ECHO Technical Notes
ECHO Tech Notes are subject-specific publications about topics important to those working in the tropics and subtropics. Our material is authored by ECHO staff and outside writers, all with experience and knowledge of their subject. These documents are free for your use and will hopefully serve a valuable role in your working library of resources in agricultural development!
99 Issues in this Publication (Showing issues 82 - 73) Previous | Next
SRI, the System of Rice Intensification: Less Can be More - 2015-09-21
- also available in:
- Français (fr)
- Español (es)
- English (en)
The System of Rice Intensification (SRI) is a method of raising rice that produces substantially higher yields with the planting of far fewer seedlings and the use of fewer inputs than either traditional methods (i.e., flooding) or more “modern” methods (using mineral fertilizer or agrochemicals). This approach involves various practices for plant, soil, water and nutrient management. SRI has been successfully used in more than 50 countries and has been promoted extensively by Dr. Norman Uphoff with Cornell University.
Introduction to Tropical Root Crops - 2015-02-16
- also available in:
- Français (fr)
- English (en)
- Español (es)
Tropical root and tuber crops are consumed as staples in parts of the tropics and should be considered for their potential to produce impressive yields in small spaces. They provide valuable options for producing food under challenging growing conditions. Cassava and taro, for instance, are excellent choices for drought-prone or swampy areas, respectively. In this document, tropical root crops are compared both to enable people to recognize and appreciate them as well as to familiarize readers with their strengths and weaknesses in different tropical environments. Though tropical root crops initially seem to be very similar in their uses, they exhibit important differences.
Seed Fairs: Fostering Local Seed Exchange to Support Regional Biodiversity - 2014-06-01
- also available in:
- English (en)
- Español (es)
When you come across an especially promising local variety of a crop grown in your area, how can you enable other farmers to try out this variety? If a farmer gives you 30 seeds of an exceptional variety, how might you go about distributing these? How does seed flow happen in and among communities where you work?
In this article, we share about ECHO Asia’s experience helping host four very different seed fairs. We also outline several important components of a seed fair, so you can learn from our experience if your organization is interested in hosting one.
An important activity of many ECHO network partners is supporting farmers in locating, testing, and distributing plant varieties that grow well under local conditions. Crops and varieties that can produce reliably with locally accessible inputs are essential for smallholder farmers. Most farmers in the ECHO network produce and save much of their own planting seed, and some are in a transition time with using commercial seed for certain crops. Understanding farmer seed access, supplies, and practices is a critical part of improving local farming systems.
Nutrient Quantity vs Access - 2014-01-01
- also available in:
- Español (es)
- Français (fr)
- English (en)
In order to achieve high levels of agricultural productivity in the tropics at the lowest possible economic and ecological costs, we need to properly understand the relationship between nutrients in the soil and crop productivity. For this to happen, the current understanding needs to change. The conventional view of the relationship between soil nutrients and crop productivity in the tropics is leading to both damaging agricultural policies and inefficient and damaging farm-level practices. There is no need to use the huge quantities of chemical fertilizers that are so often recommended. In fact, often times the use of such fertilizers is unnecessary, expensive and harmful to the environment, especially because farmers often stop using organic matter when they use chemical fertilizers.
Much of the theory described here was originally developed by Drs. Artur and Ana Primavesi. For a much more in-depth analysis of the chemical and biological issues described in this article, the best book at present is Ana Primavesi’s The Ecological Management of the Soil (available in Spanish and Portuguese). This article will discuss the conventional concept of soil fertility and some of its shortcomings; a new conception of soil fertility; and how the new theory can be put into practice.
Zai Pit System - 2013-01-01
- also available in:
- Français (fr)
- English (en)
- Español (es)
“Zai” is a term that farmers in northern Burkina Faso use to refer to small planting pits that typically measure 20-30 cm in width, are 10-20 cm deep and spaced 60-80 cm apart. In the Tahoua region of Niger, the haussa word “tassa” is used. English terms used to decribe zai pits include “planting pockets”, “planting basins”, “micro pits” and “small water harvesting pits.” Seeds are sown into the pits after filling them with one to three handfuls of organic material such as manure, compost, or dry plant biomass. The following quotes provide further detail.
What’s Inside:
- Introduction
- Historical background
- Technical Details
- How to optimize the zai system
- Other plant basin systems
- References
An Introduction to Wood Vinegar - 2013-08-01
Prakrit Khamduangdao was looking for an alternative to agricultural chemicals to control pests in his vegetable farm. However, he was not completely satisfied with various botanical pest control measures being promoted in northern Thailand. He reports that even though certain natural insect repellents were beneficial, their effects were too limited. Additionally, finding adequate amounts of necessary raw plant materials and processing them into sprays was laborious and time consuming.
When Mr. Prakrit first heard about wood vinegar in 2000 he was intrigued. Compelled by the idea of a natural by-product of charcoal production that can control pests and diseases of crops, he bought his first bottle. Having used the product, Mr. Prakrit was pleased with the ease of mixing and application. Ultimately, after observing much fewer insect pests and fungal diseases on his crops, he became convinced of the effectiveness of wood vinegar.
What’s Inside:
Uses of Wood Vinegar
Wood Vinegar Production
Composition and Characteristics of Wood Vinegar
Wood Vinegar Concerns?
Charcoal Production in 200-Liter Horizontal Drum Kilns - 2016-02-05
- also available in:
- Español (es)
- Français (fr)
- English (en)
Until recently, firewood was taken for granted in northern Thailand. With vast forests full of many types of trees, upland households could afford to be choosy concerning the wood they used for cooking.
However, in recent years, more and more communities are facing restricted access to forest products due to the establishment of national parks. In many areas, deforestation caused by agricultural activities, such as the encroachment of large plantations, is also resulting in declining access to firewood.
In upland communities, commercial types of cooking fuel like propane are not readily accessible or affordable. With limited options, communities and development organizations have begun considering alternative fuels.
Biochar: An Organic House for Soil Microbes - 2013-06-01
- also available in:
- English (en)
- Español (es)
- Français (fr)
Rick Burnette wrote an article for Issue 7 (July 2010) of ECHO Asia Notes, titled “Charcoal Production in 200-Liter Horizontal Drum Kilns.” My article takes the charring process a step further by exploring the rapidly re-emerging world of biochar. Biochar is a form of charcoal, produced through the process of pyrolysis from a wide range of feedstocks. Basically any organic matter can be charred, but agriculture and forestry wastes are most commonly used due to the available volume. Biochar differs most significantly from charcoal in its primary use; rather than fuel, it is primarily used for the amendment of soils (enhancing their fertility) and sequestration of carbon (reducing the amount of CO2 released into the atmosphere).
Biochar has received a lot of interest internationally over the last few years, especially in light of the rising demand for food and fuel crops, and of raging debates on how to radically slow down runaway climate change. With strong voices on both sides of the debate—that is, both in favor of and against the widespread production and application of biochar—I would like to step back to the beginning of the story, hopefully putting things into perspective again.
Agriculture Components for Small Institutions - 2013-01-01
The ECHO Asia Regional Office receives frequent inquiries from small organizations seeking input and other assistance related to their agricultural initiatives, including questions such as the following:
- How many acres would it take to grow enough food (other than rice) to feed 38 people year round?
- What crops are most likely to be grown for that purpose?
- How would you quantify the amount of labor that such an endeavor would require?
Essentially, many inquirers are asking, “How realistic is it to combine agricultural components into small institutions, and are there any examples of effective efforts?”
This technical document goes through how to approach answers, proposes some potential benificial practice and shares lessons learned.
What’s Inside:
- An Effective Farm for Children
- Realistic Expectations at Suan Aden
- Good Management – Clear Priorities
- Lessons Learned
- Agricultural Options for Institutions with Land Constraints
- Outreach Potential
Lablab (Lablab purpureus) New Staple Crop for the Sudano Sahel - 2013-01-20
- also available in:
- Français (fr)
- English (en)
About 98% of agricultural production in the Sudano Sahelian region of West and Central Africa is based on rainfed crops. With a mean annual rainfall of 300 to 800 mm/year, the number of staple crops is very limited. It includes two grain crops: pearl millet (Pennisetum glaucum) for sandy soils and grain sorghum (Sorghum bicolor) for heavier soils. (Corn is grown in high rainfall regions.) Two pulses are also produced: cowpeas (Vigna unguiculata) and groundnuts (Arachis hypogaea).
All five crop species are sown at the beginning of the rainy season and harvested three to four months later. Average yields of these crops are only 20% of potential for three main reasons:
- The very low fertility of Sudano Sahelian soils combined with the fact that farmers do not add chemical fertilizers
- Sporadic rainfall and frequent droughts
- Diseases and pests that attack these crops
In the Sudano Sahel, an agro-pastoral system is practiced. The relative importance of the livestock component increases as we advance to regions of lower rainfall. Animal feed production is a very important component of the production system. It is provided by the hay produced from cowpeas and groundnut stems, and by sorghum and millet straw.