Your search keyword '"REBELO, HUGO"' showing total 39 results

1. Detection and Prevalence of Coronaviruses in European Bats: A Systematic Review: Detection and Prevalence of Coronaviruses in European Bats...

Author

Hemnani, Mahima, da Silva, Priscilla Gomes, Thompson, Gertrude, Poeta, Patrícia, Rebelo, Hugo, and Mesquita, João R.

Published

2024

2. Molecular Survey of Protist Enteroparasites in Bats (Order Chiroptera) from Portugal

Author

López-López, Pedro, Cruz, Andreia V. S., Santos-Silva, Sérgio, Rivero-Juárez, Antonio, Rebelo, Hugo, and Mesquita, João R.

Published

2025

3. Agriculture and Water Availability Show Contrasting Effects on Bats in a Mediterranean Island of Outstanding Chiropteran Biogeographical Value.

Author

Cistrone, Luca, Augusto, Ana Margarida, Fichera, Gaetano, Rebelo, Hugo, and Russo, Danilo

Subjects

WATER management, ANIMAL diversity, SUSTAINABILITY, SUSTAINABLE agriculture, AGRICULTURAL water supply

Abstract

With their unique ecosystems and evolutionary dynamics, small islands offer fascinating contexts to explore animal diversity. Island bats are key players in maintaining ecological balance. However, their populations are threatened worldwide, necessitating comprehensive research and conservation strategies. Pantelleria, a small Mediterranean island and a biogeographic crossroad between Europe and Africa, offers an excellent model to exemplify the challenges to bat conservation in such geographic contexts. We tested three hypotheses: (1) bats would show weak preference patterns for landscape composition due to the island's heterogeneous landscapes, (2) farmland (especially vineyards) would strongly affect bat activity, and (3) distance from water sources would highly influence bat richness and activity. We surveyed bats acoustically using Audiomoth recorders covering most of the island's surface. We recorded seven bat species, including endangered Plecotus gaisleri, Myotis punicus and Rhinolophus mehelyi. Bats showed weak preferences for specific landscape composition, but the dominant species (Pipistrellus kuhlii) decreased its activity for increasing portions of vineyards within the landscape. Moreover, distance to water critically influenced bat richness and activity. Agricultural expansion, pesticide use and human activities pose significant threats to bats on Pantelleria. We advocate for sustainable farming practices and careful water resource management to safeguard bat habitats and mitigate these threats. Conservation should target vineyards, a key economic resource to produce world‐renowned wine 'Passito di Pantelleria' by reducing pesticide use and adopting organic management. Water might be supplemented in critical dry habitats. We urge the preservation of bat diversity to support ecosystem health and resilience on small islands like Pantelleria. [ABSTRACT FROM AUTHOR]

Published

2024

4. A metabarcoding assessment of the diet of the insectivorous bats of Madeira Island, Macaronesia.

Author

Gonçalves, Angelina, Nóbrega, Eva K, Rebelo, Hugo, Mata, Vanessa A, and Rocha, Ricardo

Subjects

BATS, BAT conservation, GENETIC barcoding, DIET, ISLANDS, AGRICULTURAL pests, SPECIES

Abstract

Understanding the trophic structure of species assemblages is crucial in order to comprehend how syntropic species coexist in space and time. Bats are the second most taxonomically diverse group of mammals and display a wide range of dietary strategies. Due to their ability to disperse over water, ca. 60% of all extant bat species occur on islands and for the most part their interspecific ecological interactions are poorly known. Using DNA metabarcoding, this study offers the first insights into the diet of Macaronesian bats by providing a holistic overview of prey consumed by all 3 bat species found on Madeira Island (Pipistrellus maderensis , Nyctalus leisleri verrucosus , and Plecotus austriacus) and investigating both interspecific (between P. maderensis and N. l. verrucosus) and intraspecific (between female and male N. l. verrucosus) dietary differences. We identified a total of 110 species of arthropod prey in the diet of the 3 bat species, including multiple agriculture and forestry pest species, a human disease-relevant species, and numerous taxa not previously recorded on the island. Lepidoptera was the primary prey order for all 3 bat species. The diet composition of P. maderensis and N. l. verrucosus differed significantly, with P. maderensis consuming more Diptera and multiple prey taxa not found in the diet of N. l. verucosus. Moreover, male N. l. verrucosus exhibited a broader niche breadth than females. This study is among the first to use DNA metabarcoding to evaluate the diet of insular bats and thus greatly advances knowledge regarding the trophic ecology and pest suppression services of these poorly-known mammals. [ABSTRACT FROM AUTHOR]

Published

2024

5. Molecular detection of Enterocytozoon bieneusi in bats from Portugal.

Author

Cruz, Andreia V S, López-López, Pedro, Santos-Silva, Sérgio, Rivero-Juárez, Antonio, Rebelo, Hugo, and Mesquita, João R

Abstract

Enterocytozoon bieneusi is a microsporidia commonly found in the gastrointestinal tract of humans and a wide range of other animals, constituting a major cause of microsporidiosis in humans. Although E. bieneusi has been detected in humans, domestic, and wild animals in Portugal, and its presence in bats has been linked to zoonotic characteristics, its occurrence in bats within the country has not been reported. In this study, we investigated the presence of E. bieneusi in 380 bat fecal samples collected in mainland Portugal through a nested PCR assay targeting the internal transcribed spacer region and the flanking small and large subunits of the ribosomal RNA. Enterocytozoon bieneusi was detected in one bat sample (i.e. 0.26%; Pipistrellus pipistrellus). Additionally, another sample tested positive for Enterocytozoon sp. Phylogenetic analysis of the obtained ITS sequence of E. bieneusi revealed clustering within the potentially zoonotic Group 1. This study represents the first report of E. bieneusi in a bat from Europe. Findings presented here contribute to an enhanced understanding of E. bieneusi epidemiology. [ABSTRACT FROM AUTHOR]

Published

2024

6. Presence of Alphacoronavirus in Tree- and Crevice-Dwelling Bats from Portugal.

Author

Hemnani, Mahima, da Silva, Priscilla Gomes, Thompson, Gertrude, Poeta, Patrícia, Rebelo, Hugo, and Mesquita, João R.

Subjects

CORONAVIRUSES, BATS, COVID-19, VIRAL transmission, ZOONOSES, DISEASE outbreaks

Abstract

Coronaviruses (CoVs) are RNA viruses capable of infecting a wide range of hosts, including mammals and birds, and have caused significant epidemics such as the ongoing COVID-19 pandemic. Bats, the second most diverse mammalian order, are hosts for various CoVs due to their unique immune responses and ecological traits. This study investigates CoV prevalence in crevice- and tree-dwelling bats in Portugal, a country with limited prior research on bat CoVs. Using nested RT-PCR and sequencing, we screened 87 stool samples from bats, identifying one sample (1.15%) that was positive for Alphacoronavirus, belonging to Pipistrellus pipistrellus. Phylogenetic analysis revealed close genetic relationships with Alphacoronavirus strains from the same bat species in Europe. The low prevalence suggests habitat-specific differences in viral transmission, with cave-dwelling bats exhibiting higher CoV prevalence due to population density and behaviour. These findings underscore the necessity for sustained surveillance efforts aimed at comprehending CoV dynamics within bat populations, especially concerning the risk of spillover events and viral evolution. Vital to this understanding is the monitoring of bat migration patterns, which serves as a crucial tool for elucidating CoV ecology and epidemiology. Such efforts are essential for ongoing research endeavours aimed at mitigating the potential for future zoonotic disease outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

7. Applying genomic approaches to identify historic population declines in European forest bats.

Author

Razgour, Orly, Montauban, Cecilia, Festa, Francesca, Whitby, Daniel, Juste, Javier, Ibáñez, Carlos, Rebelo, Hugo, Afonso, Sandra, Bekaert, Michael, Jones, Gareth, Williams, Carol, and Boughey, Katherine

Subjects

FOREST declines, DEMOGRAPHIC change, WILDLIFE conservation, GENETIC variation, BATS, ANIMAL populations, INBREEDING, ENDANGERED species

Abstract

Copyright of Journal of Applied Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Pest suppression by bats and management strategies to favour it: a global review.

Author

Tuneu‐Corral, Carme, Puig‐Montserrat, Xavier, Riba‐Bertolín, Daniel, Russo, Danilo, Rebelo, Hugo, Cabeza, Mar, and López‐Baucells, Adrià

Subjects

ARTHROPOD pests, INTEGRATED pest control, SCIENTIFIC literature, BIOLOGICAL pest control, BATS, AGRICULTURAL pests

Abstract

Fighting insect pests is a major challenge for agriculture worldwide, and biological control and integrated pest management constitute well‐recognised, cost‐effective ways to prevent and overcome this problem. Bats are important arthropod predators globally and, in recent decades, an increasing number of studies have focused on the role of bats as natural enemies of agricultural pests. This review assesses the state of knowledge of the ecosystem services provided by bats as pest consumers at a global level and provides recommendations that may favour the efficiency of pest predation by bats. Through a systematic review, we assess evidence for predation, the top‐down effect of bats on crops and the economic value of ecosystem services these mammals provide, describing the different methodological approaches used in a total of 66 reviewed articles and 18 agroecosystem types. We also provide a list of detailed conservation measures and management recommendations found in the scientific literature that may favour the delivery of this important ecosystem service, including actions aimed at restoring bat populations in agroecosystems. The most frequent recommendations include increasing habitat heterogeneity, providing additional roosts, and implementing laws to protect bats and reduce agrochemical use. However, very little evidence is available on the direct consequences of these practices on bat insectivory in farmland. Additionally, through a second in‐depth systematic review of scientific articles focused on bat diet and, as part of the ongoing European Cost Action project CA18107, we provide a complete list of 2308 documented interactions between bat species and their respective insect pest prey. These pertain to 81 bat species belonging to 36 different genera preying upon 760 insect pests from 14 orders in agroecosystems and other habitats such as forest or urban areas. The data set is publicly available and updatable. [ABSTRACT FROM AUTHOR]

Published

2023

9. Changing with the times: Seasonal environmental gradients unveil dynamic bat assemblages and vulnerability.

Author

Raposeira, Helena, Horta, Pedro, Heleno, Ruben, and Rebelo, Hugo

Subjects

BIOTIC communities, BATS, NUMBERS of species, HABITATS, SEASONS, MYOTIS

Abstract

Uncovering the temporal and spatial dynamics of biological communities in response to biotic and abiotic drivers is essential to predict the effects of environmental change on biodiversity. Similarly, estimating species vulnerability in the face of such dynamics is crucial for implementing effective conservation actions. We explored how bat diversity changes over the year across an altitudinal gradient and identified the environmental drivers that shape bat communities. By analysing species' marginality within the biophysical niche space, we evaluated bats' vulnerability to foreseeable environmental changes. Our results suggest that altitude, the proportion of forest cover and shrub cover are the main drivers shaping bat communities year‐round. Additionally, while some bat species are restricted to a single ecological assemblage (or ecological preferences group), others show greater plasticity throughout the year. Importantly, we found that although bats associated with highland habitats and forests could be particularly vulnerable to environmental changes (in particular Myotis mystacinus), this vulnerability correlates poorly with their national conservation status. We suggest that species' ecological plasticity is critical for the resilience of biological communities exposed to environmental changes and should be considered when planning tailored conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2023

10. First Report of Alphacoronavirus Circulating in Cavernicolous Bats from Portugal.

Author

Hemnani, Mahima, Silva, Priscilla Gomes da, Thompson, Gertrude, Poeta, Patricia, Rebelo, Hugo, and Mesquita, João R.

Subjects

CORONAVIRUSES, ANIMAL diversity, BATS, ANIMAL populations, AIR sampling

Abstract

The emergence of novel coronaviruses (CoVs) has emphasized the need to understand their diversity and distribution in animal populations. Bats have been identified as crucial reservoirs for CoVs, and they are found in various bat species worldwide. In this study, we investigated the presence of CoVs of four cavernicolous bats in six locations in the centre and south of Portugal. We collected faeces, anal, and buccal swab samples, as well as air samples from the locations using a Coriolis air sampler. Our results indicate that CoVs were more readily detected in faecal samples compared to anal and buccal swab samples. No CoVs were detected in the air samples. Phylogenetic analysis showed that the detected viruses belong to the Alphacoronavirus genus. This study represents the first report of Alphacoronaviruses circulating in bats in Portugal and highlights the importance of continuous surveillance for novel CoVs in bat populations globally. Ongoing surveillance for CoVs in bat populations is essential as they are a vital source of these viruses. It is crucial to understand the ecological relationships between animals, humans, and the environment to prevent and control the emergence and transmission of infectious diseases. Further ecological studies are needed to investigate the factors contributing to the emergence and transmission of zoonotic viruses. [ABSTRACT FROM AUTHOR]

Published

2023

11. Ground validation of presence-only modelling with rare species: a case study on barbastelles Barbastella barbastellus (Chiroptera: Vespertilionidae)

Author

Rebelo, Hugo and Jones, Gareth

Published

2010

12. Integrating molecular ecology and predictive modelling: implications for the conservation of the barbastelle bat (Barbastella barbastellus) in Portugal

Author

Rebelo, Hugo, Froufe, Elsa, Ferrand, Nuno, and Jones, Gareth

Published

2012

13. Counteracting forces of introgressive hybridization and interspecific competition shape the morphological traits of cryptic Iberian Eptesicus bats.

Author

Horta, Pedro, Raposeira, Helena, Baños, Adrián, Ibáñez, Carlos, Razgour, Orly, Rebelo, Hugo, and Juste, Javier

Subjects

COMPETITION (Biology), INTROGRESSION (Genetics), SYMPATRIC speciation, PREY availability, SPECIES hybridization, BATS

Abstract

Cryptic species that coexist in sympatry are likely to simultaneously experience strong competition and hybridization. The first phenomenon would lead to character displacement, whereas the second can potentially promote morphological similarity through adaptive introgression. The main goal of this work was to investigate the effect of introgressive hybridization on the morphology of cryptic Iberian Eptesicus bats when facing counteracting evolutionary forces from interspecific competition. We found substantial overlap both in dentition and in wing morphology traits, though mainly in individuals in sympatry. The presence of hybrids contributes to a fifth of this overlap, with hybrids showing traits with intermediate morphometry. Thus, introgressive hybridization may contribute to species adaptation to trophic and ecological space responding directly to the macro-habitats characteristics of the sympatric zone and to local prey availability. On the other hand, fur shade tended to be browner and brighter in hybrids than parental species. Colour differences could result from partitioning of resources as an adaptation to environmental factors such as roost and microhabitats. We argue that a balance between adaptive introgression and niche partitioning shapes species interactions with the environment through affecting morphological traits under selection. [ABSTRACT FROM AUTHOR]

Published

2022

14. Crowding after sudden habitat loss affects demography and social structure in a bat population.

Author

Amorim, Francisco, Pita, Ricardo, Mata, Vanessa A., Beja, Pedro, and Rebelo, Hugo

Subjects

SOCIAL structure, DEMOGRAPHY, MICROSATELLITE repeats, ANIMAL populations, BATS, HABITATS, ANIMAL herds

Abstract

The sudden loss of habitats due to natural or anthropogenic disturbances causes displacement of mobile animals from affected areas to refuge habitats, where large but often transitory concentrations of individuals may occur. While these local density increases have been previously described, the hypothesis that crowding disrupts demographic processes remains largely untested.Here we used the sudden flooding of a river valley by a hydroelectric reservoir as a quasi‐experiment to investigate the consequences of crowding on demography, fecundity and social structure in the European free‐tailed bat Tadarida teniotis.We monitored bat populations at roosts near and far from the flooded area, before (2013–2014), during (2015) and after (2016) habitat flooding. We assessed population demographic parameters using Capture–Mark–Recapture (CMR) models (3,821 PIT‐tagged individuals), and used genetic relatedness among individuals (1,407 individuals genotyped for 14 microsatellite markers) to infer changes in social structure.Habitat loss through flooding was associated with significant but transitory increases in the number of bats using nearby roosts. This may be related to the higher probability of individuals arriving at those roosts during flooding, together with increases in individual local residency through time, particularly among males. Individual apparent survival was highest during flooding and lowest in the following year, while the probability of leaving a roost safe from flooding was higher near the impact area than farther away. Crowding did not negatively affect fecundity, but the arrival of new individuals led to changes in social structure as revealed by lower genetic relatedness between individuals after disturbance at roosts near the flooding area, but not in those farther afield.Our study documents a clear example of crowding effects, suggesting that bats losing roosts due to a hydroelectric reservoir moved to alternative roosts, where local increases in population size and the arrival of new individuals reduced genetic relatedness and apparent survival, but not fecundity. These results support the hypothesis that crowding after habitat loss can disrupt population processes, even though effects may be subtle and short‐lived. Also, they point out the need to duly consider crowding effects when assessing and mitigating anthropogenic impacts on animal populations. [ABSTRACT FROM AUTHOR]

Published

2022

15. Combining DNA metabarcoding and ecological networks to inform conservation biocontrol by small vertebrate predators.

Author

Mata, Vanessa A., da Silva, Luis P., Veríssimo, Joana, Horta, Pedro, Raposeira, Helena, McCracken, Gary F., Rebelo, Hugo, and Beja, Pedro

Subjects

INSECT pest control, WILDLIFE conservation, GENETIC barcoding, INSECT pests, PEST control, POLYMER networks

Abstract

In multifunctional landscapes, diverse communities of flying vertebrate predators provide vital services of insect pest control. In such landscapes, conservation biocontrol should benefit service‐providing species to enhance the flow, stability and resilience of pest control services supporting the production of food and fiber. However, this would require identifying key service providers, which may be challenging when multiple predators interact with multiple pests. Here we provide a framework to identify the functional role of individual species to pest control in multifunctional landscapes. First, we used DNA metabarcoding to provide detailed data on pest species predation by diverse predator communities. Then, these data were fed into an extensive network analysis, in which information relevant for conservation biocontrol is gained from parameters describing network structure (e.g., modularity) and species roles in such network (e.g., centrality, specialization). We applied our framework to a Mediterranean landscape, where 19 bat species were found to feed on 132 insect pest species. Metabarcoding data revealed potentially important bats that consumed insect pest species in high frequency and/or diversity. Network analysis showed a modular structure, indicating sets of bat species that are required to regulate specific sets of insect pests. A few generalist bats had particularly important roles, either at network or module levels. Extinction simulations highlighted six bats, including species of conservation concern, which were sufficient to ensure that over three‐quarters of the pest species had at least one bat predator. Combining DNA metabarcoding and ecological network analysis provides a valuable framework to identify individual species within diverse predator communities that might have a disproportionate contribution to pest control services in multifunctional landscapes. These species can be regarded as candidate targets for conservation biocontrol, although additional information is needed to evaluate their actual effectiveness in pest regulation. [ABSTRACT FROM AUTHOR]

Published

2021

16. Are bat mist nets ideal for capturing bats? From ultrathin to bird nets, a field test.

Author

Ferreira, Diogo F, Jarrett, Crinan, Atagana, Patrick Jules, Powell, Luke L, and Rebelo, Hugo

Subjects

BATS, AEROSOLS, LONGEVITY, DURABILITY

Abstract

The use of mist nets is the most widespread technique to capture bats; however, no study has compared if the type of ground-level mist net used during sampling affects bat captures. We sampled bats using three different types of mist nets that varied in mesh (16, 18, and 20 mm) and denier/ply (45/1 and 75/2) sizes over 76 half-night surveys. We used 17–20 mist nets and checked them at intervals of 15–20 min. Capture rate for echolocating bats was higher in the two mist nets with the biggest denier/ply and smaller mesh sizes. "Ultrathin bat mist nets" showed the lowest capture rates (1.5 times less than "Regular bat mist nets"), whereas "Bird mist nets" had capture rates only 1.2 times smaller than "Regular bat mist nets." Our results showed that "Bird mist nets" can sample echolocating bats almost as well as "Regular bat mist nets," and that thinner mist nets may not be the best solution to capture bats that echolocate at high frequencies in this type of surveys. We highlight the importance of considering the efficiency, durability, and longevity of mist nets when choosing the ideal mist-net type for a bat survey. [ABSTRACT FROM AUTHOR]

Published

2021

17. Broad‐scale patterns of geographic avoidance between species emerge in the absence of fine‐scale mechanisms of coexistence.

Author

Novella‐Fernandez, Roberto, Juste, Javier, Ibáñez, Carlos, Rebelo, Hugo, Russo, Danilo, Alberdi, Antton, Kiefer, Andreas, Graham, Laura, Paul, Hynek, Doncaster, Charles Patrick, Razgour, Orly, and Capinha, Cesar

Subjects

COMPETITION (Biology), SPECIES distribution, SPECIES, BIOTIC communities, BASE pairs

Abstract

Aim: The need to forecast range shifts under future climate change has motivated an increasing interest in better understanding the role of biotic interactions in driving diversity patterns. The contribution of biotic interactions to shaping broad‐scale species distributions is, however, still debated, partly due to the difficulty of detecting their effects. We aim to test whether spatial exclusion between potentially competing species can be detected at the species range scale, and whether this pattern relates to fine‐scale mechanisms of coexistence. Location: Western Palearctic. Methods: We develop and evaluate a measure of geographic avoidance that uses outputs of species distribution models to quantify geographic exclusion patterns expected if interspecific competition affects broad‐scale distributions. We apply the measure to 10 Palearctic bat species belonging to four morphologically similar cryptic groups in which competition is likely to occur. We compare outputs to null models based on pairs of virtual species and to expectations based on ecological similarity and fine‐scale coexistence mechanisms. We project changes in range suitability under climate change taking into account effects of geographic avoidance. Results: Values of geographic avoidance were above null expectations for two cryptic species pairs, suggesting that interspecific competition could have contributed to shaping their broad‐scale distributions. These two pairs showed highest levels of ecological similarity and no trophic or habitat partitioning. Considering the role of competition modified predictions of future range suitability. Main conclusions: Our results support the role of interspecific competition in limiting the geographic ranges of morphologically similar species in the absence of fine‐scale mechanisms of coexistence. This study highlights the importance of incorporating biotic interactions into predictive models of range shifts under climate change, and the need for further integration of community ecology with species distribution models to understand the role of competition in ecology and biogeography. [ABSTRACT FROM AUTHOR]

Published

2021

18. Bats and wetlands: synthesising gaps in current knowledge and future opportunities for conservation.

Author

Mas, Maria, Flaquer, Carles, Rebelo, Hugo, and López‐Baucells, Adrià

Subjects

WETLANDS, KNOWLEDGE gap theory, BAT conservation, BATS, WETLAND conservation, PREY availability, FRESHWATER biodiversity

Abstract

Copyright of Mammal Review is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

19. DNA metabarcoding and spatial modelling link diet diversification with distribution homogeneity in European bats.

Author

Alberdi, Antton, Razgour, Orly, Aizpurua, Ostaizka, Novella-Fernandez, Roberto, Aihartza, Joxerra, Budinski, Ivana, Garin, Inazio, Ibáñez, Carlos, Izagirre, Eñaut, Rebelo, Hugo, Russo, Danilo, Vlaschenko, Anton, Zhelyazkova, Violeta, Zrnčić, Vida, and Gilbert, M. Thomas P.

Subjects

GENETIC barcoding, DNA, SPECIES distribution, BATS, ECOLOGICAL niche, HOMOGENEITY

Abstract

Inferences of the interactions between species' ecological niches and spatial distribution have been historically based on simple metrics such as low-resolution dietary breadth and range size, which might have impeded the identification of meaningful links between niche features and spatial patterns. We analysed the relationship between dietary niche breadth and spatial distribution features of European bats, by combining continent-wide DNA metabarcoding of faecal samples with species distribution modelling. Our results show that while range size is not correlated with dietary features of bats, the homogeneity of the spatial distribution of species exhibits a strong correlation with dietary breadth. We also found that dietary breadth is correlated with bats' hunting flexibility. However, these two patterns only stand when the phylogenetic relations between prey are accounted for when measuring dietary breadth. Our results suggest that the capacity to exploit different prey types enables species to thrive in more distinct environments and therefore exhibit more homogeneous distributions within their ranges. Ecological niche breadth may help explain spatial distribution patterns in animals. In this study on European bats, Alberdi et al. combine DNA metabarcoding and species distribution modelling to show that dietary niche breadth is related to hunting flexibility and broad-scale spatial patterns in species distribution. [ABSTRACT FROM AUTHOR]

Published

2020

20. Bats and rice: Quantifying the role of insectivorous bats as agricultural pest suppressors in rice fields.

Author

Tuneu-Corral, Carme, Puig-Montserrat, Xavier, Flaquer, Carles, Mata, Vanessa A., Rebelo, Hugo, Cabeza, Mar, and López-Baucells, Adrià

Abstract

• This is the first quantification of bat pest suppression in rice fields in Europe. • We proved Chilo suppressalis predation by bats through molecular analysis of guano. • If bats disappeared, pest impact and stem damage on rice fields would double. • Bats prevent losses of ∼ 70 kg rice/ha on average, which translates into 56€/ha. Rice represents the main staple food for more than half of the world's population, playing an essential role in food security and economic growth. One of the major pests affecting this crop is the striped rice stem borer moth (Chilo suppressalis), a widespread species found in Australasia, Asia and southern Europe. Bats are paramount insect consumers and their role as natural pest controllers in agriculture has been increasingly acknowledged, including in rice paddies. In this study we quantify, for the first time in Europe, the economic value of the ecosystem services provided by insectivorous bats as suppressors of a rice pest through exclusion experiments in rice plantations in Spain. Our study design included exclosures that prevented bats from hunting over some experimental areas, combined with molecular analyses of bat guano. By assessing the crop damage levels caused by C. supressalis inside and outside the exclosures, we showed that pest impact almost doubled in the absence of bats (94.5 % of damage increase). We estimated that bats were preventing crop losses of almost 70 kg of rice per hectare on average, which in economic terms would imply savings of 56€/ha. If we extrapolate our results to the national level, these values could reach up to 7.6 tonnes of rice, or more than 6 million euros saved by bats per year in Spain. Our findings highlight the importance of implementing management measures that favour bat populations in agrosystems as part of the Integrated Pest Management strategies to fight harmful insects, thereby increasing yields and land productivity in a sustainable and environmentally friendly way. [ABSTRACT FROM AUTHOR]

Published

2024

21. Evolutionary history of the European free‐tailed bat, a tropical affinity species spanning across the Mediterranean Basin.

Author

Amorim, Francisco, Razgour, Orly, Mata, Vanessa A., Lopes, Susana, Godinho, Raquel, Ibáñez, Carlos, Juste, Javier, Rossiter, Stephen J., Beja, Pedro, and Rebelo, Hugo

Subjects

PHYLOGEOGRAPHY, EUROPEAN history, YOUNGER Dryas, TROPICAL climate, ARCHIPELAGOES, BATS

Abstract

The Mediterranean Basin is a global biodiversity hotspot, hosting a number of native species belonging to families that are found almost exclusively in tropical climates. Yet, whether or not these taxa were able to survive in the Mediterranean region during the Quaternary climatic oscillations remains unknown. Focusing on the European free‐tailed bat (Tadarida teniotis), we aimed to (a) identify potential ancient populations and glacial refugia; (b) determine the post‐glacial colonization routes across the Mediterranean; and (c) evaluate current population structure and demography. Mitochondrial and nuclear markers were used to understand T. teniotis evolutionary and demographic history. We show that T. teniotis is likely restricted to the Western Palearctic, with mitochondrial phylogeny suggesting a split between an Anatolian/Middle East clade and a European clade. Nuclear data pointed to three genetic populations, one of which is an isolated and highly differentiated group in the Canary Islands, another distributed across Iberia, Morocco, and France, and a third stretching from Italy to the east, with admixture following a pattern of isolation by distance. Evolutionary and demographic reconstruction supports a pre‐Last Glacial Maximum (LGM) colonization of Italy and the Anatolian/Middle East, while the remaining populations were colonized from Italy after the Younger Dryas. We also found support for demographic expansion following the Iberian colonization. The results show that during the LGM T. teniotis persisted in Mediterranean refugia and has subsequently expanded to its current circum‐Mediterranean range. Our findings raise questions regarding the physiological and ecological traits that enabled species with tropical affinities to survive in colder climates. [ABSTRACT FROM AUTHOR]

Published

2020

22. Circum-Mediterranean Phylogeography of a Bat Coupled with Past Environmental Niche Modelling: a New Paradigm for the Recolonization of Europe?

Author

Bilgin, Rasit, Maraci, Oncu, Gürün, Kanat, Rebelo, Hugo, Puechmaille, Sebastien, Presetnik, Primož, Hamidović, Daniela, Fressel, Norma, Hulva, Pavel, Horáček, Ivan, Ibañez, Carlos, Karatas, Ahmet, Allegrini, Benjamin, Georgiakakis, Panagiotis, Gazaryan, Suren, Nagy, Zoltan, Abi-Said, Mounir, Lučan, Radek, Bartonička, Tomas, Nicolaou, Haris, Scaravelli, Dino, Karapandža, Branko, Uhrin, Marcel, Paunović, Milan, Benda, Petr, and Juste, Javier

Subjects

bats, phylogeography, environmental niche modelling, genetics, Miniopterus schreibersii

Abstract

The isolation of populations in the Iberian, the Italian and the Balkan peninsulas during the ice ages define four main paradigms that explain the distribution of intraspecific genetic diversity in Europe, though not without exceptions. In this study we investigated the phylogeography of a wide-spread bat species, the bent-winged bat, Miniopterus schreibersii around the Mediterranean basin and the Caucasus. Samples were collected from 28 new locations in 14 countries, and combined with previous data from four countries. We also undertook an environmental niche modeling (ENM) analysis, for predicting the current and past continental distribution of the species during the last glacial maximum (LGM). The genetics results indicate that populations of M. schreibersii in Europe went extinct and the continent was repopulated from Anatolia after the end of the LGM. The data show signatures of a gradual geographic expansion, as well as philopatric distributions of individual populations. In the Maghrebian region of North Africa, there is evidence for the presence of a new Miniopterus species (Miniopterus maghrebensis) occurring sympatrically with the nominotypic form, which we describe here for the first time. However, the fossil record in Iberia and the ENM results indicate continuous presence of Miniopterus in this peninsula that most probably was related to the Mahgrebian lineage during the LGM, but did not persist after the LGM. Combined with similar results from previous studies, we define a new paradigm that involves the recolonization of all of Europe from Anatolia. The study shows how genetics and ENM approaches can complement each other in providing a more detailed picture of intraspecific evolution of species.

Published

2013

23. Bat responses to climate change: a systematic review.

Author

Festa, Francesca, Ancillotto, Leonardo, Santini, Luca, Pacifici, Michela, Rocha, Ricardo, Toshkova, Nia, Amorim, Francisco, Benítez‐López, Ana, Domer, Adi, Hamidović, Daniela, Kramer‐Schadt, Stephanie, Mathews, Fiona, Radchuk, Viktoriia, Rebelo, Hugo, Ruczynski, Ireneusz, Solem, Estelle, Tsoar, Asaf, Russo, Danilo, and Razgour, Orly

Subjects

BATS, SPECIES distribution, DEVELOPING countries, SPECIES diversity, CLIMATE change, PLANT phenology

Abstract

Understanding how species respond to climate change is key to informing vulnerability assessments and designing effective conservation strategies, yet research efforts on wildlife responses to climate change fail to deliver a representative overview due to inherent biases. Bats are a species‐rich, globally distributed group of organisms that are thought to be particularly sensitive to the effects of climate change because of their high surface‐to‐volume ratios and low reproductive rates. We systematically reviewed the literature on bat responses to climate change to provide an overview of the current state of knowledge, identify research gaps and biases and highlight future research needs. We found that studies are geographically biased towards Europe, North America and Australia, and temperate and Mediterranean biomes, thus missing a substantial proportion of bat diversity and thermal responses. Less than half of the published studies provide concrete evidence for bat responses to climate change. For over a third of studied bat species, response evidence is only based on predictive species distribution models. Consequently, the most frequently reported responses involve range shifts (57% of species) and changes in patterns of species diversity (26%). Bats showed a variety of responses, including both positive (e.g. range expansion and population increase) and negative responses (range contraction and population decrease), although responses to extreme events were always negative or neutral. Spatial responses varied in their outcome and across families, with almost all taxonomic groups featuring both range expansions and contractions, while demographic responses were strongly biased towards negative outcomes, particularly among Pteropodidae and Molossidae. The commonly used correlative modelling approaches can be applied to many species, but do not provide mechanistic insight into behavioural, physiological, phenological or genetic responses. There was a paucity of experimental studies (26%), and only a small proportion of the 396 bat species covered in the examined studies were studied using long‐term and/or experimental approaches (11%), even though they are more informative about the effects of climate change. We emphasise the need for more empirical studies to unravel the multifaceted nature of bats' responses to climate change and the need for standardised study designs that will enable synthesis and meta‐analysis of the literature. Finally, we stress the importance of overcoming geographic and taxonomic disparities through strengthening research capacity in the Global South to provide a more comprehensive view of terrestrial biodiversity responses to climate change. [ABSTRACT FROM AUTHOR]

Published

2023

24. An integrated framework to identify wildlife populations under threat from climate change.

Author

Razgour, Orly, Taggart, John B., Manel, Stephanie, Juste, Javier, Ibáñez, Carlos, Rebelo, Hugo, Alberdi, Antton, Jones, Gareth, and Park, Kirsty

Subjects

CLIMATE change, BATS, GENOMICS, GENOTYPES, GLOBAL environmental change, LANDSCAPES, GENETICS

Abstract

Abstract: Climate change is a major threat to global biodiversity that will produce a range of new selection pressures. Understanding species responses to climate change requires an interdisciplinary perspective, combining ecological, molecular and environmental approaches. We propose an applied integrated framework to identify populations under threat from climate change based on their extent of exposure, inherent sensitivity due to adaptive and neutral genetic variation and range shift potential. We consider intraspecific vulnerability and population‐level responses, an important but often neglected conservation research priority. We demonstrate how this framework can be applied to vertebrates with limited dispersal abilities using empirical data for the bat Plecotus austriacus. We use ecological niche modelling and environmental dissimilarity analysis to locate areas at high risk of exposure to future changes. Combining outlier tests with genotype–environment association analysis, we identify potential climate‐adaptive SNPs in our genomic data set and differences in the frequency of adaptive and neutral variation between populations. We assess landscape connectivity and show that changing environmental suitability may limit the future movement of individuals, thus affecting both the ability of populations to shift their distribution to climatically suitable areas and the probability of evolutionary rescue through the spread of adaptive genetic variation among populations. Therefore, a better understanding of movement ecology and landscape connectivity is needed for predicting population persistence under climate change. Our study highlights the importance of incorporating genomic data to determine sensitivity, adaptive potential and range shift potential, instead of relying solely on exposure to guide species vulnerability assessments and conservation planning. [ABSTRACT FROM AUTHOR]

Published

2018

25. Painting maps with bats: species distribution modelling in bat research and conservation.

Author

RAZGOUR, Orly, REBELO, Hugo, DI FEBBRARO, Mirko, and RUSSO, Danilo

Subjects

*SPECIES distribution, *BATS, *BIODIVERSITY conservation, *GLOBAL environmental change, *PATHOGENIC microorganisms, *MATHEMATICAL models, ENVIRONMENTAL aspects

Abstract

Species distribution models (SDMs) offer an effective tool for identifying species conservation requirements and forecasting how global environmental changes will affect species diversity and distribution. This approach is particularly relevant for bats because their nocturnal behaviour hinders detectability and identification in flight. Despite their important contribution to global biodiversity and wide geographical ranges, bats have been under-represented in early SDM studies, and only in the last few years has this approach become more widely used in bat research. We carried out a meta-analysis of the published literature to review the history of the use of SDMs in bat research and their application in conservation, climate change assessments and genetic studies. We focus on the geographical coverage, theme and modelling algorithm of published studies, and compare studies that are uniquely dedicated to bats to multi-taxa studies that include bats. We provide recommendations for good modelling practices through considering spatial scale and spatial biases, selecting ecologically relevant variables, following rigorous modelling protocols, and recognising the limitations of extrapolation across temporal scales. We suggest future developments that will further favour the use of SDMs to study bat ecology and biogeography, as well as inform conservation management. We conclude that despite an increase in bat SDM studies, their scope and application can be further enhanced through incorporating dispersal, landscape connectivity and biotic interactions between bats, their prey and their pathogens. [ABSTRACT FROM AUTHOR]

Published

2016

26. What Story Does Geographic Separation of Insular Bats Tell? A Case Study on Sardinian Rhinolophids.

Author

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

Subjects

BATS, SPECIES distribution, DISPERSAL (Ecology), MAMMALS

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. [ABSTRACT FROM AUTHOR]

Published

2014

27. Distribution patterns of bats in the Eastern Mediterranean Region through a climate change perspective.

Author

BILGIN, RAŞIT, KEŞIŞOĞLU, ARI, and REBELO, HUGO

Subjects

CLIMATE change research, DIFFERENCES, BATS, GENETICS, ECOLOGY, BIODIVERSITY, SPECIES, DESERTS

Abstract

The article presents the study on how climate change affect the 16 types of bat species in the Eastern Mediterranean Region. It states that the population of bats residing in the glacial refugia will greatly reduce which will affect their genetic variability. The bat genus Pipistrellus will benefit from the predicted climate change because they are known to adapt to a wide array of ecological conditions while Rhinopoma genus adopts to the desert and arid conditions. It also mentions that the changes in biodiversity are economically damaging.

Published

2012

28. Postglacial colonization of Europe by the barbastelle bat: agreement between molecular data and past predictive modelling.

Author

REBELO, HUGO, FROUFE, ELSA, BRITO, JOSÉ C., RUSSO, DANILO, CISTRONE, LUCA, FERRAND, NUNO, and JONES, GARETH

Subjects

*BATS, *COLONIZATION (Ecology), *HOLOCENE Epoch, *MOLECULAR ecology, *PREDICTION models, *MITOCHONDRIAL DNA

Abstract

The barbastelle ( Barbastella barbastellus) is a rare forest bat with a wide distribution in Europe. Here, we combine results from the analysis of two mtDNA fragments with species distribution modelling to determine glacial refugia and postglacial colonization routes. We also investigated whether niche conservatism occurs in this species. Glacial refugia were identified in the three southern European peninsulas: Iberia, Italy and the Balkans. These latter two refugia played a major role in the postglacial colonization process, with their populations expanding to England and central Europe, respectively. Palaeo-distribution models predicted that suitable climatic conditions existed in the inferred refugia during the last glacial maximum (LGM). Nevertheless, the overlap between the current and the LGM distributions was almost inexistent in Italy and in the Balkans, meaning that B. barbastellus populations were forced to shift range between glacial and interglacial periods, a process that probably caused some local extinctions. In contrast, Iberian populations showed a 'refugia within refugium' pattern, with two unconnected areas containing stable populations (populations that subsisted during both glacial and interglacial phases). Moreover, the match between LGM models and the refugial areas determined by molecular analysis supported the hypothesis of niche conservatism in B. barbastellus. We argue that geographic patterns of genetic structuring, altogether with the modelling results, indicate the existence of four management units for conservation: Morocco, Iberia, Italy and UK, and Balkans and central Europe. In addition, all countries sampled possessed unique gene pools, thus stressing the need for the conservation of local populations. [ABSTRACT FROM AUTHOR]

Published

2012

29. Predicted impact of climate change on European bats in relation to their biogeographic patterns.

Author

REBELO, HUGO, TARROSO, PEDRO, and JONES, GARETH

Subjects

*CLIMATE change, *LIFE zones, *METEOROLOGICAL precipitation, *HUMIDITY, *MAXIMUM entropy method, *ANIMAL species, *HABITATS, *BATS

Abstract

There has been considerable recent interest concerning the impact of climate change on a wide range of taxa. However, little is known about how the biogeographic affinities of taxa may affect their responses to these impacts. Our main aim was to study how predicted climate change will affect the distribution of 28 European bat species grouped by their biogeographic patterns as determined by a spatial Principal Component Analysis. Using presence-only modelling techniques and climatic data (minimum temperature, average temperature, precipitation, humidity and daily temperature range) for four different climate change scenarios (IPCC scenarios ranging from the most extreme A1FI, A2, B2 to the least severe, B1), we predict the potential geographic distribution of bat species in Europe grouped according to their biogeographic patterns for the years 2020–2030, 2050–2060 and 2090–2100. Biogeographic patterns exert a great influence on a species' response to climate change. Bat species more associated with colder climates, hence northern latitudes, could be more severely affected with some extinctions predicted by the end of the century. The Mediterranean and Temperate groups seem to be more tolerant of temperature increases, however, their projections varied considerably under different climate change scenarios. Scenario A1FI was clearly the most detrimental for European bat diversity, with several extinctions and declines in occupied area predicted for several species. The B scenarios were less damaging and even predicted that some species could increase their geographical ranges. However, all models only took into account climatic envelopes whereas available habitat and species interactions will also probably play an important role in delimiting future distribution patterns. The models may therefore generate ‘best case’ predictions about future changes in the distribution of European bats. [ABSTRACT FROM AUTHOR]

Published

2010

30. Evolution of TRIM5 and TRIM22 in Bats Reveals a Complex Duplication Process.

Author

Fernandes, Alexandre P., Águeda-Pinto, Ana, Pinheiro, Ana, Rebelo, Hugo, and Esteves, Pedro J.

Subjects

BATS, TRIM proteins, GENE clusters, VIRUS diseases, PRIMATES, AMINO acids, CAPSIDS

Abstract

The innate immunological response in mammals involves a diverse and complex network of many proteins. Over the last years, the tripartite motif-containing protein 5 (TRIM5) and 22 (TRIM22) have shown promise as restriction factors of a plethora of viruses that infect primates. Although there have been studies describing the evolution of these proteins in a wide range of mammals, no prior studies of the TRIM6/34/5/22 gene cluster have been performed in the Chiroptera order. Here, we provide a detailed analysis of the evolution of this gene cluster in several bat genomes. Examination of different yangochiroptera and yinpterochiroptera bat species revealed a dynamic history of gene expansion occurring in TRIM5 and TRIM22 genes. Multiple copies of TRIM5 were found in the genomes of several bats, demonstrating a very low degree of conservation in the synteny of this gene among species of the Chiroptera order. Our findings also reveal that TRIM22 is often found duplicated in yangochiroptera bat species, an evolutionary phenomenon not yet observed in any other lineages of mammals. In total, we identified 31 TRIM5 and 19 TRIM22 amino acids to be evolving under positive selection, with most of the residues being placed in the PRYSPRY domain, known to be responsible for binding to the viral capsid during restriction in the primate orthologous TRIM proteins. Altogether, our results help to shed light on the distinctive role of bats in nature as reservoirs of viruses, many of which have become threatening zoonotic diseases through virus spillover in the last decades. [ABSTRACT FROM AUTHOR]

Published

2022

31. Evolution of CCR5 and CCR2 Genes in Bats Showed Multiple Independent Gene Conversion Events.

Author

Fernandes, Alexandre P., Águeda-Pinto, Ana, Pinheiro, Ana, Rebelo, Hugo, and Esteves, Pedro J.

Subjects

GENE conversion, PROTEIN domains, CHEMOKINE receptors, BATS, GENES, SPECIES

Abstract

Chemokine receptors are an important determinant for the infectiousness of different pathogens, which are able to target the host cells by binding to the extracellular domains of these proteins. This is the mechanism of infection of HIV-1, among other concerning human diseases. Over the past years, it has been shown that two chemokine receptors, CCR2 and CCR5, have been shaped by events of gene conversion in different mammalian lineages, which has been linked to a possible selective advantage against pathogens. Here, by taking advantage of available bat genomes, we present the first insight of CCR2 and CCR5 evolution within the Chiroptera order. In total, four independent events of recombination between CCR2 and CCR5 were detected: two in a single species, Miniopterus natalensis; one in two species from the Rhinolophoidea superfamily; and one in four species from the Pteropodidae family. The regions affected by the gene conversions were generally extensive and always encompassed extracellular domains. Overall, we demonstrate that CCR2 and CCR5 have been subject to extensive gene conversion in multiple species of bats. Considering that bats are known to be large reservoirs of virus in nature, these results might indicate that chimeric CCR2-CCR5 genes might grant some bat species a selective advantage against viruses that rely in the extracellular portions of either CCR2 or CCR5 as gateways into the cell. [ABSTRACT FROM AUTHOR]

Published

2022

32. Bat guild structure and habitat use in the Sahara desert.

Author

Rebelo, Hugo and Brito, José Carlos

Subjects

*BATS, *HABITATS, *FORAGING behavior, *ECHOLOCATION (Physiology), *SURVIVAL behavior (Animals), *ANIMAL behavior, *BIODIVERSITY, *ULTRASONIC equipment

Abstract

The article presents a study on bat guild structure and habitat use in the Sahara desert. Echolocating bats can be divided into guilds according to their preferred habitat and foraging behavior. Three habitat types were sampled namely oasis, oued or dry river beds and desert. Bat activity was surveyed with point transects in each habitat type with an ultrasound detector. The results showed that water features are a limiting factor for survival affecting biodiversity distribution and abundance in the Sahara.

Published

2007

33. Hidden in our pockets: building of a DNA barcode library unveils the first record of Myotis alcathoe for Portugal

Author

Rebelo, Hugo, Ferreira, Sónia, Amorim, Francisco, Horta, Pedro, Raposeira, Helena, Santos, Helena, Beja, Pedro, and Mata, Vanessa

Subjects

0106 biological sciences, 0301 basic medicine, Myotis escalerai, Systematics, Nyctalus noctula, Myotis alcathoe, species identification, Rhinolophus hipposideros, bats, Vespertilionidae, 010603 evolutionary biology, 01 natural sciences, DNA barcoding, Vespertilionoidea, COI, 03 medical and health sciences, Chiroptera, Animalia, Chordata, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Ecology, biology, biology.organism_classification, Myotis mystacinus, 030104 developmental biology, Geography, lcsh:Biology (General), Evolutionary biology, Mammalia, museu, Plecotus auritus, Myotis, museum collections

Abstract

The advent and boom of DNA barcoding technologies have provided a powerful tool for the fields of ecology and systematics. Here, we present the InBIO Barcoding Initiative Database: Portuguese Bats (Chiroptera) dataset containing DNA sequences of 63 specimens representing the 25 bat species currently known for continental Portugal. For that, we sequenced tissues samples obtained in a vast array of projects spanning the last two decades. We added four new Barcoding Index Numbers (BINs) to existing Chiroptera barcodes on BOLD, two belonging to Myotis escalerai, one to Plecotus auritus and the other to Rhinolophus hipposideros. Surprisingly, one of the samples initially identified in the field as Myotis mystacinus turned out to be Myotis alcathoe, which represents the first record of this species for Portugal. The presence of Nyctalus noctula in Portugal was also genetically confirmed for the first time. This case study shows the power and value of DNA barcoding initiatives to unravel new data that may be hidden on biological collections.

34. Assessing the distribution of bats in southern Africa to highlight conservation priorities

Author

Cooper-Bohannon, Rachael, Park, Kirsty J., Jones, Gareth, and Rebelo, Hugo

Subjects

599.4, Chiroptera, bats, species distribution modelling, southern Africa, cave-dwelling, conservation, marxan, maxent, monitoring network, call analysis, Bats--Conservation--Africa, Southern

Abstract

Approximately 25% of bats globally are threatened, but limited data on African bats, which account for 20% of bat species, hinders our understanding of their conservation status across this ecologically diverse continent. This study combined: modelling techniques, to predict current species distributions for 58 southern African bat species and project past, current and future distributions of 22 endemic and near-endemic species; bat acoustic surveys, to assess landscape features influencing bat activity in arid and semi-arid regions; and conservation planning software to design a large-scale monitoring network for bats across this subcontinent. Species distribution models were employed using a robust and well established presence-only modelling technique (Maximum Entropy – Maxent) to model the current distributions of 58 species in southern Africa. Although the important eco-geographical variables were species- or in some cases family-specific, overall water availability (both temporary and permanent), seasonal precipitation, vegetation and karst (caves/limestone) areas were the most important factors associated with distribution patterns. These species distributions were then used to identify range-restricted and narrow niche breadth species, alongside other life-history strategies considered to put species at risk, such as Old World pteropodids and cave-dwelling bats to identify species most at risk. Nine of the 58 species in this study were identified as ‘at risk’. Considering range-restriction and endemism separately, the results showed that range-restricted species were a higher proportion (50%) of ‘at risk’ species than endemics (41%) but six of the nine identified species were endemic and range restricted (67%). If only areas of high species richness are prioritised, important areas with low species richness but rare, ‘at risk’ or endemic species would be excluded. Species distributions are not fixed but may shift due to changes in environmental conditions. Accurately predicting changes in species’ distributions due to anthropogenic climate change remains a fundamental challenge for conservation biologists, and this is amplified when dealing with taxa such as bats that are inherently difficult to study and in areas, such as Africa, with sparse ecological data. To better understand endemic bat species risk to climate change in southern Africa and to highlight historical and future likely refugia, Maxent was employed to forecast range-shifts for 22 southern African endemic or near-endemic species. Species distributions were projected during the Last Glacial Maximum (LGM ~22,000 BP), present (1950-2000) and future (2070: averaged 2061-2080, using IPCC5 scenarios) climatic conditions. Climate change was predicted to change species composition extensively within a relatively short timescale (within 60 years). By 2070, 86% of species modelled are predicted to have range contractions and six species were highlighted to be most at risk, with range contractions of more than 20%. The majority of southern Africa is composed or arid or semi-arid regions. Generally arid and semi-arid areas are overlooked and understudied due to low species richness, yet these areas are known to have a high proportion of endemic species. As part of this study, driven transects were carried out across arid and semi-arid areas to assess bat activity in these areas. Bat activity was recorded at 94% of the acoustic surveys, demonstrating that driven transects are an effective method of surveying bats in southern Africa. Bat activity increased at lower altitudes and higher latitudes, which characteristically have more rainfall, permanent water and vegetation. Although water has been shown in other studies to be important for bats, temporary water was not shown to influence bat activity and permanent water was positively correlated with bat activity for hipposiderids and rhinolophids and FM bats, which may reflect the fact that water features important for bats at smaller scale. The same two vegetation types that were consistently negatively correlated with bat activity were drier vegetation types (Karoo-Namib shrubland) and high salinity halophytic vegetation. Finally, a systematic conservation planning software tool (Marxan) was used to design multi-species monitoring networks that incorporated all 58 target species across the 11 ecoregions found in southern Africa. To ensure rare, endemic and range-restricted species were monitored at the same level as widespread species, species distributions (mapped using Maxent) were extracted by ecoregion. Monitoring targets (i.e. a percentage of species distribution across ecoregions) were standardised to ensure the same percentage of predicted distribution was included across all species (rare and widespread). To account for different resources and capacity, three optimal monitoring networks (minimum monitoring stations to achieve the monitoring targets) were proposed to survey 1, 5 or 10% of all species distributions within each ecoregion. The optimal solution for monitoring 1% of species distributions within ecoregions was found by monitoring 1,699 stations (survey sites), or for 5% 8,486 stations and finally for 10% 17,867 stations would be needed. In conclusion, the findings presented in this thesis have important conservation implications and have the potential to inform the practical steps required towards the introduction of a bat monitoring programme in southern Africa. While this study has highlighted challenges to African bat conservation, it has also demonstrated that an integrated and multi-disciplinary approach, using emerging techniques and conservation tools (e.g. conservation planning and automated call analysis software) can be used to fill knowledge gaps and inform conservation priorities in the absence of systematically collected data.

Published

2015

35. Not all farms are created equal: Shady African cocoa farms promote a richer bat fauna.

Author

Ferreira, Diogo F., Darling, Alexandra, Jarrett, Crinan, Atagana, Patrick Jules, Sandjo, Phallin Roméal, Taedoumg, Hermann, Welch, Andreanna J., Rebelo, Hugo, and Powell, Luke L.

Subjects

*COCOA, *AGRICULTURE, *FARM management, *FARMS, *FARM supplies, *CACAO beans, *BATS

Abstract

Bats provide important pest suppression services with economic value to cocoa farmers, yet the impact of cocoa farm management on bat diversity metrics is still poorly understood. This is especially important if we consider that Afrotropical cocoa farms supply 68 % of the world's chocolate market, with expected increases in production in the forthcoming decades. In this study, we investigated for the first time how bat abundance, richness and diversity varied between African cocoa farms with different levels of shade tree cover, shade tree communities and cocoa characteristics. We found that shade tree cover and shade tree height were the main drivers associated with an increase of Shannon diversity, and abundance and richness of insectivores. Frugivorous and nectarivorous bats were positively associated with the presence of planted shade trees, but richness varied with the size of shade trees. The insectivorous Hipposideros fuliginosus was only present in high shade farms, being captured 51 times only in this shade system, while the frugivorous Myonycteris angolensis was associated with low shade farms. Our findings show that indeed not all farms are created equal, with high shade farms with large, tall forest shade trees (i.e., containing key plant resources) having richer bat communities. Therefore, policymakers seeking to conserve wildlife within cocoa farming systems should adopt cocoa management systems like those mentioned above and promote a combination of forest and planted shade trees to be able support a rich community of insectivorous, frugivorous and nectarivorous bats and maintain their associated ecosystems services. [ABSTRACT FROM AUTHOR]

Published

2023

36. Birds and bats enhance yields in Afrotropical cacao agroforests only under high tree-level shade cover.

Author

Ferreira, Diogo F., Jarrett, Crinan, Wandji, Alain Christel, Atagana, Patrick Jules, Rebelo, Hugo, Maas, Bea, and Powell, Luke L.

Subjects

*AGROFORESTRY, *CACAO beans, *CACAO, *BATS, *BIRD populations, *CROP yields, *FLOWERING time

Abstract

Central/West Africa is one of the most biodiverse regions on earth and one of the largest producers of cacao, producing about 68.4 % of the world's chocolate. Here, cacao pests and diseases can cause losses of $761 million annually. However, no studies from Africa have quantified the role of flying vertebrates as pest suppressors in cacao plantations. We used an exclusion experiment to prevent access of bats and birds to cacao trees for 12 months and quantified how their absence affected arthropod communities, herbivory, and cacao crop yield. Overall, important pests such as mealybugs and other hemipterans were more abundant in exclosures (9 and 1.6 times increase, respectively), despite potential multitrophic interactions with simultaneously increasing predatory arthropods such as spiders and mantis. Under heavy shade (90 %), cacao trees with flying vertebrate exclosures had 3.9 times fewer flowers and 3.2 times fewer large pods than control trees, corresponding to estimated losses on average of $478 ha−1y−1. Under low tree-level shade cover (10 %) however, the opposite pattern was evident: exclosure trees had 5.2 times more flowers and 3.7 times more large pods than control trees, corresponding to estimated savings on average of $796 ha−1y−1. We demonstrate that the enormous potential of African flying vertebrates as pest suppressors in cacao plantations is dependent on local shade tree management and only economically relevant above 50 % of shade. Despite higher productivity at low shade levels, our findings encourage African policymakers and farmers to adopt more high shade cacao agroforestry systems to maximize pest suppression services provided by bats and birds. Central/West Africa produces most of the Earth's cacao. Bats and birds are important pest suppressors in Asian and American cacao farms. We present results from a 1 yearlong exclusion experiment conducted in Cameroon. Bats and birds suppressed the population of the Mealybug pest and other Hemipterans. Farmer's savings due to pest suppression was dependent on tree-level shade cover. [ABSTRACT FROM AUTHOR]

Published

2023

37. Bats actively track and prey on grape pest populations.

Author

Baroja, Unai, Garin, Inazio, Vallejo, Nerea, Aihartza, Joxerra, Rebelo, Hugo, and Goiti, Urtzi

Subjects

*GRAPE diseases & pests, *BATS, *AGRICULTURAL pests, *FISH food, *GRAPE growing, *PREY availability

Abstract

• Bats showed positive aggregational and functional responses to grape pest abundances. • Not all bat species contribute equally to pest suppression. • Rhinolophus hipposideros is the primary predator of grapevine moths in the study. • The synergistic action of bats from distinct foraging guilds plays a suppressing role. There is growing evidence about the role of insectivorous bats against agricultural pests in various crops. Nevertheless, little research addressed the aggregational and functional responses of bat assemblages to changes in pest availability across a spatio-temporal scale. Therefore, we examined the activity and diet habits of different bat species using DNA metabarcoding by simultaneously monitoring the relative abundance of two major pests (the European grapevine moth, Lobesia botrana , and the leaf rolling tortrix, Sparganothis pilleriana) through the grape growing season, in a vineyard region of the Iberian Peninsula. During pest major irruptions, we found the highest bat activity levels and frequencies of grape pests in the diet of bats, although not all bat species contributed equally to pest suppression. Bats of different foraging guilds positively responded to pest abundances, indicating distinct bat species may synergistically play a role at suppressing agricultural pests at broad scales of the aerospace. For instance, narrow space foragers exploiting major irruptions in grape interior, edge space foragers hampering pest dispersion at local scale, and open space foragers preventing infestations of new grapevine patches at broader scales. Yet, our study exposed the current methodological constraints regarding pest dispersion dynamics, acoustic monitoring of bats' foraging activity or the unfeasibility of metabarcoding to reliably quantify prey abundance in bats diet, and thus further improvement in these issues is required in order to gain insight on the agroecological interactions between bats and pests. [ABSTRACT FROM AUTHOR]

Published

2021

38. Bats use topography and nocturnal updrafts to fly high and fast.

Author

O'Mara, M. Teague, Amorim, Francisco, Scacco, Martina, McCracken, Gary F., Safi, Kamran, Mata, Vanessa, Tomé, Ricardo, Swartz, Sharon, Wikelski, Martin, Beja, Pedro, Rebelo, Hugo, and Dechmann, Dina K.N.

Subjects

*VERTICAL drafts (Meteorology), *BATS, *ANIMAL flight, *TOPOGRAPHY, *WIND power, *BAT conservation

Abstract

During the day, flying animals exploit the environmental energy landscape by seeking out thermal or orographic uplift, or extracting energy from wind gradients. 1–6 However, most of these energy sources are not thought to be available at night because of the lower thermal potential in the nocturnal atmosphere, as well as the difficulty of locating features that generate uplift. Despite this, several bat species have been observed hundreds to thousands of meters above the ground. 7–9 Individuals make repeated, energetically costly high-altitude ascents, 10–13 and others fly at some of the fastest speeds observed for powered vertebrate flight. 14 We hypothesized that bats use orographic uplift to reach high altitudes, 9,15–17 and that both this uplift and bat high-altitude ascents would be highly predictable. 18 By superimposing detailed three-dimensional GPS tracking of European free-tailed bats (Tadarida teniotis) on high-resolution regional wind data, we show that bats do indeed use the energy of orographic uplift to climb to over 1,600 m, and also that they reach maximum sustained self-powered airspeeds of 135 km h−1. We show that wind and topography can predict areas of the landscape able to support high-altitude ascents, and that bats use these locations to reach high altitudes while reducing airspeeds. Bats then integrate wind conditions to guide high-altitude ascents, deftly exploiting vertical wind energy in the nocturnal landscape. • European free-tailed bats use uplifting winds to ascend 1,600 m above ground level • High-elevation ascents are predicted by geography with high orographic uplift • European free-tailed bats can fly at self-powered airspeeds over 130 kmh−1 • Bats deftly exploit nocturnal energy landscapes similar to diurnal birds O'Mara et al. use high-resolution GPS tracking and atmospheric models to show that, similar to diurnal birds, European free-tailed bats use uplifting winds generated by the nocturnal energy landscape to rapidly ascend over 1,600 m above ground level and achieve maximum self-powered airspeeds over 130 kmh−1. [ABSTRACT FROM AUTHOR]

Published

2021

39. Spatiotemporal persistence of bat roadkill hotspots in response to dynamics of habitat suitability and activity patterns.

Author

Medinas, Denis, Marques, João Tiago, Costa, Pedro, Santos, Sara, Rebelo, Hugo, Barbosa, A.Márcia, and Mira, António

Subjects

*ENVIRONMENTAL indicators, *BATS, *REMOTE sensing, *PREY availability, *ROADKILL

Abstract

Wildlife roadkill hotspots are frequently used to identify priority locations for implementing mitigation measures. However, understanding the landscape-context and the spatial and temporal dynamics of these hotspots is challenging. Here, we investigate the factors that drive the spatiotemporal variation of bat mortality hotspots on roads along three years. We hypothesize that hotspot locations occur where bat activity is higher and that this activity is related to vegetation density and productivity, probably because this is associated with food availability. Statistically significant clusters of bat-vehicle collisions for each year were identified using the Kernel Density Estimation (KDE) approach. Additionally, we used a spatiotemporal analysis and generalized linear mixed models to evaluate the effect of local spatiotemporal variation of environmental indices and bat activity to predict the variation on roadkill hotspot locations and to asses hotspot strength over time. Between 2009 and 2011 we conducted daily surveys of bat casualties along a 51-km-long transect that incorporates different types of roads in southern Portugal. We found 509 casualties and we identified 86 statistically significant roadkill hotspots, which comprised 12% of the road network length and contained 61% of the casualties. Hotspots tended to be located in areas with higher accumulation of vegetation productivity along the three-year period, high bat activity and low temperature. Furthermore, we found that only 17% of the road network length was consistently classified as hotspots across all years; while 43% of hotspots vanished in consecutive years and 40% of new road segments were classified as hotspots. Thus, non-persistent hotspots were the most frequent category. Spatiotemporal changes in hotspot location are associated with decreasing vegetation production and increasing water stress on road surroundings. This supports our hypothesis that a decline on overall vegetation productivity and increase of roadside water deficit, and the presumed lower abundance of prey, have a significant effect on the decrease of bat roadkills. To our knowledge, this is the first study demonstrating that freely available remote sensing data can be a powerful tool to quantify bat roadkill risk and assess its spatiotemporal dynamics. • Bat roadkill hotspot locations may shift along time. • Stable hotspots accounted only for 3% of road length, but for 27% of roadkilled bats. • Spatiotemporal congruence of hotspots declined with decreasing vegetation productivity. • Water stress on roadsides decrease the persistence of bat roadkill hotspots. • Remote sensing information may be a tool for planners to minimize the impact of roads. [ABSTRACT FROM AUTHOR]

Published

2021