Feed the Future Publications
6 Issues in this Publication (Showing 1 - 6)
Inclusive Digital Design Toolkit: Practical guidance for Feed the Future activities
Whether you are just starting an activity design or implementation exclusively aimed at developing a new digital tool in Feed the Future activities, or if you are simply planning on using existing digital technology within development programming, this toolkit is for you. This toolkit has been designed to assist USAID staff and implementing partners to design and implement activities that:
- Understand that potential users have complex realities that alter their ability to use, engage with, and benefit from digital tools.
- Overcome the digital divides of access, digital literacy, and offline benefit through inclusive digital design and program activities.
- Utilize a Digital Inclusion Framework to assess and iteratively improve digital inclusion efforts.
Green Manure/Cover Crop approach in RAMA-BC
- Also available in:
- Français (fr)
- Español (es)
- English (en)
This document distinguishes between ‘anchor’ cover crops (that are intercropped with a main crop such as maize) and ‘secondary’ cover crops (that don’t compete with the main crop because they have a short life cycle, and that can help cover the soil at the start of the growing season). The document also includes short summaries of five cover crops: jack bean, pigeon pea, lablab beans, cowpeas, and mung beans.
How to Process Jack bean (and other types of beans) as human food
- Also available in:
- Français (fr)
- Español (es)
- English (en)
Jack bean is an excellent plant for enriching soil, because it grows under very difficult conditions. However, the beans contain toxins that normally make them unsuitable for human consumption. This document describes how to germinate jack bean to remove the toxins and increase the beans’ nutrition. Germinated beans also cook more quickly, saving time and money. [Note: Feed the Future also has a more extensive document on this subject, which we hope to summarize in a future issue of EDN.]
Minimal Soil Disturbance and its Effect on Soil Moisture Availability
- Also available in:
- Français (fr)
- Español (es)
- English (en)
This short document contains graphs that show how zero tillage leads to increased water infiltration and increased water retention in soil.
“Push and Pull” in Combatting Fall Army Worm and Witchweed (Striga)
- Also available in:
- Français (fr)
- Español (es)
- English (en)
In the Push-Pull system, crops that repel pests and/or attract pests’ predators are intercropped with maize, to ‘push’ pests away from the main crop. Plants that attract pests are planted around the field, to ‘pull’ pests away from the maize. Incorporating legumes in this system means that soil fertility gradually increases over time.
This brief also explains how a farmer in Mozambique managed her pigeon pea plants to repel fall armyworms. She tried sowing maize between pigeon pea plants that, after a previous season’s growth, were cut to a height of 50 cm and allowed to regrow. For reasons explained in the brief, this worked better than starting pigeon pea from seed each season.
Farmer Own Soil Fertility Analysis
- Also available in:
- Français (fr)
- Español (es)
- English (en)
Four nutrient deficiencies--phosphorus, potassium, nitrogen, and magnesium--can be diagnosed by observing maize leaves. This document includes photos of a healthy maize leaf and of maize leaves demonstrating each of these nutrient deficiencies. It also contains suggestions for how to address each type of deficiency.