Dataset DOI: 10.5061/dryad.k6djh9wjn

Description of the data and file structure

General information on precipitation and temperature data. Meteorological records from Mexico were obtained from 10 stations ranging from latitude 24° to the US border and for five specific Sonoran Desert locations in the U.S., ranging from the Mexican border to latitude 36.1°. We only used data from 1980 onwards, before that date significant gaps were found in some of the stations in Mexico. A small number of missing data points in some stations were gap-filled with the data from the nearest station within the same ecological region (missing data points were less than 1% of the monthly series in all stations). All data, both for Mexico and the US, was recorded in SI units: mm for rainfall and °C (degrees Celsius) for temperature.

Data from Mexican weather stations. Between 2016 and 2018 the Mexican  weather stations transitioned from manual to automated operation. Data from before the transition (i.e., from manual readings) were downloaded from CONAGUA's "Información Estadística Climatológica" (https://smn.conagua.gob.mx/es/climatologia/informacion-climatologica/informacion-estadistica-climatologica). Data from the transition onwards (i.e., from the automated weather stations database) were downloaded from CONAGUA's "Resúmenes Mensuales de Temperatura y Lluvias" (https://smn.conagua.gob.mx/es/climatologia/temperaturas-y-lluvias/resumenes-mensual es-de-temperaturas-y-lluvias).

Data from US weather stations. Meteorological records from the US were obtained using the PRISM online database, using the Time Series Values for Individual Locations (PRISM Climate Group, Oregon State University, https://www.prism.oregonstate.edu/explorer/).

The "ecological year" for the calculation of annual cumulative precipitation: Taking into account the predictable arid fore-summer throughout the Sonoran Desert (April-May, see main text), we calculated the yearly cumulative precipitation for each of the 15 locations between May and April in the following year, summarizing the precipitation data into “ecological years.” Thus, the cumulative precipitation data for each location was reduced to a series of 44 ecological years.

The "ecological year" for annual maximum temperature: Taking into account the predictable arid fore-summer throughout the Sonoran Desert (April-May, see main text), we selected the annual maximum monthly temperature for each of the 15 locations between May and April in the following year, summarizing the maximum temperature data for each “ecological year” as a proxy for periods where heat waves might have occurred.

Files and variables

File: SonoranDesert_VegZones_MajorCropAreasRemoved.zip

Description: A zip-folder containing the ARC-GIS shapefile (.SHP) describing in vector format the boundary of the Sonoran Desert as used in this study, plus all the other auxiliary files that are necessary to open the shp file. The external perimeter of the Sonoran Desert has the major agricultural areas under irrigation removed (e.g., the Imperial Valley, the Lower Colorado River irrigation districts, the Gila River irrigated plains, and the Mexicali Valley), as these areas might underestimate the severeness of droughts because of the input of allochthonous sources of water.

Variables

• Vectorized shapefile readable in any desktop GIS Software such as ARC-GIS, ILWIS, MapWindow GIS, QGIS, and many more.

File: BCS_plant_stress_data.xlsx

Description: Data on drought damage for 99 species surveys on 20 sites from Loreto to Los Planes, in Baja California Sur.

Variables

• Column A indicates the location where the survey was done and column B the species that was surveyed in that particular location. Columns C to G indicate the number of individuals found in each health condition (H), with levels I, II, and III of damage, or standing dead (D). The rest of the columns show the data collectors that did the survey, the latitude and longitude of the location, the larger region where the location is found, and the date of the survey.
• Drought stress categories were: I (little impact), II (clear impact, with some new growth), III (severe impact, no new growth, unlikely to survive), and D (dead). In the case of Bursera microphylla, impact was evaluated by the amount of green foliage, the proportion of dead branches, and the presence of entrance holes to tunnels from wood borers, often exuding a mixture of resin and frass. In the case of cacti, damage was assessed by the amount of epidermal browning in the stem, the presence of stem constrictions close to the apex, and signs of damage by cactus borers (Moneilema spp., Cerambicidae).

File: Pooled_precipitation_dataset.xlsx

Description: Cumulative annual precipitation between 1980 and 2023 for 15 meteorological stations in the larger Sonoran Desert, both in Mexico and the US.

Variables

• Row labels indicate the year of observation, and the column labels show the location where the weather records were collected.

File: Pooled_temperature_dataset.xlsx

Description: Maximum mean monthly temperature (hottest month of the year) for 15 meteorological stations in the larger Sonoran Desert, both in Mexico and the US, between 1980 and 2023.

Variables

• Row labels indicate the year of observation, and the column labels show the location where the weather records were collected.

Code/software

• Microsoft Excel
• Google Sheets
• Zoho Sheet
• LibreOffice Calc
• ARC-GIS
• QGIS
• ILWIS

Access information

Other publicly accessible locations of the data:

• None

Data was derived from the following sources:

• Our own research