UPSCALING THE BENEFITS OF PUSH-PULL TECHNOLOGY FOR SUSTAINABLE AGRICULTURAL INTENSIFICATION IN EAST AFRICA

Closing the yield gap in African smallholder agriculture is a critical challenge which must be met in order to achieve food security goals for millions of farmers. In sub-Saharan Africa, this challenge is compounded by the need to adapt cultivation practices to extreme dryness and ongoing climate change, and by the recognition that conventional methods of agricultural intensification are environmentally costly, unsustainable, and poorly adapted to low-income farming.

Nature-based solutions that harness the benefits of biodiversity and the environment for productive, low input and climate-resilient agriculture are increasingly suggested as promising avenues for sustainable intensification of agriculture in Africa and beyond. Push-pull is an integrated mixed cropping system that involves driving pests away from the main crop using a repellent intercrop (the push) while attracting them out of the crop with trap plants. Push-pull also improves soil health and water retention, provides economic and high-value livestock fodder, and a recently developed climate-smart variant making use of traditional cereal varieties (sorghum, finger millet) increases system resilience to climate change. Through its growing success in staple cereal crops, push-pull has enormous potential to be the most important discovery for food security and environmentally friendly agricultural management of the 21st century.

The UPSCALE project is taking key steps to realize the transformative potential of push-pull technology by expanding its scope and applicability from individual fields to whole landscapes and regions, and from cereal to other important crops and cultivation systems. The overall goal is to address food security, livelihoods and climate change resilience in the sub-Saharan region of East Africa, while reducing the environmental impact of agricultural practices. To achieve this, the project is fostering design, adaptation and adoption of strategies for integrated agro-ecological management based on push-pull technology for wide-spread and climate-resilient sustainable intensification in East Africa.

UPSCALE is active in five countries of East Africa where the push-pull technology is practiced: Kenya, Ethiopia, Uganda, Rwanda and Tanzania.

Multi-actor Communities of practice (MACs) for upscaling push-pull technology in East Africa were formed in Kenya, Tanzania, Rwanda, Uganda and Ethiopia. Synthetic guidelines and advice were derived on best practices to accomplish transformative impact on agricultural practices, policy and stakeholder perspectives. Transdisciplinarity has been embraced to diffuse barriers and bring to the view of agriculture a coordinated knowledge, skill and practice platform to promote sustainable agricultural production.

Socioeconomic surveys were performed in over 1500 households to evaluate the critical factors which promote or hinder adoption and upscaling of push-pull technology. A joint agroecological study design was implemented in 160 field sites and 60 grasslands across 5 countries. Field protocols to assess the determinants of pest control and other functions in maize push-pull and non push-pull systems, including methods for remotely sensing the distribution of plant volatiles, were used for assessments of local and landscape-scale impacts of push-pull technology for farmers and ecological communities.

High-resolution land use maps were developed as well as maps of biophysical and climatic conditions, social and farming systems to identify optimal target regions for push-pull upscaling. Climate models were developed as a basis for scenarios. Frameworks for analyzing social-ecological systems are being used to participatively model the push-pull system across ecological, socio-economic and governance levels.

After synthetic review of the options for expansion of push-pull and integration with other crops and practices, multi-actor needs assessment to identify priority crops and systems for integration was performed. Field experiments and trials including 'mother-baby' participative trials are underway in all 5 countries to test the identified options and the efficacy of push-pull integration.

To ensure that farmers are linked to the main value chain players in the market, value chain analyses for push-pull products were carried out and key elements of the push-pull value chains are being stimulated for increased market integration and to facilitate farmers' access to push-pull inputs, notably seeds of companion plants. Insights from the MACs and ongoing partnerships have been synthesized to develop policy guidelines and advocacy for high-level push-pull integration in national and international policy settings.

Communication materials are leveraged along with the project website and Knowledge Exchange Hub (KEH). Farmer mobilization is using cost-effective dissemination pathways developed in connection with MACs including e-extension. 78 demonstration plots have been set up, training materials are developed and farmer trainings are being performed in all 5 countries. To date 38 million people have been reached through mass media with push-pull messaging, and 18,220 farmers and extension staff were trained to implement the technology. Push-pull technology is furthermore being included in national guidelines for sustainable and climate-resilient farming practice, and push-pull companion plants are valuable components of enhancing livestock value chains through the production of fodder.

Efficient project and data management structures and Ethical guidelines are in place including a project management platform and a database for FAIR archiving of the data generated in UPSCALE.

Key results to date highlight the critical role of extension in guiding push-pull adoptions. Inclusive and integrated extension packages that train on agroecological practices and leverage existing social network structures are an essential tool for securing durable and effective adoption of push-pull technology. In addition, we demonstrate the role of Desmodium nurseries and vegetative propagation in bridging supply gaps for companion plants and facilitating crop rotation. Push-pull can be integrated very effectively with crops outside cereal such as high-value vegetables, edible legumes and agroforestry. Chemical profiles of push-pull fields are consistently distinct from conventional cereal, including through maize-produced defense compounds.

Further models and data are expected to provide insights on key thresholds for ecological and socio-ecological effectiveness of push-pull dissemination. At the same time, UPSCALE is revolutioning push-pull scaling strategies through pilot landscape-level dissemination. Targeted efforts to unlock Desmodium seed systems are expected to streamline region-wide access to push-pull inputs, thus lifting a long-standing bottleneck for push-pull spread.

UPSCALE addresses hereby ‘critical levers’ in applied research, policy and multi-actor value chains for the expansion and uptake of agroecological push-pull practices. In practice, UPSCALE introduces novel ecological methods, modelling tools and social-ecological approaches to assess and improve social-ecological resilience of ecosystem services and farms including under scenarios of climate change. Through multi-actor design and integration of empirical models UPSCALE ensures the relevance of the research, as well as the feasibility and uptake of proposed solutions.