Optimized Shrub System: Improving Cowpea Yields and Strengthening Smallholder Resilience

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Principal investigator/Lead institution: Dr. Richard Dick, Ohio State University

Co-PI: Dr. Moussa Diangar, ISRA Bambey 

Collaborating institutions: ISRA-CERAAS, Senegal

 

Works in: Senegal

 

map of africa

Project Overview

 

West Africa suffers from recurring drought and degraded soils, which limits productivity of cowpea, an important source of protein and income for rural households in the Sahel. This project will pilot test and adapt the Optimized Shrub-intercropping System (OSS) to improve cowpea production.

OSS utilizes 2 indigenous shrubs (Guiera senegalensis and Piliostigma reticulatum) at densities of 1200-1500 shrubs/ha that includes annual incorporation of aboveground biomass – a system our research (31+ refereed journal articles) has shown dramatically increases crop yields (millet and peanut), remediates degraded soils, and profoundly, we have shown that shrubs “bioirrigate” adjacent crops – a powerful mechanism to combat in-season drought.

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Simulated drought experiment, 2014. No shrub plot on the left had crop failure. With shrub plot on the right had harvestable yield. Photo courtesy of Nate Bogie

The productivity of this cowpea system will be evaluated under OSS management in comparison to the traditional management system (low or zero shrub density/burning of shrub residue) under farmer management. 

We will also test an intriguing option for double cropping cowpea - determining if a second cowpea crop can produce harvestable yields at the beginning of the dry season by utilizing “shrub bioirrigated” water. A screening of cowpea cultivars that range in duration and phenotypic characteristics to identify superior lines for OSS will be done.

The team has also received funding for two cross-cutting themes:

  • Nutrition – Protein, fat, fiber, sugar, iron and zinc will be analyzed to determine if cowpea grown under OSS has higher nutritional value than cowpea grown in the traditional system. An additional MS student will be trained with this work.
  • The team is working with Scientific Animations Without Borders (SAWBO) to develop an OSS SAWBO video to be widely distributed through knowledge sharing platforms such as AgriLinks, social media, Field Days, and in classrooms in the U.S. and Senegal.

 Click here to download the Project Fact Sheet

 

Want to learn more?

 Presentation at the 2021 Global Legume Lab Convening.
 
Additional presentation at the 2022 Global Legume Lab Convening.
 
 Presentation at the 2021 Global Legume Lab Convening.

 

Wild shrub could help peanut farmers in Senegal

Could an indigenous shrub lessen food shortages in West Africa?

The shrub that could feed Africa

Natural ‘bio-irrigation’ boosts millet yield by 900%: ‘Everything about this is positive,’ say researchers

How one tough shrub could help fight hunger in Africa

New study finds drought-resistant native plant can irrigate food

Drought-resistant native shrub can irrigate food crops, study finds

Irrigazione biologica: il cespugilo che puo sfarmare l’Africa

Un Buisson africain qui sait irriguer les recoltes

 

 

 

 

  

 

FINAL REPORT: Optimized Shrub System: Improving Cowpea Yields and Strengthening Smallholder Resilience

February 10, 2024

All activity under this project has concluded. The project’s final project report is provided here.