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This report presents the final evaluation results of the project “Disposal of persistent organic pollutants and obsolete pesticides and implementation of sound pesticides management in Benin” (GCP/BEN/056/GFF), implemented by FAO and the Government of Benin from March 2015 to September 2021. The project is consistent with the country and its partners’ priorities. The project was able to implement the farmer field school approach, integrated production and pest management (IPPM) and relevant partnerships. Nevertheless, gaps in pesticide life cycle management were identified and corrective measures proposed. Regulatory framework has been strengthened as well as national capacities in decontaminating polluted sites, securing obsolete pesticides and persistant organic pollutants, analysing polluted soil samples, recycling and managing empty pesticide containers, and testing and adopting IPPM-based alternative techniques and systems.
Pesticides have helped control disease and increase crop production for food security. However poor management of pesticides has shown negative impacts human health and the environment, including death and disability among users. Of particular concern are Persistent Organic Pollutants (POPs) that are highly effective in the control of the insect vectors of malaria and sleeping sickness and locusts. FAO supported by GEF implemented a POPs project in Eritrea to safeguard and dispose existing stocks of obsolete pesticides, as well as working to reduce risk across the pesticide lifecycle at the policy level. The evaluation found that one of project’s main success was the safeguarding and disposal of 364 tons of obsolete pesticides and its contribution to the nationwide adoption of FFS and IPM. In the future, the evaluation recommends that the Project Steering Committee, with the support of FAO should take steps to ensure that reducing the risk from pesticides remains a priority for the government. Project code: GCP/ERI/014/GFF GEF ID: 3987
Every year, large quantities of pesticides are used in Cameroon for agricultural production. However, without proper management of pesticides and associated waste, accumulation of stocks of obsolete pesticides has led to contamination of sites. In this context, the project ‘Disposal of POPs and Obsolete Pesticides and Strengthening Sound Pesticide Management in Cameroon’ was launched to address the problems of stocking, and to develop alternatives to the use of chemical pesticides. Project activities were found to be well defined and appropriate, aligning with the country’s priorities and needs. The evaluation, however, also notes that there are substantial delays in the implementation of activities due to slow decision-making and lack of regular monitoring. Therefore it recommends the urgent need for developing an implementation strategy for the remaining activities. In addition, meetings should be held in a more timely manner to enable members to monitor and accelerate the implementation of activities.
Pesticides have helped control disease and increase crop production for food security. However poor management of pesticides has shown negative impacts human health and the environment, including death and disability among users. Of particular concern are Persistent Organic Pollutants (POPs) that are highly effective in the control of the insect vectors of malaria and sleeping sickness and locusts. FAO supported by GEF implemented a POPs project in Mozambique to safeguard and dispose existing stocks of obsolete pesticides, as well as working to reduce risk across the pesticide lifecycle at the policy level. The evaluation found that the project was successful in safeguarding POPs, pesticide waste and contaminated containers, and had to deal with a much larger quantity of contaminated soil and obsolete pesticides than initially planned. In the future, the evaluation recommends that the Project Steering Committee with the support of FAO should (i) continue the remediation of highly contaminated sites, (ii) establishment of a sustainable system for managing empty pesticide containers, and (ii) establishment of a national pesticide stock management system. Project code: GCP/MOZ/100/GFF GEF ID: 3986
The pesticide story began in the 1980s with outbreaks of migratory pests, including locusts. Donors provided pesticides, including persistent organic pollutants (POPs), to help control outbreaks. Several storage depots were set up across the country. Some of the pesticides were not used and remained in the depots where they started to leak from their containers into the soil. Between 1995 and 2003 two projects collected over 300 tonnes from government storage depots and identified 42 tonnes of farmer-held obsolete pesticides. The stocks were taken to a warehouse in Sebele before being disposed of through high temperature incineration in 2003. From 2002 to 2012 the government started collecting empty plastic containers (EPCs) and obsolete stocks. While the accumulation of obsolete stocks had fallen through awareness of the problem raised by these projects, it was still a problem. Also, nothing had been done about the POPs contaminated soils left behind after the government depots had been cleared. The Africa Stockpiles Program continued to raise the issue of POPs contamination. 28. It was in this context, that discussions began in 2008 that led to the design and funding of this Project to deal with contaminated soils and to strengthen pesticide lifecycle management to reduce accumulation of obsolete pesticides and the risk from pesticides in general. The Project document identified “serious gaps in Botswana’s ability to control all aspects of the pesticide life cycle” including the capacity to control imports; gaps in pesticide and waste legislation; and need for improved management of pesticide registrations.
Forward. A call for integrated soil fertility management in Africa. Introduction. ISFM and the African farmer. Part I. The principles of ISFM: ISFM as a strategic goal, Fertilizer management within ISFM, Agro-minerals in ISFM, Organic resource management, ISFM, soil biota and soil health. Part II. ISFM practices: ISFM products and fields practices, ISFM practice in drylands, ISFM practice in savannas and woodlands, ISFM practice in the humid forest zone, Conservation Agriculture. Part III. The process of implementing ISFM: soil fertility diagnosis, soil fertility management advice, Dissemination of ISFM technologies, Designing an ISFM adoption project, ISFM at farm and landscape scales. Part IV. The social dimensions of ISFM: The role of ISFM in gender empowerment, ISFM and household nutrition, Capacity building in ISFM, ISFM in the policy arena, Marketing support for ISFM, Advancing ISFM in Africa. Appendices: Mineral nutrient contents of some common organic resources.
This interdisciplinary text offers updated knowledge on pest management. It discusses dissemination and impact on a range of crops across the globe on industrialized and subsistence level farms. It also explores the effect of the green revolution on IPM.
Presents recent challenges related to new forms of pollution from industries and discusses adequate state-of-the-art technologies capable to remediate such forms of pollution. Over the past few decades the boom in the industrial sector has contributed to the release in the environment of pollutants that have no regulatory status and which may have significant impact on the health of humans and animals. These pollutants also referred to as "emerging pollutants", are mostly aromatic compounds which derive from excretion of pharmaceutical, industrial effluents and municipal discharge. It is recurrent these days to find water treatment plants which no longer produce water that fits the purpose of domestic consumption based on newly established guidelines. This situation has prompted water authorities and researchers to develop tools for proper prediction and control of the dispersion of pollutants in the environment to ensure that appropriate measures are taken to prevent the occurrence of outbreaks due to sudden load of these pollutants in the water system. The chapters in this book cover a wide range of nano and bio-based techniques that have been designed for the real time detection of emerging contaminants in environmental water sources, geochemical models that are continuously improved for the prediction of inorganic contaminants migration from the mine solid wastes into ground and surface waters. Remediation strategies are also discussed and include effective techniques based on nanotechnology, advanced membrane filtration, oxidative and bio-degradation processes using various types of nanocatalysts, biocatalysts or supporting polymer matrices which are under advanced investigations for their implementation at large scale for the removal of recalcitrant pollutants from polluted water. Nano and Bio-Based Technologies for Wastewater Treatment: Prediction and Control Tools for the Dispersion of Pollutants in the Environment is divided is two sections. The first section covers the occurrence of emerging pollutants in environmental water while the second section covers state-of-the-art research on the removal of emerging pollutants from water using sustainable technologies. A total of 13 chapters addressing various topics related to the two sections are essentially based on recent developments in the respective field which could have a significant impact on the enhancement of the performance of wastewater treatment plants around the world, and especially in developing countries where access to clean and safe water remains a daily challenge.
The UN Sustainable Development Goals provide a common global agenda for development. However, the emerging policy issues vary greatly across the world.With 32 contributors, this volume provides a timely, research-based overview for the need for policy interventions to improve the sustainability and development models of the ten selected countries in Asia and the Pacific. The volume is firmly positioned at the cusp between research, policy and practice.