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From data.gov.au Water levels in the Gippsland Lakes; 1998 to 2002.
The Centre for Environmental Applied Hydrology (CEAH) at the University of Melbourne, with funding from the Gippsland Ports Authority (GPA) established a water level monitoring... -
From data.gov.au Water Flow in Seagrass Ecosystems - Water Motion and Productivity
Field studies were conducted to investigate the effects of two levels of water velocity (exposure) on seagrass standing crop (biomass) and consequently community productivity.... -
From data.gov.au Water Flow in Seagrass Ecosystems - Seagrass Density Effects on Water Flow
Field and laboratory experiments were conducted to study the effects of water velocity on bending of shoots and canopy compression at different densities of Amphibolis... -
From data.gov.au Water Flow in Seagrass Ecosystems - Hydrodynamic environment of seagrass meadows
The hydrodynamic environment within the seagrass canopy of Amphibolis griffithii, Posidonia australis, Posidonia sinuosa and mixed Posidonia beds was studied, and compared with... -
From data.gov.au Water current readings from the North East mooring in Jervis Bay (off Green...
A current meter mooring was deployed in the NE section of Jervis Bay (35.0305S, 150.756E) between 11/07/90 and 29/08/90. This mooring held two S4 Interocean current meters at... -
From data.gov.au Water current readings from the North East mooring in Jervis Bay (Honeymoon...
A current meter mooring was deployed in the NE section of Jervis Bay (35.0623S, 150.7672E) between 13/9/90 and 30/10/90. This mooring held two S4 Interocean current meters at... -
From data.gov.au Water current readings at the 'Red' mooring in the South Central area of...
A current meter mooring was deployed in the south central section of Jervis Bay between 12/09/90 and 30/10/90. This 'Red' mooring (35.0895 S, 150.735 E) held three S4 Interocean... -
From data.gov.au Water current readings at the 'Red' mooring in the South Central area of...
A current meter mooring was deployed in the south central section of Jervis Bay between 10/07/90 and 30/08/90. This 'Red' mooring (35.0872 S, 150.7333 E) held three S4... -
From data.gov.au Water current readings at the 'Red' mooring in the South Central area of...
A current meter mooring was deployed in the south central section of Jervis Bay between 6/12/88 and 11/01/89. This 'Red' mooring (35.0883 S, 150.7333 E) held four S4 Interocean... -
From data.gov.au Water current readings at the 'Green' mooring in the North West of Jervis...
A current meter mooring was deployed in the NW section of Jervis Bay (35.03S, 150.7E) between 6/12/88 and 11/1/89. This mooring held two water current metres: an S4 Interocean... -
From data.gov.au Water current readings at the 'Blue' mooring in the North East area of...
A current meter mooring was deployed in the NE section of Jervis Bay between 6/12/88 and 11/1/89. This 'Blue' mooring (35.035 S, 150.753 E) held one S4 Interocean current meter... -
From data.gov.au WAMSI Node 6.2 - The Impact of tides and internal waves on offshore...
The IWAG (Internal Wave Boundary layer Generation) instrument was deployed from October 23, 2008 to November 11th, 2008, on the NWS offshore from North Rankin A (NRA) in 420... -
From data.gov.au WAMSI Node 4.5.2 - Modelling Recreational Fishing Behaviour
A model of recreational fisher behaviour for the West Coast Demersal fishery was developed in which fishers optimize fishing time per trip and the number of trips per year... -
From data.gov.au WAMSI Node 4.2.2a - Establishment of indicators for ecosystem based...
There were four key objectives for WAMSI Node 4.2.2a: (1) determination of indicator regions; (2) development of monitoring strategies; (3) Implement a long term monitoring... -
From data.gov.au WAMSI Node 4.2.2a - Establishment of indicators for ecosystem based...
There were four key objectives for WAMSI Node 4.2.2a: (1) determination of indicator regions; (2) development of monitoring strategies; (3) Implement a long term monitoring... -
From data.gov.au WAMSI Node 4.2.1a - Bioregional level assessments based on fishery dependent...
The Leschenault Estuary was divided into four regions; the apex, upper, middle and lower regions. Within each region four sites were sampled seasonally (except the middle region... -
From data.gov.au WAMSI Node 4.2.1a - Bioregional level assessments based on fishery dependent...
The Peel-Harvey Estuary was divided into five regions; the Entrance Channel, Eastern Peel Inlet, Western Peel Inlet, Northern Harvey Estuary and Southern Harvey Estuary. Within... -
From data.gov.au WAMSI Node 3.4.2 - Characterisation of Geomorphology and Sedimentology of...
The overall aim of this project was to determine the geomorphological and sedimentary characteristics (biological and physical) of the Ningaloo Reef and shelf, and to identify... -
From data.gov.au WAMSI Node 3.2.2c - Spatial variation in algal-herbivore interactions on the...
This study was nested in sub-project 3.2.2 “Ecosystem impacts of human usage and the effectiveness of zoning for the biodiversity conservation” in Node 3.2. The focus of this... -
From data.gov.au WAMSI Node 3.1.1b and 3.2.2 - Ecosystem Effects of Fishing: finescale coral...
From 2006 to 2007 at northern Ningaloo Reef, stereo Baited Remote Underwater Video (stereo-BRUVs) and stereo Diver Operated Video (stereo-DOVs) were used to measure fish...