5 results on '"Simona Picardi"'
Search Results
2. Analysis of movement recursions to detect reproductive events and estimate their fate in central place foragers
- Author
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Peter C. Frederick, Jacopo G. Cecere, Matthew E. Boone, Brian J. Smith, Mathieu Basille, Simone Pirrello, Diego Rubolini, Rena R. Borkhataria, Lorenzo Serra, Simona Picardi, and BioMed Central Ltd.
- Subjects
0106 biological sciences ,Ecology and Evolutionary Biology ,Foraging ,Context (language use) ,Kestrel ,GPS telemetry ,Biology ,Bayesian hierarchical models ,010603 evolutionary biology ,01 natural sciences ,Nest ,Statistics ,Fitness ,Nest survival ,Bayesian hierarchical modeling ,Recursive movement patterns ,lcsh:QH301-705.5 ,Ecology, Evolution, Behavior and Systematics ,Mediterranean gull ,Breeding-site detection ,010604 marine biology & hydrobiology ,Methodology Article ,R package ,Stork ,biology.organism_classification ,Missing data ,lcsh:Biology (General) ,Animal ecology ,nestR - Abstract
Background Recursive movement patterns have been used to detect behavioral structure within individual movement trajectories in the context of foraging ecology, home-ranging behavior, and predator avoidance. Some animals exhibit movement recursions to locations that are tied to reproductive functions, including nests and dens; while existing literature recognizes that, no method is currently available to explicitly target different types of revisited locations. Moreover, the temporal persistence of recursive movements to a breeding location can carry information regarding the fate of breeding attempts, but it has never been used as a metric to quantify recursive movement patterns. Here, we introduce a method to locate breeding attempts and estimate their fate from GPS-tracking data of central place foragers. We tested the performance of our method in three bird species differing in breeding ecology (wood stork (Mycteria americana), lesser kestrel (Falco naumanni), Mediterranean gull (Ichthyaetus melanocephalus)) and implemented it in the R package ‘nestR’. Methods We identified breeding sites based on the analysis of recursive movements within individual tracks. Using trajectories with known breeding attempts, we estimated a set of species-specific criteria for the identification of nest sites, which we further validated using non-reproductive individuals as controls. We then estimated individual nest survival as a binary measure of reproductive fate (success, corresponding to fledging of at least one chick, or failure) from nest-site revisitation histories during breeding attempts, using a Bayesian hierarchical modeling approach that accounted for temporally variable revisitation patterns, probability of visit detection, and missing data. Results Across the three species, positive predictive value of the nest-site detection algorithm varied between 87 and 100% and sensitivity between 88 and 92%, and we correctly estimated the fate of 86–100% breeding attempts. Conclusions By providing a method to formally distinguish among revisited locations that serve different ecological functions and introducing a probabilistic framework to quantify temporal persistence of movement recursions, we demonstrated how the analysis of recursive movement patterns can be applied to estimate reproduction in central place foragers. Beyond avian species, the principles of our method can be applied to other central place foraging breeders such as denning mammals. Our method estimates a component of individual fitness from movement data and will help bridge the gap between movement behavior, environmental factors, and their fitness consequences.
- Published
- 2020
3. Individual Variation in Temporal Dynamics of Post-release Habitat Selection
- Author
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Simona Picardi, Nathan Ranc, Brian J. Smith, Peter S. Coates, Steven R. Mathews, and David K. Dahlgren
- Subjects
education.field_of_study ,Resource (biology) ,Ecology ,Null model ,Model selection ,Population ,Foraging ,translocation ,General. Including nature conservation, geographical distribution ,individual behavior ,Variation (game tree) ,resource selection ,individual heterogeneity ,Biology ,QH1-199.5 ,post-release behavioral modification ,Habitat ,greater sage-grouse ,education ,Selection (genetic algorithm) - Abstract
Translocated animals undergo a phase of behavioral adjustment after being released in a novel environment, initially prioritizing exploration and gradually shifting toward resource exploitation. This transition has been termed post-release behavioral modification. Post-release behavioral modification may also manifest as changes in habitat selection through time, and these temporal dynamics may differ between individuals. We aimed to evaluate how post-release behavioral modification is reflected in temporal dynamics of habitat selection and its variability across individuals using a population of translocated female greater sage-grouse as a case study. Sage-grouse were translocated from Wyoming to North Dakota (USA) during the summers of 2018–2020. We analyzed individual habitat selection as a function of sagebrush cover, herbaceous cover, slope, and distance to roads. Herbaceous cover is a key foraging resource for sage-grouse during summer; thus, we expected a shift from exploration to exploitation to manifest as temporally-varying selection for herbaceous cover. For each individual sage-grouse (N = 26), we tested two competing models: a null model with no time-dependence and a model with time-dependent selection for herbaceous cover. We performed model selection at the individual level using an information-theoretic approach. Time-dependence was supported for five individuals, unsupported for seven, and the two models were indistinguishable based on AICc for the remaining fourteen. We found no association between the top-ranked model and individual reproductive status (brood-rearing or not). We showed that temporal dynamics of post-release habitat selection may emerge in some individuals but not in others, and that failing to account for time-dependence may hinder the detection of steady-state habitat selection patterns. These findings demonstrate the need to consider both temporal dynamics and individual variability in habitat selection when conducting post-release monitoring to inform translocation protocols.
- Published
- 2021
4. Effect of Foraging and Nest Defense Tradeoffs on the Reproductive Success of Wood Storks (Mycteria americana)
- Author
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Alexis Bruant, Simona Picardi, Mathieu Basille, and Peter C. Frederick
- Subjects
0106 biological sciences ,Reproductive success ,Foraging ,Attendance ,Zoology ,Biology ,Stork ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Mycteria ,010605 ornithology ,Nest ,Animal Science and Zoology ,Nesting season ,human activities ,Hatchling ,Paternal care - Abstract
In many species of birds, parental care is provided by both parents to maximize offspring survival, and there may be important trade-offs between maximizing food gathering and nest protection during the nesting period. The role of parental care in determining reproductive success was investigated in Wood Storks (Mycteria americana), and specifically how the trade-off between frequency and duration of foraging trips, and nest protection has contributed to the nesting outcome. Parental behavior of 85 pairs of Wood Storks was monitored throughout the nesting season in two breeding colonies in Palm Beach County, Florida. Wood Storks have gradually increased the frequency, but not the duration, of foraging trips as chicks developed. The ratio of hatchlings to fledglings was positively associated with the frequency of foraging trips during late chick development. Intra-specific aggressions resulting in nest takeovers have affected 32 % of the nests under study. Occurrence of nest takeovers have been higher for later-breeding pairs, and was happened primarily in the first few weeks of incubation, but was not affected by the degree of joint nest attendance of both parents. These results establish a functional link between parental effort and reproductive outcome in Wood Storks, and highlight the importance of frequent foraging trips, but not nest attendance, by parents. Key words: foraging trips, intra-specific aggressions, nest attendance, nest takeover, parental care
- Published
- 2020
5. Partial migration in a subtropical wading bird in the Southeastern U.S
- Author
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Peter C. Frederick, Rena R. Borkhataria, Mathieu Basille, and Simona Picardi
- Subjects
education.field_of_study ,Facultative ,Resource (biology) ,biology ,Ecology ,Range (biology) ,Population ,Stork ,biology.organism_classification ,Mycteria ,Geography ,Sympatric speciation ,Temperate climate ,education - Abstract
The function of migration is to allow exploitation of resources whose availability is heterogeneous in space and time. Much effort has been historically directed to studying migration as a response to seasonal, predictable fluctuations in resource availability in temperate species. A deeper understanding of how different migration patterns emerge in response to different patterns of resource variation requires focusing on species inhabiting less predictable environments, especially in tropical and subtropical areas. We provide the first individual-based, quantitative description of migratory patterns in a subtropical wading bird in the Southeastern U.S., the wood stork (Mycteria americana). Using GPS tracking data for 64 individuals tracked between 2004 and 2017, we classified migratory behavior at the individual-year level using information theory-based model selection on non-linear models of net squared displacement. We found that the wood stork population is partially migratory, with 59% of individuals seasonally commuting between winter ranges in Florida and summer ranges elsewhere in the population range (migrants), and 28% remaining in a single area in Florida year-round (residents). Additionally, 13% of storks act as facultative migrants, migrating in some years but not in others. Comparing the distribution of residents and migrants suggests that different migratory strategies might be associated with the use of different or differently distributed resources, possibly including food supplementation from human activities. The existence of facultative migrants shows the potential for plastic change of migratory patterns. Partial migration in wood storks may be an adaptation to high heterogeneity and unpredictability of food resources. We suggest that future research should focus on wading birds as model species for the study of partial migration as an adaptation to heterogeneous and unpredictable environments, by comparing populations of the same species across different wetland systems and sympatric populations of species that differ in their resource acquisition mechanisms.
- Published
- 2019
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