1.1 Survey of the GTZ's neem activities
Over the past 25 years the Deutsche Gesellschaft fhnische
Zusammenarbeit (German Technical Cooperation, GTZ) has supported research,
dissemination and use of agricultural applications of neem and neem products,
particularly with regard to environmentally sound forms of plant protection and
pest control (Schmutterer & Ascher 1980, 1984, 1987, Brechelt & Hellpap
1994, Foerster et al 1999) on behalf of the German Federal Ministry for Economic
Cooperation and Development (BMZ).
In most cases, neem-related activities have been only a sideline
of bilateral GTZ projects, e.g. those working on Integrated Pest Management
(IPM). The only exception was the former supra-regional "Production of Natural
Pesticides from Tropical Plants", often called simply the "Neem Project" in
cooperation with the University of Giessen, with a field station in the
Dominican Republic (1977-1995).
The objective of the project was to introduce the use of seed
extracts and seed oil produced from the neem tree as insecticides for pest
control for use by farmers in pilot regions. To achieve this aim, the supply to
farmers of neem seeds as raw material was improved, methods for the production
and application of simple neem products were developed and their socio-economic
acceptance was investigated. In addition, information about the appropriate use
of neem was spread among farmers and interested institutions and neem programmes
and projects of NGOs were promoted. In cooperation with the University of
Giessen, the project carried out in-depth investigation of the neem tree.
Cooperation was also established with a range of NGOs in Sri Lanka, Thailand,
Nepal, Niger, Haiti, Ecuador and the Dominican Republic.
The project has built the base for a wide range of neem projects
operating within development cooperation world-wide, both at governmental and at
non-governmental level. Today, five years after termination of the Neem Project,
NGOs in Sri Lanka, Thailand, Ecuador and the Dominican Republic are still
manufacturing and selling neem products.
When the Neem Project was due to be phased out in 1994/95, the
GTZ's "Supra-regional Pesticide Service Project" took over the task of promoting
the use of non-synthetic, and in particular neem-based, pesticides and other
pertinent objectives until 1999, when it was succeeded by the project "Improving
the Quality of Agricultural Produce" from 2000 onwards. Supra-regional
activities concerning neem are also offered by GATE within their NGO-promoting
programmes (ongoing) and for east Africa by the IPM Horticulture Project in
Kenya (until 2000).
The following table gives an overview of the supra-regional GTZ
projects working on neem:
Table 1: Supra-regional GTZ projects with a neem
component:
|
· "Production of Natural
Pesticides from Tropical Plants" in cooperation with the University of Giessen,
with a field station in the Dominican Republic (1977-1995): basic research,
appropriate technologies for small farmers to produce neem pesticides, NGO
support.
· "Biological-Integrated Locust
Control" (1989-1999): has for 10 years investigated the effects of neem used for
locust control.
· "German Appropriate Technology
Exchange - ISAT/KPF/GATE" (ongoing): neem is one appropriate technology among
others; target group NGOs, knowledge transfer, technical advice, limited
assistance possible via "Small Scale Fund" - KPF e.g. in the Dominican Republic,
Ecuador and Cuba.
· "Pesticide Service Project"/"
Improving the Quality of Agricultural Produce" (1994-2000): both based at the
GTZ Head Office in Eschborn, promoting neem as an alternative pesticide since
1994: technical advice, fact-finding and feasibility studies, socio-economic
analysis of neem processing; conducting fact-finding (baseline) studies,
seminars and workshops, planning neem projects.
· The IPM Horticulture Project,
located in Nairobi, Kenya, at ICIPE and focusing on east African countries
(1996-2000): this project aims to develop integrated concepts for producing high
quality vegetables, fruits and ornamental flowers for export and local
consumption. Target groups are the producers of fruit and vegetables in eastern
and southern Africa, and small farmers as well as plantation farmers. A small
project was elaborated and set up jointly in cooperation with the Pesticide
Service Project, ICIPE and an entrepreneur, aiming to produce and register
affordable neem-based pesticides in Kenya. The production unit was set up at
Technopark ICIPE. |
Bilateral projects:
Within the bilateral IPM projects (initiated at the request of
our partner countries), the activities on neem are usually only one component
among several, but their relative importance is steadily increasing. An overview
of the projects is provided in Foerster (2000, 1999).
The expectations regarding the use of neem as a pesticide were
that small farmers would adopt the technology of preparing and applying simple
aqueous extracts of neem and that toxic broad spectrum synthetic pesticides
would be replaced by neem extracts, beside the further merits and benefits
listed in Table 2:
Table 2: Merits and benefits of neem:
|
Merits and benefits of neem (part I)
Environmental advantages:
· suitable for
afforestation of wasteland, soil improvement
· rapid growth even on marginal sites
· attractive tree providing welcome shade in private
and public places and in agriculture
·
pesticides with low toxicity to mammals and birds
· rapid decomposition in the environment and therefore
no contamination of water, soil or air
·
pesticides largely benign to beneficial insects
· little likelihood of resistance
developing
· better use of
nitrogen |
During the project planning phases some experts argued that the
effect of promoting crude water extracts would be limited and that it would be
better to develop ready-to-use products. This strategy has been pursued in a
bilateral IPM project in Myanmar, where an extraction plant was established as
early as 1986, which is producing standardised neem-based pesticides. The market
conditions in Myanmar are, however, artificial and cannot be compared to those
of other countries.
As well as the merits and benefits of neem listed above, neem
processing and the manufacture of commercial products have the following
advantages:
Table 3: Advantages for the national economy:
|
Merits and benefits of neem (part II)
Advantages for the national economy:
· added value within
the country
· reduces foreign currency
spending
· pesticides are also available
on the spot in remote regions, therefore enhanced added value in agriculture
· avoids extra costs incurred by
the use of synthetic pesticides (poisoning, accidents during transport,
contamination of drinking water, etc.)
· pharmaceutical usage
· potentially an additional cash
crop
· resulting possible sources of
income also in disadvantaged (dry) rural regions
· job
creation
· a national
insecticide - an additional export product |
In the mid-1990s the GTZ evaluated the potential of the neem
tree. Its potential is not exploited to a great extent considering the
strikingly long list of merits and benefits presented above. To identify the
main constraints which hamper the use of neem pesticides in agriculture, a
questionnaire was carried out (Moser 1996, Foerster & Moser 2000).
It turned out that the main limitations on the wider use of neem
were:
· lack of knowledge
about neem
· poor access to neem raw
material and neem-based pesticides
· doubts about its efficacy
which could also be due to a lack of knowledge about neem and lack of
standardisation
· labour constraints on
preparing neem water extracts
· difficulties in handling
· the few available commercial
neem-based pesticides were often too expensive, making the application of
neem-based pesticides uneconomical.
These findings led to the conclusion that if the above-mentioned
benefits were exploited to a greater extent, to increase the wealth of the
people in developing countries, it would be essential to continue to:
· spread
information on neem and raise awareness
· intensify the training
with neem products,
· and also
· to come up with a competitive
ready-to-use formulation which is easy for small farmers in developing countries
to handle.
This was the aim of the three small projects presented here in
Thailand, the Dominican Republic and Kenya, which were assisted in various ways
by the GTZ (see below).
A great deal of the data and results presented here are based on
an evaluation carried out by Dr W. Leupolz, CiM, H. Quentin, Consultant and Dr
S. Praneetvatakul and her team, Kasetsart University, Bangkok, at the end of
1999 according to our Terms of Reference.
The evaluation aims to answer the following key questions:
· Is neem processing
profitable for small entrepreneurs in developing countries?
· What are the key factors
determining whether neem processing is profitable?
· To what extent can neem
pesticides substitute synthetic pesticides?
· What are the "bottlenecks"
hindering neem products from gaining a greater market share?
· Are the constraints
caused by the internal factors of neem processing or by the frame conditions?
· What factors determine the
price of neem products?
· What is the potential market
share for neem products?
· What recommendations can be
given, and what strategies pursued to promote neem in the future?
The objective of the case studies presented here is to document
and evaluate the neem activities assisted by the GTZ in Kenya, Thailand, the
Dominican Republic and Nicaragua, as examples of developing small-scale
industrialisation of neem-based insecticides in developing countries from three
continents.
The backgrounds of all these projects vary, not only due to the
different ethno-social environment, and size and market conditions, but also due
to the political and economic frame conditions in the individual countries.
Surprisingly, however, there are a lot of similarities among the three projects
and the problems they have encountered. The fact that there are many
similarities despite the different frame conditions emphasises the importance of
such a supra-regional project in the steering and back-stopping of such
activities.
Over the last 25 years considerable progress has been made in
raising awareness of the potentials of neem and to a certain extent of neem
products, too.
However, more emphasis is needed on demonstration and training
with neem products, and particularly on how to identify and implement efficient
marketing and distribution channels for reliable standardised neem products
manufactured by small-scale enterprises.
Given their properties and price, the existing (available) neem
pesticides are a viable alternative for niche markets where they have the
potential to gain a considerable market share.
If the expectation that neem pesticides can replace standard
broad-spectrum pesticides to a considerable extent is to be fulfilled, a change
of frame conditions is required, such as integration into IPM research, training
and promotion concepts, a reduction of the retail price for neem pesticides by
25-40%, tax exemption, efficient marketing and distribution channels and
integration in credit packages, amongst other items.
Hopefully further organisations will in future assist
neem-manufacturing companies, NGOs and government organisations in training.
This training should be directed at how to use neem, and at setting up
distribution channels. These organisations should also advise local and/or
national authorities on how to create favourable frame conditions for
manufacturing, applying and selling neem-based products to take advantage of
local resources and reduce the environmental and health effects caused by
synthetic
pesticides.
