Postharvest orange losses and small-scale farmers’ perceptions on the loss causes in the fruit value chain: a case study of Rusitu Valley, Zimbabwe

Surveys were conducted in Rusitu Valley , Chimanimani district of Zimbabwe between 2011 and 2012 to determine orange losses and farmers’ perceptions on the sweet orange (Citrus sinensis) supply value chain. The following data were collected using interviewer-administered Likert type questionnaires and informal interviews: orchard management practices, pest infestation, fruit handling activities, and marketing practices through. The study sample of 240 respondents was derived from two randomly selected villages in each of the four administrative wards with significant sweet orange production. The study revealed that on average a small-scale farmer in Rusitu Valley owns about 4047 m2 (one acre) orchard with an average of 55 orange trees and that a farmer harvested 1 200 kg of oranges per tree which converts to a total of 66 000 kg of orange produce per season. The study revealed that on average a farmer lost 480 kg of oranges per tree which converts to 26 400 kg per farmer or 40% loss per farmer during the season. Based on the total number of orange farmers in Rusitu Valley, the total loss translates to 89,529,600 kg. About 54% of respondents perceived that the major postharvest losses were a result of fruit fly attack while 36% linked these losses to red weaver ants (Oecophylla spp.). Trapping using a mixture of methyl eugenol and malathion during the same season positively identified the African invader fly, Bactrocera invadens. Unavailability of appropriate storage and transport facilities were the contributing factors to major postharvest losses. Citrus production extension package with an emphasis on the control of insect pests and sustainable postharvest management should be developed to improve the capacity of the small-scale farmers in Rusitu Valley. Keywords: Small-scale farmers, postharvest losses, pests and diseases, fruit value chai

Contribution of edible insects to improved food and nutrition security:a review

The consumption of insects “entomophagy” or insect-based foods is increasingly being recognised as an emerging solution to promote diet diversification and address the multiple burden of malnutrition. Although several studies suggest edible insects as valuable nutrient sources, few have evaluated the effects of processing on nutrient bioavailability and bioaccessibility and provided actual evidence on human nutrition. Moreover, there is limited evidence of their actual contribution to improved food and nutrition security. Therefore, the review evaluated existing evidence on human interventions and the effects of processing methods on bioavailability and bioaccessibility of key nutrients since these directly influence food and nutrition security outcomes. Seven human efficacy studies have been conducted to date and these show limited observable effects on nutrition status therefore more research is required. Findings also suggest that the processing method, insect matrix, composition of the food matrix and interaction with other food components can influence nutrient bioavailability and bioaccessibility. Hence, these should be considered during formulation and upscaling for entomophagy and insect-based foods to be viable intervention strategies against malnutrition.</p

Mopane worm value chain in Zimbabwe:evidence on knowledge, practices and processes in Gwanda district

Consumption of edible insects is a potential solution to the growing need for protein. However, the wild harvested edible insects’ value chain faces several challenges including limited knowledge on indigenous practices in the harvesting and processing and lack of information on roles of the different actors in the chain. A case study of Gonimbrasia belina, colloquially referred to as the ’mopane worm’, was conducted to understand and identify determinants of participation in the value chain of the edible caterpillar. A cross sectional study was conducted in Gwanda (a rural district in Zimbabwe) to (a) understand the indigenous knowledge on harvesting and processing methods, (b) explore value addition and the traditional beliefs surrounding the utilisation of the mopane worm. Results showed that consumers (81.7%), and harvesters (76.6%) were the main actors in the mopane worm value chain. Using the Ordinary Least Squares (OLS) model, the following were shown to be determinants of participation in the mopane worm value chain: (a) gender (b) household size (c) marital status (d) religion and (e) household assets. Two primary processing methods of harvested mopane worm were distinguished i.e., boiling and roasting on ambers. Results showed lack of diversity in mopane worm-based products. Current culturally acceptable processing techniques need improvement and standardization to support sustainable mopane worm processing while optimising nutrient bio-accessibility

Agro-Ecological Distribution and Consumption of Wild Harvested Edible Insects, Fruits, and Vegetables in Rural Zimbabwe

Natural resources are a valuable component of traditional food systems that contributes to food and nutrition. The distribution and consumption patterns of these natural resources still needs exploration for follow-up research and optimum utilisation. The aim of this study was to investigate the agro-ecological distribution and the consumption of wild harvested edible insects, indigenous fruits and vegetables in rural Zimbabwe. Secondary data generated from a cross-sectional survey targeting 11,973 randomly selected households rural districts was used. The results revealed that at least 14 wild harvested edible insect species, 26 indigenous fruits and 10 indigenous vegetables are commonly consumed. The results showed that the highly consumed indigenous fruits, vegetables and insects were widely distributed in all provinces irrespective of the agro-ecological region and varied due to rainfall pattern and also due to soil type. However, their distribution was in some cases restricted to specific administrative boundaries or provinces. Consumption pattern and preference for some insects, fruits and vegetables varied with province. The distribution and consumption data presented in this study offers an opportunity to advocate for the conservation, production, processing and promotion of specific species in districts by relevant stakeholders and can be used as an advocacy tool for policymakers

The contribution of wild harvested edible insects (Eulepida mashona and Henicus whellani) to nutrition security in Zimbabwe

Wild harvested edible insects have potential to contribute to nutrition security, yet their nutritional composition is often unknown. This study investigated the nutritional composition of wild harvested Eulepida mashona (EM) and Henicus whellani (HW) and variation in nutritional composition with respect to geographical place of harvest in Zimbabwe. Proximate and mineral composition, fatty acid, and amino acid profiles were analysed on samples of EM and HW collected at multiple locations from three and two districts in Zimbabwe, respectively. The protein content ranged between 52–56% (EM) and 59–70% (HW). High tryptophan concentration (8.68 mg/g protein) in EM offers possibilities of using these insects in complementing this limiting amino acid in maize, which is the staple food in Zimbabwe. The fat content of both species was low (<10%), but differed significantly between sampling districts. The PUFA/SFA and omega 6/3 ratios of both species are recommendable for a healthy diet. The iron (24.2–52.9 mg/100 g) and zinc content (10.0–20.9 mg/100 g) are high for both species, making them a useful mineral-containing ingredient for food enrichment. Consumption of 50 g of both insect species will contribute on average to 30%, 50%, and 30% of the recommended daily protein, iron, and zinc respectively.</p

Effect of domestic cooking methods on protein digestibility and mineral bioaccessibility of wild harvested adult edible insects

Wild harvested edible insects are characterised by high protein and mineral contents with potential to contribute substantially to nutrition security. However, nutritional content is only beneficial when proteins are digestible and minerals bioaccessible. This study determined the effects of domestic processing on protein digestibility and mineral bioaccessibility of two wild harvested insect species: Eulepida mashona (beetle) and Henicus whellani (cricket). Samples of both insects were subjected to boiling, roasting, or combined boiling and roasting, imitating the way insects are traditionally prepared in Zimbabwe. Moreover, they were in vitro digested according to INFOGEST protocol. Boiling of both insects resulted in loss of protein as it leached into the boiling water. The raw insects had a higher protein in vitro digestibility than the boiled and roasted insects, and the maximal decrease in protein digestibility was around 25% for twice boiling of the beetles and for boiled and roasted crickets. For both insect species, boiling resulted in non-significant loss of iron and zinc. Iron was the least bioaccessible mineral in both insects, based on the concentrations of soluble mineral measured by ICP-AES. However, beetles had a much higher iron bioaccessibility (30.7%) as compared to crickets (8.11%). Interestingly, boiling resulted in about 50% decrease in iron and zinc bioaccessibility in both species while roasting did not. The reduced protein digestibility and mineral accessibility with processing can be explained by protein modification and interactions of minerals with other food components, such as chitin and phytochemicals. Because of the reduction in protein digestibility and mineral accessibility during boiling, roasting should be favoured over boiling and in any case short boiling time is recommended.</p

Consumption patterns of edible insects in rural and urban areas of Zimbabwe : taste, nutritional value and availability are key elements for keeping the insect eating habit

Edible insect consumption is a traditional practice in many countries and has the potential to contribute to food security. The aim of this study is to obtain insight into insect consumption patterns amongst rural and urban populations, and into factors that may influence these patterns. For this purpose, a case study was made in Zimbabwe. A literature-based conceptual model indicated that motives for consumption, individual characteristics, consumer environment, availability, food characteristics, and indigenous knowledge could affect edible insect consumption. A survey amongst 200 urban and 175 rural respondents showed that insect consumption was significantly higher in rural (89.7%) than in urban (80.0%) areas. Rural respondents (63.9%) consumed insects more than three times a week on average as compared to urban (14.5%) respondents. Quantities consumed as snacks are significantly different between urban and rural respondents. Taste was the main motive of respondents in both the rural (89.2%) and urban areas (74.4%). Respondents in urban areas more often reported nutritional value (74.4%) and medicinal properties (28.1%) as important motives for consumption compared to rural respondents (51.0% and 15.3%, respectively). For rural areas, socio-demographics did not relate to consumption of edible insects whereas in urban areas, insect consumption was negatively related to education, main livelihood source and monthly income. Availability of edible insects influences both urban (64.0%) and rural (83.0%) respondents’ consumption of insects. The lower consumption of specific insect species in urban areas could hamper the potential contribution of insects to food security in these areas. Therefore, promotion of entomophagy by marketing and maintaining traditional knowledge on insect processing should target urban people through provision of tasty products, communicating nutritional value

Mopane worm value chain in Zimbabwe: Evidence on knowledge, practices, and processes in Gwanda District

Consumption of edible insects is a potential solution to the growing need for protein. However, the wild harvested edible insects’ value chain faces several challenges including limited knowledge on indigenous practices in the harvesting and processing and lack of information on roles of the different actors in the chain. A case study of Gonimbrasia belina, colloquially referred to as the ’mopane worm’, was conducted to understand and identify determinants of participation in the value chain of the edible caterpillar. A cross sectional study was conducted in Gwanda (a rural district in Zimbabwe) to (a) understand the indigenous knowledge on harvesting and processing methods, (b) explore value addition and the traditional beliefs surrounding the utilisation of the mopane worm. Results showed that consumers (81.7%), and harvesters (76.6%) were the main actors in the mopane worm value chain. Using the Ordinary Least Squares (OLS) model, the following were shown to be determinants of participation in the mopane worm value chain: (a) gender (b) household size (c) marital status (d) religion and (e) household assets. Two primary processing methods of harvested mopane worm were distinguished i.e., boiling and roasting on ambers. Results showed lack of diversity in mopane worm-based products. Current culturally acceptable processing techniques need improvement and standardization to support sustainable mopane worm processing while optimising nutrient bio-accessibility

Survey questionnaire.

(PDF)</p

Type of data collected from FGD and structured questionnaire.

Type of data collected from FGD and structured questionnaire.</p