The word “data” is misused a lot in conversations and publications about climate change. How many times have you heard or read the phrase “future climate data”?

Data, according to the Webster-Miriam dictionary, is factual information (as measurements or statistics) used as a basis for reasoning, discussion, or calculation. It is something that was measured. Numbers, words, sounds, emotional responses can all be data, so long as they were observed and recorded. Without a time machine, there is no “data” about the future.

Future projections from climate models are not, strictly-speaking, data. A numerical model, whether a complicated computer model of the atmosphere or a Newtonian physics equation from high school, may rely on actual data as initial inputs. The numbers produced by that model are not data. They were not directly measured. They are predictions derived from inputting the measurements into a simplified representation of the system being studied.

To clearly distinguish between actual data and numbers produced by models, climate scientists usually refer to the numbers produced by a model as “model output”, or sometimes “model results”.

The line between data and output can sometimes be blurry. For example, the ocean temperatures from a remote sensing group like NOAA Coral Reef Watch are the result of an algorithm integrating a series of point satellite observations over a region or “grid cell”, and controlling for factors like clouds. It is therefore the output of a simple model, which is why it is common to refer to those values as “satellite-derived data” rather than “satellite data”.

And if you really decompose the way much “data” is physically measured, you will find the line between data and output disappear entirely. Often the instrument, whether a simple thermometer or a complicated fluorometer, used to make measurements itself relies on some embedded empirical relationship that translates a raw independent observation into the desired variable.

Regardless, the rhetorical confusion between climate “data” and climate model “output” is not just semantics. In some settings, people’s choice of wording reflects a real confusion about what climate science can do for the world.

One of the central challenges in helping the developing world adapt to climate change is the gap between the desire for precise information about the future and the uncertain, probabilistic projections that science can deliver. During workshops, research interviews and private conversations in the Pacific Islands, I often here laments that “we need the data”. The use of the word data to describe future climate projections exemplifies that gap. People want precise, down-scaled climate predictions for their island or village, not a probabilistic range for an entire region. People want science to deliver something – precise answers – that is not possible.

Explaining and demonstrating the difference between data and output can go a long way to bridging the gap between the ability and the demands of climate science.

The  oceans in June may have set an all-time heat record, according to data from the U.S. National Oceanic and Atmospheric Administration (NOAA). The global average sea surface temperature may have topped 17 °C for the first time in any month of any year since 1880.

The NOAA State of the Climate analysis reported that last month was the warmest June on the planet since records began, thanks in large part to ocean warmth. It was the 7th warmest June on land but the warmest June in the ocean, with the highest departure from normal recorded in the dataset for any month.

The temperature of 17.04°C should be seen as an estimate, given the challenge of defining “normal” for the oceans. However, we can still say with some confidence June may have been the warmest month for the ocean since these records began.

The record ocean warmth is seen particularly in the tropical Pacific, where currents, winds and temperature measurements have scientists forecasting a possible El Nino event.