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Earth observation (EO) is the gathering of information about the physical, chemical, and biological systems of the planet Earth. It can be performed via remote-sensing technologies and by ground-based techniques.^[1] According to the Group on Earth Observations (GEO), the concept encompasses both "space-based or remotely-sensed data, as well as ground-based or in situ data."^[2] Earth observation is used to monitor and assess the status of and changes in natural and built environments.

Terminology

The term Earth observation is used in two ways, leading to confusion. In Europe, in particular, it has often been used to refer to satellite-based remote sensing, but the term is also used to refer to any form of observations of the Earth system, including in situ and airborne observations, for example. The GEO, which has over 100 member countries and over 100 participating organizations, uses EO in this broader sense.

To add to the confusion, in the US, for example, the term remote sensing is often used to refer to satellite-based remote sensing, but sometimes used more broadly for observations using any form of remote sensing technology, including airborne sensors and even ground-based sensors such as cameras. Perhaps the least ambiguous term to use for satellite-based sensors is satellite remote sensing (SRS), an acronym which is gradually starting to appear in the literature.

Types

Earth observations may include:

numerical measurements taken by a thermometer, wind gauge, ocean buoy, altimeter or seismometer
photos and radar or sonar images taken from ground or ocean-based instruments
photos and radar images taken from remote-sensing satellites
decision-support tools based on processed information, such as maps and models

Applications

Just as Earth observations consist of a wide variety of possible elements, they can be applied to a wide variety of possible uses. Some of the specific applications of Earth observations are:

forecasting weather
tracking biodiversity and wildlife trends
measuring land-use change (such as deforestation)
monitoring and responding to natural disasters,^[3] including fires, floods, earthquakes, landslides, land subsidence and tsunamis^[3]
managing natural resources, such as energy, freshwater and agriculture
addressing emerging diseases and other health risks
predicting, adapting to and mitigating climate change

Trends

The quality and quantity of Earth observations continue to mount rapidly. In addition to the ongoing launch of new remote-sensing satellites, increasingly sophisticated in situ instruments located on the ground, on balloons and airplanes, and in rivers, lakes and oceans, are generating increasingly comprehensive, nearly real-time observations.

In recent years,^[when?] ^[3] Earth observation have become increasingly technologically sophisticated. It has also become more important due to the dramatic impact that modern human civilization is having on the world and the need to minimize negative effects (e.g. geohazards),^[3] along with the opportunities such observation provides to improve social and economic well-being.

References

^ "Aims and Scope". International Journal of Applied Earth Observation and Geoinformation. Elsevier. Retrieved 2012-07-20.
^ "GEO at a Glance". Retrieved 2020-08-25.
^ ^a ^b ^c ^d Tomás, Roberto; Li, Zhenhong (2017-02-24). "Earth Observations for Geohazards: Present and Future Challenges". Remote Sensing. 9 (3): 194. doi:10.3390/rs9030194. ISSN 2072-4292.

[1] "Aims and Scope". International Journal of Applied Earth Observation and Geoinformation. Elsevier. Retrieved 2012-07-20.

[GEO_at_a_Glance-2] "GEO at a Glance". Retrieved 2020-08-25.

[:1-3] Tomás, Roberto; Li, Zhenhong (2017-02-24). "Earth Observations for Geohazards: Present and Future Challenges". Remote Sensing. 9 (3): 194. doi:10.3390/rs9030194. ISSN 2072-4292.

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-'''Earth observation''' ('''EO''') is the gathering of information about the physical, chemical, and [[biosphere|biological]] systems of the planet [[Earth]]. It can be performed via [[remote sensing|remote-sensing]] technologies and by ground-based techniques, which encompasses the collection, analysis, and presentation of such data.<ref>{{cite web |work=International Journal of Applied Earth Observation and Geoinformation |title=Aims and Scope |url=http://www.journals.elsevier.com/international-journal-of-applied-earth-observation-and-geoinformation/ |publisher=Elsevier |access-date=2012-07-20}}</ref>
+'''Earth observation''' ('''EO''') is the gathering of information about the physical, chemical, and [[biosphere|biological]] systems of the planet [[Earth]]. It can be performed via [[remote sensing|remote-sensing]] technologies and by ground-based techniques.<ref>{{cite web |work=International Journal of Applied Earth Observation and Geoinformation |title=Aims and Scope |url=http://www.journals.elsevier.com/international-journal-of-applied-earth-observation-and-geoinformation/ |publisher=Elsevier |access-date=2012-07-20}}</ref>
 According to the [[Group on Earth Observations]] (GEO), the concept encompasses both "space-based or remotely-sensed data, as well as ground-based or in situ data."<ref name="GEO at a Glance">{{cite web | title=GEO at a Glance | url=http://www.earthobservations.org/geo_wwd.php | access-date=2020-08-25}}</ref>
 Earth observation is used to monitor and assess the status of and changes in [[natural environment|natural]] and [[built environment]]s.