![]() The skills learnt in remote sensing also form essential tools for use in higher level physical geography, ecology, human and physical geography, archaeology and earth science courses, including geomorphology, hydrology, climatology, oceanography and geophysics. ![]() GEOM3001/7001 provides more advanced image processing skills, while GEOS3400 presents a project based study in Biophysical Remote Sensing of a specific environment and GEOS3102 explains how remote sensing is used to measure global scale environmental changes. Remote sensing is taught in a number of courses at the University of Queensland and GEOM2000/7000 is the fundamental course. Information extracted from images may be used in many ways, e.g., as a basis for mapping and monitoring changes to features (vegetation communities, land use type, soil types, mineral outcrops), biophysical properties (biomass of forest, crop yields, ozone concentration, soil moisture, building height) and for integration in geographic information systems (GIS) with other spatial data to support monitoring and management of natural and built environments. Remote sensing or earth observation, is one of the most important and widely applied methods for measuring, monitoring and understanding the atmospheric, terrestrial and aquatic environments of the earth (and other planets). Please Note: Course profiles marked as not available may still be in development. Resources for observers including the Observer sampling requirements for Dissostichus spp., other information including logbooks, Scientific Observer's Manual – Krill Fisheries – Version 2023 ( 985.99 KB), Scientific Observer's Manual – Finfish Fisheries – Version 2023 ( 1.32 MB), cruise report templates and reference material are available on Information for Technical Coordinators and Scientific Observers.Current course offerings Course offerings The manual contains a comprehensive range of scientific observation guidelines and reference materials. To assist CCAMLR Members in planning observation programs and recording data, the Secretariat has developed a Scientific Observers Manual in consultation with the Scientific Committee, its working groups and observers in the field. The Secretariat coordinates implementation of the scheme through a network of national technical coordinators designated by Members. All of these data are submitted by observers to the CCAMLR Secretariat on standardised logbook forms designed for longline, trawl (finfish and krill) and pot (crabs and finfish) fisheries. Observers record information on the gear configuration (including measures to reduce incidental mortality of seabirds and marine mammals), fishing operations (including catch composition), biological measurements of target and by-catch species, details of fish tagging and tag-recaptures, vessel sightings and data on indicators of vulnerable marine ecosystems. The scheme also plays a crucial role in developing approaches to reducing the impact of fishing on the ecosystem by collecting data on the effectiveness of mitigation measures.Īll vessels fishing in CCAMLR fisheries are required to carry an observer for all of their fishing operations. It is one of the most important sources of scientific information that is essential for assessing the impact of fishing on the ecosystem, including the status of target populations, as well as those of related and dependent species. The CCAMLR Scheme of International Scientific Observation was adopted in 1992 under Article XXIV of the Convention. ![]()
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