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Skip to 0 minutes and 19 seconds <v ->Earth orbiting satellites are now giving us</v> vital information for us to understand what is happening to our planet and, in particular, to monitor climate change and to provide the tools that we need to make better predictions. Data are being received from all around the world on receiving stations from now many tens of satellites, and it’s the range of information that’s now coming is providing that comprehensive picture we need to understand how the health of our planet is changing and to monitor the planet’s vital signs. We’re at a crucial juncture because population growth now, large numbers of people are putting quite a strain on the planet.
Skip to 0 minutes and 58 seconds We have, as a species, great amounts of resources and, of course, we are emitting greenhouse gases which are affecting the climate. One of the most crucial things that we need to do is monitor the changes that are taking place and to produce long-term records of data that allows us to judge what exactly has happened and why it has happened. And this information is absolutely vital to politicians and decision makers as the fundamental scientific basis to allow them to implement policies that really lead to the right outcomes.
Skip to 1 minute and 33 seconds <v ->These old antarctic suits remind me</v> of my own trips to Antarctica. I was struck not just by the awesome beauty of the place, but also the dramatic changes that are occurring. Along the Antarctic Peninsula we’ve seen icesheets that are the size of Greater London and the height of a 10-storeyed building collapse in a matter of months in recent years. Earth observation in combination with advances in numerical modelling of the climate is essential for helping us to understand both present day changes and future changes and that evidence base is critical to underpinning future policy.
Skip to 2 minutes and 8 seconds <v ->What we really need for studying climate change</v> is continuity in the class of senses that are looking at the planet, and it’s always the case with Earth observation, you don’t discover things until you start to look for them and until you’ve got tools with which you can look properly, we just don’t know what’s going on. The icesheets are changing in a way today that we never thought was possible. <v ->A good example of how Earth observation can support</v> the implementation of environmental policy is the case of forest. So as you probably know climate change is driven by greenhouse gas emission which comes in a large part from deforestation and forest degradation.
Skip to 2 minutes and 46 seconds To try to tackle this a lot of governments are trying to reduce this rate of deforestation and forest degradation, but to do so, they need to know where forests are and how significantly this weight is changing over time. This is simply impossible to monitor at the scale of the planet, at a relevant spatial and temporal resolution, and that’s really where the strengths of the Earth observation are. By being able to look at our planet, to differentiate different types of ecosystem, including forest, we are able to support the implementation of those kind of policy by saying, “This is where most of the forest reside. “This is how much we’ve lost over the past 30 years.
Skip to 3 minutes and 31 seconds “And this is where we should concentrate our efforts “to try to reduce deforestation and forest degradation “and therefore, reduce greenhouse gas emission.” <v ->Forests currently take out</v> about four billion metric tonnes per year They also release about 2.8 in terms of losses of carbon due to land use change. That’s a net sink of about 1.1 billion metric tonnes. So remote sensing helps us to monitor how much carbon is being released.
Skip to 4 minutes and 3 seconds If we have an estimate of the area that’s been deforested and we have an estimate of the carbon stocks for that area then we can calculate how much carbon was emitted to the atmosphere and conversely, we can see areas regrow over time using remotely sensed data, and we can therefore estimate how much is being taken out. And the importance of these measurements is that you have to have a very precise measurement in order to enforce policies that seek to reduce carbon emissions.
Skip to 4 minutes and 34 seconds So for example, if you emit a certain amount and you want to reduce it by, let’s say, 25% but your uncertainty is plus or minus 50%, then you’d have to reduce by 75% just to outstrip the uncertainty of your estimate. And so the contribution of remote sensing from that respect is just to get really precise estimates of how much we’re emitting and how much we’re taking out. (light music)
Topic 1d - The importance of EO in climate policy and planning
This video explains why Earth observation is essential in climate policy and planning and will outline the key ways in which it is helping to inform effective climate decision-making.
(Subtitles and transcripts for this video are also available in Spanish and Chinese. Just click on the small pink square in the video controls to select your preferred language, or download transcripts from the bottom of this page).
We need globally consistent, regularly updated, trustable methods of assessment in order to understand and monitor the environmental changes that are occurring on our planet, including those related to climate change. Comprehensive, long-term, EO measurements made by Earth orbiting satellites using appropriate remote sensing instruments allow us to monitor a wide range of parameters about the Earth system, regularly and repeatedly over many years, and even decades.
EO data contributes to the overall evidence required to understand both current and future changes in the Earth system, and to put these in the context of historical changes. Satellite EO can, for example, detect alterations in the cryosphere and monitor trends in the Earth’s forest cover. A carefully coordinated programme of long-term Earth observations, often combined with other information from ground-measurements and instruments on aircraft, ships, and towers, enable us to further our understanding of the mechanisms and effects of climate change, and to establish, improve and evaluate the mathematical models we use to make predictions about the future.
Understanding past and present changes in the climate system using these approaches is essential if we are to build up the fundamental scientific information and tools needed to inform climate and environmental policy and planning going forward.
- Professor Alan O’Neill
- Professor Andrew Shepherd
- Dr Emily Shuckburgh
Other Featured Experts:
- Dr Nathalie Pettorelli
- Dr Kirsten Barrett
Optional Further Reading:
If you want to explore this topic further, please take a look at the ‘See Also’ link below. Click ‘back’ on your browser to return to the course.
Explore the Imagery, Data and Satellites:
You can explore the imagery, data and EO satellite missions from this topic more fully using the links and downloads on the next step.