How important have century-long shifts in climate been?

This map shows how wet and dry periods have varied over time. Draw a rectangle over a region or click a place on the map, to see graphs for that location. These graphs depict how much rainfall (or temperature) varies from year to year, decade to decade, and over the past century. This information can be used for planning purposes on different timescales, and to provide context for recent memories of rainfall patterns or specific events in a longer-term perspective.

If 10-year shifts are orange or red, then decade-long shifts in rain or temperature may be particularly important in your location.

Dataset Documentation

Technical Reference Document

Greene, A.M, L. Goddard and R. Cousin, Web tool deconstructs variability in twentieth-century climate, Eos Trans. AGU, 92(45), 397, doi:10.1029/2011EO450001.

Global-mean multimodel-mean temperature record
Data Source: CMIP3 multi-model ensemble mean

Observations
Data Source: monthly mean precipitation and temperature from CRU TS 3.1

Helpdesks

Contact ifrc@iri.columbia.edu if you are a humanitarian-decision maker with questions about information in this Map Room, or other weather and climate related questions. We usually respond within one business day.

Contact help@iri.columbia.edu with any technical questions or problems with this Map Room, for example, the forecasts not displaying or updating properly.

What is this tool?

This “Recent Climate Trends Maproom” shows how wet and dry (or hot and cold) periods have varied over the past century. Many parts of the world have dry seasons and rainy seasons (or summers and winters) within each year, but also have entire years or decades that are unusually dry or wet (or hot or cold). These graphs are intended to show trends in rain/snow (or temperature) over three “timescales”:

• Year-to-year shifts (black line is actual rainfall)
• Decade-long shifts (smooth blue line)
• Century-long trends (straight purple line)

On the map, if the colour of a location is closer to red, it means that century long shifts in rain (or temperature) may have greater importance for that location. The legend shows the degree of important of rainfall (or temperature) changes that can be explained by this century long trend.

Use this tool to:

• Examine the context and history of a wet/dry (or hot/cool) trend that you are currently experiencing.
• See if there have been past century long shifts to help you prepare to expect them in the future.
• See if there is evidence that a longer-term shift in rainfall/temperature is already underway (purple line).

Not recommended to:

• Just look at one gridpoint (this could be misleading). Check a few in the same area, or average over a larger box.
• Just look at one timescale. Actual rainfall is influenced by yearly, decade long, and century long shifts.
• Use this as a tool to predict the future. It shows only historical information.

How do I use this tool?

1. Pick your location by clicking on a point on the top map, selecting a preset region from the blue sidebar, or drawing a box with the mouse for an area average (in this case, click the box for “regional analysis”). A graph should appear at the bottom to show rainfall/snowfall in your location for the last 100 years (see above for information about these graphs). BE PATIENT as the graph sometimes takes a few minutes to calculate.
2. Start by looking at the long-term trend (purple line) to see if there is any evidence of a longer-term trend in rainfall over the past 100 years. This may or may not be in alignment with longer-term climate change projections for the 21st century you gather from sources like the IPCC. If you have questions about the alignment of past trends and future projections, email the IFRC Help Desk at IRI. Even if there is some evidence of a long-term trend, you’ll probably notice it is very small and that rainfall varies a lot more in shorter timescales (seasons, years, decades).
3. Next, look at the blue line of decade-long shifts. You can find a blue number at the top of the graph next to the word “Decade-long shifts” that indicates how much of the historical rainfall or temperature can be explained by this blue line. If this number is above 20%, then 10-year phases might be important in the location you selected.
1. If these phases are important in your location, you will want to take that into consideration when thinking about the longer-term climate change projections, so that you’re prepared to experience periods of rainfall that may contradict what is predicted for the longer-term trend.
2. If there is very little importance of the blue line, then you can focus more on the year-to-year shifts as well as the longer-term trends.
3. If you have experienced a dry or wet (or hot or cold) period lasting multiple years in your location, the blue line might help determine if you were in a wet or dry (or hot or cold) 10-year phase. If so, when the phase changes, you could see opposite results, and the recent pattern might not be due to a longer term climate trend.
4. Finally, look at the actual rainfall in your location (black line). It is common for most of the ups and downs (65% or more) in rainfall to happen on the season-to-season or year-to-year timescale. This just means that rainfall fluctuates a good amount from year to year. There are forecasts available to predict rainfall every season, so monitoring these can be helpful to anticipate heightened flood and drought risk. Can you pick out years of very high or low rains? Additionally, it can be helpful to note that the range of the real data is likely to be much greater than any increase or decrease in rainfall shown over time by the longer-term climate change trend. In any given year, the short-term year-to-year fluctuations can overshadow the longer-term climate change trend.