Ethiopia

New tech tested

June 23, 2015 by matt.stellbauer

Drip irrigation tech, conservation agriculture show promise for farmers of Ethiopia, Tanzania, Ghana

New experiments with drip irrigation and conservation agriculture aim to help smallholder women farmers transform their home gardens into viable sources of income and family nutrition.

Trials now being conducted in Ethiopia, Tanzania and Ghana by the Feed the Future Innovation Lab for Small Scale Irrigation are looking into how the technologies can benefit vegetable production in the “commercial home gardens.” The research specifically targets women farmers growing vegetables in plots of no more than 200 square meters.

Innovation Lab researchers hope drip irrigation systems will reduce watering labor while conservation agriculture techniques – which aim to sustainably preserve fertile soil attributes –reduce the labor needs of tilling, plant bed preparation and weeding.

In the long term, similar technologies could be adopted across larger regions to help boost produce yields for market sale and family meals, building livelihoods, food security and nutrition into the future.

Research in the three African countries includes some experiments that combine drip irrigation with conservation agriculture and others that employ drip irrigation alongside traditional tilled agriculture systems.

Groups of 15, 20 and 15 women have volunteered to participate in the study in Ethiopia, Tanzania and Ghana respectively. Water storage tanks, drip irrigation implements and pipes for tapping water are provided to each volunteer farmer by the Feed the Future Innovation Lab along with inputs like seed and extension service.

Used in tandem, drip irrigation and conservation agriculture technologies are known to boost water use efficiency while decreasing soil evaporation.

Edralin (2015) in a study conducted in Siem Reap, Cambodia reported higher vegetable yields by the fourth harvest from conservation agriculture compared with traditional tilled systems. Weeding was reduced by 30 percent. Soil respiration and moisture contents were higher in conservation agriculture approaches than in traditional ones. Additionally, soil temperature was lower and organic carbon and nitrogen levels increased – all indicators of improved soil quality. Irrigation labor was also reduced by 65 percent with drip and pump irrigation set-ups compared with manual sprinklers.

Edralin et al. (2014) reported that women operating commercial home gardens earned an average of $300 per year, per 100 square meters of garden space.

Participants of Ethiopia have been provided with drip irrigation hardware and 500 liter water storage tanks; some participants in Tanzania have received tanks and have begun growing vegetables using both conservation agriculture and traditional tilled systems; volunteers have been chosen to begin the study in Ghana.

Labor savings from drip irrigation and conservation agriculture systems, as well as produce yielded by the experiments, will be measured in the coming months.

References:

Edralin, D.I. 2015. Efficacy of Conservation Agriculture in Enhancing Yield of Vegetables and Soil Quality in Cambodia. Unpublished Doctoral Dissertation, North Carolina Agricultural and Technical State University.
Edralin, D.I., S. Ry, and M. Reyes. 2014. Vegetable Production in Drip Irrigation and Conservation Agriculture for the Disadvantaged Women in Siem Reap, Cambodia. Poster presented the 2014 annual horticulture innovation lab meeting, Tegucigalpa, Honduras, March 2014.

ILSSI selects work locations in Ethiopia, other countries to follow

March 9, 2015 by matt.stellbauer

ETHIOPIA – Four locations across Ethiopia have been selected for employing highly efficient irrigation systems that could translate to big water savings for Ethiopia’s smallholder farmers and eventually for those of Ghana and Tanzania.

“For the farmers of these regions, achieving viability from these technologies would mean resource and cost savings that translate to stronger livelihoods through agriculture,” said Neville Clarke, the project’s leader from Texas A&M.

Robit, Danglia, Adami and Lemo – regions listed respectively from northernmost to southernmost Ethiopia – are first in line to receive water-conserving irrigation technologies that will later be implemented in the two other operating countries of the Feed the Future Innovation Lab for Small Scale Irrigation.

“These are irrigation technologies that we hope will concurrently benefit the farmers and the environments of these parched regions” Clarke said. “We’re looking at these Ethiopian sites as a case study before spreading the systems around our other two countries.”

Field technology trials will include studies on irrigation pumps, irrigated forages, water application methods and recharge enhancement.

New tech will be scrutinized using the Integrated Decision Support System (IDSS) – a method for assessing the consequences of adopting new technologies and policies. The IDSS identifies constraints that limit technology adoption and proposes solutions. In this case, it will estimate new technology’s effects on many aspects including crop production, the environment and the economy – all the determining factors of improving income and enhancing nutrition for smallholder farmers. These components can be measured using the IDSS at village, watershed and regional levels.

IDSS system training has been ongoing for agriculture practitioners of Ethiopia, Ghana and Tanzania, preparing them to assess new irrigation technologies.

“We’re very excited to begin looking at how our irrigation interventions work in the field in Ethiopia and how effective they might be in Ghana and Tanzania down the road,” Clarke said.

Training offers bright outlook

February 18, 2015 by matt.stellbauer

JUNE 2014, ETHIOPIA — Farmers of Ethiopia, Ghana and Tanzania are a small step closer to boosted income through research after 65 trainees attended a Texas A&M–led training workshop in June on using the Integrated Decision Support System (IDSS.)

The IDSS is a method for assessing the consequences of adopting new technologies and policies. It identifies constraints that limit adoption and proposes solutions. It estimates effects on many aspects including crop production, the environment and the economy – all the determining factors of improving income and enhancing nutrition for smallholder farmers. These components can be measured using the IDSS at village, watershed and regional levels.

The workshop objective was to train country analysts on the IDSS to be able to apply it to the irrigation needs and opportunities of smallholders – part of ILSSI’s goal of having smallholder farmers make use of new, practical irrigation systems.

Workshop participants included 45 mostly Ethiopian students, including seven females; attendees from government, international centers, and the private sector. The first half day of focused on administrators who will use the results of the IDSS; the remainder of the training was aimed at current and future analysts.

The IDSS system is being used to assess the impact of small scale irrigation innovations for multiple locations in the FtF zones of Ethiopia. Similar studies will be conducted in Tanzania and Ghana. But the assessment method can also be applied to future studies long after ILSSI has concluded.

One analyst of the Ethiopian Ministry of Environment and Forest, for example, has already persuaded his colleagues to use IDSS in assessing new policies for enhancing sustainable use of natural resources in the country.

The ILSSI “research to action” approach in farmer fields uses precision planning to produce relevant results that enhance adoption of outcomes. Implementation involves high participation among stakeholders at varying levels. National stakeholder meetings in Ethiopia, Tanzania, and Ghana for example included farmers, university faculty, government officials, private sector industry and USAID Missions.

Engagement with same set of stakeholders from farm level upward to regional and national levels uses the IDSS models to scale up and out to identify areas of geographic equivalence at watershed and larger areas where the IDSS might be applied.

A second round of advanced IDSS training took place February 2015 in Ethiopia and similar workshops will be conducted in Tanzania and Ghana throughout 2015.