Your search keyword '"Dailos Hernández-Brito"' showing total 24 results

1. Emerging laws must not protect stray cats and their impacts

Author

Martina Carrete, Miguel Clavero, Eneko Arrondo, Anna Traveset, Rubén Bernardo‐Madrid, Montserrat Vilà, Julio Blas, Manuel Nogales, Miguel Delibes, Alberto García‐Rodríguez, Dailos Hernández‐Brito, Pedro Romero‐Vidal, and José L. Tella

Subjects

Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Published

2022

2. Correction: A protective nesting association with native species counteracts biotic resistance for the spread of an invasive parakeet from urban into rural habitats

Author

Dailos Hernández-Brito, Guillermo Blanco, José L. Tella, and Martina Carrete

Subjects

Zoology, QL1-991

Published

2023

3. Worldwide Distribution of Antagonistic-Mutualistic Relationships Between Parrots and Palms

Author

Martina Carrete, Fernando Hiraldo, Pedro Romero-Vidal, Guillermo Blanco, Dailos Hernández-Brito, Esther Sebastián-González, José A. Díaz-Luque, and José L. Tella

Subjects

pollination, seed dispersal, seed predation, dispersal distances, megafaunal fruits, defleshing, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Palms, like all plants, show coevolutionary relationships with animals that have been traditionally categorized as mutualistic (seed dispersers and pollinators) or antagonistic (seed predators). This dual perspective, however, has prevented a full understanding of their true interactions with some animal groups, mainly those that do not ingest entire fruits. One clear example is parrots, which have been described to use palm species as feeding resources, while their role as seed dispersers has been largely neglected. Here, we combined fieldwork data with information from the literature and citizen science (i.e., naturalists and nature photographers) on parrot foraging ecology worldwide to evaluate the spatial and taxonomic extent of parrot-palm interactions and to identify the eco-evolutionary factors involved. We identified 1,189 interactions between 135 parrots and 107 palm species in more than 50 countries across the six realms where palms are present as natives or introduced. Combining this information, we identified 427 unique parrot-palm interacting pairs (i.e., a parrot species interacting with a palm species). Pure antagonistic interactions (i.e., parrots just preying on seeds or eating or destroying their non-reproductive parts) were less common (5%) than mutualistic ones (i.e., parrots benefiting by partially preying on the seed or fruit or consuming the pulp of the fruit or the flower but also contributing to seed dispersal and, potentially, pollination; 89%). After controlling for phylogeny, the size of consumed seeds and parrot body mass were positively related. Seed dispersal distances varied among palm species (range of estimated median dispersal distances: 9–250 m), with larger parrots dispersing seeds at greater distances, especially large fruits commonly categorized as megafauna anachronisms (>4 cm length). Although parrot-palm interactions are widespread, several factors (e.g., social behavior, predation fear, food availability, or seasonality) may affect the actual position of parrots on the antagonism-mutualism continuum for different palm species and regions, deserving further research. Meanwhile, the pervasiveness of parrot-palm mutualistic interactions, mainly involving seed dispersal and pollination, should not be overlooked in studies of palm ecology and evolution.

Published

2022

4. A protective nesting association with native species counteracts biotic resistance for the spread of an invasive parakeet from urban into rural habitats

Author

Dailos Hernández-Brito, Guillermo Blanco, José L. Tella, and Martina Carrete

Subjects

Biological invasions, Biotic resistance, Monk parakeet, Predation pressure, White stork, Commensalism, Zoology, QL1-991

Abstract

Abstract Background Non-native species are often introduced in cities, where they take advantage of microclimatic conditions, resources provided by humans, and competitor/predator release to establish and proliferate. However, native communities in the surrounding rural or natural areas usually halt their spread through biotic resistance, mainly via top-down regulative processes (predation pressure). Here, we show an unusual commensal interaction between exotic and native bird species that favours the spread of the former from urban to rural habitats. Results We show how Monk parakeets Myiopsitta monachus, an invasive species often introduced in cities worldwide, associated for breeding with a much larger, native species (the white stork Ciconia ciconia) to reduce predation risk in central Spain, thus allowing their colonization of rural areas. Parakeets selected stork nests close to conspecifics and where breeding raptors were less abundant. Parakeets always flushed when raptors approached their nests when breeding alone, but stayed at their nests when breeding in association with storks. Moreover, when storks abandoned a nest, parakeets abandoned it in the following year, suggesting that storks actually confer protection against predators. Conclusions Our results show how a protective-nesting association between invasive and native species can counteract biotic resistance to allow the spread of an invasive species across non-urban habitats, where they may become crop pests. Monk parakeet populations are now growing exponentially in several cities in several Mediterranean countries, where they coexist with white storks. Therefore, management plans should consider this risk of spread into rural areas and favour native predators as potential biological controllers.

Published

2020

5. Annual Censuses and Citizen Science Data Show Rapid Population Increases and Range Expansion of Invasive Rose-Ringed and Monk Parakeets in Seville, Spain

Author

Dailos Hernández-Brito, Martina Carrete, and José L. Tella

Subjects

biological invasions, Psittacula krameri, Myiopsitta monachus, population, distribution, citizen science, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Population changes of invasive species can go unnoticed long before population explosions, so long-term monitoring programs are needed to assess changes in population size. Although invasive populations of rose-ringed (Psittacula krameri) and monk parakeets (Myiopsitta monachus) are present worldwide, their current status and dynamics are mostly poorly known. Here, we provide a long-term population monitoring of both parakeet species established in a Mediterranean urban area. Between 2013 and 2021, we conducted systematic population censuses in the city of Seville and collected their occurrence and spatial distribution data from citizen science platforms. Our censuses showed a rapid population growth of both species: rose-ringed parakeets increased from 1200 to 6300 individuals, while monk parakeets increased from 70 to 1487 individuals. These population trends were weakly reflected by the number of parakeet observations and the number of cells with parakeet observations but not by the number of individuals recorded in citizen science platforms. Moreover, for the monk parakeet, the number of cells with observations was related to the spatial spread of its nests across the study area. Although resource-intensive, long-term monitoring programs are essential to assess population changes and develop effective management actions for invasive species. Thus, contrasting this information with data taken through citizen science platforms can validate the utility of the latter for assessing population status of invasive species.

Published

2022

6. The Role of Monk Parakeets as Nest-Site Facilitators in Their Native and Invaded Areas

Author

Dailos Hernández-Brito, Martina Carrete, Guillermo Blanco, Pedro Romero-Vidal, Juan Carlos Senar, Emiliano Mori, Thomas H. White, Álvaro Luna, and José L. Tella

Subjects

nest inquilines, biological invasions, cavity nesters, monk parakeet, facilitation, protective-nesting association, Biology (General), QH301-705.5

Abstract

While most of the knowledge on invasive species focuses on their impacts, little is known about their potential positive effects on other species. Invasive ecosystem engineers can disrupt recipient environments; however, they may also facilitate access to novel resources for native species. The monk parakeet (Myiopsitta monachus) is a worldwide invader and the only parrot that builds its own communal nests, which can be used by other species. However, the ecological effects of these interspecific interactions are barely known. We compared the role of the monk parakeet as a nest-site facilitator in different rural and urban areas, both invaded and native, across three continents and eight breeding seasons. A total of 2690 nests from 42 tenant species, mostly cavity-nesting birds, were recorded in 26% of 2595 monk parakeet nests. Rural and invaded areas showed the highest abundance and richness of tenant species. Multispecies communal nests triggered interspecific aggression between the monk parakeet host and its tenants, but also a cooperative defense against predators. Despite the positive effects for native species, monk parakeets also facilitate nesting opportunities to other non-native species and may also transmit diseases to tenants, highlighting the complexity of biotic interactions in biological invasions.

Published

2021

7. Roadside Car Surveys: Methodological Constraints and Solutions for Estimating Parrot Abundances across the World

Author

José L. Tella, Pedro Romero-Vidal, Francisco V. Dénes, Fernando Hiraldo, Bernardo Toledo, Federica Rossetto, Guillermo Blanco, Dailos Hernández-Brito, Erica Pacífico, José A. Díaz-Luque, Abraham Rojas, Alan Bermúdez-Cavero, Álvaro Luna, Jomar M. Barbosa, and Martina Carrete

Subjects

bird abundance, census, bird density, detectability, distance sampling, Psittaciformes, Biology (General), QH301-705.5

Abstract

Parrots stand out among birds because of their poor conservation status and the lack of available information on their population sizes and trends. Estimating parrot abundance is complicated by the high mobility, gregariousness, patchy distributions, and rarity of many species. Roadside car surveys can be useful to cover large areas and increase the probability of detecting spatially aggregated species or those occurring at very low densities. However, such surveys may be biased due to their inability to handle differences in detectability among species and habitats. We conducted 98 roadside surveys, covering > 57,000 km across 20 countries and the main world biomes, recording ca. 120,000 parrots from 137 species. We found that larger and more gregarious species are more easily visually detected and at greater distances, with variations among biomes. However, raw estimates of relative parrot abundances (individuals/km) were strongly correlated (r = 0.86–0.93) with parrot densities (individuals/km2) estimated through distance sampling (DS) models, showing that variability in abundances among species (>40 orders of magnitude) overcomes any potential detectability bias. While both methods provide similar results, DS cannot be used to study parrot communities or monitor the population trends of all parrot species as it requires a minimum of encounters that are not reached for most species (64% in our case), mainly the rarest and more threatened. However, DS may be the most suitable choice for some species-specific studies of common species. We summarize the strengths and weaknesses of both methods to guide researchers in choosing the best–fitting option for their particular research hypotheses, characteristics of the species studied, and logistical constraints.

Published

2021

8. Epizoochory in Parrots as an Overlooked Yet Widespread Plant–Animal Mutualism

Author

Dailos Hernández-Brito, Pedro Romero-Vidal, Fernando Hiraldo, Guillermo Blanco, José A. Díaz-Luque, Jomar M. Barbosa, Craig T. Symes, Thomas H. White, Erica C. Pacífico, Esther Sebastián-González, Martina Carrete, and José L. Tella

Subjects

plant–animal mutualism, seed dispersal, zoochory, Psittaciformes, Moraceae, biological invasions, Botany, QK1-989

Abstract

Plant–animal interactions are key to sustaining whole communities and ecosystem function. However, their complexity may limit our understanding of the underlying mechanisms and the species involved. The ecological effects of epizoochory remain little known compared to other seed dispersal mechanisms given the few vectors identified. In addition, epizoochory is mostly considered non-mutualistic since dispersers do not obtain nutritional rewards. Here, we show a widespread but unknown mutualistic interaction between parrots and plants through epizoochory. Combining our observations with photos from web-sources, we recorded nearly 2000 epizoochory events in 48 countries across five continents, involving 116 parrot species and nearly 100 plant species from 35 families, including both native and non-native species. The viscid pulp of fleshy fruits and anemochorous structures facilitate the adherence of tiny seeds (mean 3.7 × 2.56 mm) on the surface of parrots while feeding, allowing the dispersion of these seeds over long distances (mean = 118.5 m). This parrot–plant mutualism could be important in ecosystem functioning across a wide diversity of environments, also facilitating the spread of exotic plants. Future studies should include parrots for a better understanding of plant dispersal processes and for developing effective conservation actions against habitat loss and biological invasions.

Published

2021

9. Urban Sprawl, Food Subsidies and Power Lines: An Ecological Trap for Large Frugivorous Bats in Sri Lanka?

Author

José L. Tella, Dailos Hernández-Brito, Guillermo Blanco, and Fernando Hiraldo

Subjects

anthropogenic food subsidies, ecological traps, ecosystem services, electrocution, exotic plants, fruit bats, power lines, seed dispersal, urbanization, Biology (General), QH301-705.5

Abstract

Electrocution is one of the less known anthropogenic impacts likely affecting the bat population. We surveyed 925 km of overhead distribution power lines that supply energy to spreading urbanized areas in Sri Lanka, recording 300 electrocuted Indian flying foxes (Pteropus giganteus). Electrocutions were recorded up to 58 km from the nearest known colony, and all of them were in urbanized areas and very close ( X ¯ = 4.8 m) to the exotic fruiting trees cultivated in gardens. Predictable anthropogenic food subsidies, in the form of cultivated fruits and flowers, seem to attract flying foxes to urban habitats, which in turn become ecological traps given their high electrocution risk. However, electrocution rates greatly varied among the 352 power lines surveyed (0.00−24.6 indiv./km), being highest in power lines with four wires oriented vertically ( X ¯ = 0.92 indiv./km) and almost zero in power lines with wires oriented horizontally. Therefore, the latter design should be applied to projected new power lines and old vertically oriented lines in electrocution hotspots should be substituted. Given that flying foxes are key seed dispersers and pollinators, their foraging habitat selection change toward urban habitats together with high electrocution risk not only may contribute to their population decline but also put their ecosystem services at risk.

Published

2020

10. Nest-site competition and killing by invasive parakeets cause the decline of a threatened bat population

Author

Dailos Hernández-Brito, Martina Carrete, Carlos Ibáñez, Javier Juste, and José L. Tella

Subjects

biological invasions, interspecific competition, impact, urban habitats, Science

Abstract

The identification of effects of invasive species is challenging owing to their multifaceted impacts on native biota. Negative impacts are most often reflected in individual fitness rather than in population dynamics of native species and are less expected in low-biodiversity habitats, such as urban environments. We report the long-term effects of invasive rose-ringed parakeets on the largest known population of a threatened bat species, the greater noctule, located in an urban park. Both species share preferences for the same tree cavities for breeding. While the number of parakeet nests increased by a factor of 20 in 14 years, the number of trees occupied by noctules declined by 81%. Parakeets occupied most cavities previously used by noctules, and spatial analyses showed that noctules tried to avoid cavities close to parakeets. Parakeets were highly aggressive towards noctules, trying to occupy their cavities, often resulting in noctule death. This led to a dramatic population decline, but also an unusual aggregation of the occupied trees, probably disrupting the complex social behaviour of this bat species. These results indicate a strong impact through site displacement and killing of competitors, and highlight the need for long-term research to identify unexpected impacts that would otherwise be overlooked.

Published

2018

11. Crowding in the city: losing and winning competitors of an invasive bird.

Author

Dailos Hernández-Brito, Martina Carrete, Ana G Popa-Lisseanu, Carlos Ibáñez, and José L Tella

Subjects

Medicine, Science

Abstract

Invasive species can take advantage of resources unexploited by natives (opportunism hypothesis) or they can exploit the same resources but more aggressively or efficiently (competition hypothesis), thus impacting native species. However, invasive species tend to exploit anthropogenic habitats that are inefficiently used by natives such as urban environments. Focusing on the ring-necked parakeet (Psittacula krameri), one of the most invasive birds worldwide, we combined observations of interspecific aggressions, species-specific cavity-nest preferences and the spatial distribution of the native cavity-nesting vertebrate community to determine the invasion process as well as its potential impacts on native species in a Mediterranean city. Our results support the competition hypothesis, suggesting that ring-necked parakeets are outcompeting native species sharing nest-site preferences. Parakeets initiated and won most interspecific aggressions, which were directed towards competitors but also towards predators. This behaviour could explain the spatial arrangement of natives, with most bird species breeding close to parakeets possibly to take advantage of their effective antipredatory behaviour. However, temporal and spatial patterns of segregation suggest that a threatened bat species is negatively affected by parakeets. This demonstrates that common species gain benefits and threatened ones (in this study, a bat and possibly a falcon) lose nest sites due to invaders. Therefore, the conservation status of the native species that pay the costs of competition with invaders should be considered. This scenario of winners and losers may, however, shift towards more losers if the ring-necked parakeet population continues to grow, thus requiring close monitoring and control/eradication programs to avoid further impacts.

Published

2014

12. Nesting innovations allow population growth in an invasive population of rose-ringed parakeets

Author

Dailos Hernández-Brito, José L Tella, Guillermo Blanco, and Martina Carrete

Subjects

Animal Science and Zoology

Abstract

Certain traits of recipient environments, such as the availability of limiting resources, strongly determine the establishment success and spread of non-native species. These limitations may be overcome through behavioral plasticity, allowing them to exploit alternative resources. Here, we show how a secondary cavity nester bird, the rose-ringed parakeet Psittacula krameri, innovates its nesting behavior as a response to the shortage of tree cavities for nesting in its invasive range in Tenerife (Canary Islands). We observed that some breeding pairs excavated their own nest cavities in palms, thus becoming primary cavity nester, whereas others occupied nests built with wood sticks by another invasive species, the monk parakeet Myiopsitta monachus. The use of these novel nesting strategies increased the number of breeding pairs by up to 52% over 6 years, contributing to a 128.8% increase of the whole population. Innovative nests were located at greater heights above ground and were more aggregated around conspecifics but did not result in greater breeding success than natural cavities. Occupation of monk parakeet colonies by rose-ringed parakeets also benefited the former species through a protective-nesting association against nest predators. Our results show how an invasive species innovate nesting behaviors and increase nest-site availability in the recipient environment, thus facilitating its population growth and invasion process. Potential behavioral innovations in other invasive rose-ringed parakeet populations may be overlooked, and should be considered for effective management plans.

Published

2021

13. Lovebirds in the air: trade patterns, establishment success and niche shifts of Agapornis parrots within their non-native range

Author

Rachel L. White, Pim Edelaar, Laura Cardador, Mattia Menchetti, Luís Reino, Boris P. Nikolov, Liviu G. Pârâu, Emiliano Mori, Dailos Hernández-Brito, Lorenzo Mentil, Marine Le Louarn, European Cooperation in Science and Technology, European Commission, and Fundação para a Ciência e a Tecnologia (Portugal)

Subjects

0106 biological sciences, Bird trade, Range (biology), Niche, Species distribution, Biosecurity, Non-native species, Distribution (economics), Biology, 010603 evolutionary biology, 01 natural sciences, Agapornis, Invasive species, Ecology, Evolution, Behavior and Systematics, Ecology, business.industry, Agapornis, Non-native species, Bird trade, Niche shift, Propagule pressure, 010604 marine biology & hydrobiology, Propagule pressure, Population size, 15. Life on land, Niche shift, business

Abstract

Understanding the factors influencing the establishment of non-native species is pivotal with regards to the development of effective biosecurity policies. In this paper, we aim to assess the role of climate matching, trade patterns and breeding origin as drivers of establishment success of introduced lovebirds (Agapornis species). A comprehensive database on the worldwide distribution of eight species of non-native lovebirds (including establishment success and population size from 21 countries spanning 27 years) was compiled. We combined climate-based species distribution models with environmental niche analyses to evaluate environmental suitability and potential niche shifts in the introduced range of lovebirds. Then, we tested whether combining habitat suitability with information on trade, introduction effort and breeding origin (captive-bred or wild-caught) of imported birds can improve model predictions at the country level. Although climate-based models fit well with the current distribution of non-native lovebirds at 5-arcminute resolution and significant niche similarity was found for 3 species, we also observed successful establishments in areas climatically distinct from those occupied in native ranges. At the country level, only a significant relationship between the number of established populations and both the number of introduction sites and the year of first importation was observed. A significant effect of breeding origin was not found, but most traded birds had a captive-bred origin. Our work contributes to the growing evidence of the complexity of the invasion process and the difficulty of pre-introduction invasion assessments based solely on the characteristics of the recipient environments for the Agapornis species. Surveillance protocols should be applied to both wild-caught and captive-bred lovebirds, as additional data becomes available to better tease apart the role of origin in those species., The realisation of this manuscript was supported by the European Cooperation in Science and Technology COST Action ES1304 (ParrotNet). The contents of this paper are the authors’ responsibility and neither COST nor any person acting on its behalf is responsible for the use that might be made of the information contained in it. Luís Reino was funded by FEDER Funds through the Operational Competitiveness Factors Program “COMPETE”, and by National Funds through the Foundation for Science and Technology (FCT) within the framework of the Project “PTDC/AAG-GLO/0463/2014-POCI-01-0145-FEDER-016583” and FCT Post-doc Grant SFRH/BPD/93079/2013. LC was funded by the H2020-MSCA-IF-2016 fellowship No. 752149.

Published

2019

14. Epizoochory in Parrots as an Overlooked Yet Widespread Plant–Animal Mutualism

Author

Esther Sebastián-González, Thomas H. White, Jomar M. Barbosa, Craig T. Symes, Dailos Hernández-Brito, Fernando Hiraldo, Erica C. Pacífico, José L. Tella, José A. Díaz-Luque, Pedro Romero-Vidal, Guillermo Blanco, Martina Carrete, Universidad de Alicante. Departamento de Ecología, Ministerio de Ciencia e Innovación (España), Loro Parque Fundación, and University of Kent

Subjects

0106 biological sciences, 0301 basic medicine, Plant–animal mutualism, Future studies, zoochory, Seed dispersal, biological invasions, Plant Science, Biology, Citizen science, 010603 evolutionary biology, 01 natural sciences, Moraceae, Article, Psittaciformes, 03 medical and health sciences, citizen science, Ecosystem, Biological invasions, Plant Dispersal, Ecology, Evolution, Behavior and Systematics, Mutualism (biology), Ecology, Botany, plant–animal mutualism, Ecología, seed dispersal, 030104 developmental biology, Habitat destruction, QK1-989, Plant species, Zoochory

Abstract

Plant–animal interactions are key to sustaining whole communities and ecosystem function. However, their complexity may limit our understanding of the underlying mechanisms and the species involved. The ecological effects of epizoochory remain little known compared to other seed dispersal mechanisms given the few vectors identified. In addition, epizoochory is mostly considered non-mutualistic since dispersers do not obtain nutritional rewards. Here, we show a widespread but unknown mutualistic interaction between parrots and plants through epizoochory. Combining our observations with photos from web-sources, we recorded nearly 2000 epizoochory events in 48 countries across five continents, involving 116 parrot species and nearly 100 plant species from 35 families, including both native and non-native species. The viscid pulp of fleshy fruits and anemochorous structures facilitate the adherence of tiny seeds (mean 3.7 2.56 mm) on the surface of parrots while feeding, allowing the dispersion of these seeds over long distances (mean = 118.5 m). This parrot–plant mutualism could be important in ecosystem functioning across a wide diversity of environments, also facilitating the spread of exotic plants. Future studies should include parrots for a better understanding of plant dispersal processes and for developing effective conservation actions against habitat loss and biological invasions

Published

2021

15. The Role of Monk Parakeets as Nest-Site Facilitators in Their Native and Invaded Areas

Author

Thomas H. White, Martina Carrete, Emiliano Mori, Juan Carlos Senar, Dailos Hernández-Brito, José Luis Tella, Pedro Romero-Vidal, Guillermo Blanco, Alvaro Luna, Ministerio de Economía y Competitividad (España), European Cooperation in Science and Technology, and Loro Parque Fundación

Subjects

0106 biological sciences, 0301 basic medicine, Protective- nesting association, QH301-705.5, monk parakeet, Biología, Introduced species, 010603 evolutionary biology, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, Invasive species, Ecosystem engineer, Nest inquilines, 03 medical and health sciences, biology.animal, Monachus, Biology (General), Biological invasions, Ecosistema, protective-nesting association, Ave, General Immunology and Microbiology, biology, Ecology, Cavity nesters, fungi, technology, industry, and agriculture, food and beverages, Interspecific competition, Parakeet, biology.organism_classification, 030104 developmental biology, Myiopsitta, Species richness, Facilitation, General Agricultural and Biological Sciences

Abstract

While most of the knowledge on invasive species focuses on their impacts, little is known about their potential positive effects on other species. Invasive ecosystem engineers can disrupt recipient environments; however, they may also facilitate access to novel resources for native species. The monk parakeet (Myiopsitta monachus) is a worldwide invader and the only parrot that builds its own communal nests, which can be used by other species. However, the ecological effects of these interspecific interactions are barely known. We compared the role of the monk parakeet as a nest-site facilitator in different rural and urban areas, both invaded and native, across three continents and eight breeding seasons. A total of 2690 nests from 42 tenant species, mostly cavity-nesting birds, were recorded in 26% of 2595 monk parakeet nests. Rural and invaded areas showed the highest abundance and richness of tenant species. Multispecies communal nests triggered interspecific aggression between the monk parakeet host and its tenants, but also a cooperative defense against predators. Despite the positive effects for native species, monk parakeets also facilitate nesting opportunities to other non-native species and may also transmit diseases to tenants, highlighting the complexity of biotic interactions in biological invasions., This research was funded by Severo Ochoa Program (SVP-2014-068732), Action COST “ParrotNet” (ES1304), Loro Parque Fundación (PP-146-2018-1), and Ministry of Economy and Competitiveness, Spanish Research Council (CGL-2016-79568-C3-3-P).

Published

2021

16. Roadside Car Surveys: Methodological Constraints and Solutions for Estimating Parrot Abundances across the World

Author

Abraham Rojas, Jomar M. Barbosa, Bernardo Toledo, José L. Tella, Pedro Romero-Vidal, Federica Rossetto, Fernando Hiraldo, Martina Carrete, Guillermo Blanco, Dailos Hernández-Brito, Erica C. Pacífico, Alan Bermúdez-Cavero, Francisco V. Dénes, José A. Díaz-Luque, Alvaro Luna, Ministerio de Medio Ambiente (España), Ministerio de Economía y Competitividad (España), and Loro Parque Fundación

Subjects

0106 biological sciences, Census, census, QH301-705.5, Biome, Population, bird density, 010603 evolutionary biology, 01 natural sciences, Psittaciformes, bird abundance, Distance sampling, Common species, Abundance (ecology), Biology (General), education, Nature and Landscape Conservation, Bird abundance, education.field_of_study, Ecology, Bird density, 010604 marine biology & hydrobiology, Ecological Modeling, distance sampling, Agricultural and Biological Sciences (miscellaneous), detectability, Detectability, Geography, Habitat, Threatened species, Conservation status

Abstract

Parrots stand out among birds because of their poor conservation status and the lack of available information on their population sizes and trends. Estimating parrot abundance is complicated by the high mobility, gregariousness, patchy distributions, and rarity of many species. Roadside car surveys can be useful to cover large areas and increase the probability of detecting spatially aggregated species or those occurring at very low densities. However, such surveys may be biased due to their inability to handle differences in detectability among species and habitats. We conducted 98 roadside surveys, covering > 57,000 km across 20 countries and the main world biomes, recording ca. 120,000 parrots from 137 species. We found that larger and more gregarious species are more easily visually detected and at greater distances, with variations among biomes. However, raw estimates of relative parrot abundances (individuals/km) were strongly correlated (r = 0.86–0.93) with parrot densities (individuals/km2) estimated through distance sampling (DS) models, showing that variability in abundances among species (>40 orders of magnitude) overcomes any potential detectability bias. While both methods provide similar results, DS cannot be used to study parrot communities or monitor the population trends of all parrot species as it requires a minimum of encounters that are not reached for most species (64% in our case), mainly the rarest and more threatened. However, DS may be the most suitable choice for some species-specific studies of common species. We summarize the strengths and weaknesses of both methods to guide researchers in choosing the best–fitting option for their particular research hypotheses, characteristics of the species studied, and logistical constraints., This research was funded by Fundación Biodiversidad (Spanish Ministerio de Medio Ambiente, project 52I.CA2109), Fundación Repsol, Spanish Ministerio de Ciencia e Innovación (Project CGL2015-71378-P), and mostly by Loro Parque Fundación (Project SEJI/2018/024).

Published

2021

17. Successful hybridization between non-congeneric parrots in a small introduced population

Author

Guillermo Blanco, Dailos Hernández-Brito, Martina Carrete, José Luis Tella, University of Kent, and Ministerio de Economía y Competitividad (España)

Subjects

education.field_of_study, Parrots, Population rescue, Population, Zoology, Animal Science and Zoology, Interspecific mating, Biology, Biological invasions, education, Hybridization, Ecology, Evolution, Behavior and Systematics

Abstract

Introduced organisms have to overcome several obstacles, including the scarcity of conspecific mates, before becoming successfully established. We recorded inter-specific mating in non-native areas (Spain) that involved Orange-winged Amazons Amazona amazónica with three non-congeneric parrot species: Scaly-headed ParrotPionus maximiliani, Rose-ringed Parakeet Psittacula krameriand Monk Parakeet Myiopsitta monachus. Ratherthan mating with parakeets, a male Orange-wingedAmazon successfully bred with a female Scaly-headed Parrot, raising hybrid offspring duringfive consecutive years and thus increasing the initial population size fromfive to 12 individuals in 9 years. Non-congenerichy bridization seems to be extremely rare in wild parrotsand, in this case, it may facilitate the successful establishment of a small introduced population in Tenerife, Spain., This research was supported by the Severo Ochoa Program (SVP-2014-068732) and Action COST ES1304 (Parrot Net).

Published

2021

18. A protective nesting association with native species counteracts biotic resistance for the spread of an invasive parakeet from urban into rural habitats

Author

Martina Carrete, Guillermo Blanco, José Luis Tella, and Dailos Hernández-Brito

Subjects

0106 biological sciences, Ciconia, Biotic resistance, Monk parakeet, Introduced species, 010603 evolutionary biology, 01 natural sciences, Invasive species, Predation, Nest, lcsh:Zoology, lcsh:QL1-991, Biological invasions, Ecology, Evolution, Behavior and Systematics, biology, Resistance (ecology), Ecology, Research, 010604 marine biology & hydrobiology, Predation pressure, Stork, biology.organism_classification, Commensalism, Habitat, Animal Science and Zoology, Facilitation, White stork

Abstract

Background: Non-native species are often introduced in cities, where they take advantage of microclimatic conditions, resources provided by humans, and competitor/predator release to establish and proliferate. However, native communities in the surrounding rural or natural areas usually halt their spread through biotic resistance, mainly via top-down regulative processes (predation pressure). Here, we show an unusual commensal interaction between exotic and native bird species that favours the spread of the former from urban to rural habitats. Results: We show how Monk parakeets Myiopsitta monachus, an invasive species often introduced in cities worldwide, associated for breeding with a much larger, native species (the white stork Ciconia ciconia) to reduce predation risk in central Spain, thus allowing their colonization of rural areas. Parakeets selected stork nests close to conspecifics and where breeding raptors were less abundant. Parakeets always flushed when raptors approached their nests when breeding alone, but stayed at their nests when breeding in association with storks. Moreover, when storks abandoned a nest, parakeets abandoned it in the following year, suggesting that storks actually confer protection against predators. Conclusions: Our results show how a protective-nesting association between invasive and native species can counteract biotic resistance to allow the spread of an invasive species across non-urban habitats, where they may become crop pests. Monk parakeet populations are now growing exponentially in several cities in several Mediterranean countries, where they coexist with white storks. Therefore, management plans should consider this risk of spread into rural areas and favour native predators as potential biological controllers

Published

2020

19. Urban Sprawl, Food Subsidies and Power Lines: An Ecological Trap for Large Frugivorous Bats in Sri Lanka?

Author

Guillermo Blanco, Fernando Hiraldo, Dailos Hernández-Brito, and José Luis Tella

Subjects

Seed dispersal, Population, Frugivore, Urbanization, Ecosystem services, education, Electrocution, lcsh:QH301-705.5, Nature and Landscape Conservation, education.field_of_study, Ecology, biology, Agroforestry, Ecological Modeling, Power lines, anthropogenic food subsidies, ecological traps, ecosystem services, electrocution, exotic plants, fruit bats, power lines, seed dispersal, urbanization, Pteropus, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), people.cause_of_death, Population decline, Geography, Habitat, lcsh:Biology (General), Anthropogenic food subsidies, Fruit bats, Ecological trap, people, Exotic plants, Ecological traps

Abstract

Electrocution is one of the less known anthropogenic impacts likely a ecting the bat population. We surveyed 925 km of overhead distribution power lines that supply energy to spreading urbanized areas in Sri Lanka, recording 300 electrocuted Indian flying foxes (Pteropus giganteus). Electrocutions were recorded up to 58 km from the nearest known colony, and all of them were in urbanized areas and very close (X = 4.8 m) to the exotic fruiting trees cultivated in gardens. Predictable anthropogenic food subsidies, in the form of cultivated fruits and flowers, seem to attract flying foxes to urban habitats, which in turn become ecological traps given their high electrocution risk. However, electrocution rates greatly varied among the 352 power lines surveyed (0.00–24.6 indiv./km), being highest in power lines with four wires oriented vertically (X = 0.92 indiv./km) and almost zero in power lines with wires oriented horizontally. Therefore, the latter design should be applied to projected new power lines and old vertically oriented lines in electrocution hotspots should be substituted. Given that flying foxes are key seed dispersers and pollinators, their foraging habitat selection change toward urban habitats together with high electrocution risk not only may contribute to their population decline but also put their ecosystem services at risk

Published

2020

20. The extent, frequency and ecological functions of food wasting by parrots

Author

José L. Tella, Guillermo Blanco, Pedro Romero-Vidal, Martina Carrete, Francisco V. Dénes, José A. Díaz-Luque, Eduardo Gómez-Llanos, Esther Sebastián-González, Dailos Hernández-Brito, Fernando Hiraldo, and Erica C. Pacífico

Subjects

0106 biological sciences, Behavioural ecology, Seed dispersal, lcsh:Medicine, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Parrots, Seed Dispersal, medicine, Animals, Ecosystem, Animal species, lcsh:Science, Macroecology, Wasting, Multidisciplinary, Ecology, 010604 marine biology & hydrobiology, lcsh:R, digestive, oral, and skin physiology, Feeding Behavior, Diet, Facilitation, lcsh:Q, medicine.symptom

Abstract

Anecdotic citations of food wasting have been described for parrots, but we lack a comprehensive knowledge about the extent of this behaviour, and its ecological and evolutionary implications. Here, we combine experimental and observational approaches to evaluate the spatial, temporal, typological and taxonomic extent of food wasting by parrots, to identify the ecological and evolutionary factors driving food wasting, and to assess the incidence of two ecological functions derived from food wasting, such as food facilitation to other animal species and secondary seed dispersal. We found that food wasting is a widespread behaviour found in all the studied parrot species. However, the proportion of food wasted differed among species and throughout the year. Parrots wasted more food during the non-breeding season, when they relied on exotic plants and on unripe fruits or seeds. We also recorded 86 animal species feeding on the food wasted by parrots, 27 of which potentially acted as secondary seed dispersers. Overall, our study emphasizes the universality of food wasting among parrots, and the important implications that this behaviour may have for the species involved (i.e., the parrot, the plant, the other species feeding on wasted food), and for the functioning of the whole ecosystem

Published

2019

21. Explanatory variables for occupation of cavities by noctules from Nest-site competition and killing by invasive parakeets cause the decline of a threatened bat population

Author

Dailos Hernández-Brito, Carrete, Martina, Ibáñez, Carlos, Juste, Javier, and Tella, José L.

Abstract

The dataset used for analyzing the occupation of cavities by greater noctules for two breeding seasons (2013 and 2017). Physical features of cavities are height of the cavity above ground (meters) and size of cavity entry which is scored as small, medium or large (< 4cm, 4-8 cm, and > 8 cm, respectively). While spatial variables are nearest neighbour distance, as well as the corresponding aggregation indexes occupied by conspecifics (Greater noctules) or heterospecifics (Rose-ringed parakeets).

Published

2018

22. Reproductive timing as a constraint on invasion success in the Ring-necked parakeet (Psittacula krameri)

Author

Chris A. M. van Turnhout, Diederik Strubbe, Asaf Kaplan, Michael P. Braun, Dailos Hernández-Brito, Alvaro Luna, Assaf Shwartz, Mattia Menchetti, Dave Parrott, Yariv Malihi, Pim Edelaar, Detlev Franz, Frank-M. Chmielewski, Emiliano Mori, European Cooperation in Science and Technology, European Commission, Danish National Research Foundation, and Ministerio de Economía y Competitividad (España)

Subjects

0106 biological sciences, Range (biology), Evolution, Adaptation, Climate, Invasive species, Parrots, Pet trade, Phenology, Urban environment, Ecology, Evolution, Behavior and Systematics, Ecology, Population, Biodiversity, Growing season, Biology, 010603 evolutionary biology, 01 natural sciences, Behavior and Systematics, biology.animal, education, education.field_of_study, Psittacula krameri, 010604 marine biology & hydrobiology, Parakeet, 15. Life on land, biology.organism_classification, Chemistry

Abstract

Climate similarity favors biological invasion, but a match between seasonality in the novel range and the timing of life cycle events of the invader also influences the outcome of species introduction. Yet, phenology effects on invasion success have generally been neglected. Here we study whether a phenological mismatch limits the non-native range of a globally successful invader, the Ring-necked parakeet, in Europe. Given the latitudes at which parakeets have established across Europe, they breed earlier than expected based on breeding dates from the native Asian range. Moreover, comparing the breeding dates of European populations to those of parakeets in the native Asian range, to five native breeding bird species in Europe and to the start of the growing season of four native European trees shows that the discrepancy between expected and actual breeding phenology is greater in northern Europe. In northern European populations, this temporal mismatch appears to have negative effects on hatching success, and on population growth rates in years that are colder than average in the first six months. Phenological mismatch also can explain why parakeets from African populations (that are more likely to breed in autumn) have been poor invaders compared to parakeets from Asia. These lines of evidence support the hypothesis that the reproductive phenology of the Ring-necked parakeet can be a limiting factor for establishment and range expansion in colder climates. Our results provide growing support for the hypothesis that the match between climate seasonality and timing of reproduction (or other important life cycle events) can affect the establishment success, invasive potential and distribution range of introduced non-native species, beyond the mere effect of climate similarity., The work in London was funded by The Department for Environment, Food and Rural Affairs (Defra). DS is funded by a Marie Skłodowska-Curie Action under the Horizon 2020 call (H2020-MSCA-IF-2015, Grant Number 706318), and acknowledges the Danish National Research Foundation for support to the Center for Macroecology, Evolution and Climate (Grant Number DNRF96). PE was supported by the Spanish Ministry of Economy and Competitiveness through grants RYC-2011-07889, CGL-2012-35232, CGL2013-49460-EXP and CGL2016-79483-P, with support from the European Regional Development Fund. We further acknowledge the financial support by COST Action ES1304 (‘ParrotNet’) that facilitated collaboration between the authors.

Published

2017

23. Rose-ringed Parakeet Psittacula krameri Populations and Numbers in Europe: A Complete Overview

Author

Leonardo Ancillotto, Philippe Clergeau, Emiliano Mori, Julia Schroeder, Rachel L. White, Diederik Strubbe, Michael Wink, Marine Le Louarn, André van Kleunen, Mattia Menchetti, Tamer Albayrak, Liviu G. Pârâu, Michael P. Braun, Detlev Franz, Alvaro Luna, Dailos Hernández-Brito, Laboratoire Population-Environnement-Développement (LPED), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU), Centre d'Ecologie et des Sciences de la COnservation (CESCO), Muséum national d'Histoire naturelle (MNHN)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS), Institute of Pharmacy and Molecular Biotechnology, Heidelberg University, Department of Animal and Plant Sciences [Sheffield], University of Sheffield [Sheffield], and Institute for Pharmacy and Molecular Biotechnology

Subjects

0106 biological sciences, Range (biology), media_common.quotation_subject, Population, Biodiversity, Invasive alien species, Introduced species, Alien, [SHS.DEMO]Humanities and Social Sciences/Demography, 010603 evolutionary biology, 01 natural sciences, Competition (biology), écologie, Parrots, biology.animal, Psittaciformes, 14. Life underwater, education, Biology, ComputingMilieux_MISCELLANEOUS, Demography, media_common, education.field_of_study, biology, Psittacula krameri, Ecology, 010604 marine biology & hydrobiology, Populations, Parakeet, [SHS.GEO]Humanities and Social Sciences/Geography, 15. Life on land, [SHS.ANTHRO-SE]Humanities and Social Sciences/Social Anthropology and ethnology, biology.organism_classification, 3. Good health, Europe, Animal Science and Zoology, [SDE.BE]Environmental Sciences/Biodiversity and Ecology

Abstract

Background: Alien species are one of the major causes contributing to biodiversity loss. In Europe, over 340 alien bird species have been recorded in the wild, of which 74 are established. Among 12 established alien parrot species in Europe, the Rose-ringed Parakeet (RRP) Psittacula krameri is the most abundant and widespread. Objective: Although one of the best documented alien vertebrates in Europe, historical and current datasets on RRP invasion success and demography have not been systematically collated and analysed. This paper therefore aims to bring together, verify and make available this information. Method: Existing distribution and demographic data for the RRP in Europe were collated from the following sources: (a) literature search; (b) bird sighting databases; (c) regional bird experts; (d) RRP roost counts. With this data, we evaluated population size and growth per population, country and the whole of Europe in the period 1965-2015. Results: The RRP is well established in Europe with at least 90 breeding populations in 10 countries, and a total population size of at least 85,000 birds as of 2015. For Western Europe, long-term demographic data indicate the species has grown considerably in number, although some populations have failed to persist. Data is scarce for countries in Central, Eastern and Northern Europe. Conclusion: Our synthesis reveals a positive demographic trend across Europe, although locally, some populations appear to have reached carrying capacity. Further research is needed to understand the mechanisms underlying RRP population growth in Europe, and methods amenable to citizen-scientists are urgently required to monitor population and range dynamics

Published

2016

24. Parrots as overlooked seed dispersers

Author

Fernando Hiraldo, Guillermo Blanco, Martina Carrete, Abraham Rojas, Adrián Baños-Villalba, José L. Tella, José A. Díaz-Luque, Dailos Hernández-Brito, and Erica C. Pacífico

Subjects

Ecology, education, Biology, Ecology, Evolution, Behavior and Systematics

Published

2015