Your search keyword '"Villegas, Auxiliadora"' showing total 14 results

1. Urohidrosis as an overlooked cooling mechanism in long-legged birds.

Author

Cabello-Vergel J, Soriano-Redondo A, Villegas A, Masero JA, Guzmán JMS, and Gutiérrez JS

Subjects

Animals, Behavior, Animal physiology, Biodiversity, Climate Change, Microclimate, Phylogeny, Birds physiology, Body Temperature Regulation physiology

Abstract

Behavioural thermoregulation could buffer the impacts of climate warming on vertebrates. Specifically, the wetting of body surfaces and the resulting evaporation of body fluids serves as a cooling mechanism in a number of vertebrates coping with heat. Storks (Ciconiidae) frequently excrete onto their legs to prevent overheating, a phenomenon known as urohidrosis. Despite the increasingly recognised role of bare and highly vascularised body parts in heat exchange, the ecological and evolutionary determinants of urohidrosis have been largely ignored. We combine urohidrosis data from a scientifically curated media repository with microclimate and ecological data to investigate the determinants of urohidrosis in all extant stork species. Our phylogenetic generalised linear mixed models show that high temperature, humidity and solar radiation, and low wind speed, promote the use of urohidrosis across species. Moreover, species that typically forage in open landscapes exhibit a more pronounced use of urohidrosis than those mainly foraging in waterbodies. Substantial interspecific variation in temperature thresholds for urohidrosis prevalence points to different species vulnerabilities to high temperatures. This integrated approach that uses online data sources and methods to model microclimates should provide insight into animal thermoregulation and improve our capacity to make accurate predictions of climate change's impact on biodiversity., (© 2021. The Author(s).)

Published

2021

2. Understanding how birds rebuild fat stores during migration: insights from an experimental study.

Author

Araújo PM, Viegas I, Rocha AD, Villegas A, Jones JG, Mendonça L, Ramos JA, Masero JA, and Alves JA

Subjects

Animals, Diet, Diet Therapy, Ecosystem, Lipogenesis, Oryza, Seasons, Adipose Tissue physiology, Animal Migration physiology, Birds physiology

Abstract

Mechanisms underlying fat accumulation for long-distance migration are not fully understood. This is especially relevant in the context of global change, as many migrants are dealing with changes in natural habitats and associated food sources and energy stores. The continental Black-tailed godwit Limosa limosa limosa is a long-distance migratory bird that has undergone a considerable dietary shift over the past few decades. Historically, godwits fed on an animal-based diet, but currently, during the non-breeding period godwits feed almost exclusively on rice seeds. The latter diet may allow building up of their fuel stores for migration by significantly increasing de novo lipogenesis (DNL) activity. Here, we performed an experiment to investigate lipid flux and the abundance of key enzymes involved in DNL in godwits, during fasting and refueling periods at the staging site, while feeding on rice seeds or fly larvae. Despite no significant differences found in enzymatic abundance (FASN, ME1, ACC and LPL) in stored fat, experimental godwits feeding on rice seeds presented high rates of DNL when compared to fly-larvae fed birds (~35 times more) and fasted godwits (no DNL activity). The increase of fractional DNL in godwits feeding on a carbohydrate-rich diet can potentially be enhanced by the fasting period that stimulates lipogenesis. Although requiring further testing, these recent findings provide new insights into the mechanisms of avian fat accumulation during a fasting and refueling cycle and associated responses to habitat and dietary changes in a migratory species.

Published

2019

3. Unravelling trophic subsidies of agroecosystems for biodiversity conservation: food consumption and nutrient recycling by waterbirds in Mediterranean rice fields.

Author

Navedo JG, Hahn S, Parejo M, Abad-Gómez JM, Gutiérrez JS, Villegas A, Sánchez-Guzmán JM, and Masero JA

Subjects

Agriculture, Animals, Oryza, Wetlands, Biodiversity, Birds physiology, Conservation of Natural Resources methods, Ecological and Environmental Phenomena, Ecosystem

Abstract

Waterbirds can reallocate a considerable amount of nutrients within agricultural fields and between agriculture sites and wetlands. However their effects on biogeochemical cycles have rarely been quantified. We estimated bird numbers, diet (from stable isotope analysis), food supply, and the food consumption on rice fields by overwintering waterbirds in one of the most important areas for rice production in southwestern Europe and a key area for various migrating and resident waterbird species. Herein, we modelled the nutrient (N and P) recycling in rice fields, and their transport to reservoirs. The energy consumption by waterbirds (96,605±18,311 individuals) on rice fields during winter averaged at 89.9±39.0 kJ·m(-2), with its majority (89.9%) belonging to foraging on rice seeds. Thus, the birds removed about 26% of rice seeds leftover after harvest (estimated in 932.5±504.7 seeds·m(-2) in early winter) wherein common cranes and dabbling ducks (four species) were the most important consumers. Waterbirds foraging and roosting in the rice fields recycled more than 24.1 (1.0 kg·ha(-1)) of N and an additional 5.0 tons (0.2 kg·ha(-1)) of P in the Extremadura's rice fields during winter. Additionally, we estimated that 2.3 tons of N and 550 kg of P were removed from rice fields and transported to reservoirs. The seasonal foraging of wildlife should result in a direct benefit for rice farmers by improving nutrient recycling through defecation by waterbirds with respect to artificial fertilisation. Additionally, rice fields located in the cranes' core wintering areas can provide sufficient food supply to induce habitat shift from their traditional wintering habitat in 'dehesas' to rice fields, which causes indirect socioeconomic benefit through reduced acorn consumption by cranes. Our modelling approach may thus be especially helpful for management decisions regarding rice agroecosystems in areas which are also important for the conservation of migratory waterbirds., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

4. Sex differences in digestive traits in sexually size-dimorphic birds: Insights from an assimilation efficiency experiment on black-tailed godwit.

Author

Santiago-Quesada F, Masero JA, Albano N, Villegas A, and Sánchez-Guzmán JM

Subjects

Animal Feed, Animals, Body Mass Index, Diet, Energy Intake, Female, Male, Oryza, Seeds, Species Specificity, Birds anatomy & histology, Body Size physiology, Digestion physiology, Sex Characteristics

Abstract

Digestive assimilation efficiency is considered a trait with important implications for animal ecology. However, practically all studies have ignored the importance of sex differences in food assimilation efficiency (AE). Here, we investigated sex differences in dietary and physiological parameters in the Black-tailed Godwit Limosa limosa limosa feeding on rice seeds, a species with sexual dimorphism in body size and body mass. Gross daily food intake, gross energy intake, gross energy output and metabolizable energy intake did not vary significantly between sexes, but godwit females showed lower faeces energy density and higher AE than males. Mass-specific AE was similar in males and females, and the difference in AE could be attributed to the females' greater body mass. We suggest that a differential AE could play a role in explaining sex differences in habitat or micro-habitat selection during the non-breeding season in bird species with sexual dimorphism in size. Finally, we addressed the question about assimilation efficiency accuracy in models that estimate prey acquisitions by declining shorebirds as the Black-tailed Godwit.

Published

2009

5. Keeping cool with poop: Urohidrosis lowers leg surface temperature by up to 6°C in breeding White storks.

Author

Cabello‐Vergel, Julián, Villegas, Auxiliadora, and Gutiérrez, Jorge S.

Subjects

WHITE stork, SURFACE temperature, GLOBAL warming, PERSPIRATION, THERMOGRAPHY, STORKS, LEG

Abstract

Storks (Ciconiidae) are renowned for defecating on their legs when exposed to high temperatures, a phenomenon known as "urohidrosis." Previous work suggested that this behavior can cool down the blood supply to the legs and thus prevent hyperthermia in captive storks when overheated. However, no study has quantified the magnitude or duration of its evaporative cooling effect in free‐ranging birds. Here, we combine urohidrosis data with thermal imaging and microclimate data to investigate the thermoregulatory significance of urohidrosis in White storks Ciconia ciconia during the breeding season. We show that urohidrosis can reduce leg surface temperature by up to 6.7°C (4.40 ± 1.04°C). Yet its cooling effect was of short duration (lasting no more than 2.5 min) and decreased with time since defecation. Thus, for urohidrosis to significantly contribute to heat dissipation, storks must perform it repeatedly when overheated. Indeed, an individual can perform up to 11 urohidrosis events per hour; our estimates indicate that repeated urohidrosis could represent a significant amount of heat loss during short time span, equivalent to 4% of daily field metabolic rate for an adult stork. Our results point to an absence of differences in the cooling efficiency of urohidrosis between adults and nestlings, probably because all nestlings were recorded during the last phase of the ontogeny of thermoregulation. Besides, during the hottest days, adult storks delivered water to their nestlings, which might allow them to replenish body water reserves to sustain urohidrosis and other heat dissipation behaviors such as panting or gular fluttering. Our results indicate that urohidrosis might buffer the impact of high temperatures in breeding storks, preventing overheating and lethal hyperthermia. Gaining knowledge about behavioral thermoregulation in the heat is therefore crucial to better predict the future persistence and vulnerability of species under different climate warming scenarios. [ABSTRACT FROM AUTHOR]

Published

2023

6. Effects of salinity on the immune response of an 'osmotic generalist' bird

Author

Gutiérrez, Jorge S., Abad-Gómez, José M., Villegas, Auxiliadora, Sánchez-Guzmán, Juan M., and Masero, José A.

Published

2013

7. Metabolic consequences of overlapping food restriction and cell-mediated immune response in a long-distance migratory shorebird, the little ringed plover Charadrius dubius

Author

Gutiérrez, Jorge S., Masero, José A., Abad-Gómez, José M., Villegas, Auxiliadora, and Sánchez-Guzmán, Juan M.

Published

2011

8. Day and night use of habitats by northern pintails during winter in a primary rice-growing region of Iberia.

Author

Parejo, Manuel, Gutiérrez, Jorge S., Navedo, Juan G., Soriano-Redondo, Andrea, Abad-Gómez, José M., Villegas, Auxiliadora, Corbacho, Casimiro, Sánchez-Guzmán, Juan M., and Masero, José A.

Subjects

HOME range (Animal geography), ARTIFICIAL habitats, PADDY fields, ANIMAL behavior, HABITATS, WATER depth

Abstract

Loss of natural wetlands is a global phenomenon that has severe consequences for waterbird populations and their associated ecosystem services. Although agroecosystems can reduce the impact of natural habitat loss, drivers of use of such artificial habitats by waterbirds remain poorly understood. Using the cosmopolitan northern pintail Anas acuta as a model species, we monitored home-range and fine-scale resource selection across the agricultural landscape. Individuals were tracked using GPS-GSM transmitters, and a suite of environmental and landscape features were measured throughout the winter seasons. Spatial patterns of habitat use were analysed using generalized linear mixed effect models by integrating field-observations with GPS telemetry. All birds used rice fields as foraging grounds at night and commuted to an adjacent reservoir to roost during daylight. Home-ranges and maximum foraging distances of nocturnally foraging birds increased with decreasing availability of flooded fields, and were positively correlated with moonlight levels. Birds selected flooded rice paddies (water depth range: 9–21 cm) with standing stubble and substrate with pebbles smaller than 0.5 cm in diameter. Density of rice seeds, rice paddy size, and other environmental and landscape features did not emerge as significant predictors. Our findings indicate that nocturnal foraging of northern pintails within rice fields is driven primarily by straw manipulation, water level and substrate pebble size. Thus, the presence of standing stubble in flooded paddies with soft bottoms should be prioritized to improve foraging areas for dabbling ducks. These management procedures in themselves would not increase economic costs or affect rice production and could be applied for dabbling-duck conservation throughout the world. [ABSTRACT FROM AUTHOR]

Published

2019

9. Physiological, Morphological and Behavioural Responses of Self-Feeding Precocial Chicks Copying with Contrasting Levels of Water Salinity during Development.

Author

Rocha, Afonso R., Silva, Rita, Villegas, Auxiliadora, Sánchez-Guzmán, Juan M., Ramos, Jaime A., and Masero, José A.

Subjects

BLACK-winged stilt, CHICK behavior, CHICKS, POULTRY feeding, PHYSIOLOGICAL effects of salt, BODY mass index, DEVELOPMENTAL biology, PHYSIOLOGY

Abstract

Combined physiological and behavioural responses to salt loads during development have rarely been studied in air-breathing vertebrates able to inhabit hypersaline habitats, but they may be of particular importance in understanding, for example, the differences among species in patterns of habitat use or ontogenetic diet switches. Here, we compared the physiological and behavioural responses of self-feeding precocial chicks developed in contrasting levels of water salinity. The model species was the Black-winged Stilt (Himantopus himantopus) a precocial shorebird that breeds in a range of habitats from freshwater to hypersaline wetlands. Specifically, we compared resting metabolic rate (RMR), heat shock proteins (Hsp70), plasma ions, hematocrit, body mass, body size, growth rate and head-shaking behaviour of captive-reared Black-winged Stilt fledglings developed under fresh (0 ‰), saline (20 ‰), and hypersaline (60 ‰) water. Contrary to expectations, none of the physiological and morphological variables measured differed significantly among treatments. Likewise, the RMR of wild and captive-reared fledglings was similar. Surprisingly, the saltgland mass of wild fledglings from freshwater and those from hypersaline habitats was also similar. However, head-shaking, a behavioural response associated to minimize salt intake and to expel the secretions of salt glands, differed according to salinity source: head-shaking rate increased with increasing salinity. The results of this study support the key role of behavioural osmoregulation in avoiding salt stress during development. [ABSTRACT FROM AUTHOR]

Published

2016

10. Variation in parental rearing expenditure triggers short-term physiological effects on offspring in a long-lived seabird.

Author

González‐Medina, Erick, Castillo‐Guerrero, José Alfredo, Santiago‐Quesada, Francisco, Villegas, Auxiliadora, Masero, José A., Sánchez‐Guzmán, Juan M., Fernández, Guillermo, and Wanless, Ross

Subjects

PARENTAL behavior in animals, SEA birds, SEA bird chicks, BLUE-footed booby, ALKALINE phosphatase, BIRDS

Abstract

Parental care in long-lived bird species involves a trade-off between the benefits of increasing the effort expended on current offspring and the costs that this represents for future reproductive output. Under regimes of high environmental variability, long-lived seabirds can adjust their breeding effort to buffer the negative effects of this variability on their offspring. However, the potential impacts of variation in breeding effort on offspring physiology in the short term and on longer-term survival are poorly understood. In this study, we manipulated brood age through a cross-fostering experiment to assess whether increasing or decreasing parental reproductive expenditure led to costs in Blue-footed Booby Sula nebouxii chicks. Specifically, we tested the consequences of altered parental reproductive expenditure on the offspring's physiological condition (plasma metabolites, heterophil to lymphocyte ratio (H/L) and body condition index ( BCI)) and survival. Offspring from broods in which parental investment was experimentally increased showed a lower BCI and lower alkaline phosphatase levels and higher H/L ratios than controls. Conversely, offspring showed the opposite pattern when reproductive expenditure was experimentally decreased. We observed no effects of manipulation of parental investment on triglyceride levels or on survival rates. Although our findings suggest that Blue-footed Booby parents have the ability to adjust their breeding effort according to the demands of their offspring, parental effort could influence the effect of hatching order by suppressing the aggressive tendency of the senior chick. [ABSTRACT FROM AUTHOR]

Published

2016

11. Immune response to an endotoxin challenge involves multiple immune parameters and is consistent among the annual-cycle stages of a free-living temperate zone bird.

Author

Hegemann, Arne, Matson, Kevin D., Versteegh, Maaike A., Villegas, Auxiliadora, and Tieleman, B. Irene

Subjects

ENDOTOXINS, IMMUNE response, TEMPERATE climate, BIRD physiology, SKYLARK, HAPTOGLOBINS, LYMPHOCYTES, IMMUNITY, BIRDS

Abstract

Trade-offs between immune function and other physiological and behavioural processes are central in ecoimmunology, but one important problem is how to distinguish a reallocation of resources away from the immune system from a reallocation or redistribution within the immune system. While variation in baseline values of individual immune parameters is well established, studies in wild animals on multiple parameters during an immune response are lacking. It also remains to be tested whether and how immune responses correlate with baseline values that vary, for example, over the course of an annual cycle. We studied immunological responses to an endotoxin challenge in skylarks (Alauda arvensis), a partial migrant bird breeding in temperate zones. We compared birds injected with the endotoxin LPS with un-injected controls, characterizing immunological responses with leukocyte profiles, titres of lytic enzymes and natural antibodies, and concentrations of haptoglobin and heat shock proteins. We did this in five annual-cycle stages to test whether the response varied throughout the year. The endotoxin challenge affected six of 10 measured parameters. Lysis titres and proportions of heterophils increased; haptoglobin concentrations and proportions of lymphocytes, basophils and eosinophils decreased. The variable effects on different immune components demonstrate the complexity of an Immune response. We found no evidence that the response differed between annual-cycle stages. The response was independent of baseline measures taken directly upon capture in the field, indicating that birds were facing no immunological ceiling when mounting an immune response. Values of five parameters collected under field conditions were significantly related to values taken under standardized laboratory conditions. We conclude that multiple parts of the immune system are modulated during an immunological response and that responses are not re-organized throughout the annual cycle. [ABSTRACT FROM AUTHOR]

Published

2013

12. Sex-specific vulnerability to breeding conditions in chicks of the sexually monomorphic Gull-billed Tern.

Author

Villegas, Auxiliadora, Masero, José, Corbacho, Casimiro, Gutiérrez, Jorge, Albano, Noelia, and Sánchez-Guzmán, Juan

Subjects

*SEXUAL dimorphism in animals, *BABY birds, *SEX ratio, *SEXUAL dimorphism, *ANIMAL species, *INFECTION, *BIRDS

Abstract

Environmental conditions during early development may differentially affect male and female offspring, and the effects of this sex-environment interaction in chick performance may be exaggerated under harsh conditions. In birds, most of the currently available evidence on sex-biased environmental sensitivity in nestlings is derived from species that display sexual size dimorphism, while studies on monomorphic or slightly dimorphic species are less abundant and have produced inconsistent results. We have evaluated sex-specific vulnerability to breeding conditions in chicks of the Gull-billed Tern ( Gelochelidon nilotica), a semiprecocial species with only low sexual size dimorphism. We compared male and female mass growth and fledgling physiological condition (measured through plasma metabolite levels) in several colonies that differed in reproductive parameters. Chicks of both sexes grew more slowly and fledged with lower mass and poorer nutritional state in the colony with the worst breeding conditions, i.e., with later phenology and lower clutch size and reproductive success. Contrary to our expectations, chick vulnerability to rearing conditions was more pronounced for female than male fledglings. While males grew faster than females during the middle phase of growth regardless of colony, this difference disappeared later in the fledging period in all but the worst colony, where females maintained a lower mass and worse nutritional condition than males. These results add to the evidence that, even in monomorphic species, the environmental sensitivity of nestlings during development may vary in a sex-specific way that may select for sex-biased allocation of parental resources and sex ratio adjustments under specific breeding conditions. [ABSTRACT FROM AUTHOR]

Published

2013

13. Sex-specific deposition and survival effects of maternal antibodies: a case study with the gull-billed tern Gelochelidon nilotica.

Author

Abad-Gómez, José M., Masero, José A., Villegas, Auxiliadora, Albano, Noelia, Gutiérrez, Jorge S., and Sánchez-Guzmán, Juan M.

Subjects

GULL-billed tern, BIRD growth, GENETICS, BIRDS, ANIMAL species, EGG incubation, BIRD eggs, BIRD ecology

Abstract

There is a growing body of evidence that maternal antibodies transferred to offspring have potential implications in the evolutionary ecology of birds. This transfer of maternal antibodies is a potentially flexible mechanism of non-genetic inheritance by which mothers could favour some offspring over others and/or increase offspring survival, but this is a phenomenon that remains poorly understood. We examined sex-specific deposition of maternal antibodies and its effects on early (5 d) and fledging (17 d) survival in semiprecocial chicks of the gull-billed tern Gelochelidon nilotica, a long-distance migratory bird. Mothers transferred a significantly greater amount of maternal antibodies to sons than to daughters. We found evidence for positive associations between maternal antibody levels at hatching and early offspring survival. This association might be sex-specific, which can be understood as a mechanism of parental favouritism for the most sensitive sex. [ABSTRACT FROM AUTHOR]

Published

2012

14. Regulation of breeding expenditure in the blue-footed booby, Sula nebouxii: an experimental approach.

Author

González-Medina, Erick, Castillo-Guerrero, José Alfredo, Santiago-Quesada, Francisco, Villegas, Auxiliadora, Masero, José A., Sánchez-Guzmán, Juan M., and Fernández, Guillermo

Subjects

*BLUE-footed booby, *BIRD breeding, *BIRD reproduction, *BIRD physiology, *IMMUNITY, *ANIMAL behavior, *BIRDS

Abstract

In the short-term, reproductive expenditure has repercussions for survival and future reproductive output. In long-lived seabirds, parents are expected to adjust their reproductive investment based on their physiological and immune status and then respond to the needs of their offspring without incurring additional costs. However, the impacts of parental expenditures on physiological and immune status have not been well explored. We compared the foraging effort (number and duration of foraging trips), time at nest and physiological status (plasma metabolites, heterophil/lymphocyte (H/L) ratio, creatine kinase (CK) activity) and body condition index (BCI) of blue-footed boobies subjected to experimentally increased or decreased breeding demands. When parental reproductive demands were increased, adults made more foraging trips and decreased their time at the nest. The increases in adult physical activity were reflected in higher levels of creatine kinase/total protein (CK/TP, U/g) and higher H/L ratios, indicating that adjustments in foraging effort were reflected in their physiological status. When parental reproductive demands were reduced, parents adjusted their level of effort according to the lower needs of their offspring; as a result, their overall physiological status was greater than that of the controls, showing lower CK/TP levels and H/L ratios. Our findings indicate that parents modified their foraging effort in response to variation in the food demands of the brood to maintain reproductive value, but this adjustment had consequences for physiological status in both costs and benefits. Blue-footed boobies inhabit upwelling systems where they experience high environmental variability throughout their life span. Thus, the ability to adjust breeding effort may buffer breeding success under different scenarios, with short-term physiological expenditures possibly related to long-term survival. [ABSTRACT FROM AUTHOR]

Published

2015