Dataset.
Assessing short and long-term variations in diversity, timing, and body condition of frugivorous birds
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282110
Digital.CSIC. Repositorio Institucional del CSIC
- Campo-Celada, María
- Jordano, Pedro
- Benítez-López, Ana
- Gutiérrez-Expósito, Carlos
- Rabadán-González, Julio
- Mendoza, Irene
[Methods] Data include two different datasets (each one separated in a different file): 1) Bird abundance data; 2) Bird trapping data using mist nets. Data were collected in Hato Ratón, in Doñana’s Natural Area, close to Villamanrique de la Condesa, Sevilla province, southern Spain (37° 10’ 26.4” N, 6° 20’ 17.4” W, 11 m a.s.l.). Sampling was carried on in two time periods: 1981-1983 and 2019-2021.
Bird abundance was estimated using 1-km linear transects to calculate the kilometric abundance index. These were conducted 2-5 times per month (40 censuses in total). For each individual that was seen or heard, we recorded its species and the time it was seen. Bird censusing started one hour after sunrise and was carried out when weather conditions were not extreme (in absence of rain or strong wind). Data on censed birds include a total of 0 species.
Bird ringing data comes from birds captured by mist nets deployed weekly during 1981-1983 (6-10 nets per survey day, average 10-25 mist-net m/h) and fortnightly in 2019-2021 (12-20 nets per survey day, average 25-50 m/h). Data on trapped birds include a total of 32 species.
[Usage Notes] Medata information:
File: censuses80s_20s.txt
Including abundance censuses carried on in 1981-1983 and 2019-2021-
Variable names: yeargroup (study period, either 1981-1983 or 2019-2021), Date (Year/Month/Day), year, months, Transect, species, count (number of individuals), distance (transect length), ikas (relative abundance, individuals/km).
File: ringing80s_20s.txt
Including bird ringing data carried on in 1981-1983 and 2019-2021-
Variable names: Date (Year/Month/Day), Species, Tarsus length (mm), Weight (g), residuals (Weight ~ tarsus residuals), Fat_rescaled (fat value after rescaling, from 0 to 8), fat_cat (Fat category: low or medium-high fat content), Migratory_type (Resident, Summer, Wintering, or Migrant), Trophic_type (combinations of Herbivore, Frugivore, Insectivore, Granivore, Carnivore, Omnivore, and Necrophage), Functional type (NF, PC, SP, SD, PC/SP/SD, PC/SP). NF = Non Frugivore; PC = Pulp Consumer; SP = Seed Predator; SD = Seed Disperser., Seed dispersal by frugivorous bird species involves a fine temporal tuning between fruiting plants and birds. However, this interaction may be severely threatened by anthropogenic climate and land-use change, which may result in phenological mismatches and pervasive ecological consequences for avian communities. In this study, we evaluate changes at long (~40 years) and short-time (seasonal) spans in an avian frugivore community using a snapshot resampling. Particularly, we focus on changes in composition, abundance, migratory timing (i.e., phenology), and physical condition in relation to variations in fruit supply. We used bird and fruit data collected during 1981-1983 and 2019-2021 in a Mediterranean scrubland site in Doñana Natural Area, SW Spain. Our findings indicate a profound transformation of species composition, bird phenology, and body condition: in ~40 years, the avian community showed a 66% and 13% decrease of the wintering and seed-disperser species, respectively. Seasonal abundance peaks were advanced for at least one month in 9 out of 11 frugivorous bird species included in the analyses. Avian body condition during the migratory passage has worsened, with fewer individuals showing a high-fat percentage now than in the past. Finally, we report a fruit production decrease of almost half in 2019-2021 compared to 1981-1983, probably linked to habitat encroachment by pine trees and replacement of fleshy-fruited shrubs. Vegetation encroachment and climate change are the most plausible explanations for the observed changes in the avian community, but the relative importance of these factors is yet unknown. Our results at a local scale mirror the dramatic consequences of global change affecting the diversity, phenology, and physical condition of frugivorous bird species reported in multiple studies across the globe. The loss of frugivores may trigger feedback mechanisms in which seed dispersal is disrupted, leading to impaired recruitment of fruiting plants and hence less food availability for the avian community., Horizon 2020 Framework Programme, Award: 798269. Consejería de Economía, Conocimiento, Empresas y Universidad, Junta de Andalucía, Award: P18-HO-4814. Agencia Estatal de Investigación, Award: CGL 2017-82847., Peer reviewed
DOI: http://hdl.handle.net/10261/282110, http://datadryad.org/stash/dataset/doi:10.5061/dryad.p2ngf1vrt
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282110
HANDLE: http://hdl.handle.net/10261/282110, http://datadryad.org/stash/dataset/doi:10.5061/dryad.p2ngf1vrt
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282110
Ver en: http://hdl.handle.net/10261/282110, http://datadryad.org/stash/dataset/doi:10.5061/dryad.p2ngf1vrt
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282110
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3 Documentos relacionados
3 Documentos relacionados
idUS. Depósito de Investigación de la Universidad de Sevilla
oai:idus.us.es:11441/138980
Artículo científico (article). 2022
ASSESSING SHORT AND LONG-TERM VARIATIONS IN DIVERSITY, TIMING AND BODY CONDITION OF FRUGIVOROUS BIRDS
idUS. Depósito de Investigación de la Universidad de Sevilla
- Campo Celada, María
- Jordano Barbudo, Pedro D.
- Benítez López, Ana
- Gutiérrez Expósito, Carlos
- Rabadán González, Julio
- Mendoza Sagrera, Irene
Seed dispersal by frugivorous bird species involves a fine temporal tuning between fruiting plants and birds. However, this interaction may be severely threatened by anthropogenic climate and land-use change, which may result in phenological mismatches and pervasive ecological consequences for avian communities. In this study, we evaluate changes at long (~40 years) and short-time (seasonal) spans in an avian frugivore community using a snapshot resampling. Particularly, we focus on changes in composition, abundance, migratory timing (i.e. phenology) and physical condition in relation to variations in fruit supply. We used bird and fruit data collected during 1981–1983 and 2019–2021 in a Mediterranean scrubland site in Doñana Natural Area, SW Spain. Our findings indicate a profound transformation of species composition, bird phenology and body condition: in ~40 years, the avian community showed a 66% and 18.4% decrease of the abundance of wintering and seed-disperser species, respectively. Seasonal abundance peaks were advanced for at least one month in the 9 out of 11 frugivorous bird species included in the analyses. Avian body condition during the migratory passage has worsened, with fewer individuals showing a high-fat percentage now than in the past. Finally, we report a fruit production decrease of almost half in 2019–2021 compared to 1981–1983, probably linked to habitat encroachment by pine trees and replacement of fleshy-fruited shrubs. Vegetation encroachment and climate change are the most plausible explanations for the observed changes in the avian community, but the relative importance of these factors is yet unknown. Our results at a local scale mirror the dramatic consequences of global change affecting the diversity, phenology and physical condition of frugivorous bird species reported in multiple studies across the globe. The loss of frugivores may trigger feedback mechanisms in which seed dispersal is disrupted, leading to impaired recruitment of fruiting plants and hence less food availability for the avian community., Horizon 2020 de la Unión Europea (Marie Sklodowska-Curie) no. 798269, Ministerio de Ciencia e Innovación de España-CGL 2017-82847, Proyecto BiodivINTERACTOME de la Junta de Andalucía-P18-HO-4814
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282113
Artículo científico (article). 2022
ASSESSING SHORT AND LONG-TERM VARIATIONS IN DIVERSITY, TIMING AND BODY CONDITION OF FRUGIVOROUS BIRDS
Digital.CSIC. Repositorio Institucional del CSIC
- Campo-Celada, María
- Jordano, Pedro
- Benítez-López, Ana
- Gutiérrez-Expósito, Carlos
- Rabadán-González, Julio
- Mendoza, Irene
Special Issue: Fruits, animals and seed dispersal: timely advances on a key mutualism., Seed dispersal by frugivorous bird species involves a fine temporal tuning between fruiting plants and birds. However, this interaction may be severely threatened by anthropogenic climate and land-use change, which may result in phenological mismatches and pervasive ecological consequences for avian communities. In this study, we evaluate changes at long (~40 years) and short-time (seasonal) spans in an avian frugivore community using a snapshot resampling. Particularly, we focus on changes in composition, abundance, migratory timing (i.e. phenology) and physical condition in relation to variations in fruit supply. We used bird and fruit data collected during 1981–1983 and 2019–2021 in a Mediterranean scrubland site in Doñana Natural Area, SW Spain. Our findings indicate a profound transformation of species composition, bird phenology and body condition: in ~40 years, the avian community showed a 66% and 18.4% decrease of the abundance of wintering and seed-disperser species, respectively. Seasonal abundance peaks were advanced for at least one month in the 9 out of 11 frugivorous bird species included in the analyses. Avian body condition during the migratory passage has worsened, with fewer individuals showing a high-fat percentage now than in the past. Finally, we report a fruit production decrease of almost half in 2019–2021 compared to 1981–1983, probably linked to habitat encroachment by pine trees and replacement of fleshy-fruited shrubs. Vegetation encroachment and climate change are the most plausible explanations for the observed changes in the avian community, but the relative importance of these factors is yet unknown. Our results at a local scale mirror the dramatic consequences of global change affecting the diversity, phenology and physical condition of frugivorous bird species reported in multiple studies across the globe. The loss of frugivores may trigger feedback mechanisms in which seed dispersal is disrupted, leading to impaired recruitment of fruiting plants and hence less food availability for the avian community., This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement no. 798269 and partially funded from the project CGL 2017-82847 from the Spanish Ministry of Science and Innovation (PJ) and the project BiodivINTERACTOME (P18-HO-4814) from the Junta de Andalucia. AB-L was funded by a Juan de la Cierva-Incorporación grant (IJCI-2017-31419) from the Spanish Ministry of Science and Innovation., Peer reviewed
Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282123
Artículo científico antes de ser publicado, versión del autor (preprint). 2020
ASSESSING SHORT- AND LONG-TERM VARIATIONS IN DIVERSITY, TIMING, AND BODY CONDITION OF MIGRATORY FRUGIVOROUS BIRDS
Digital.CSIC. Repositorio Institucional del CSIC
- Campo-Celada, María
- Jordano, Pedro
- Benítez-López, Ana
- Gutiérrez-Expósito, Carlos
- Rabadán-González, Julio
- Mendoza, Irene
Under current global change context, climate change is driving substantial phenological mismatches between plant species and the organisms that rely on them. Given that frugivorous birds are fundamental for forest regeneration, and most of them are migrant species, identifying the effect of global change over them must be a priority. In this study we have analysed changes in the composition, morphometry, and physical condition in an avian community at long- (40 years) and short time (seasonal) spans. Our findings indicate a profound transformation at practically every level of analysis. In 40 years, the avian community shows a 66% and 13% decrease of the wintering and seed-disperser species, respectively. Seasonal abundance peaks were advanced in 13 out of 15 species. In addition, we have found a significant 1.5% increase in the morphometric measurements of certain species, supporting findings in previous studies, and also a remarkable general decrease of body condition. Our results point towards land use changes and climate change as the main causes. If this influence continues to rise, biodiversity will likely be irreversibly altered, damaging crucial ecosystem functions such as animal-mediated seed dispersal and forest regeneration in particular., This TFM has benefited from the TEMPNET project, funded by a Marie-Sklodowska Curie Fellowship (798269 - TEMPNET - H2020-MSCA-IF-2017) by the European Commission to IM, and in part with funding from project CGL 2017-82847 from Spanish Ministry of Science and Innovation (PJ)., No
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1 Versiones
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Digital.CSIC. Repositorio Institucional del CSIC
oai:digital.csic.es:10261/282110
Dataset. 2022
ASSESSING SHORT AND LONG-TERM VARIATIONS IN DIVERSITY, TIMING, AND BODY CONDITION OF FRUGIVOROUS BIRDS
Digital.CSIC. Repositorio Institucional del CSIC
- Campo-Celada, María
- Jordano, Pedro
- Benítez-López, Ana
- Gutiérrez-Expósito, Carlos
- Rabadán-González, Julio
- Mendoza, Irene
[Methods] Data include two different datasets (each one separated in a different file): 1) Bird abundance data; 2) Bird trapping data using mist nets. Data were collected in Hato Ratón, in Doñana’s Natural Area, close to Villamanrique de la Condesa, Sevilla province, southern Spain (37° 10’ 26.4” N, 6° 20’ 17.4” W, 11 m a.s.l.). Sampling was carried on in two time periods: 1981-1983 and 2019-2021.
Bird abundance was estimated using 1-km linear transects to calculate the kilometric abundance index. These were conducted 2-5 times per month (40 censuses in total). For each individual that was seen or heard, we recorded its species and the time it was seen. Bird censusing started one hour after sunrise and was carried out when weather conditions were not extreme (in absence of rain or strong wind). Data on censed birds include a total of 0 species.
Bird ringing data comes from birds captured by mist nets deployed weekly during 1981-1983 (6-10 nets per survey day, average 10-25 mist-net m/h) and fortnightly in 2019-2021 (12-20 nets per survey day, average 25-50 m/h). Data on trapped birds include a total of 32 species.
[Usage Notes] Medata information:
File: censuses80s_20s.txt
Including abundance censuses carried on in 1981-1983 and 2019-2021-
Variable names: yeargroup (study period, either 1981-1983 or 2019-2021), Date (Year/Month/Day), year, months, Transect, species, count (number of individuals), distance (transect length), ikas (relative abundance, individuals/km).
File: ringing80s_20s.txt
Including bird ringing data carried on in 1981-1983 and 2019-2021-
Variable names: Date (Year/Month/Day), Species, Tarsus length (mm), Weight (g), residuals (Weight ~ tarsus residuals), Fat_rescaled (fat value after rescaling, from 0 to 8), fat_cat (Fat category: low or medium-high fat content), Migratory_type (Resident, Summer, Wintering, or Migrant), Trophic_type (combinations of Herbivore, Frugivore, Insectivore, Granivore, Carnivore, Omnivore, and Necrophage), Functional type (NF, PC, SP, SD, PC/SP/SD, PC/SP). NF = Non Frugivore; PC = Pulp Consumer; SP = Seed Predator; SD = Seed Disperser., Seed dispersal by frugivorous bird species involves a fine temporal tuning between fruiting plants and birds. However, this interaction may be severely threatened by anthropogenic climate and land-use change, which may result in phenological mismatches and pervasive ecological consequences for avian communities. In this study, we evaluate changes at long (~40 years) and short-time (seasonal) spans in an avian frugivore community using a snapshot resampling. Particularly, we focus on changes in composition, abundance, migratory timing (i.e., phenology), and physical condition in relation to variations in fruit supply. We used bird and fruit data collected during 1981-1983 and 2019-2021 in a Mediterranean scrubland site in Doñana Natural Area, SW Spain. Our findings indicate a profound transformation of species composition, bird phenology, and body condition: in ~40 years, the avian community showed a 66% and 13% decrease of the wintering and seed-disperser species, respectively. Seasonal abundance peaks were advanced for at least one month in 9 out of 11 frugivorous bird species included in the analyses. Avian body condition during the migratory passage has worsened, with fewer individuals showing a high-fat percentage now than in the past. Finally, we report a fruit production decrease of almost half in 2019-2021 compared to 1981-1983, probably linked to habitat encroachment by pine trees and replacement of fleshy-fruited shrubs. Vegetation encroachment and climate change are the most plausible explanations for the observed changes in the avian community, but the relative importance of these factors is yet unknown. Our results at a local scale mirror the dramatic consequences of global change affecting the diversity, phenology, and physical condition of frugivorous bird species reported in multiple studies across the globe. The loss of frugivores may trigger feedback mechanisms in which seed dispersal is disrupted, leading to impaired recruitment of fruiting plants and hence less food availability for the avian community., Horizon 2020 Framework Programme, Award: 798269. Consejería de Economía, Conocimiento, Empresas y Universidad, Junta de Andalucía, Award: P18-HO-4814. Agencia Estatal de Investigación, Award: CGL 2017-82847., Peer reviewed
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