'Australian National Moorings Network' (ANMN) is a facility of the Australian 'Integrated Marine Observing System' (IMOS) project. This data set was collected by the ANMN sub-facility 'National Reference Systems' (NRS).

'Australian National Moorings Network' (ANMN) is a facility of the Australian 'Integrated Marine Observing System' (IMOS) project. This data set was collected by the ANMN sub-facility 'National Reference Systems' (NRS).

'Australian National Moorings Network' (ANMN) is a facility of the Australian 'Integrated Marine Observing System' (IMOS) project. This data set was collected by the ANMN sub-facility 'National Reference Systems' (NRS).

Data from two missions of the Liquid Robotics SV3 Wave Glider, the first mission in the central GBR from the 19th to the 26th of September 2017 and the second around Browse Island in Western Australia from the 30th of November to the 5th of December 2017. Both missions had the same sensors on the Wave Glider including: Seabird CTD + DO sensor (temp + salinity + DO) Teledyne Workhorse Monitor 600kHz ADCP (currents, waves) Turner C3 Fluorometer (algae, hydro-carbons) AirMar 200WX weather Station without humidity (weather) Datawell MOSE-G1000 GPS motion sensor (waves) The GBR deployment was from the R.V. Cape Ferguson and completed transects in the central GBR matrix including observatons beside the DISITI Wave Rider Buoy off Cape Cleveland and the Yongala NRS. The objective of the mission was to test teh glider in shelf applications near reefs and to test the ability of the platform to collect data equivalent to the Wave-Ride and Yongala moorings. The WA deployment was from the R.V. Solander and did surveys around Browse Island then undertook a transect to Echuca Shoals where it did a number of transects across the shoals before returning to Browse Island. The main objective was to test the utility of the platform in conditions on the North-West shelf including a period with tides over 5m in range. Wave data from the Prelude platform was also obtained for comparison.

Biological oceanographers from the Australian Institute of Marine Science (AIMS) have studied the physical, chemical, and biological properties of seawater around northern Australia using a variety of methods including in situ sampling, moored sensors, and vertical profiles. This metadata record describes vertical profiles of physico-chemical data collected by researchers from the from 1974 until the present. Vertical profiles are important tools that oceanographers routinely use to understand ocean structure. These profiles are collected using a Conductivity, Temperature and Depth (CTD) profiler, which is lowered on a steel cable from the water’s surface to close to the seafloor. Niskin bottles can also be attached to the CTD (in a rosette) or used independently to collect water samples from different depths for analysis. AIMS uses Sea-Bird Electronics CTD profilers, which are typically fitted with additional sensors to measure parameters such as fluorescence (a proxy for chlorophyll a concentration), turbidity, beam attenuation, dissolved oxygen concentration, and photosynthetically active radiation (downwelling light) sensors. Instrument models SBE 19plus and SBE 19plusV2 are used currently, while older records include data from SBE 25, SBE 25plus, and SBE 9plus instrument models. Annual calibrations of profilers are carried out in Sea-Bird Electronics laboratories in the USA. These calibration values are included within the instrument configuration file. Pre-trip CTD checks are carried out before each field trip, which include checking the physical status of the sensors and cables and battery voltage. Prior to conducting a cast, the CTD is secured to the hydrographic wire, tubing is removed to allow flush water to drain from the conductivity-temperature cell, and any protective caps are removed from the other sensors. The CTD is lowered into the water sitting ~3 m below the surface, and a three minute "soak" allows sensors to equilibrate and air bubbles to be flushed by the pump. The CTD is then raised to ~0.2 below the surface and the profile is commenced at a rate of 0.5 – 1 m s-1. The CTD is sent to near-bottom, ensuring it does not touch the seafloor, and retrieved to the surface. Casts are done on the sunny side of the boat to avoid the boat's shadow interfering with the measured light profiles. Data processing is conducted using Sea-Bird proprietary software and includes: conversion of raw instrumental records to measurement units, alignment, removal of ship roll, outlier removal, and bin averaging the down-cast at 1 m increments. Further details of CTD data handling can be found in the Quality Assurance and Quality Control Manual from the Marine Monitoring Program (see link below in Related Information). CTD data can be downloaded from this record (see link below in Data Downloads). Each CTD cast occurs at a unique combination of geographic location, time, and date. In the AIMS database, each cast is assigned a unique alphanumeric identifier (called a ‘station’), which is comprised of a 3-letter area code and a 3-digit station number (e.g. WQM324). Using this code, water chemistry measurements taken at the time of the CTD cast can be retrieved from AIMS’ water quality database (see link below in Related Information). Some data in this record were collected as part of the Great Barrier Reef Marine Monitoring Program for Inshore Water Quality, which has its own metadata record (see link below in Related Information).

This metadata record describes vertical profile data from Conductivity Temperature and Depth (CTD) profilers collected through in situ monitoring by the Great Barrier Reef Marine Monitoring Program for Inshore Water Quality (MMP WQ). A full description of the MMP WQ and its associated datasets can be found in the parent metadata record linked above. Sea-Bird Electronics CTD profilers are used for vertical casts and are typically fitted with additional sensors to measure parameters such as fluorescence (a proxy for chlorophyll a concentration), turbidity, beam attenuation, dissolved oxygen concentration, and photosynthetically active radiation (downwelling light) sensors. Instrument models SBE 19plus and SBE 19plusV2 are used currently, while older records include data from SBE 25, SBE 25plus, and SBE 9plus instrument models. Annual calibrations of profilers are carried out in Sea-Bird Electronics laboratories in the USA. These calibration values are included within the instrument configuration file. Pre-trip CTD checks are carried out before each field trip, which include checking the physical status of the sensors and cables and battery voltage. Prior to conducting a cast, the CTD is secured to the hydrographic wire, tubing is removed to allow flush water to drain from the conductivity-temperature cell, and any protective caps are removed from the other sensors. The CTD is lowered into the water sitting ~3 m below the surface, and a three minute "soak" allows sensors to equilibrate and air bubbles to be flushed by the pump. The CTD is then raised to ~0.2 below the surface and the profile is commenced at a rate of 0.5 – 1 m s-1. The CTD is sent to near-bottom, ensuring it does not touch the seafloor, and retrieved to the surface. Casts are done on the sunny side of the boat to avoid the boat's shadow interfering with the measured light profiles. Data processing is conducted using Sea-Bird proprietary software and includes: conversion of raw instrumental records to measurement units, alignment, removal of ship roll, outlier removal, and bin averaging the down-cast at 1 m increments. Detailed procedures for data handling can be found in the MMP WQ's QA/QC Reports (see link below under Related Information). CTD data can be downloaded from the Australian Ocean Data Network THREDDS Data Server in netCDF or csv format (see link below under Data Downloads). Water chemistry measurements taken at the time of each CTD cast can be retrieved from the MMP WQ physico-chemical and nutrient database (see parent metadata record above). Water quality data are collected in conjunction with the Great Barrier Reef Marine Monitoring Program for Inshore Coral Reefs (see link below under Related Information). AIMS' full database of CTD profiles from all around northern Australia can be found attached to a separate metadata record (see link below under Related Information).