By Mike Senior, Bella Sosa and Sophie Higman, Proforest
In Honduras, smallholders supply about 50 percent of all oil palm fruit bunches to mills. Although a critical source of income and rural livelihoods, such smallholdings can drive deforestation and have other adverse environmental and social impacts, such as pollution and poor labour standards. In a project funded by the Global Forest Watch (GFW) Small Grants Fund, Proforest has been trialing mobile technology to collect information from smallholder farmers and help them use forest data to better inform decisions that move them towards more sustainable oil palm production. We worked with smallholders from UNPALA, an association of smallholder palm oil producers, and Jaremar, a palm oil mill supplied by them. UNPALA and Jaremar hope to use mobile technology to move towards certification under the Roundtable on Sustainable Palm Oil (RSPO).
A key challenge for many smallholder producers is understanding what “high conservation values” (HCVs)—such as rare or endangered species or unique forest ecosystems—might exist on their land and how to protect them. Our partner Daemeter, with support from Proforest, the HCV Resource Network and World Resources Institute, created maps showing the probability that HCVs exist in Honduras, using a variety of data, including GLAD annual tree cover loss and protected areas data on GFW. These maps identify large, little disturbed blocks of natural forest, protected areas, other nationally important ecosystems and connectivity corridors. Maps were also made for Ghana, Indonesia, Malaysia and Thailand, and will be shared on GFW when finalized.
Working with partners Blue Raster and WRI, we adapted existing data collection apps—ESRI’s Collector for ArcGIS and Survey123 for ArcGIS—to use to survey smallholder farmers in the field. Blue Raster provided technical advice and helped build the mobile surveys by inputting questions in Spanish and uploading the HCV probability maps to the ESRI apps. Together the surveys aimed to:
By using the ESRI apps, Jaremar technical staff and smallholder group managers from UNPALA were able to go to the smallholders in the field and easily collect data, regardless of internet connectivity.
UNPALA needs this basic information to help smallholders secure their tenure rights or demonstrate there is no land conflict—criteria for certification schemes like RSPO. In many countries, there is no formal process for mapping individual or family land, so farmers need tools to help them document tenure on their own. In addition to the surveys, Blue Raster built a customized, web-based dashboard to:
The dashboard is critical as it enables users to easily review and interpret the data they’ve collected. This, in turn, helps them make better and quicker management decisions, and report progress more easily.
Working with members of the technical staff from Jaremar and smallholder group managers from UNPALA, we trialled the apps with a group of smallholder farmers in September 2016. Following a half-day training session, Jaremar and UNPALA staff, as well as some smallholder farmers themselves, were able to cross-reference areas proposed for oil palm expansion with the maps showing the potential HCV areas. They could then record the probability that HCVs exist on their land. The Jaremar and UNPALA team also used the apps to collect information about labour conditions and farmers’ needs. Once back in range of a mobile signal, the Jaremar and UNPALA team uploaded the field data to the dashboard to view, analyse and interpret it. Eventually, such a dashboard could also be used to produce reports for RSPO certification purposes. These might include basic maps about HCVs that should be protected in proposed expansion areas or survey data demonstrating that protective equipment was available for farm workers. Creating output maps is a particular challenge for smallholders, as it typically requires use of complex GIS software: the dashboard greatly simplifies this task.
The UNPALA and Jaremar staff immediately saw the possibilities of using the system to understand and manage deforestation and other sustainability risks. The farmers were enthusiastic about their ability to locate their plots on the maps. Where up-to-date satellite imagery was available, the technical team and farmers used it to pinpoint farm boundaries on the app in the field and discuss issues around their lands.
The trial highlighted the importance of training and support, both to get new users online and for existing users who need occasional trouble-shooting support. It was also clear that the effectiveness of the field survey process wasn’t just a result of the quality of the apps themselves. Some of the older, more experienced staff—who were often not the most technically savvy—had the most engaging manner with farmers, suggesting the need to train older technical staff and farmers to use mobile apps.
The field trial overcame problems of low connectivity, insufficient mobile phone capacity, out-of-date maps, and some users’ unfamiliarity with mobile apps to demonstrate the technology’s potential for supporting smallholder sustainability. Now the challenge is to scale up the technology and make the tools more widely available to smallholders around the world.