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Data supporting "Satellite-tracked movements of juvenile Great Egrets (Ardea...
The data and files in these directories underpin analyses of telemetry data for two Australian waterbird species. The goal is to understand the movement strategies of these... -
Data supporting manuscript "Satellite telemetry informs nesting ecology and...
The data and files in these directories underpin analyses of telemetry data for three Australian waterbird species during nesting periods. These species are frequently targeted... -
Parkes observations for project P602 semester 2008OCTS_01
Here we propose to continue studying the only two magnetars known to emit radio pulsations. The aim is to develop a more specific understanding of the dynamical behavior of... -
Optimising fertilisation kinetics models for broadcast spawning corals in...
This dataset contains information about fine-scale gamete properties of spawning corals on the Great Barrier Reef. This data was collected and used to optimise fertilisation... -
Great Barrier Reef and Palau manipulative-field coral fertilisation experiments
The dataset contains information on coral fertilisation success from three manipulative field experiments conducted at two locations: One Tree Island (Great Barrier Reef) and... -
Parkes observations for project P885 semester 2024OCTS_16
We propose a reduced even more modest program to continue monitoring 4 of the 6 known radio magnetars, tracking their rotational, flux density, and polarisation properties. The... -
Parkes observations for project P1362 semester 2025APRS_05
PSR J1757-1854 is the most relativistic galactic double neutron star system. Its eccentricity makes it an ideal playground for gravity experiments with pulsar timing. Via... -
Parkes observations for project P1362 semester 2025APRS_04
PSR J1757-1854 is the most relativistic galactic double neutron star system. Its eccentricity makes it an ideal playground for gravity experiments with pulsar timing. Via... -
Parkes observations for project P1362 semester 2025APRS_01
PSR J1757-1854 is the most relativistic galactic double neutron star system. Its eccentricity makes it an ideal playground for gravity experiments with pulsar timing. Via... -
Parkes observations for project P1362 semester 2025APRS_02
PSR J1757-1854 is the most relativistic galactic double neutron star system. Its eccentricity makes it an ideal playground for gravity experiments with pulsar timing. Via... -
Parkes observations for project P1362 semester 2025APRS_03
PSR J1757-1854 is the most relativistic galactic double neutron star system. Its eccentricity makes it an ideal playground for gravity experiments with pulsar timing. Via... -
Parkes observations for project P602 semester 2011OCTS_01
We propose to continue studying 1E 1547.0-5408, one of the two magnetars known to currently emit radio pulsations. The aim is to develop a more specific understanding of the... -
Parkes observations for project P602 semester 2011APRS_01
We propose to continue studying 1E 1547.0-5408, one of the two magnetars known to currently emit radio pulsations. The aim is to develop a more specific understanding of the... -
Long-term project observations for project P885 semester 2025OCTS_03
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025APRS_10
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025APRS_11
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025APRS_12
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025APRS_13
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025APRS_14
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar... -
Long-term project observations for project P885 semester 2025OCTS_01
We propose a modest program to continue monitoring 4 of the 6 known radio magnetars in order to achieve three primary science goals. The first is to characterise magnetar...