicine, Science

Abstract

Competition may lead to changes in a species' environmental niche in areas of sympatry and shifts in the niche of weaker competitors to occupy areas where stronger ones are rarer. Although mainland Mediterranean (Rhinolophus euryale) and Mehely's (R. mehelyi) horseshoe bats mitigate competition by habitat partitioning, this may not be true on resource-limited systems such as islands. We hypothesize that Sardinian R. euryale (SAR) have a distinct ecological niche suited to persist in the south of Sardinia where R. mehelyi is rarer. Assuming that SAR originated from other Italian populations (PES)--mostly allopatric with R. mehelyi--once on Sardinia the former may have undergone niche displacement driven by R. mehelyi. Alternatively, its niche could have been inherited from a Maghrebian source population. We: a) generated Maxent Species Distribution Models (SDM) for Sardinian populations; b) calibrated a model with PES occurrences and projected it to Sardinia to see whether PES niche would increase R. euryale's sympatry with R. mehelyi; and c) tested for niche similarity between R. mehelyi and PES, PES and SAR, and R. mehelyi and SAR. Finally we predicted R. euryale's range in Northern Africa both in the present and during the Last Glacial Maximum (LGM) by calibrating SDMs respectively with SAR and PES occurrences and projecting them to the Maghreb. R. mehelyi and PES showed niche similarity potentially leading to competition. According to PES' niche, R. euryale would show a larger sympatry with R. mehelyi on Sardinia than according to SAR niche. Such niches have null similarity. The current and LGM Maghrebian ranges of R. euryale were predicted to be wide according to SAR's niche, negligible according to PES' niche. SAR's niche allows R. euryale to persist where R. mehelyi is rarer and competition probably mild. Possible explanations may be competition-driven niche displacement or Maghrebian origin.

Published

2014

12. Integrating citizen science and spatial ecology to inform management and conservation of the Italian seahorses.

Author

Luciano Bosso, Raffaele Panzuto, Rosario Balestrieri, Sonia Smeraldo, Maria Luisa Chiusano, Francesca Raffini, Daniele Canestrelli, Luigi Musco, and Claudia Gili

Published

2024

13. Modelling current and future potential distributions of two desert jerboas under climate change in Iran.

Author

Saeed Mohammadi, Elnaz Ebrahimi 0002, Mohsen Shahriari Moghadam, and Luciano Bosso

Published

2019

14. Responses of avian assemblages to spatiotemporal landscape dynamics in urban ecosystems

Author

Maurizio Fraissinet, Leonardo Ancillotto, Antonello Migliozzi, Silvia Capasso, Luciano Bosso, Dan E. Chamberlain, Danilo Russo, Fraissinet, Maurizio, Ancillotto, Leonardo, Migliozzi, Antonello, Capasso, Silvia, Bosso, Luciano, Chamberlain, Dan E., and Russo, Danilo

Subjects

Birds, Ecology, Landscape ecology, Urbanization, Geography, Planning and Development, Marginal habitat, Management, Species richness, Nature and Landscape Conservation

Abstract

Context Urbanization and its associated impacts on biodiversity are increasing globally. There is a need to enhance our understanding of species responses to inform strategies for sustainable urbanization. Objectives Three extensive bird monitoring campaigns took place over the last three decades in the city of Naples, Italy, providing a comprehensive longitudinal dataset to analyse occurrence trends of urban birds. We aimed to assess both species-specific and assemblage-level changes in urban birds according to land cover dynamics. Methods We extracted bird data for the periods 1990–95, 2000–05, and 2014–18, and explored the spatial and temporal relationships between bird presence/avian assemblage composition, and land cover variation. Results The species richness of breeding birds remained stable over time, despite a notable species turnover, influenced by changes in the species’ key land cover classes. Species associated with forest and urban land cover tended to colonise the area, while those dependent on abandoned and cultivated areas decreased or went locally extinct. Birds changed their degree of dependence upon their key habitat type over time, as species from marginal and open habitat types needed larger amounts of habitat to persist within the area, while forest species showed an opposite trend. Conclusions Habitat-driven changes in avian assemblages within the urban landscape led to an increase in forest-associated species, and a decrease in birds associated with declining habitat types. Our findings may inform urban planning to promote more wildlife-friendly cities, which for our study area should prioritise open and marginal habitats.

Published

2022

15. FAIR-EASE_D5.1_Report on key requirements from Use Cases/Pilots

Author

Maria-Luisa CHIUSANO, Reiner SCHLITZER, Simona SIMONCELLI, Charles TROUPIN, Giuliano LANGELLA, Fabio TERRIBILE, Nicolas PASCAL, Marie BOICHU, Raphaël GRANDIN, Virginie RACAPE, Catherine SCHMECHTIG, Raphaëlle SAUZEDE, Alban SIZUN, Alessandra GIORGETTI, Catalina REYES, Cymon J. COX, Katrina EXTER, Marc PORTIER, Stelios NINIDAKIS, Ioulia SANTI, Luciano BOSSO, Luca AMBROSINO, and Marco MIRALTO

Subjects

Earth Science Data Services

Abstract

The overall objective of the EOSC Horizon Europe FAIR-EASE project is to develop and operate distributed and integrated services for observation and modelling of the earth system, environment and biodiversity implemented in close cooperation with user-communities and research infrastructures in their very design and sustainable availability and evolution. The FAIR-EASE WP5 (Work Package) is in charge of coordinating the activities tackling three different use cases (UCs): 1) the Earth and Environment dynamics; 2) The Environmental Biogeochemical Asset; 3) The Biodiversity Observations. As documented in the FAIR-EASE work plan, all the use cases represent “Real Life-Science” challenges. During the progress of the project, specific Pilots will be considered per UC, each of them addressing specific objectives. This deliverable reports on the assessment of the key requirements and the mapping of main resources to be considered in the project to fulfill the aims and scope of the Pilots included in each use case.

Published

2023

16. Shedding light on the effects of climate and anthropogenic pressures on the disappearance of Fagus sylvatica in the Italian lowlands: evidence from archaeo-anthracology and spatial analyses

Author

Mauro Paolo Buonincontri, Luciano Bosso, Sonia Smeraldo, Maria Luisa Chiusano, Salvatore Pasta, Gaetano Di Pasquale, Buonincontri, Mauro Paolo, Bosso, Luciano, Smeraldo, Sonia, Chiusano, MARIA LUISA, Pasta, Salvatore, and DI PASQUALE, Gaetano

Subjects

Environmental Engineering, human impact, late holocene, ecological niche models, Environmental Chemistry, Climate change, forest ecology, GIS, Pollution, Waste Management and Disposal, Climate change, ecological niche models, European beech, forest ecology, GIS, human impact, late holocene, European beech

Abstract

Fagus sylvatica is one of the most representative trees of the European deciduous broadleaved forests, yet the impact of changing climatic conditions and anthropogenic pressures (anthromes) on its presence and distribution in the coastal and lowland areas of the Mediterranean Basin has long been overlooked. Here, we first analysed the local forest composition in two different time intervals (350–300 Before Current Era, BCE and 150–100 BCE) using charred wood remains from the Etruscan site of Cetamura (Tuscany, central Italy). Additionally, we reviewed all the relevant publications and the wood/charcoal data obtained from anthracological analysis in F. sylvatica, focusing on samples that date back to 4000 years before present, to better understand the drivers of beech presence and distribution during the Late Holocene (LH) in the Italian Peninsula. Then, we combined charcoal and spatial analyses to test the distribution of beech woodland at low elevation during LH in Italy and to evaluate the effect of climate change and/or anthrome on the disappearance of F. sylvatica from the lowlands. We collected 1383 charcoal fragments in Cetamura belonging to 21 woody taxa, with F. sylvatica being the most abundant species (28 %), followed by other broadleaved trees. We identified 25 sites in the Italian Peninsula with beech charcoals in the last 4000 years. Our spatial analyses showed a marked decrease in habitat suitability of F. sylvatica from LH to the present (ca. 48 %), particularly in the lowlands (0–300m above sea level, a.s.l.) and at higher altitudes (>900 m a.s.l). In the lowland areas, where F. sylvatica has disappeared, climate had a more uniform effect on beech distribution patterns across the entire elevation range analysed, whereas climate+anthrome and anthrome alone influenced 69 % and 84 % of the lowland areas, respectively.

Published

2023

17. Generalists yet different: distributional responses to climate change may vary in opportunistic bat species sharing similar ecological traits

Author

Valeria B. Salinas-Ramos, Suren Gazaryan, Leonardo Ancillotto, Danilo Russo, Víctor Sánchez-Cordero, Sonia Smeraldo, Luciano Bosso, Smeraldo, Sonia, Bosso, Luciano, Salinas‐ramos, Valeria B., Ancillotto, Leonardo, Sánchez‐cordero, Víctor, Gazaryan, Suren, and Russo, Danilo

Subjects

Geography, Ecology, Climate change, Animal Science and Zoology, Generalist and specialist species, Agricultural and Biological Sciences (miscellaneous), Ecology, Evolution, Behavior and Systematics

Published

2021

18. Body size of Italian greater horseshoe bats (Rhinolophus ferrumequinum) increased over one century and a half: a response to climate change?

Author

Leonardo Ancillotto, Valeria B. Salinas-Ramos, Luciano Bosso, Paolo Agnelli, Danilo Russo, Salinas-Ramos, V. B., Agnelli, P., Bosso, L., Ancillotto, L., and Russo, D.

Subjects

0106 biological sciences, biology, 05 social sciences, Rhinolophus ferrumequinum, Zoology, Climate change, Body size, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Latitude, Sexual dimorphism, Animal ecology, Climate change scenario, 0501 psychology and cognitive sciences, Animal Science and Zoology, Mammal, 050102 behavioral science & comparative psychology, Ecology, Evolution, Behavior and Systematics

Abstract

Variation in body size is thought as one of the main responses to climate change, yet studies exploring the existence of this pattern are limited by the scarcity of long temporal datasets. Bats are promising candidates for the occurrence of climate-driven changes in body size because their life cycle is highly sensitive to ambient temperature. Although a reduction in body size would adaptively imply more efficient heat dissipation under a climate change scenario, dehydration caused by heatwaves would in fact be limited by a larger body size, so either responses may be predicted. An increasing body size over time might also be the consequence of a longer growth season secured by a warmer climate. On such bases, we tested the hypothesis that body size varied in the bat Rhinolophus ferrumequinum from Italian populations between 1869 and 2005 by examining forearm length (FAL) in 78 spatially independent specimens, and found that FAL increased over that period. We also ruled out that body size varied over space in relation to latitude (as predicted by Bergmann’s rule) or insularity, besides confirming the occurrence of sexual dimorphism (females being larger than males). This study illustrates a rare example of an increasing body size trend in a mammal species measured over ca. a century and a half, potentially unveiling a response to environmental variation.

Published

2021

19. The rise and fall of an alien: why the successful colonizer Littorina saxatilis failed to invade the Mediterranean Sea

Author

Luciano Bosso, Sonia Smeraldo, Danilo Russo, Maria Luisa Chiusano, Giorgio Bertorelle, Kerstin Johannesson, Roger K. Butlin, Roberto Danovaro, Francesca Raffini, Bosso, Luciano, Smeraldo, Sonia, Russo, Danilo, Chiusano, MARIA LUISA, Bertorelle, Giorgio, Johannesson, Kerstin, Butlin, Roger K., Danovaro, Roberto, and Raffini, Francesca

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics

Published

2022

20. Spatial distribution of the threatened Asiatic black bear in northern Pakistan

Author

Umer Hafeez Goursi, Muhammad Kabir, Muhammad Nawaz, Luciano Bosso, and Maqsood Anwar

Subjects

biology, Current distribution, National park, business.industry, Distribution (economics), Effective management, Management, Monitoring, Policy and Law, Ursus thibetanus, Spatial distribution, biology.organism_classification, Fishery, Geography, Threatened species, Animal Science and Zoology, business, Sea level, Nature and Landscape Conservation

Abstract

The Asiatic black bear (Ursus thibetanus) is globally listed as “Vulnerable.” Here, we documented its current distribution and the human–bear conflict in Machiara National Park (MNP, northern Pakistan) from 2009 to 2013. Our observations indicated that this bear occurs in all areas of MNP, especially at elevations between 1,600 and 3,300 m above sea level. We recorded the greatest activity in May and September. Our questionnaire survey indicated that the majority of survey participants were not in favor of coexistence with this bear. The Asiatic black bear urgently needs effective management plans to guarantee its conservation in Pakistan.

Published

2021

21. Interspecific competition in bats: state of knowledge and research challenges

Author

Víctor Sánchez-Cordero, Valeria B. Salinas-Ramos, Luciano Bosso, Leonardo Ancillotto, Danilo Russo, Salinas-Ramos, V. B., Ancillotto, L., Bosso, L., Sanchez-Cordero, V., and Russo, D.

Subjects

0106 biological sciences, Sympatry, character displacement, Ecology, interspecific competition, media_common.quotation_subject, Foraging, Niche, Niche differentiation, bat, Interspecific competition, resource, global, 01 natural sciences, Agricultural and Biological Sciences (miscellaneous), Competition (biology), 010601 ecology, climate change, Geography, Sympatric speciation, Character displacement, niche partitioning, Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Interspecific competition (IC) is often seen as a main driver of evolutionary patterns and community structure. Bats might compete for key resources, and cases of exaggerated divergence of resource-related characters or trait overdispersion in bat assemblages are often explained in terms of current or past interspecific competition. However, other pressures leading to patterns that mimic the outcome of competition cannot always be ruled out. We present the state of knowledge on IC among bats, providing a critical evaluation of the information available and identifying open questions and challenges. We reviewed 100 documents addressing potential or actual IC in bats and categorised them in terms of the resource for which bats compete (food, foraging habitat, roosts, water, and acoustic space). We also examined the ecomorphological and behavioural traits considered therein to highlight responses to IC or niche partitioning. We found that: although resources should be limiting in order for competition to occur, this is seldom tested; sympatry is sometimes taken as synonymous of syntopy (yet sympatric species that are not syntopic will never experience competition); comparisons between sympatry and allopatry are rare; and testing of objective criteria exploring the existence of niche partitioning or character displacement is not commonly adopted. While morphological examination of food remains in droppings has often led to coarse-grained analysis that proved insufficient to establish the occurrence of food niche overlap or partitioning, new frontiers are being opened by state-of-the-art molecular dietary analysis. A better understanding of IC in bats is paramount, since distributional changes leading to novel bat assemblages driven by climate change are already taking place, and the dramatic decline in insect availability, as well as the global loss or alteration of foraging habitat, may generate new competitive interactions or exacerbate existing interactions in the Anthropocene, and into the future.

Published

2019

22. Modelling current and future potential distributions of two desert jerboas under climate change in Iran

Author

E. Ebrahimi, M. Shahriari Moghadam, Luciano Bosso, and Saeed Mohammadi

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Applied Mathematics, Ecological Modeling, Ecology (disciplines), Species distribution, Climate change, 010603 evolutionary biology, 01 natural sciences, Computer Science Applications, Current (stream), Computational Theory and Mathematics, Modeling and Simulation, Ecology, Evolution, Behavior and Systematics, Modelling software

Abstract

Species distribution models (SDMs) are excellent tools to understand the factors that affect the potential distribution of several organisms at different scale. In this study, we analyzed the current potential distribution of the Blanford's Jerboa Jaculus blanfordi and the Arabian Jerboa Jaculus loftusi (Mammalia: Rodentia) in Iran and predicted the impact of climate change on their future potential distributions using two different modelling software packages: Maxent and sdm. Our results showed that precipitation was the most important variable affecting the potential distributions of J. blanfordi and J. loftusi in Iran. We also showed that the potential distributions of the two jerboas species are unlikely to be affected by climate change. All our models showed high levels of predictive performances. Thus, SDMs are a promising tool to complement data from laboratory and field studies to illuminate the biology and ecology of jerboa and inform management decisions.

Published

2019

23. Do We Need to Use Bats as Bioindicators?

Author

Luca Cistrone, Luciano Bosso, Sonia Smeraldo, Leonardo Ancillotto, Danilo Russo, Valeria B. Salinas-Ramos, Russo, Danilo, Salinas-Ramos, Valeria B, Cistrone, Luca, Smeraldo, Sonia, Bosso, Luciano, and Ancillotto, Leonardo

Subjects

0106 biological sciences, QH301-705.5, river, Population, Biodiversity, habitat, Biology, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Ecosystem services, foraging, forest, Chiroptera, Ecosystem, Biology (General), education, Trophic level, biodiversity, education.field_of_study, General Immunology and Microbiology, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, climate change, Habitat, Perspective, Mammal, General Agricultural and Biological Sciences, business, Bioindicator, urban, environment

Abstract

Simple Summary Bioindicators are organisms that react to the quality or characteristics of the environment and their changes. They are vitally important to track environmental alterations and take action to mitigate them. As choosing the right bioindicators has important policy implications, it is crucial to select them to tackle clear goals rather than selling specific organisms as bioindicators for other reasons, such as for improving their public profile and encourage species conservation. Bats are a species-rich mammal group that provide key services such as pest suppression, pollination of plants of economic importance or seed dispersal. Bats show clear reactions to environmental alterations and as such have been proposed as potentially useful bioindicators. Based on the relatively limited number of studies available, bats are likely excellent indicators in habitats such as rivers, forests, and urban sites. However, more testing across broad geographic areas is needed, and establishing research networks is fundamental to reach this goal. Some limitations to using bats as bioindicators exist, such as difficulties in separating cryptic species and identifying bats in flight from their calls. It is often also problematic to establish the environmental factors that influence the distribution and behaviour of bats. Abstract Bats show responses to anthropogenic stressors linked to changes in other ecosystem components such as insects, and as K-selected mammals, exhibit fast population declines. This speciose, widespread mammal group shows an impressive trophic diversity and provides key ecosystem services. For these and other reasons, bats might act as suitable bioindicators in many environmental contexts. However, few studies have explicitly tested this potential, and in some cases, stating that bats are useful bioindicators more closely resembles a slogan to support conservation than a well-grounded piece of scientific evidence. Here, we review the available information and highlight the limitations that arise in using bats as bioindicators. Based on the limited number of studies available, the use of bats as bioindicators is highly promising and warrants further investigation in specific contexts such as river quality, urbanisation, farming practices, forestry, bioaccumulation, and climate change. Whether bats may also serve as surrogate taxa remains a controversial yet highly interesting matter. Some limitations to using bats as bioindicators include taxonomical issues, sampling problems, difficulties in associating responses with specific stressors, and geographically biased or delayed responses. Overall, we urge the scientific community to test bat responses to specific stressors in selected ecosystem types and develop research networks to explore the geographic consistency of such responses. The high cost of sampling equipment (ultrasound detectors) is being greatly reduced by technological advances, and the legal obligation to monitor bat populations already existing in many countries such as those in the EU offers an important opportunity to accomplish two objectives (conservation and bioindication) with one action.

Published

2021

24. Zoonotic Risk: One More Good Reason Why Cats Should Be Kept Away from Bats

Author

Danilo Russo, Luciano Bosso, Emiliano Mori, Valeria B. Salinas-Ramos, Leonardo Ancillotto, Salinas-Ramos, Valeria B, Mori, Emiliano, Bosso, Luciano, Ancillotto, Leonardo, and Russo, Danilo

Subjects

0106 biological sciences, Microbiology (medical), spillover, 040301 veterinary sciences, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Wildlife, Zoology, lcsh:Medicine, cat, bat, 010603 evolutionary biology, 01 natural sciences, Predation, law.invention, 0403 veterinary science, law, Pandemic, medicine, Immunology and Allergy, Molecular Biology, CATS, General Immunology and Microbiology, SARS-CoV-2, spillback, lcsh:R, COVID-19, 04 agricultural and veterinary sciences, zoonotic risk, medicine.disease, Infectious Diseases, Geography, Transmission (mechanics), Perspective, Rabies, Risk assessment

Abstract

Bats are often unfairly depicted as the direct culprit in the current COVID-19 pandemic, yet the real causes of this and other zoonotic spillover events should be sought in the human impact on the environment, including the spread of domestic animals. Here, we discuss bat predation by cats as a phenomenon bringing about zoonotic risks and illustrate cases of observed, suspected or hypothesized pathogen transmission from bats to cats, certainly or likely following predation episodes. In addition to well-known cases of bat rabies, we review other diseases that affect humans and might eventually reach them through cats that prey on bats. We also examine the potential transmission of SARS-CoV-2, the causal agent of COVID-19, from domestic cats to bats, which, although unlikely, might generate a novel wildlife reservoir in these mammals, and identify research and management directions to achieve more effective risk assessment, mitigation or prevention. Overall, not only does bat killing by cats represent a potentially serious threat to biodiversity conservation, but it also bears zoonotic implications that can no longer be neglected.

Published

2021

25. Resilient responses by bats to a severe wildfire: conservation implications

Author

Danilo Russo, Luciano Bosso, Leonardo Ancillotto, Paola Conti, Ancillotto, Leonardo, Bosso, Luciano, Conti, Paola, and Russo, Danilo

Subjects

Geography, Ecology, business.industry, Environmental resource management, Resilience (network), business, Nature and Landscape Conservation

Abstract

Wildfires shape ecosystems globally, yet little is known on their effects on wildlife distribution and spatial behaviour. We used bats as models to test the effects of fire on ecosystems because they are multi-habitat specialists and feature ecological and life traits such as behavioural plasticity and longevity that make them able to respond to both short- and long-term environmental changes. We aimed at testing the effects of a severe wildfire on a Mediterranean bat assemblage in terms of occupancy, activity and individual fitness. Here, we measure the effects of fire on activity levels and occupancy by a Mediterranean bat assemblage at the Vesuvius National Park, in Southern Italy, over 4 years, encompassing a year when a severe wildfire occurred. By comparing bat occurrence and activity at burnt versus unburnt sites with a Before-After/Control-Impact approach, we found that bat responses to wildfires are species specific and depend on the time elapsed since the fire. Species that rely more strongly on forest areas showed a strong short-term adverse response in terms of occupancy and activity, while species adapted to open habitats showed no response 1 year after the wildfire. However, most species showed a general positive effect due to the passage of fire 2 years after its occurrence, probably because of vegetation regrowth. The wildfire event was also associated with reduced reproduction in at least one species, and to worse individual body conditions 1 year after the wildfire. Our results show that most bats in a Mediterranean ecosystem show resilience to the occurrence of fire, yet many species show negative short-term responses by altering their spatial behaviour and decreasing their investment in reproduction. Future increases in fire occurrence and intensity due to climate change may alter bat assemblages and impair population viability in the long term, hampering the fundamental ecosystem services provided by structured bat communities.

Published

2021

26. Novel perspectives on bat insectivory highlight the value of this ecosystem service in farmland: Research frontiers and management implications

Author

Danilo Russo, Leonardo Ancillotto, Luciano Bosso, Russo, Danilo, Bosso, Luciano, and Ancillotto, Leonardo

Subjects

0106 biological sciences, 0301 basic medicine, Ecology (disciplines), Social sustainability, Predation, Moth, 010603 evolutionary biology, 01 natural sciences, Ecosystem services, 03 medical and health sciences, Ecology of fear, Ecosystem, Molecular analysi, Ecology, business.industry, Agriculture, Diet, 030104 developmental biology, Geography, Sustainability, Animal Science and Zoology, Livestock, business, Agronomy and Crop Science

Abstract

Bats are major consumers of arthropods, and there is ever growing evidence that they play a pivotal role in the fight against agricultural pests. However, relatively little research has addressed explicitly this important topic, and studies in temperate regions (especially European case studies) are infrequent. In the last few years, state-of-art molecular methods to identify prey remains in droppings and new experimental approaches to assess the actual magnitude of this ecosystem service have opened new perspectives in research. In this review, we discuss such aspects with an emphasis on temperate regions, and identify new research frontiers. These comprise: (1) detecting new bat species that consume pests, and further pest insects that bats might eat; (2) exploring sublethal effects of bat echolocation calls on tympanate moth pests; (3) getting a better understanding of bat predation over blood-sucking arthropods that parasitize livestock; (4) unveiling indirect effects of bat predation on plant pathogens; (5) implementing models to map the occurrence of bat insectivory and the potential to promote it; and (6) analyse bat droppings for active surveillance of arthropod pests and the diseases they carry. We also highlight that so-called “common” bat species, often neglected in conservation actions, are likely to provide the bulk of pest suppression in agroecosystems. All such aspects merit investigation and may lead to novel management practices aimed at conjugating bat conservation with economic and social sustainability of farming.

Published

2018

27. Artificial illumination influences niche segregation in bats

Author

Chiara Nastasi, Valeria B. Salinas-Ramos, Sonia Smeraldo, Danilo Russo, Leonardo Ancillotto, Víctor Sánchez Cordero, Luciano Bosso, Luca Cistrone, Salinas-Ramos, Valeria B, Ancillotto, Leonardo, Cistrone, Luca, Nastasi, Chiara, Bosso, Luciano, Smeraldo, Sonia, Sánchez Cordero, Víctor, and Russo, Danilo

Subjects

010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Biomod2, Species distribution, Niche, 010501 environmental sciences, Toxicology, 01 natural sciences, Mammal, Competition (biology), Chiroptera, Animals, Pipistrellus kuhlii, Pipistrellus pipistrellus, Ecosystem, Lighting, 0105 earth and related environmental sciences, media_common, Mammals, biology, Animal, Ecology, Niche segregation, Species distribution model, General Medicine, Interspecific competition, biology.organism_classification, Habitat selection, Pollution, Geography, Italy, Habitat, Pipistrelle, Niche analysi

Abstract

Artificial light at night (ALAN) is a pervasive form of pollution largely affecting wildlife, from individual behaviour to community structure and dynamics. As nocturnal mammals, bats are often adversely affected by ALAN, yet some "light-opportunistic" species exploit it by hunting insects swarming near lights. Here we used two potentially competing pipistrelle species as models, Kuhl's (Pipistrellus kuhlii) and common (Pipistrellus pipistrellus) pipistrelles, both known to forage in artificially illuminated areas. We set our study in a mountainous area of central Italy, where only recently did the two species become syntopic. We applied spatial modelling and radiotracking to contrast potential vs. actual environmental preferences by the two pipistrelles. Species distribution models and niche analysis showed a large interspecific niche overlap, including a preference for illuminated areas, presenting a potential competition scenario. Pipistrellus pipistrellus association with ALAN, however, was weakened by adding P.kuhlii as a biotic variable to the model. Radiotracking showed that the two species segregated habitats at a small spatial scale and that P.kuhlii used artificially illuminated sites much more frequently than P.pipistrellus, despite both species potentially being streetlamp foragers. We demonstrate that ALAN influences niche segregation between two potentially competing species, confirming its pervasive effects on species and community dynamics, and provide an example of how light pollution and species' habitat preferences may weave a tapestry of complex ecological interactions.

Published

2021

28. Nature protection areas of Europe are insufficient to preserve the threatened beetleRosalia alpina(Coleoptera: Cerambycidae): evidence from species distribution models and conservation gap analysis

Author

Luciano Bosso, Pierpaolo Rapuzzi, Danilo Russo, Sonia Smeraldo, Gianfranco Sama, and Antonio P. Garonna

Subjects

0106 biological sciences, Nature reserve, Ecology, 010604 marine biology & hydrobiology, Endangered species, Gap analysis (conservation), Biology, 010603 evolutionary biology, 01 natural sciences, Habitat, Insect Science, Threatened species, IUCN Red List, Natura 2000, Protected area

Abstract

1. Natura 2000 network (N2000) and national protected areas (NPAs) are recognised as the most important core ‘units’ for biological conservation in Europe. 2. Species distribution models (SDMs) were developed to detect the potential distribution of the rare and threatened cerambycid beetle Rosalia alpina L. in Europe, and the amount of suitable habitat within the N2000 network [special areas of conservation (SACs) and special protection areas (SPAs)], NPAs (e.g. national parks, regional parks, state reserves, natural monuments and protected landscapes) and the overall European protected area network (EPAN) (N2000 + NPAs) was quantified. 3. According to this analysis, the suitable habitat for R. alpina in Europe amounts to c. 754 171 km2 and stretches across substantially uninterrupted areas from Portugal to Romania (west to east) and from Greece to Germany (south to north). The overlay between the existing system of conservation areas in Europe (N2000 and NPAs) and the binary map for R. alpina showed that only c. 42% of potential habitat is protected. SACs and SPAs protect c. 25% and 21% of potential habitat, respectively. However, because the two site types often spatially overlap, when taken together the entire N2000 network protects c. 31% of potential habitat. Instead, NPAs offer a degree of protection of c. 29%. Overall, almost 60% of the area potentially suitable for the species is unprotected by the EPAN, an aspect that should be considered carefully when planning the conservation of this beetle at a large scale. 4. These results may also help to focus field surveys in selected areas where greater chances of success are encountered to save resources and increase survey effectiveness.

Published

2017

29. Modelling the Risk Posed by the Zebra Mussel Dreissena polymorpha: Italy as a Case Study

Author

Danilo Russo, Carmelina De Conno, Luciano Bosso, Bosso, Luciano, DE CONNO, Carmelina, and Russo, Danilo

Subjects

Risk, 0106 biological sciences, Risk map, Population Dynamics, Forest management, Aquatic system, STREAMS, 010603 evolutionary biology, 01 natural sciences, Dreissena, Lake, Rivers, Hydroelectricity, Animals, Introduced Specie, River, Global and Planetary Change, Potential impact, Population Dynamic, Ecology, biology, Animal, 010604 marine biology & hydrobiology, Aquatic ecosystem, Species distribution model, Models, Theoretical, biology.organism_classification, Pollution, Lakes, Italy, Zebra mussel, Environmental science, Mollusc, Introduced Species, Biological invasion, Water Pollutants, Chemical, Environmental Monitoring

Abstract

We generated a risk map to forecast the potential effects of the spreading of zebra mussels Dreissena polymorpha across the Italian territory. We assessed the invader’s potential impact on rivers, lakes, watersheds and dams at a fine-grained scale and detected those more at risk that should be targeted with appropriate monitoring. We developed a MaxEnt model and employed weighted overlay analyses to detect the species’ potential distribution and generate risk maps for Italy. D. polymorpha has a greater probability of occurring at low to medium altitudes in areas characterised by fluviatile deposits of major streams. Northern and central Italy appear more at risk. Some hydroelectric power dams are at high risk, while most dams for irrigation, drinkable water reservoirs and other dam types are at medium to low risk. The lakes and rivers reaches (representing likely expansion pathways) at medium-high or high risk mostly occur in northern and central Italy. We highlight the importance of modelling potential invasions on a country scale to achieve the sufficient resolution needed to develop appropriate monitoring plans and prevent the invader’s harmful effects. Further high-resolution risk maps are needed for other regions partly or not yet colonised by the zebra mussel.

Published

2017

30. An African bat in Europe, Plecotus gaisleri: Biogeographic and ecological insights from molecular taxonomy and Species Distribution Models

Author

Danilo Russo, Giuseppe Mazza, Fausto Ramazzotti, Matthias Herkt, Emiliano Mori, Sonia Smeraldo, Luciano Bosso, Andrea Galimberti, Leonardo Ancillotto, Ancillotto, L, Bosso, L, Smeraldo, S, Mori, E, Mazza, G, Herkt, M, Galimberti, A, Ramazzotti, F, Russo, D, Department of Natural Resources, UT-I-ITC-FORAGES, Faculty of Geo-Information Science and Earth Observation, Ancillotto, L., Bosso, L., Smeraldo, S., Mori, E., Mazza, G., Herkt, M., Galimberti, A., Ramazzotti, F., and Russo, D.

Subjects

0106 biological sciences, Mediterranean climate, Species complex, Plecotus gaisleri, Species distribution, Biodiversity, molecular identification, 010603 evolutionary biology, 01 natural sciences, bioacoustics, 03 medical and health sciences, Mediterranean sea, lcsh:QH540-549.5, Plecotus, bioacoustic, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, cryptic species, Ecology, Phylogenetic tree, biology, Species Distribution Modeling, biology.organism_classification, Geography, Taxon, ITC-ISI-JOURNAL-ARTICLE, cryptic specie, lcsh:Ecology, ITC-GOLD, biomod2

Abstract

Because of the high risk of going unnoticed, cryptic species represent a major challenge to biodiversity assessments, and this is particularly true for taxa that include many such species, for example, bats. Long‐eared bats from the genus Plecotus comprise numerous cryptic species occurring in the Mediterranean Region and present complex phylogenetic relationships and often unclear distributions, particularly at the edge of their known ranges and on islands. Here, we combine Species Distribution Models (SDMs), field surveys and molecular analyses to shed light on the presence of a cryptic long‐eared bat species from North Africa, Plecotus gaisleri, on the islands of the Sicily Channel, providing strong evidence that this species also occurs in Europe, at least on the islands of the Western Mediterranean Sea that act as a crossroad between the Old Continent and Africa. Species Distribution Models built using African records of P. gaisleri and projected to the Sicily Channel Islands showed that all these islands are potentially suitable for the species. Molecular identification of Plecotus captured on Pantelleria, and recent data from Malta and Gozo, confirmed the species' presence on two of the islands in question. Besides confirming that P. gaisleri occurs on Pantelleria, haplotype network reconstructions highlighted moderate structuring between insular and continental populations of this species. Our results remark the role of Italy as a bat diversity hotspot in the Mediterranean and also highlight the need to include P. gaisleri in European faunal checklists and conservation directives, confirming the usefulness of combining different approaches to explore the presence of cryptic species outside their known ranges—a fundamental step to informing conservation.

Published

2020

31. Spatially explicit models as tools for implementing effective management strategies for invasive alien mammals

Author

Sandro Bertolino, Mirko Di Febbraro, Chiara Sciandra, Danilo Russo, Luciano Bosso, Peter W. W. Lurz, Bertolino, S., Sciandra, C., Bosso, L., Russo, D., Lurz, P. W. W., and Di Febbraro, M.

Subjects

0106 biological sciences, biological invasions, Biodiversity, biological invasion, Alien, 01 natural sciences, Invasive species, non-native specie, invasive mammal, Ecology, Evolution, Behavior and Systematics, invasive mammals, Warning system, business.industry, Environmental resource management, conservation, Effective management, non-native species, global, Agricultural and Biological Sciences (miscellaneous), management, spatially explicit population models, 010601 ecology, Geography, Population model, Animal Science and Zoology, Mammal, business, Risk assessment

Abstract

Invasive alien species are major drivers of global change that can have severe impacts on biodiversity and human well-being. Management strategies implemented to mitigate these impacts are based on a hierarchical approach, from prevention of invasion, via early warning and rapid response, to invasive species management. We evaluated how different classes of spatially explicit models have been used as predictive tools to improve the effectiveness of management strategies. A review of literature published between 2000 and 2019 was undertaken to retrieve studies addressing alien mammal species through these models. We collected 62 studies, dealing with 70 (27%) of the 261 mammal species that are considered to be introduced worldwide. Most of the studies dealt with species from the orders Rodentia (34%), Artiodactyla and Carnivora (both 24%); the most commonly studied families were Sciuridae (13%) and Muridae (12%). Most of the studies (73%) provided spatial predictions of potential species spread, while only ca. 15% of the studies included evaluations of management options. About 29% of the studies were considered useful in risk assessment procedures, but only because they presented climatic suitability predictions worldwide, while studies modelling suitability before a species was introduced locally are still lacking for mammals. With some exceptions, spatially explicit population models are still little used, probably because of the perceived need for detailed information on life history parameters. Spatially explicit models have been used in relatively few studies dealing with invasive mammals, and most of them covered a restricted pool of species. Most of the studies used climate matching to evaluate the suitability of geographic areas worldwide or the possibility of species that were already established spreading further. Modelling procedures could be a useful tool to assess the risk of establishment for species not yet present in an area but likely to arrive; however, such studies are lacking for mammals.

Published

2020

32. An African bat in Europe

Author

Leonardo, Ancillotto, Luciano, Bosso, Sonia, Smeraldo, Emiliano, Mori, Giuseppe, Mazza, Matthias, Herkt, Andrea, Galimberti, Fausto, Ramazzotti, and Danilo, Russo

Subjects

bioacoustics, cryptic species, Plecotus gaisleri, molecular identification, Species Distribution Modeling, biomod2, Original Research

Abstract

Because of the high risk of going unnoticed, cryptic species represent a major challenge to biodiversity assessments, and this is particularly true for taxa that include many such species, for example, bats. Long‐eared bats from the genus Plecotus comprise numerous cryptic species occurring in the Mediterranean Region and present complex phylogenetic relationships and often unclear distributions, particularly at the edge of their known ranges and on islands. Here, we combine Species Distribution Models (SDMs), field surveys and molecular analyses to shed light on the presence of a cryptic long‐eared bat species from North Africa, Plecotus gaisleri, on the islands of the Sicily Channel, providing strong evidence that this species also occurs in Europe, at least on the islands of the Western Mediterranean Sea that act as a crossroad between the Old Continent and Africa. Species Distribution Models built using African records of P. gaisleri and projected to the Sicily Channel Islands showed that all these islands are potentially suitable for the species. Molecular identification of Plecotus captured on Pantelleria, and recent data from Malta and Gozo, confirmed the species' presence on two of the islands in question. Besides confirming that P. gaisleri occurs on Pantelleria, haplotype network reconstructions highlighted moderate structuring between insular and continental populations of this species. Our results remark the role of Italy as a bat diversity hotspot in the Mediterranean and also highlight the need to include P. gaisleri in European faunal checklists and conservation directives, confirming the usefulness of combining different approaches to explore the presence of cryptic species outside their known ranges—a fundamental step to informing conservation., Here, we combine Species Distribution Models, field surveys, and molecular analyses to shed light on the long‐debated presence of a cryptic long‐eared bat species from North Africa, Plecotus gaisleri, on the islands of the Sicily Channel, providing strong evidence that this species also occurs in Europe, at least on the islands of Western Mediterranean that act as a crossroad between the Old Continent and Africa.

Published

2019

33. Plant pathogens but not antagonists change in soil fungal communities across a land abandonment gradient in a Mediterranean landscape

Author

Gennaro Cristinzio, Luciano Bosso, Federica Lacatena, Rosaria Varlese, Danilo Russo, S. Nocerino, Bosso, Luciano, Lacatena, Federica, Varlese, Rosaria, Nocerino, Sabrina, Cristinzio, Gennaro, and Russo, Danilo

Subjects

0301 basic medicine, Mediterranean climate, Woodland, Shrubland, 03 medical and health sciences, Agricultural land, Microbial community, Traditional farming, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Cylindrocarpon, geography, geography.geographical_feature_category, biology, Ecology, fungi, food and beverages, DNA, 04 agricultural and veterinary sciences, biology.organism_classification, Ecology, Evolution, Behavior and Systematic, 030104 developmental biology, Trichoderma, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Nectria, Cladosporium

Abstract

We assessed whether the presence and abundance of plant pathogens and antagonists change in soil fungal communities along a land abandonment gradient. The study was carried out in the Cilento area (Southern Italy) at a site with three different habitats found along a land abandonment gradient: agricultural land, Mediterranean shrubland and woodland. For all microbiological substrates the colony forming units were about 3.1 × 106 g−1 soil for agricultural land and about 1.1 × 106 g−1 soil for Mediterranean shrubland and woodland. We found the following genera in all habitats: Cladosporium, Mortierella, Penicillium and Trichoderma. In agricultural land, the significantly most abundant fungus genera were Aspergillus, Fusarium, Cylindrocarpon and Nectria; in Mediterranean shrubland, Rhizopus and Trichoderma; and in woodland, Bionectria, Mortierella, Cladosporium, Diplodia, Paecilomyces, Penicillium and Trichoderma. We found a total of 8, 8 and 9 species of fungal antagonist, and 16, 6 and 6 species of fungal plant pathogens in agricultural land, Mediterranean shrubland and woodland respectively. Fungal plant pathogens decreased significantly over a land abandonment gradient, while we no found significant differences among fungal antagonists in the three habitats. We conclude that a decrease in the number of fungal pathogen species occurs when formerly cultivated areas are abandoned. On the other hand, fungal antagonists seem not to be affected by this process.

Published

2017

34. Residual life and degradation assessment of wood elements used in soil bioengineering structures for slope protection

Author

Giovanni Battista Chirico, Gian Piero Lignola, Luciano Bosso, M. Brigante, Nunzio Romano, Romano, Nunzio, Lignola, GIAN PIERO, Brigante, Michele, Bosso, Luciano, and Chirico, GIOVANNI BATTISTA

Subjects

Engineering, Environmental Engineering, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, Management, Monitoring, Policy and Law, Residual, 01 natural sciences, Degradation, Erosion control, Slope stability, Framing (construction), Nondestructive testing, 021105 building & construction, Geotechnical engineering, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Safety factor, Moisture, Residual life, business.industry, Soil bioengineering, Wood, Durability, Slope protection, business, Mechanical propertie

Abstract

Soil bioengineering techniques to repair slope failures and increase slope stability are often used, if possible, as alternatives to traditional structures in order to mitigate the environmental impact without losing the effectiveness of the work. These techniques use live plants and entrust most of their structural resistance to wood members whose mechanical characteristics, however, decrease with time. Very few investigations have dealt with the decay of mechanical characteristics of wood elements employed in soil bioengineering techniques and lifetime predictions. This information is also important for durability forecasting. In this paper we present the results of experimental analyses carried out to evaluate the degradation of mechanical properties of untreated timber elements, which were collected from single and double live cribwalls or check-dams built about 10 years ago in the Vesuvius National Park (Naples, Southern Italy). To help in adequately interpreting the behavior of a complex material such as wood, a novelty of this study is not only the coupling of the ultrasonic and sclerometric nondestructive testing (NDT) methods so as to reduce measurement errors, but also to frame the outcomes from mechanical tests within the biological analysis of fungi detected on the timbers. Exploratory statistical analyses have revealed that there exist nearly no correlations between moisture contents in the timber elements and both transversal and longitudinal ultrasonic velocities, but some clustering provides insights in the results obtained. Comparisons between results using data measured on “old” and “new” timber elements enable some evaluations of residual safety factor assessment to be carried out.

Published

2016

35. Body Size Variation in Italian Lesser Horseshoe Bats Rhinolophus hipposideros over 147 Years: Exploring the Effects of Climate Change, Urbanization and Geography

Author

Víctor Sánchez-Cordero, Paolo Agnelli, Luciano Bosso, Leonardo Ancillotto, Valeria B. Salinas-Ramos, and Danilo Russo

Subjects

land use change, 0106 biological sciences, 0301 basic medicine, natural history collections, Bergmann’s rule, Rhinolophus hipposideros, Climate change, bat, Horseshoe bat, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Latitude, 03 medical and health sciences, Effects of global warming, morphology, Land use, land-use change and forestry, lcsh:QH301-705.5, General Immunology and Microbiology, biology, Ecology, Phenology, light pollution, biology.organism_classification, Bergmann's rule, climate change, 030104 developmental biology, Geography, lcsh:Biology (General), General Agricultural and Biological Sciences

Abstract

Body size in animals commonly shows geographic and temporal variations that may depend upon several environmental drivers, including climatic conditions, productivity, geography and species interactions. The topic of body size trends across time has gained momentum in recent years since this has been proposed as a third universal response to climate change along with changes in distribution and phenology. However, disentangling the genuine effects of climate change from those of other environmental factors is often far from trivial. In this study, we tested a set of hypotheses concerning body size variation across time and space in Italian populations of a rhinolophid bat, the lesser horseshoe bat Rhinolophus hipposideros. We examined forearm length (FAL) and cranial linear traits in a unique historical collection of this species covering years from 1869 to 2016, representing, to the best of our knowledge, the longest time series ever considered in a morphological assessment of a bat species. No temporal changes occurred, rejecting the hypotheses that body size varied in response to climate change or urbanization (light pollution). We found that FAL increased with latitude following a Bergmann&rsquo, s rule trend, whereas the width of upper incisors, likely a diet-related trait, showed an opposite pattern which awaits explanation. We also confirmed that FAL is sexually dimorphic in this species and ruled out that insularity has any detectable effect on the linear traits we considered. This suggests that positive responses of body size to latitude do not mean per se that concurring temporal responses to climate change are also expected. Further investigations should explore the occurrence of these patterns over larger spatial scales and more species in order to detect the existence of general patterns across time and space.

Published

2020

36. Coastal Pine-Oak Glacial Refugia in the Mediterranean Basin: A Biogeographic Approach Based on Charcoal Analysis and Spatial Modelling

Author

Giuliano Bonanomi, Emilia Allevato, Gaetano Di Pasquale, Adriana Moroni, Danilo Russo, Antonio Saracino, Luciano Bosso, Di Pasquale, G, Saracino, A, Bosso, L, Russo, D, Moroni, A, Bonanomi, G, and Allevato, E

Subjects

0106 biological sciences, Mediterranean climate, Forest management, Woodland, Quercus pubescens, 010603 evolutionary biology, 01 natural sciences, Mediterranean Basin, Pinus mugo/uncinata, 03 medical and health sciences, Pinus sylvestris, Glacial period, 030304 developmental biology, 0303 health sciences, Last Glacial Maximum, biology, Ecology, forest history, Forestry, lcsh:QK900-989, biology.organism_classification, Ecological Niche Model, Pinus nigra, Deciduous, Geography, Charcoal, lcsh:Plant ecology, Paleoecology, Forest history, Last Glacial Maximum, Maxent, Palaeoecology, Pinus nigra, Pinus sylvestris, Quercus pubescens, Species distribution model, Temperate trees, Maxent

Abstract

During the glacial episodes of the Quaternary, European forests were restricted to small favourable spots, namely refugia, acting as biodiversity reservoirs. the Iberian, Italian and Balkan peninsulas have been considered as the main glacial refugia of trees in Europe. In this study, we estimate the composition of the last glacial forest in a coastal cave of the Cilento area (SW Italy) in seven time frames, spanning from the last Pleniglacial to the Late Glacial. Charcoal analyses were performed in seven archaeological layers. Furthermore, a paleoclimate modelling (Maxent) approach was used to complement the taxonomic identification of charcoal fragments to estimate the past potential distribution of tree species in Europe. Our results showed that the mesothermophilous forest survived in this region in the core of the Mediterranean basin during the Last Glacial Period (LGP, since ~36 ka cal BP), indicating that this area played an important role as a reservoir of woodland biodiversity. Here, Quercus pubescens was the most abundant component, followed by a wide variety of deciduous trees and Pinus nigra. Charcoal data also pointed at the crucial role of this coastal area, acting as a reservoir for warm temperate trees of genera Tilia, Carpinus and Sambucus, in LGP, in the Mediterranean region. Our modelling results showed that P. nigra might be the main candidate as a &ldquo, Pinus sylvestris type&rdquo, in the study site in the Last Glacial Maximum (LGM). Furthermore, we found that P. nigra might coexist with Q. pubescens in several European territories both currently and in the LGM. All models showed high levels of predictive performances. Our results highlight the advantage of combining different approaches such as charcoal analysis and ecological niche models to explore biogeographic questions about past and current forest distribution, with important implications to inform today&rsquo, s forest management and conservation.

Published

2020

37. From Nucleotides to Satellite Imagery: Approaches to Identify and Manage the Invasive Pathogen Xylella fastidiosa and Its Insect Vectors in Europe

Author

Francesca Raffini, Roberto Biello, Guido D'Urso, Luciano Bosso, Giorgio Bertorelle, Danilo Russo, Raffini, F., Bertorelle, G., Biello, R., D'Urso, G., Russo, D., and Bosso, L.

Subjects

0106 biological sciences, Geography, Planning and Development, TJ807-830, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Invasive species, genomic, remote sensing, 03 medical and health sciences, GE1-350, Economic impact analysis, ecological niche model, Environmental planning, 030304 developmental biology, Xylella fastidiosa, whole genome sequencing, 0303 health sciences, Genetic diversity, Environmental effects of industries and plants, biology, ecological niche model, epidemiology, genetic diversity, genomic, GIS, insect vector, remote sensing, spatially explicit model, whole genome sequencing, Xylella fastidiosa, Renewable Energy, Sustainability and the Environment, Ambientale, spatially explicit model, genetic diversity, Building and Construction, GIS, biology.organism_classification, Variety (cybernetics), Environmental sciences, Geography, Sustainable management, insect vector, Spatial ecology, epidemiology, Identification (biology), 010606 plant biology & botany

Abstract

Biological invasions represent some of the most severe threats to local communities and ecosystems. Among invasive species, the vector-borne pathogen Xylella fastidiosa is responsible for a wide variety of plant diseases and has profound environmental, social and economic impacts. Once restricted to the Americas, it has recently invaded Europe, where multiple dramatic outbreaks have highlighted critical challenges for its management. Here, we review the most recent advances on the identification, distribution and management of X. fastidiosa and its insect vectors in Europe through genetic and spatial ecology methodologies. We underline the most important theoretical and technological gaps that remain to be bridged. Challenges and future research directions are discussed in the light of improving our understanding of this invasive species, its vectors and host–pathogen interactions. We highlight the need of including different, complimentary outlooks in integrated frameworks to substantially improve our knowledge on invasive processes and optimize resources allocation. We provide an overview of genetic, spatial ecology and integrated approaches that will aid successful and sustainable management of one of the most dangerous threats to European agriculture and ecosystems.

Published

2020

38. The importance of ponds for the conservation of bats in urban landscapes

Author

Valeria B. Salinas-Ramos, Danilo Russo, Leonardo Ancillotto, Luciano Bosso, Ancillotto, L., Bosso, L., Salinas-Ramos, V. B., and Russo, Danilo

Subjects

Foraging, 0211 other engineering and technologies, Wildlife, 02 engineering and technology, Woodland, 010501 environmental sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Natural (archaeology), Urban ecosystem, Chiroptera, 0105 earth and related environmental sciences, Nature and Landscape Conservation, Urban biodiversity, geography.geographical_feature_category, Ecology, Pond, Water site, 021107 urban & regional planning, Vegetation, Urban Studies, Geography, Habitat, Archipelago, Species richness

Abstract

Ponds have an important role in the ecology of urban areas, as they provide essential habitats to aquatic species, as well as fundamental resources to terrestrial wildlife. Artificial water sites such as urban ponds provide foraging and drinking resources to synurbic wildlife, among which bats stand out as an important group. Availability of water sources may thus strongly influence the persistence of animal populations in urban habitats. Pond characteristics, as well as landscape structural patterns in the surrounding area, may modulate the use of such water sites by bats. We investigated bat species richness and activity levels in a pond archipelago within the city of Rome, one of the largest urban areas in Italy. We hypothesized that the presence of woody vegetation and hedgerows affects activity rates over ponds and that bat responses to habitat and landscape structures as well as artificial illumination are species-specific. Bat species richness was mainly influenced by the availability of wooded vegetation within 1000 m around ponds, with minor effects of the amount of bank habitat, while bat activity was affected by different habitat features in a species-specific way. All species responded positively to pond proximity to linear landscape elements such as hedgerows and to the amount of bank habitat. The presence of natural banks, the amount of woodland and that of open green areas positively influenced the activity of different species at different scales, while distances between ponds and artificial lights had a species-specific effect direction. Our results highlight the importance of key factors characterizing ponds and the surrounding habitat in urban landscapes whose appropriate management may improve the viability of synurbic bat populations.

Published

2019

39. The Balkan long-eared bat (Plecotus kolombatovici) occurs in Italy – first confirmed record and potential distribution

Author

Paolo Agnelli, Luciano Bosso, Danilo Russo, Leonardo Ancillotto, Emiliano Mori, Ancillotto, L., Mori, E., Bosso, L., Agnelli, Alberto, and Russo, Danilo

Subjects

0106 biological sciences, Sympatry, Mediterranean climate, Species complex, Vespertilionidae, 010603 evolutionary biology, 01 natural sciences, Genus Plecotus, Chiroptera, Plecotus kolombatovici, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Plecotus, Species distribution models, Ecology, Evolution, Behavior and Systematics, biology, Ecology, 05 social sciences, Species distribution model, biology.organism_classification, Italy, Potential distribution, Animal ecology, Conservation status, Animal Science and Zoology

Abstract

In recent years, many cryptic species of bats have been discovered thanks to the application of molecular techniques. The several long-eared bat species (genus Plecotus) occurring in Europe show a marked morphological similarity and occur in sympatry, so that when confusion may arise, molecular approaches have prime importance to establish the actual specific identity. Italy represents a diversity hotspot for bats in Europe, hosting 35 species, among them four Plecotus species. In this study we report on the first confirmed record of the Balkan’s long-eared bat Plecotus kolombatovici for peninsular Italy, review previous unconfirmed records and analyse the species’ potential distribution in the country using a modelling approach. The species’ potential distribution is strongly associated with warm summer temperatures and relatively high winter precipitations, typical of Mediterranean climate. The modelling exercise we did highlights that P. kolombatovici may occur in much of the Italian territory, including the Tyrrhenian coast and on many islands that border it. We therefore argue that P. kolombatovici presence has been so far overlooked due to the morphological resemblance of this species with the grey long-eared bat P. austriacus. Comprehensive surveys are needed to ascertain the actual distribution and establish the conservation status in Italy of this poorly known species to adopt effective legal and practical conservation measures.

Published

2019

40. What is driving range expansion in a common bat? Hints from thermoregulation and habitat selection

Author

Valentina Nardone, Leonardo Ancillotto, Ivy Di Salvo, Danilo Russo, Luciano Bosso, Ivana Budinski, Paola Conti, Martina Della Corte, Ancillotto, Leonardo, Budinski, Ivana, Nardone, Valentina, DI SALVO, Ivy, Della Corte, Martina, Bosso, Luciano, Conti, Paola, and Russo, Danilo

Subjects

0106 biological sciences, Male, Range (biology), Hypsugo savii, Torpor, Foraging, Climate change, 010603 evolutionary biology, 01 natural sciences, Overheating, Thermoregulation, Hypsugo, Behavioral Neuroscience, Homing Behavior, Urbanization, Chiroptera, Animals, Telemetry, Ecosystem, biology, Ecology, National park, Animal, 010604 marine biology & hydrobiology, General Medicine, Feeding Behavior, 15. Life on land, biology.organism_classification, Geography, Habitat, Italy, 13. Climate action, Animal Science and Zoology, Female, Radio-telemetry, Synurbic, Body Temperature Regulation

Abstract

Human-induced alterations of ecosystems and environmental conditions often lead to changes in the geographical range of plants and animals. While modelling exercises may contribute to understanding such dynamics at large spatial scales, they rarely offer insights into the mechanisms that prompt the process at a local scale. Savi’s pipistrelle (Hypsugo savii) is a vespertilionid bat widespread throughout the Mediterranean region. The species’ recent range expansion towards northeastern Europe is thought to be induced by urbanization, yet no study actually tested this hypothesis, and climate change is a potential alternative driver. In this radio-telemetry study, set in the Vesuvius National Park (Campania region, Southern Italy) we provide insights into the species’ thermal physiology and foraging ecology and investigate their relationships with potential large-scale responses to climate, and land use changes. Specifically, we test whether H. savii i) exploits urbanisation by selecting urban areas for roosting and foraging, and ii) tolerates heatwaves (a proxy for thermophily) through a plastic use of thermoregulation. Tolerance to heatwaves would be consistent with the observation that the species’ geographic range is not shifting but expanding northwards. Tracked bats roosted mainly in buildings but avoided urban habitats while foraging, actively selecting non-intensive farmland and natural wooded areas. Hypsugo H. savii showed tolerance to heat, reaching the highest body temperature ever recorded for a free-ranging bat (46.5 °C), and performing long periods of overheating. We conclude that H. savii is not a strictly synurbic species because it exploits urban areas mainly for roosting, and avoids them for foraging: this questions the role of synurbization as a range expansion driver. On the other hand, the species’ extreme heat tolerance and plastic thermoregulatory behaviour represent winning traits to cope with heatwaves typical of climate change-related weather fluctuations.

Published

2018

41. Loss of potential bat habitat following a severe wildfire: a model-based rapid assessment

Author

Danilo Russo, Sara D’Arco, Paola Conti, Luciano Bosso, Leonardo Ancillotto, Sonia Smeraldo, Antonello Migliozzi, Bosso, Luciano, Ancillotto, Leonardo, Smeraldo, Sonia, D’Arco, Sara, Migliozzi, Antonello, Conti, Paola, and Russo, Danilo

Subjects

0106 biological sciences, Habitat fragmentation, Ecology, National park, 010604 marine biology & hydrobiology, Foraging, Species distribution, Biodiversity, Fragmentation (computing), Forestry, 010603 evolutionary biology, 01 natural sciences, Geography, Disturbance (ecology), Habitat

Abstract

Fire is a major disturbance that affects ecological communities, and when fire events increase in frequency or extent, they may jeopardise biodiversity. Although long-term studies are irreplaceable to understand how biological communities respond to wildfires, a rapid, efficient assessment of the consequences of wildfire is paramount to inform habitat management and restoration. Although Species Distribution Models (SDMs) may be applied to achieve this goal, they have not yet been used in that way. In summer 2017, during an extended drought that affected Italy, a severe wildfire occurred in the Vesuvius National Park (southern Italy). We applied SDMs to assess how much potential habitat was lost by the 12 bat species occurring in the area because of the wildfire, and whether habitat fragmentation increased following the event. Our analysis supported the hypotheses we tested (i.e. that the fire event potentially affected all species through habitat reduction and fragmentation) and that the bat species potentially most affected were those adapted to foraging in cluttered habitat (forest). We show that SDMs are a valuable tool for a first, rapid assessment of the effects of large-scale wildfires, and that they may help identify the areas that need to be monitored for animal activity and phenology, and to assist in saving human and financial resources.

Published

2018

42. Native red foxes depredate nests of alien pond sliders: Evidence from molecular detection of prey in scats

Author

Martina Della Corte, Valentina Nardone, Andrea Galimberti, Antonia Bruno, Luciano Bosso, Danilo Russo, Maurizio Casiraghi, Martina Sasso, Nardone, V, Bosso, L, Della Corte, M, Sasso, M, Galimberti, A, Bruno, A, Casiraghi, M, Russo, D, Nardone, Valentina, Bosso, Luciano, Della Corte, Martina, Sasso, Martina, Galimberti, Andrea, Bruno, Antonia, Casiraghi, Maurizio, and Russo, Danilo

Subjects

0106 biological sciences, Vulpes, Zoology, Introduced species, Alien, 010603 evolutionary biology, 01 natural sciences, Predation, parasitic diseases, Carnivore, Ecology, Evolution, Behavior and Systematics, Resistance (ecology), biology, Ecology, fungi, Freshwater turtle, biology.organism_classification, Ecology, Evolution, Behavior and Systematic, Diet, 010601 ecology, Trachemys scripta, Animal ecology, Feeding behaviour, Animal Science and Zoology, Vulpes vulpe, BIO/05 - ZOOLOGIA

Abstract

Predation by native species is a chief resistance factor that may counter the spread of alien organisms. Its comprehension plays therefore an important role to assess the impact of biological invasions and implement management. In this study, we show for the first time that red foxes (Vulpes vulpes) may depredate nests of alien pond sliders (Trachemys scripta). We set our work in a Mediterranean area of Southern Italy where both species are frequent. We observed that red foxes excavated pond slider nests to eat the eggs. We then used a molecular approach to demonstrate the presence of pond slider’s DNA in the carnivore’s scats, and found that pond slider’s DNA occurred in over half of the scat sample collected during the oviposition season. Whether egg consumption by red foxes is widespread rather than only a local response and might eventually lead to population control of pond sliders needs further investigation.

Published

2018

43. Environmental drivers of parasite load and species richness in introduced parakeets in an urban landscape

Author

Francesca Manzia, Leonardo Ancillotto, F. Renzopaoli, Danilo Russo, Erica McAlister, Emiliano Mori, Luciano Bosso, Vincent S. Smith, Theresa M. Howard, Jan Beccaloni, V. Studer, Ancillotto, L., Studer, V., Howard, T., Smith, V. S., Mcalister, E., Beccaloni, J., Manzia, F., Renzopaoli, F., Bosso, L., Russo, Danilo, and Mori, E.

Subjects

0106 biological sciences, Ectoparasite, Bird Disease, media_common.quotation_subject, Wildlife, Introduced species, Biology, 010603 evolutionary biology, 01 natural sciences, Parasite load, Competition (biology), Host Specificity, Parasite Load, Psittaciformes, Abundance (ecology), Animals, Parasites, Psittaciforme, Ecosystem, media_common, Introduced Specie, Population Density, Introduction, General Veterinary, Bird Diseases, Ecology, Animal, 010604 marine biology & hydrobiology, General Medicine, Ectoparasites, Myiopsitta monachus, Psittacula krameri, Urban ecology, Parasitology, Veterinary (all), Insect Science, Infectious Diseases, Parasite, Habitat, Italy, Myiopsitta monachu, Psittacula, Species richness, Introduced Species

Abstract

Introduced species represent a threat to native wildlife worldwide, due to predation, competition, and disease transmission. Concurrent introduction of parasites may also add a new dimension of competition, i.e. parasite-mediated competition, through spillover and spillback dynamics. Urban areas are major hotspots of introduced species, but little is known about the effects of urban habitat structure on the parasite load and diversity of introduced species. Here, we investigated such environmental effects on the ectoparasite load, richness, and occurrence of spillback in two widespread invasive parakeets, Psittacula krameri and Myiopsitta monachus, in the metropolitan area of Rome, central Italy. We tested 231 parakeets and found that in both species parasite load was positively influenced by host abundance at local scale, while environmental features such as the amount of natural or urban habitats, as well as richness of native birds, influenced parasite occurrence, load, and richness differently in the two host species. Therefore, we highlight the importance of host population density and habitat composition in shaping the role of introduced parakeets in the spread of both native and introduced parasites, recommending the monitoring of urban populations of birds and their parasites to assess and manage the potential occurrence of parasite-mediated competition dynamics as well as potential spread of vector-borne diseases.

Published

2018

44. Ignoring seasonal changes in the ecological niche of non-migratory species may lead to biases in potential distribution models: lessons from bats

Author

Luciano Bosso, Javier Juste, Xavier Puig-Montserrat, David Guixé, Carles Flaquer, Sonia Smeraldo, Fulgencio Lisón, Angelika Meschede, Mirko Di Febbraro, Julia Prüger, Danilo Russo, Smeraldo, Sonia, Di Febbraro, M., Bosso, Luciano, Flaquer, Carle, Guixé, D., Lisón, F., Meschede, A., Juste, J., Prüger, J., Puig-Montserrat, X., and Russo, Danilo

Subjects

0106 biological sciences, Ecological niche, Ecology, Phenology, 010604 marine biology & hydrobiology, Reproduction, Species distribution, Biomod2, Biodiversity, Species distribution model, Seasonality, medicine.disease, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematic, Geography, Habitat, IUCN, Hibernation, Temperate climate, medicine, IUCN Red List, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Phenology is a key feature in the description of species niches to capture seasonality in resource use and climate requirements. Species distribution models (SDMs) are widespread tools to evaluate a species’ potential distribution and identify its large-scale habitat preferences. Despite its chief importance, data phenology is often neglected in SDM development. Non-migratory bats of temperate regions are good model species to test the effect of data seasonality on SDM outputs because of their different roosting preferences between hibernation and reproduction. We hypothesized that (1) the output of SDMs developed for six non-migratory European bat species will differ between hibernation and reproduction; (2) models built from datasets encompassing both ecological stages will perform better than seasonal models. We employed a dataset of 470 independent occurrences of bat hibernacula and 400 independent records of nursery roosts of selected species and for each species we developed separate winter, summer and mixed (i.e. generated from both winter and summer occurrences) models. Seasonal and mixed potential ranges differed from each other and the direction of this difference was species-specific. Mixed models outperformed seasonal models in representing species niches. Our work highlights the importance of considering data seasonality in the development of SDMs for bats as well as many other organisms, including non-migratory species, otherwise the analysis will lead to significant biases whose consequences for conservation planning and landscape management may be detrimental.

Published

2018

45. Habitat suitability and movement corridors of grey wolf (Canis lupus) in Northern Pakistan

Author

Steve Redpath, Muhammad Nawaz, Jaffar Ud Din, Luciano Bosso, Hussain Ali, Richard Bischof, Muhammad Kabir, and Shoaib Hameed

Subjects

0106 biological sciences, Range (biology), Species distribution, lcsh:Medicine, Transportation, 01 natural sciences, Geographical Locations, Photography, Pakistan, lcsh:Science, Conservation Science, Mammals, Multidisciplinary, biology, Geography, Ecology, Environmental resource management, Eukaryota, Agriculture, Ruminants, Livelihood, Transportation Infrastructure, Natural resource, Carnivory, Habitats, Trophic Interactions, Canis, Habitat, Community Ecology, Vertebrates, Engineering and Technology, Livestock, Research Article, Asia, Movement, 010603 evolutionary biology, Civil Engineering, Animals, Ecosystem, Wolves, business.industry, 010604 marine biology & hydrobiology, Deer, lcsh:R, Ecology and Environmental Sciences, Organisms, Reproducibility of Results, Biology and Life Sciences, Models, Theoretical, biology.organism_classification, Roads, Amniotes, People and Places, Survey data collection, lcsh:Q, business

Abstract

Habitat suitability models are useful to understand species distribution and to guide management and conservation strategies. The grey wolf (Canis lupus) has been extirpated from most of its historic range in Pakistan primarily due to its impact on livestock and livelihoods. We used non-invasive survey data from camera traps and genetic sampling to develop a habitat suitability model for C. lupus in northern Pakistan and to explore the extent of connectivity among populations. We detected suitable habitat of grey wolf using a maximum entropy approach (Maxent ver. 3.4.0) and identified suitable movement corridors using the Circuitscape 4.0 tool. Our model showed high levels of predictive performances, as seen from the values of area under curve (0.971±0.002) and true skill statistics (0.886±0.021). The main predictors for habitat suitability for C. lupus were distances to road, mean temperature of the wettest quarter and distance to river. The model predicted ca. 23,129 km2 of suitable areas for wolf in Pakistan, with much of suitable habitat in remote and inaccessible areas that appeared to be well connected through vulnerable movement corridors. These movement corridors suggest that potentially the wolf range can expand in Pakistan's Northern Areas. However, managing protected areas with stringent restrictions is challenging in northern Pakistan, in part due to heavy dependence of people on natural resources. The habitat suitability map provided by this study can inform future management strategies by helping authorities to identify key conservation areas.

Published

2017

46. Dispersal and connectivity effects at different altitudes in the Euphydryas aurinia complex

Author

G. Panizza, M. Pesce, Silvia Ghidotti, Emilio Balletto, Francesca Barbero, Simona Bonelli, Luciano Bosso, Ramona Viterbi, E. Plazio, C. Cerrato, Luca Pietro Casacci, and M. Paveto

Subjects

Connectivity, education.field_of_study, Ecology, biology, Virtual migration model, Population, Metapopulation, biology.organism_classification, Emigration propensity, Butterfly conservation, Mark-recapture, Species complex, Animal ecology, Insect Science, Aurinia, Butterfly, Biological dispersal, Animal Science and Zoology, Habitats Directive, education, Nature and Landscape Conservation, Euphydryas

Abstract

Across its European range, the Euphydryas aurinia complex (Annex II of the Habitats Directive) includes a series of distinct populations. At least 3 taxa occur in Italy, each showing slight morphological differences and distinct eco-ethological features. For the first time, we compared metapopulation dynamics of E. (a.) glaciegenita inhabiting a site in the NW Alps (2,100–2,300 m) with E. (a.) provincialis occurring in the Mediterranean biogeographical region in hilly dry grasslands (700 m). To describe patterns of dispersal, we applied the virtual migration model (VMM) to data collected using Mark-Release-Recapture (MRR). We used parameters of survival and migration to explore metapopulation characteristics. In particular we investigated the relative role of connectivity and patch quality in affecting migration rates. We observed differences between the two metapopulation systems, with the “Alpine” population occurring at higher altitude and in more open habitats, showing lower dispersal propensity. In contrast, even though the “Mediterranean” population is more prone to disperse, migration appears to have higher costs. Dispersal abilities affect metapopulation dynamics, which are at the basis of long-term perspectives of survival for butterfly populations. We discuss our results in the framework of conservation and management options for habitats occupied by these Italian taxa of the E. aurinia complex.

Published

2014

47. A comprehensive overview of bacteria and fungi used for pentachlorophenol biodegradation

Author

Gennaro Cristinzio, Luciano Bosso, Bosso, Luciano, and Cristinzio, Gennaro

Subjects

Bjerkandera, Biocide, Environmental Engineering, Microorganism, Biology, Biodegradation, biology.organism_classification, Sphingomonas, Pollution, Applied Microbiology and Biotechnology, Microbiology, Pentachlorophenol, chemistry.chemical_compound, Bioremediation, chemistry, Environmental chemistry, Phanerochaete, Waste Management and Disposal

Abstract

Pentachlorophenol (PCP) is an extremely dangerous worldwide pollutant due to its high toxicity towards all organisms. It has been introduced into the environment mainly as a wood preservative, biocides and from the bleaching of paper or tissues. The use of PCP indiscriminate has led to the contamination of water and soil systems. Many countries have specific regulations, guidelines or procedures for the management and disposal of PCP but the most common methods are: adsorption with activate carbons, incineration in an approved and secure area, closed in sealed containers and biological degradation. PCP depletion can occur either by abiotic processes such as: absorption, volatilization and photo degradation or by biotic degradation. One of the main studies focused on remediation using plants, animals and microbial communities. Aerobic and anaerobic microorganisms can degrade PCP under a variety of conditions and at different PCP concentrations. Bacterial strains such as Pseudomonas sp., Sphingomonas sp., Arthrobacter sp., Mycobacterium sp., Flavobacterium sp., Serratia sp. and Bacillus sp., and fungal cultures as Trametes sp., Phanerochaete sp., Anthracophyllum sp., Armillaria sp., Bjerkandera sp., Ganoderma sp., Lentinula sp., Penicillium sp, Trichoderma sp., Rhizopus sp. and Plerotus sp. showed various rates and extent of PCP degradation. This review focuses on PCP degradation by various aerobic and anaerobic microorganisms with emphases on the biological and chemical aspects. Furthermore we will analyze intermediate products, processes and enzymes involved in the degradation of PCP in different environmental conditions and at various PCP concentrations.

Published

2014

48. Predicting current and future disease outbreaks of Diplodia sapinea shoot blight in Italy: species distribution models as a tool for forest management planning

Author

Gennaro Cristinzio, Luciano Bosso, Sonia Smeraldo, Giorgio Maresi, Danilo Russo, Nicola Luchi, Bosso, Luciano, Luchi, Nicola, Maresi, Giorgio, Cristinzio, Gennaro, Smeraldo, Sonia, and Russo, Danilo

Subjects

0106 biological sciences, Fungus, Range (biology), Ecology, Species distribution, Forest management, Outbreak, Climate change, Forestry, Representative Concentration Pathways, Management, Monitoring, Policy and Law, GIS, 010603 evolutionary biology, 01 natural sciences, Pine, Altitude, Geography, Forest ecology, Climate change Forest ecology Fungus GIS Maxent Pine, Maxent, Settore AGR/12 - PATOLOGIA VEGETALE, 010606 plant biology & botany, Nature and Landscape Conservation

Abstract

Species distribution models (SDMs) provide realistic scenarios to explain the influence of bioclimatic variables on plant pathogen distribution. Diplodia sapinea is most harmful to plantations of both exotic and native pine species in Italy, causing economic consequences expecially to edible seed production. In this study, we developed maximum entropy models for D. sapinea in Italy to reach the following goals: (i) to carry out the pathogen’s first geographical distribution analysis in Italy and determine which eco-geographical variables (EGVs) may influence its outbreaks; (ii) to detect the effect of climate change on the potential occurrence of disease outbreaks by 2050 and 2070. We used Maxent ver. 3.4.0 to develop SDMs. We used six global climate models (BCC-CSM1-1, CCSM4, GISS-E2-R, MIROC5, HadGEM2-ES and MPI-ESM-LR) for two representative concentration pathways (4.5 and 8.5) and two time projections (2050 and 2070) to detect future climate projections of D. sapinea. The most important EGVs influencing outbreaks were land cover, altitude, mean temperature of driest and wettest quarter, precipitation of wettest quarter, precipitation seasonality and minimum temperature of coldest month. The distribution of D. sapinea mostly expanded in central and southern Italy and shifted in altitude upwards on average by ca. 93m a.s.l. Moreover the fungus expanded the range where disease outbreaks may be recorded in response to an increase in the mean temperature of wettest and driest quarter by ca. 1.9 °C and 5.8 °C, respectively in all climate change scenarios. Precipitation of wettest quarter did not differ between current and any of future models. Under different climate change scenarios D. sapinea's disease outbreaks will be likely to affect larger areas of pine forests in the country, probably causing heavy effects on the dynamics and evolution of these stands or perhaps constraining their survival.

Published

2017

49. Species distribution models as a tool to predict range expansion after reintroduction: A case study on Eurasian beavers (Castor fiber)

Author

Igor Trbojević, Duško Ćirović, Sonia Smeraldo, Mirko Di Febbraro, Danilo Russo, Luciano Bosso, Smeraldo, Sonia, Di Febbraro, Mirko, Ćirović, Duško, Bosso, Luciano, Trbojević, Igor, and Russo, Danilo

Subjects

0106 biological sciences, Beaver, education.field_of_study, Extinction, Ecology, biology, Range (biology), business.industry, 010604 marine biology & hydrobiology, Species distribution, Population, Distribution (economics), Gap analysis (conservation), 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Fishery, Geography, Habitat, biology.animal, education, business, Nature and Landscape Conservation

Abstract

Species Distribution Models (SDMs) may provide important information for the follow-up phase of reintroduction operations by identifying the main areas most likely to be colonized by the reintroduced species. We used SDMs to identify the potential distribution of Eurasian beavers (Castor fiber) reintroduced to Serbia and Bosnia and Herzegovina in 2004–2006 after being historically driven to extinction by overhunting. Models were also used to carry out a gap analysis to assess the degree of protection granted by the national reserve networks to the potentially expanding population. Distances from hydrographic network, broadleaved forest, main watercourses and farmland were the main factors influencing model performance. We estimated that suitable habitat covers 14.0% (31,000 km2) of the whole study area. In Serbia, in 2004–2013 beavers expanded their range at a mean colonization speed of 70.9 ± 12.8 km/year (mean ± SD). Only 2.89% of and 9.72% of beaver’s suitable habitat lie within the national network of protected areas of Bosnia and Serbia respectively. We detected new potential areas where beavers will likely settle in the near future, advising on where further monitoring should be carried out. We also identified low suitability areas to be targeted with appropriate management to improve their conditions as well as important regions falling outside reserve boundaries to which protection should be granted.

Published

2017

50. Depletion of pentachlorophenol in soil microcosms with Byssochlamys nivea and Scopulariopsis brumptii as detoxification agents

Author

Luciano Bosso, Leila El-Bassi, Naceur Jedidi, Antonino Testa, Maria A. Rao, Nejla Hechmi, Rosalia Scelza, Hechmi, Nejla, Bosso, Luciano, El Bassi, Leila, Scelza, Rosalia, Testa, Antonino, Jedidi, Naceur, and Rao, MARIA ANTONIETTA

Subjects

0301 basic medicine, Biocide, Luminescence, Pentachlorophenol, Environmental Engineering, Health, Toxicology and Mutagenesis, Byssochlamys, Sinapis, Germination, 010501 environmental sciences, Biology, 01 natural sciences, Chlorophenol, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Bioremediation, Escherichia coli, Soil Pollutants, Environmental Chemistry, Soil Microbiology, Persistent organic pollutant, 0105 earth and related environmental sciences, Biotoxicity assay, Chemistry (all), Public Health, Environmental and Occupational Health, Fungi, General Medicine, General Chemistry, biology.organism_classification, Pollution, Soil contamination, PCP, Biodegradation, Environmental, 030104 developmental biology, chemistry, Scopulariopsis, Environmental chemistry, Microcosm, Soil microbiology

Abstract

Pentachlorophenol (PCP) is a toxic compound which is widely used as a wood preservative product and general biocide. It is persistent in the environment and has been classified as a persistent organic pollutant to be reclaimed in many countries. Fungal bioremediation is an emerging approach to rehabilitating areas fouled by recalcitrant xenobiotics. In the present study, we isolated two fungal strains from an artificially PCP-contaminated soil during a long-term bioremediation study and evaluated their potential as bioremediation agents in depletion and detoxification of PCP in soil microcosms. The two fungal strains were identified as: Byssochlamys nivea (Westling, 1909) and Scopulariopsis brumptii (Salvanet-Duval, 1935). PCP removal and toxicity were examined during 28 days of incubation. Bioaugmented microcosms revealed a 60% and 62% PCP removal by B. nivea and S. brumptii, respectively. Co-inoculation of B. nivea and S. brumptii showed a synergetic effect on PCP removal resulting in 95% and 80% PCP decrease when initial concentrations were 12.5 and 25 mg kg-1, respectively. Detoxification in bioaugmented soil and the efficient role of fungi in the rehabilitation of PCP contaminated soil were experimentally proven by toxicity assays. A decrease in inhibition of bioluminescence of Escherichia coli HB101 pUCD607 and an increase of germination index of mustard (Brassica alba) seeds were observed in the decontaminated soils.

Published

2016