Rangeland managers and livestock producers need timely and consistent tools that produce information to inform grazing strategies, risk management, and allotment management plans. In addition, National Forests are now in various stages of forest plan revisions which require assessments of current rangeland conditions and past vegetation performance in a clear, unbiased manner. On the ground monitoring is extremely expensive and difficult to employ consistently due to limited resources, limited trained staff, and shifting priorities. In response to this need, Matt Reeves, a Research Ecologist with the Rocky Mountain Research Station, worked in partnership with private industry to develop a new data service freely available to all stakeholders and managers.
The Rangeland Production Monitoring Service (RPMS) consists of two components. First, it includes a retrospective dataset with the objective of mapping and quantifying annual vegetation production of all 662 million acres of U.S. rangelands from 1984 to present. To create this dataset, we leveraged the Thematic Mapper data suite warehoused on the Google Earth Engine and generated Normalized Difference Vegetation Index (NDVI). The NDVI of an area shows the density of vegetation growing there, and is useful in determining the impact of drought or other events that may reduce or increase vegetation yield. These data were originally offered at a 30 meter spatial resolution (meaning that one pixel represented 30 meters), but to reduce processing constraints and file size (to greatly enhance download capability), the final product was re-sampled to 250 meters.
These data were converted to show annual production by processing them through the Rangeland Vegetation Simulator (RVS). The RVS is a simulation system that enables quantification of total annual production, standing carbon in shrubs, stems per acre, carbon and biomass in shrubs, 1, 10, 100, 1000 hour timelag fuels (timelag fuels, or dead fuel, are a way of classifying vegetation components by diameter), and species assemblages response to fire and herbivory. This new simulation program was used to calibrate the NDVI to annual production.
This unprecedented time series enables users of this service to quantify trends in vegetation production through time, evaluate inter-annual variability, and quantify recovery from drought and wildfire. Obtaining this type of information has long been the target of many producers and managers, so development of this innovative service is timely. It will aid efforts aimed at increasing resiliency and creating better grazing management strategies, which can improve economic and ecological resiliency alike.
The second component of the RPMS is a forage projection system that utilizes machine learning to process near real time climate and remote sensing data to estimate the magnitude and timing of annual production across all rangelands in the Northern Region of the USDA, US Forest Service (Region 1). This automated projection system operates between March and July of the growing season and is updated every 2 weeks. This timeframe allows for a new estimate of the total annual yield to be made in concert with an estimate of the timing of the peak of the growing season. To ensure full disclosure and transparency, we also offer a 95% prediction Interval about the estimate. These data are complementary to the GrassCast offered at: http://grasscast.agsci.colostate.edu/.
There are two main products from this project:
The first is a retrospective dataset from 1984 to 2019 and beyond (updated annually). The dataset includes data for the period from 1984 to present day, which enables estimates of production such as:
The second product is a forage and fuel projection system (near real time) that operates during the growing season. The projections are made each week and rely on daily precipitation data, drought information, and weekly remotely sensed data. There are 10 inter-related products (and 2 coming in the near future including standing dead material and surface Fire Behavior Fuel Model) now available for use and evaluation every week in the growing season including:
Each week, new projections are available through this portal hosted by the US Forest Service and this contains the calibrated projections currently available. Click here to download the latest projections.
The RPMS uses data ranging from 1984 to present, which enables rangeland managers and producers to make estimates of annual rangeland production. There are many uses of these data for addressing wildlife habitat concerns, enterprise management, insurance underwriting, restoration planning, and allotment management planning, among other uses. For the in season production projections, fire planners and modelers can use this data to create information about expected fire behavior and what regions of the country are likely to need greater resources. Here, we provide three concrete examples of ways to use the RPMS retrospective data:
Example 1: Evaluating production trends across all USFS grazing allotments
In this example, four metrics have been produced from the RPMS across all grazing allotments in the western U.S.. The upper left shows inter-annual variability in vegetation production (as a percent of the 34 year mean). The upper right shows correlation through time. The lower left shows average production values (lbs ac-1) of vegetation on those areas. The lower right shows the least productive (usually the driest) year on record. As can be seen, one can create a strong understanding of conditions that are unfolding across all allotments in a matter of minutes using the RPMS, which is important information for improving allotment management strategies.
Example 2: Evaluating production on BLM lands: Identifying notable trends
In this example, by calculating trend, variability, least productive year and average production, we were able to quickly identify important trends unfolding across the extent of BLM rangelands. In this case, we can see the Cuate Canyon allotment has been losing production since 1984, with an estimated lower end of about 450 pounds per acre. As can be seen, climate variability can strongly impact the vegetation amount in an area.
Example 3: Quantifying impacts of drought in 2017 while characterizing range of variability and production trends on Ecological Sites of private ranchlands in Northern Arizona
In this final example, the RPMS was used to update Ecological Site information for a ranch in Northern Arizona. Again, with just a glance, the RPMS enables determination of which sites are undergoing the greatest amount of change. In addition, since the RPMS covers all 662 million acres of rangelands, it can also be used to compare between years, helping us to understand just how deep the drought impacts have been for a given region. For example, see the significant declines in eastern Montana in 2017. This was a very difficult time for producers and mangers throughout the regions where annual production fell between 40 to 97 percent compared with the 34 year average.
With data ranging from 1984 to present day, the RPMS has enabled estimates of annual rangeland production. These unique systems can be used by managers and producers as in the examples above, or for other purposes, including:
With the data access tool (RMRS Raster Utility Toolbar) any user-defined geography (pastures, allotments, National Forests, private parcels, BLM lands, USFS lands, etc.) can be used to derive annual production estimates for rangelands in the coterminous U.S. There are four options for obtaining the full dataset:
A tutorial can be found on the T Drive: T:\FS\RD\RMRS\Science\HD\MySpace\Mreeves\RPMS_Tutorial.zip. For those operating off the US Forest Service Network the tutorial can be found at: RPMS_Tutorial.