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mapspamc

Lifecycle: experimental

The aim of the mapspamc R package is to facilitate the creation of country level crop distribution maps. The model builds on the global version of the Spatial Production Allocation model (SPAM) (You and Wood 2006; You, Wood, and Wood-Sichra 2009; You et al. 2014; Yu et al. 2020), which uses a cross-entropy optimization approach to ‘pixelate’ national and subnational crop statistics on a spatial grid at a resolution of 5 arc minutes (~ 10 x 10 km). mapspamc provides the necessary infrastructure to run SPAM at the country level and makes it possible to incorporate national sources of information and potentially create maps at a higher resolution of 30 arc seconds (~ 1 x 1 km)(Dijk et al. 2022).

The articles in the Background section provide general information on approaches to create crop distribution maps, the model, input data, country examples and an appendix with additional information on specific topics.

Installation

To install mapspamc:

install.packages("remotes")
remotes::install_github("michielvandijk/mapspamc")

Running mapspamc requires the installation of several other pieces of software, which are described in the Installation section.

Preparation

It takes some preparation before the crop distribution maps can be generated. Most important and probably most time consuming is the collection of input data. mapspamc requires a large variety of input data, which can be grouped under three headers: (1) national crop statistics, (2) data to construct the priors/fitness scores and (3) data to determine the spatial constraints. The availability of data strongly affects the structure of the model, how it will be solved and how long it takes to solve. We highly recommend to start collecting input data before running the model. The articles in the Background section give an overview of the input data that are required by the package and show were to download several country examples.

Run mapspamc

Running mapspamc can be divided into six major steps which are split into nine smaller steps in the Run mapspamc section.

References

Dijk, Michiel van, Ulrike Wood-Sichra, Yating Ru, Amanda Palazzo, Petr Havlik, and Liangzhi You. 2022. “Generating multi-period crop distribution maps for Southern Africa using a data fusion approach.”

You, Liangzhi, and Stanley Wood. 2006. “An entropy approach to spatial disaggregation of agricultural production.” Agricultural Systems 90 (1): 329–47. https://doi.org/10.1016/j.agsy.2006.01.008.

You, Liangzhi, Stanley Wood, and Ulrike Wood-Sichra. 2009. “Generating plausible crop distribution maps for Sub-Saharan Africa using a spatially disaggregated data fusion and optimization approach.” Agricultural Systems 99 (2): 126–40. https://doi.org/10.1016/j.agsy.2008.11.003.

You, Liangzhi, Stanley Wood, Ulrike Wood-Sichra, and Wenbin Wu. 2014. “Generating global crop distribution maps: From census to grid.” Agricultural Systems 127: 53–60. https://doi.org/10.1016/j.agsy.2014.01.002.

Yu, Qiangyi, Liangzhi You, Ulrike Wood-Sichra, Yating Ru, Alison K. B. Joglekar, Steffen Fritz, Wei Xiong, Miao Lu, Wenbin Wu, and Peng Yang. 2020. “A cultivated planet in 2010 – Part 2: The global gridded agricultural-production maps.” Earth System Science Data 12 (4): 3545–72. https://doi.org/10.5194/essd-12-3545-2020.