TY  - JOUR
A1  - Turjeman, Sondra Feldman
A1  - Centeno-Cuadros, Alejandro
A1  - Eggers, Ute
A1  - Rotics, Shay
A1  - Blas, Julio
A1  - Fiedler, Wolfgang
A1  - Kaatz, Michael
A1  - Jeltsch, Florian
A1  - Wikelski, Martin
A1  - Nathan, Ran
T1  - Extra-pair paternity in the socially monogamous white stork (Ciconia ciconia) is fairly common and independent of local density
JF  - Scientific reports
N2  - Although many birds are socially monogamous, most (>75%) studied species are not strictly genetically monogamous, especially under high breeding density. We used molecular tools to reevaluate the reproductive strategy of the socially monogamous white stork (Ciconia ciconia) and examined local density effects. DNA samples of nestlings (Germany, Spain) were genotyped and assigned relationships using a two-program maximum likelihood classification. Relationships were successfully classified in 79.2% of German (n = 120) and 84.8% of Spanish (n = 59) nests. For each population respectively, 76.8% (n = 73) and 66.0% (n = 33) of nests contained only full-siblings, 10.5% (n = 10) and 18.0% (n = 9) had half-siblings (at least one nestling with a different parent), 3.2% (n = 3) and 10.0% (n = 5) had unrelated nestlings (at least two nestlings, each with different parents), and 9.5% (n = 9) and 6.0% (n = 3) had “not full-siblings” (could not differentiate between latter two cases). These deviations from strict monogamy place the white stork in the 59th percentile for extra-pair paternity among studied bird species. Although high breeding density generally increases extra-pair paternity, we found no significant association with this species’ mating strategies. Thus although genetic monogamy is indeed prominent in the white stork, extra-pair paternity is fairly common compared to other bird species and cannot be explained by breeding density.
Y1  - 2016
U6  - https://doi.org/10.1038/srep27976
SN  - 2045-2322
VL  - 6
PB  - Nature Publ. Group
CY  - London
ER  - 
TY  - JOUR
A1  - Zurell, Damaris
A1  - Eggers, Ute
A1  - Kaatz, Michael
A1  - Rotics, Shay
A1  - Sapir, Nir
A1  - Wikelski, Martin
A1  - Nathan, Ran
A1  - Jeltsch, Florian
T1  - Individual-based modelling of resource competition to predict density-dependent population dynamics: a case study with white storks
JF  - Oikos
N2  - Density regulation influences population dynamics through its effects on demographic rates and consequently constitutes a key mechanism explaining the response of organisms to environmental changes. Yet, it is difficult to establish the exact form of density dependence from empirical data. Here, we developed an individual-based model to explore how resource limitation and behavioural processes determine the spatial structure of white stork Ciconia ciconia populations and regulate reproductive rates. We found that the form of density dependence differed considerably between landscapes with the same overall resource availability and between home range selection strategies, highlighting the importance of fine-scale resource distribution in interaction with behaviour. In accordance with theories of density dependence, breeding output generally decreased with density but this effect was highly variable and strongly affected by optimal foraging strategy, resource detection probability and colonial behaviour. Moreover, our results uncovered an overlooked consequence of density dependence by showing that high early nestling mortality in storks, assumed to be the outcome of harsh weather, may actually result from density dependent effects on food provision. Our findings emphasize that accounting for interactive effects of individual behaviour and local environmental factors is crucial for understanding density-dependent processes within spatially structured populations. Enhanced understanding of the ways animal populations are regulated in general, and how habitat conditions and behaviour may dictate spatial population structure and demographic rates is critically needed for predicting the dynamics of populations, communities and ecosystems under changing environmental conditions.
Y1  - 2015
U6  - https://doi.org/10.1111/oik.01294
SN  - 0030-1299
SN  - 1600-0706
VL  - 124
IS  - 3
SP  - 319
EP  - 330
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Zurell, Damaris
A1  - von Wehrden, Henrik
A1  - Rotics, Shay
A1  - Kaatz, Michael
A1  - Gross, Helge
A1  - Schlag, Lena
A1  - Schäfer, Merlin
A1  - Sapir, Nir
A1  - Turjeman, Sondra
A1  - Wikelski, Martin
A1  - Nathan, Ran
A1  - Jeltsch, Florian
T1  - Home range size and resource use of breeding and non-breeding white storks along a land use gradient
JF  - Frontiers in Ecology and Evolution
N2  - Biotelemetry is increasingly used to study animal movement at high spatial and temporal resolution and guide conservation and resource management. Yet, limited sample sizes and variation in space and habitat use across regions and life stages may compromise robustness of behavioral analyses and subsequent conservation plans. Here, we assessed variation in (i) home range sizes, (ii) home range selection, and (iii) fine-scale resource selection of white storks across breeding status and regions and test model transferability. Three study areas were chosen within the Central German breeding grounds ranging from agricultural to fluvial and marshland. We monitored GPS-locations of 62 adult white storks equipped with solar-charged GPS/3D-acceleration (ACC) transmitters in 2013-2014. Home range sizes were estimated using minimum convex polygons. Generalized linear mixed models were used to assess home range selection and fine-scale resource selection by relating the home ranges and foraging sites to Corine habitat variables and normalized difference vegetation index in a presence/pseudo-absence design. We found strong variation in home range sizes across breeding stages with significantly larger home ranges in non-breeding compared to breeding white storks, but no variation between regions. Home range selection models had high explanatory power and well predicted overall density of Central German white stork breeding pairs. Also, they showed good transferability across regions and breeding status although variable importance varied considerably. Fine-scale resource selection models showed low explanatory power. Resource preferences differed both across breeding status and across regions, and model transferability was poor. Our results indicate that habitat selection of wild animals may vary considerably within and between populations, and is highly scale dependent. Thereby, home range scale analyses show higher robustness whereas fine-scale resource selection is not easily predictable and not transferable across life stages and regions. Such variation may compromise management decisions when based on data of limited sample size or limited regional coverage. We thus recommend home range scale analyses and sampling designs that cover diverse regional landscapes and ensure robust estimates of habitat suitability to conserve wild animal populations.
KW  - 3D-acceleration sensor
KW  - biotelemetry
KW  - Ciconia ciconia
KW  - home range selection
KW  - resource selection
Y1  - 2018
U6  - https://doi.org/10.3389/fevo.2018.00079
SN  - 2296-701X
VL  - 6
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Rotics, Shay
A1  - Kaatz, Michael
A1  - Resheff, Yehezkel S.
A1  - Turjeman, Sondra Feldman
A1  - Zurell, Damaris
A1  - Sapir, Nir
A1  - Eggers, Ute
A1  - Flack, Andrea
A1  - Fiedler, Wolfgang
A1  - Jeltsch, Florian
A1  - Wikelski, Martin
A1  - Nathan, Ran
T1  - The challenges of the first migration: movement and behaviour of juvenile vs. adult white storks with insights regarding juvenile mortality
JF  - Journal of animal ecology : a journal of the British Ecological Society
N2  - 1. Migration conveys an immense challenge, especially for juvenile birds coping with enduring and risky journeys shortly after fledging. Accordingly, juveniles exhibit considerably lower survival rates compared to adults, particularly during migration. Juvenile white storks (Ciconia ciconia), which are known to rely on adults during their first fall migration presumably for navigational purposes, also display much lower annual survival than adults.
2. Using detailed GPS and body acceleration data, we examined the patterns and potential causes of age-related differences in fall migration properties of white storks by comparing first-year juveniles and adults. We compared juvenile and adult parameters of movement, behaviour and energy expenditure (estimated from overall dynamic body acceleration) and placed this in the context of the juveniles’ lower survival rate.
3. Juveniles used flapping flight vs. soaring flight 23% more than adults and were estimated to expend 14% more energy during flight. Juveniles did not compensate for their higher flight costs by increased refuelling or resting during migration. When juveniles and adults migrated together in the same flock, the juvenile flew mostly behind the adult and was left behind when they separated. Juveniles showed greater improvement in flight efficiency throughout migration compared to adults which appears crucial because juveniles exhibiting higher flight costs suffered increased mortality.
4. Our findings demonstrate the conflict between the juveniles’ inferior flight skills and their urge to keep up with mixed adult–juvenile flocks. We suggest that increased flight costs are an important proximate cause of juvenile mortality in white storks and likely in other soaring migrants and that natural selection is operating on juvenile variation in flight efficiency.
KW  - flight
KW  - flight efficiency
KW  - juvenile mortality
KW  - migration
KW  - white stork
Y1  - 2016
U6  - https://doi.org/10.1111/1365-2656.12525
SN  - 0021-8790
SN  - 1365-2656
VL  - 85
SP  - 938
EP  - 947
PB  - Wiley-Blackwell
CY  - Hoboken
ER  -