NOTE: this PhD is not yet funded; its funding depends on the
shortlisted candidate obtaining a grant (somewhat similar to the Ecole
Doctorale process in France…)
Project Supervisor
Dr Aldina Franco
School of Environmental Sciences, University of East Anglia
E a.franco@uea.ac.uk
Project description
Dr Aldina Franco
School of Environmental Sciences, University of East Anglia
E a.franco@uea.ac.uk
Project description
In recent years, evidence has grown that the migratory behaviour of
many bird species is changing in response to changing environmental
conditions. In particular, non-migratory individuals have been reported
in previously wholly migratory populations. These rapid changes in
migratory behaviour provide an opportunity to both identify the
mechanisms through which complex and highly evolved behaviours can adapt
to changing environmental conditions, and to explore the consequence of
these changes for migratory populations and their potential role in
ongoing population declines, particularly for sub-Saharan migrants.
Changes to environmental conditions can alter the selection pressures
operating on migratory behaviour, hence the frequency of residency and
migratory individuals can vary in response to changes in environmental
conditions. This information is difficult to obtain since the
environmental data is not available at the scale individuals experience
it.
This project will involve tracking white storks (large, long-lived
birds) and simultaneously monitor the environmental conditions which
individual birds experience. Our current GPS/GSM loggers can record
accelerometer and temperature data but new sensors are needed to monitor
other environmental parameters that may affect dispersal and movement
(wind speed, direction, humidity). We will monitor how changes in
environmental conditions will affect the movement, migratory behaviour
and mortality of resident and migratory white storks.
Objectives:
– Identify the environmental determinants of dispersal and migratory behaviour, controlling for individual fitness, age and sex;
– Incorporate new sensors in existing dataloggers and create new prototypes that simultaneous monitor bird movement (GPS), behavior (accelerometer) and environmental parameters (e.g. temperature, wind speed, barometer)
– Determine the influence of environmental parameters in demography of white storks including migration and over-winter survival, arrival date, nest-site selection, and breeding success;
Methodology
– Identify the environmental determinants of dispersal and migratory behaviour, controlling for individual fitness, age and sex;
– Incorporate new sensors in existing dataloggers and create new prototypes that simultaneous monitor bird movement (GPS), behavior (accelerometer) and environmental parameters (e.g. temperature, wind speed, barometer)
– Determine the influence of environmental parameters in demography of white storks including migration and over-winter survival, arrival date, nest-site selection, and breeding success;
Methodology
We will track the movement of 40 juveniles and 20 adults and their
movement in response to changes in environmental conditions. Movement
characteristics (speed, direction, flight type and distance moved) will
be related to the data obtained by the environmental sensors on the
tracking devices and to ground cover on the locations where birds land.
This project will take advantage of the existing databases on the
movement of white storks, expertise in data analyses and field
techniques of the supervisory team of the collaborating partners.
Training
Training
This project will train the PhD student on the interface between
ecology and engineering. The student will be involved in assembling and
testing new sensors for tracking devices, will be able to assess their
performance in lab conditions and in the field, by deploying the devices
on birds.
– Assembling tracking devices, testing of different batteries and solar panels (HWU and UEA);
– Assembling new sensors on existing tracking devices and testing its performance (energy demand and new design) (HWU);
– Programming of tracking devices and of specific sensors according to project requirements (e.g setting up geofences for different sensors) (UEA);
– Deployment of tracking devices on migratory and resident birds (UEA/Portugal);
– Movement and behavior data analyses and interpretation (UEA);
– Demography and survival analyses of birds with different movement strategies (UEA and BTO).
– Assembling tracking devices, testing of different batteries and solar panels (HWU and UEA);
– Assembling new sensors on existing tracking devices and testing its performance (energy demand and new design) (HWU);
– Programming of tracking devices and of specific sensors according to project requirements (e.g setting up geofences for different sensors) (UEA);
– Deployment of tracking devices on migratory and resident birds (UEA/Portugal);
– Movement and behavior data analyses and interpretation (UEA);
– Demography and survival analyses of birds with different movement strategies (UEA and BTO).
The NEXUSS CDT provides state-of-the-art, highly experiential
training in the application and development of cutting-edge Smart and
Autonomous Observing Systems for the environmental sciences, alongside
comprehensive personal and professional development. There will be
extensive opportunities for students to expand their multi-disciplinary
outlook through interactions with a wide network of academic, research
and industrial / government / policy partners.
The student will be registered at University of East Anglia (UEA), and hosted at UEA School of Environmental Sciences.
Funding
The student will be registered at University of East Anglia (UEA), and hosted at UEA School of Environmental Sciences.
Funding
This project has been shortlisted for funding by the NexUSS NERC-EPSRC CDT
References
References
(ii) Gilroy, J., Gill, J., Butchart, S., Jones, V., Franco, AMA
(2016) Migratory diversity predicts population declines in birds.
Ecology Letters. 19. pp. 308–317
(ii) Gilbert NI, Correia RA, Silva JP, Pacheco C, Catry I, Atkinson
PW, Gill JA, Franco AMA (2016) Movement and behaviour of resident White
Storks (Ciconia ciconia) from a partially migratory population: impacts
of landfill use. Movement Ecology.
(iii) Gordo O, Brotons L, Ferrer X, Comas P (2005) Do changes in
climate patterns in wintering areas affect the timing of the spring
arrival of trans-Saharan migrant birds? Global Change Biology 11: 12-21.
Start date 1 October 2017
Programme PhD
Mode of Study full time
Studentship Length 3 years 8 months
Programme PhD
Mode of Study full time
Studentship Length 3 years 8 months
Entry requirements
Acceptable First Degree Any Earth or Environmental Science
discipline, Any numerate discipline, Biology , Engineering, Mathematics
Minimum Entry Standard 2:1 Honours degree
Minimum Entry Standard 2:1 Honours degree
Apply Now
Deadline 16 January 2017
Deadline 16 January 2017
http://www.enveast.ac.uk/nexuss/nexuss-cdt-projects/-/asset_publisher/DvTPOkhEUkLU/content/the-environmental-determinants-of-dispersal-and-migratory-behaviour-of-long-lived-birds-franco_uenv17nex-?inheritRedirect=false&redirect=http%3A%2F%2Fwww.enveast.ac.uk%2Fnexuss%2Fnexuss-cdt-projects%3Fp_p_id%3D101_INSTANCE_DvTPOkhEUkLU%26p_p_lifecycle%3D0%26p_p_state%3Dnormal%26p_p_mode%3Dview%26p_p_col_id%3Dcolumn-2%26p_p_col_pos%3D3%26p_p_col_count%3D6