Your search keyword '"Walter Ocimati"' showing total 100 results

1. Pleurotus ostreatus is a potential biological control agent of root-knot nematodes in eggplant (Solanum melongena)

Author

Betty Nyangwire, Walter Ocimati, Anthony Fredrick Tazuba, Guy Blomme, Alfred Alumai, and Francis Onyilo

Subjects

biological, Meloidogyne spp., Pleurotus ostreatus, eggplants, mushroom substrate, Agriculture, Plant culture, SB1-1110

Abstract

IntroductionThe management of root-knot nematodes has predominantly been based on use of chemicals, which are detrimental to the environment and human health. Biological control provides alternative management. This study evaluated the potential of using Pleurotus ostreatus, an edible mushroom species to control Meloidogyne spp. in eggplants.MethodsIn vitro, the mortality of juveniles (J2) of Meloidogyne spp. were assessed i) P. ostreatus - water suspension with actively growing mycelia, and ii) different dilutions of P. ostreatus PDB broth culture filtrates. In the screen house nematicidal potential of P. ostreatus was tested on eggplants using artificially inoculated soils in a screen house. To attain this, juveniles (J2) of Meloidogyne spp. were inoculated at the base of plants in pots containing P. ostreatus colonized millet grains mixed in 3 kg of soil. The galling index (GI) (scale of 0 to 5), root growth and nematode populations in the different treatments were assessed.Results and discussionMortality of nematodes in the P. ostreatus - water suspension significantly increased with time, reaching over 88% at 48 h and 95% at 72 h. Mortality in undiluted filtrate was consistently significantly higher than the diluted filtrates and control without P. ostreatus. Mortality in the undiluted filtrate increased to 95% at 48 h. When 50 g of P. ostreatus-millet culture was mixed with 3 kg autoclaved pot soil, a GI of 0.95 was observed, dropping to 0.70 when the inoculum was doubled to 100 g. For the treatment without P. ostreatus, a high GI of 2.4 was scored. A significant difference in eggplant root growth and nematode population at (p = 0.02) was found across the treatments. The findings from this study for both in-vitro and pot assay suggest that P. ostreatus and its substrate are potential biological control agents for plant parasitic nematodes in eggplants.

Published

2024

2. A Functional Analysis of Inflorescence Architecture in Musa L. (Musaceae)

Author

David W. Turner, D. Jane Gibbs, Walter Ocimati, and Guy Blomme

Subjects

banana, cincinni, cushion meristem, inflorescence meristem, Musa, peduncle, Agriculture, Agriculture (General), S1-972

Abstract

ABSTRACT Inflorescence architecture underpins sexual reproduction in wild Musa species and productivity in edible banana cultivars. In a functional analysis, we identified the apical inflorescence and lateral ‘cushion’ meristems and the change in flower type as the three primary components that generate inflorescence architecture. Five genotypes of two clone sets of edible plantains (Musa AAB) were grown for four generations along an elevation gradient (1100–2200 m, 16°C–24°C) straddling the equator in the humid highlands of East Africa. The data consisted of reproductive peduncle length at harvest (Pr), fruit per hand (Fh) and hands per bunch (Hb). The activity of the apical inflorescence meristem drives peduncle length and generates lateral ‘cushion’ meristems which determine Fh. However, Hb is determined by a change in flower type—from fruit forming to non‐fruit forming. Site temperature affected Hb more than Fh, while the development of the genet (rhizome) changed the allocation of resources between Hb and Fh, independently of the effect of site temperature. Clone sets differed in their response to genet development. Cooler temperatures reduced the number of fruit‐forming flowers in an inflorescence and changed the balance away from female towards male flowers. In banana breeding schemes, manipulating inflorescence components independently raises options for producing genotypes better suited to markets, environments and cultural practices.

Published

2024

3. Mapping the vulnerability of banana production landscapes in Uganda to banana bunchy top disease

Author

Walter Ocimati, Geofrey Ogwal, Anthony Fredrick Tazuba, Jerome Kubiriba, Joab Tugume, Rockefeller Erima, Wilson Okurut, George Mahuku, David Kutunga, and Guy Blomme

Subjects

banana aphid, banana bunchy top virus, mapping, Pentalonia nigronervosa, smallholder farmers, spatial analysis, Agriculture, Plant culture, SB1-1110

Abstract

IntroductionBanana bunchy top disease (BBTD) caused by banana bunchy top virus (BBTV) poses a significant threat to Uganda’s food and income security.MethodsTo map BBTD spread and inform its management, a delimiting survey was undertaken covering the high-risk zones bordering the Democratic Republic of Congo (DR Congo) in the west, Rwanda and Tanzania in the south, and South Sudan in the north. BBTD is endemic in the DR Congo and present in Tanzania and Rwanda. The survey and environmental data were then used to map the vulnerability of Uganda’s banana landscapes.Results and discussionBBTD was only confirmed on 9% of sampled farms in north- and midwestern Uganda, with yield losses of 75% to 100%. Farmers observed BBTD over a 0.5–4.4-year period, suggesting a delayed detection. Suckers were the predominate planting materials used, increasing the risk of disease spread. Landscape suitability for BBTD was influenced by precipitation of the driest month, banana presence in 2016, land surface temperature difference (LSTD), the interaction between wind speed and LSTD, isothermality, wind speed, and the normalized difference vegetation index. These variables affect either or both the virus and aphid vector populations. Altitude did not influence the model, possibly due to disease introduction at mid to high altitudes through infected planting materials. The low-lying zones (around River Nile and Lakes Albert, Edward, and Victoria) are highly vulnerable. BBTD risk was low in northeastern Uganda with low banana production. The prediction map shows some suitable landscapes in the southwest that can expose this major banana production zone to BBTD, necessitating proactive measures.

Published

2024

4. The potential impact of banana Xanthomonas wilt on food systems in Africa: modeling scenarios of policy response and disease control measures

Author

Athanasios Petsakos, Marta Kozicka, Guy Blomme, Juliet N. Nakakawa, Walter Ocimati, and Elisabetta Gotor

Subjects

Africa, banana, disease model, economic model, food security, policy response, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Banana Xanthomonas wilt (BXW) is one of the most important diseases threatening banana production in Africa south of the Sahara (SSA). In this study, we examine the potential impacts of BXW on banana production, demand, and food security in SSA, if the disease spread across all banana-producing countries in the region. The analysis is based on a multidisciplinary approach that combines a mathematical model of field-level BXW spread over time with a dynamic global partial equilibrium economic model. Since BXW control relies exclusively on management, we analyze three scenarios of BXW spread that are constructed around assumptions about the level of policy response to the disease, and about how this response may affect the adoption of appropriate management practices by farmers to control BXW. Modeling results suggest that if the disease is left uncontrolled, banana production in SSA within 10 years can decrease by as much as 55%, compared to a BXW-free baseline scenario, resulting in economic losses of around 25 billion USD. At the same time, the population at risk of hunger in countries that highly depend on bananas as a staple food is projected to increase by more than 4.6%. Even a limited policy response to BXW can reduce infections and mitigate some of the production, economic, and food security consequences. BXW impacts are almost completely negated when farmers have good knowledge of the disease and fully adopt the appropriate management practices. This result highlights the need for policy frameworks which rely on sustained and coordinated efforts by public and private stakeholders, within and across SSA countries and at different geographical scales. It also aims to raise awareness and promote the adoption of such practices, while also considering local peculiarities and socioeconomic conditions.

Published

2023

5. Influence of altitude as a proxy for temperature on key Musa pests and diseases in watershed areas of Burundi and Rwanda

Author

Gloria Valentine Nakato, Joshua Sikhu Okonya, Deo Kantungeko, Walter Ocimati, George Mahuku, James Peter Legg, and Guy Blomme

Subjects

Banana bunchy top disease, Banana nematodes, Banana weevils, Elevation gradient, Fusarium wilt, Global warming, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Pests and diseases are key biotic constraints limiting banana production among smallholder farmers in Eastern and Central Africa. Climate changemay favour pest and disease development and further exacerbate the vulnerability of smallholder farming systems to biotic constraints. Information on effects of climate change on pests and pathogens of banana is required by policy makers and researchers in designing control strategies and adaptation plans. Since altitude is inversely related to temperature, this study used the occurrence of key banana pests and diseases along an altitude gradient as a proxy for the potential impact of changes in temperature associated with global warming on pests and diseases. We assessed the occurrence of banana pests and diseases in 93 banana fields across three altitude ranges in Burundi and 99 fields distributed in two altitude ranges in Rwanda watersheds. Incidence and prevalence of Banana Bunchy Top Disease (BBTD) and Fusarium wilt (FW) was significantly associated with temperature and altitude in Burundi, revealing that increasing temperatures may lead to upward movement of banana diseases. No significant associations with temperature and altitude were observed for weevils, nematodes and Xanthomonas wilt of banana (BXW). Data collected in this study provides a baseline to verify and guide modelling work to predict future pest and disease distribution according to climate change scenarios. Such information is useful in informing policy makers and designing appropriate management strategies.

Published

2023

6. Innovative agroecological practices can restore degraded farmlands and revive crop yields

Author

Jules Ntamwira, Walter Ocimati, Guy Blomme, Antoine Kanyenga Lubobo, Dieudonne Mwarabu Lolonga Pyame, and Benoit Dhed'a Djailo

Subjects

agroecology, grasses, improved fallow, mucuna, organic carbon, shrubs, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Land degradation is a major obstacle to agricultural development in Africa, where it's accentuated by poor agricultural practices and climate change effects. Restoration of degraded lands is crucial to prevent incursions into virgin and marginal lands. A field experiment was carried out over a four-year period on two degraded sites, to assess and compare the effect of the common practices of: (i) burning crop residues and weeds by resource-poor farmers (T1) and (ii) burning crop residues and weeds followed with application of manure and/or NPK as external inputs (T2) by resource-endowed farmers with (iii) an innovative agroecological package (T3) on soil physical, chemical and biological attributes, and crop yields. T3 consisted of crop rotation and/ intercropping with Mucuna pruriens cover crop, grasses (Pennisetum purpureum and Setaria sphacelate) and shrubs (Calliandra calothyrsus, and Leucaena diversifolia), and the application of manure and NPK. A randomized complete block design with 8 and 10 blocks, with each package appearing once in each block, was used respectively, at Mulungu and Mushinga. The agroecological package significantly improved soil and plant parameters compared to the common practices at both sites. The average plot-level aboveground biomass was significantly lower (p < 0.001) in T1 (11.3–17.4 t/ha) and T2 (10.1–21.9) than in T3 (39.9–60.4 t/ha). Similar trends were observed for bean and maize grain and banana bunch yields. When T1 is compared to T3, mean yields increased 2.6 times (848 kg/ha against 327 kg/ha), 2.8 times (2,201 kg/ha against 792 kg/ha) and 1.5 times (7.4 t/ha against 5.0 t/ha) for bean grains, maize grain, and banana bunches, respectively. Improvements were also observed for soil physical, biological, and chemical properties. A decrease in soil temperature; and increases in soil porosity, earthworm density/m2 (1,932 against 0), nodules/bean plant (28 against 21) and root length density (65 against 15.5 cm) were observed in T3. T3 (compared to T1), had a decrease in acidity and Al3+; an increase in soil organic matter, K+, Ca+, and aboveground carbon stock (26.5 t/ha against 5.6 t/ha). The innovative agroecological package is thus an approach that can be used to effectively restore degraded and abandoned farmlands.

Published

2023

7. Mucuna pruriens, Crotalaria juncea, and chickpea (Cicer arietinum) have the potential for improving productivity of banana‐based systems in Eastern Democratic Republic of Congo

Author

Guy Blomme, Jules Ntamwira, and Walter Ocimati

Subjects

cover crop, dry season, intercrop, land equivalence ratio, legume, root nodulation, Plant culture, SB1-1110

Abstract

Abstract Intercropping banana and shorter annual crops in small holder systems is inevitable despite shade being a limitation. Current production is also limited to the wet seasons. Strategies to exploit the spaces under banana shade and drier seasons are crucial for optimal production of these systems. We determined the performance of two legume cover crops, Mucuna pruriens and Crotalaria juncea, and chickpea (Cicer arietinum), a grain legume, under different banana shade levels and over the wet and dry seasons in eastern Democratic Republic of Congo. Banana and legume monocrops served as controls. Shade reduced weed biomass and legume root nodulation, biomass, and grain yields. Chickpea root nodulation had a lower sensitivity to shade (3–9% reduction) compared with mucuna (30–60%) and crotalaria (31–71%). Legume biomass yield declines varied from 37–83%, 56–93%, and 80–98% for mucuna, crotalaria, and chickpea, respectively. Higher nodulation occurred in the rainy compared with the dry season. Biomass yield declines, albeit low occurred in the dry season for mucuna (15%) and crotalaria (30%). In contrast, chickpea biomass and grain yields increased by 394% and 4487%, respectively, in the dry season. A higher banana vegetative growth occurred in the intercropped plots. Land equivalent ratios of 1.15–1.34 under dense shading for mucuna and crotalaria and 1.10–1.62 for chickpea occurred irrespective of the seasons. These findings suggest that these cover crops and chickpea could be exploited to enhance biomass (for fodder, mulch, or manure) and grain yields under banana shade and over the drier seasons.

Published

2022

8. AI-powered banana diseases and pest detection

Author

Michael Gomez Selvaraj, Alejandro Vergara, Henry Ruiz, Nancy Safari, Sivalingam Elayabalan, Walter Ocimati, and Guy Blomme

Subjects

Artificial intelligence, Banana, Deep learning, Disease detection, Transfer learning, Convolutional neural networks, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Banana (Musa spp.) is the most popular marketable fruit crop grown all over the world, and a dominant staple food in many developing countries. Worldwide, banana production is affected by numerous diseases and pests. Novel and rapid methods for the timely detection of pests and diseases will allow to surveil and develop control measures with greater efficiency. As deep convolutional neural networks (DCNN) and transfer learning has been successfully applied in various fields, it has freshly moved in the domain of just-in-time crop disease detection. The aim of this research is to develop an AI-based banana disease and pest detection system using a DCNN to support banana farmers. Results Large datasets of expert pre-screened banana disease and pest symptom/damage images were collected from various hotspots in Africa and Southern India. To build a detection model, we retrained three different convolutional neural network (CNN) architectures using a transfer learning approach. A total of six different models were developed from 18 different classes (disease by plant parts) using images collected from different parts of the banana plant. Our studies revealed ResNet50 and InceptionV2 based models performed better compared to MobileNetV1. These architectures represent the state-of-the-art results of banana diseases and pest detection with an accuracy of more than 90% in most of the models tested. These experimental results were comparable with other state-of-the-art models found in the literature. With a future view to run these detection capabilities on a mobile device, we evaluated the performance of SSD (single shot detector) MobileNetV1. Performance and validation metrics were also computed to measure the accuracy of different models in automated disease detection methods. Conclusion Our results showed that the DCNN was a robust and easily deployable strategy for digital banana disease and pest detection. Using a pre-trained disease recognition model, we were able to perform deep transfer learning (DTL) to produce a network that can make accurate predictions. This significant high success rate makes the model a useful early disease and pest detection tool, and this research could be further extended to develop a fully automated mobile app to help millions of banana farmers in developing countries.

Published

2019

9. Farmer Friendly Options for Sterilizing Farm Tools for the Control of Xanthomonas Wilt Disease of Banana

Author

Walter Ocimati, Anthony Fredrick Tazuba, and Guy Blomme

Subjects

bacteria, detergent, hot water, soap, sodium hypochlorite, tool sterilization, Agriculture, Plant culture, SB1-1110

Abstract

The adoption of tool sterilization using either 3.5% sodium hypochlorite (household bleach) or fire, a core element of the cultural control packages for Xanthomonas wilt (XW) of banana has been poorly adopted hampering XW control in East and Central Africa. Household bleach is costly and not accessible to the rural poor while repeated heating weakens metal blades of garden tools (machetes, knives, and hoes). Identification of economically viable tool sterilization options is thus crucial for XW management. We explored a range of practices including tool insertion for varying time periods into cold and hot ash, fire and boiling water; tool exposure over varying time periods to the sun while under black or transparent plastic sheets; and washing tools with cold water and laundry soap or detergent. Cleaning with household bleach served as a negative control while uncleaned tools as positive control. Like for household bleach, no Xanthomonas vasicola pv. musacearum (Xvm) the causal agent of XW was recovered from tools washed with cold water and different laundry soaps or detergents. Culturing Xvm in varying detergent and soap concentrations (0.00125–0.035 g/mL), only resulted in growth at lower concentrations of 0.00125 and 0.0025 g/mL. The cleaning effect of soap could thus be due to both an anti-bacterial effect and dislodgment of bacteria from tools. Laundry soaps/detergents are cheaper than household bleach and used for various purposes within and across households, including the resource poor and rural households, hence a cheaper and convenient tool sterilization alternative. Tool insertion into boiling water was effective from the 40th second and thus a viable alternative. Heating tools in fire required up to a minute to clear all bacteria. The currently recommended 20–40 s heating could thus be inadequate. Repeated heating for 1 min may also damage tools. Other practices (washing with cold water only, use of solar radiation, repeatedly and forcefully inserting tools into the soil, tool insertion into hot and cold ash for up to 5 min) only reduced Xvm populations on tools, thus not independently recommended. We recommend expanding the tool sterilization options to include washing with soap/ detergents and tool insertion into boiling water for at least 1 min.

Published

2021

10. Sensitivity and Tolerance of Different Annual Crops to Different Levels of Banana Shade and Dry Season Weather

Author

Guy Blomme, Jules Ntamwira, Elizabeth Kearsley, Liliane Bahati, Daniel Amini, Nancy Safari, and Walter Ocimati

Subjects

banana, biomass, cover crop, Democratic Republic of Congo, intensification, mucuna, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Intercropping in small-holder production systems in East and Central Africa is very common and offers potential for significant yield and environmental benefits. However, the reduced light availability under banana canopies constrains the success of the intercrop in banana systems. Determining a balance between the optimal spacing/densities of banana plants with optimized intercrop selection based on their sensitivity and tolerance to shade is imperative. This study, through extensive field experiments performed in South Kivu, DR Congo investigated the resilience of a wide range of food and forage crops to varying banana shade levels. The same crop species grown as monocrops served as controls. Quantitative yield assessments showed yam, sweet potato, ginger and forage grasses to have a good potential to grow under moderately dense to dense banana fields. Taro, soybean, mucuna, chili, eggplant, and Crotalaria sp. performed well in sparsely spaced banana fields with moderate shading. Cassava and soybean showed limited tolerance to shade. Intercropping in banana systems is also generally confined to the rainy seasons due to the high sensitivity of most annual intercrops to long dry weather in the dry season months. We also thus assessed the sensitivity of chickpea and mucuna to the long dry weather of the dry seasons and found them to have great potential for extending farming production into the dry season. Overall, we show that careful selection and allocation of crops with varying sensitivity to various banana shade levels and dry season weather can potentially increase whole field productivity.

Published

2020

11. Impact and Opportunities of Agroecological Intensification Strategies on Farm Performance: A Case Study of Banana-Based Systems in Central and South-Western Uganda

Author

Clara Gambart, Rony Swennen, Guy Blomme, Jeroen C. J. Groot, Roseline Remans, and Walter Ocimati

Subjects

agroecology, farm typology, FarmDESIGN, farm performance, farm optimization, nutritional yield, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Agroecological intensification (AEI) practices relying on on-farm diversity tend to close nutrient cycles and reduce dependency on external inputs in agricultural systems. These practices improve the productivity of banana-based systems in Uganda, but their extent of implementation differs between and within regions. However, the impact of AEI practices on a broader range of objectives including environmental and nutritional objectives, is hardly quantified. Additionally, recommendations to improve the farm performance, given these options, are lacking. We, therefore, analyzed the current farm performance for these broad range of objectives and explored optimal farm reconfigurations in two Ugandan districts, one in Central Uganda and one in Southwestern (SW) Uganda. Given the heterogeneity of smallholder farms, a farm typology based on the applied AEI practices was developed. It classified the subsistence farms in Central Uganda into two extreme groups with an average of 11.0 and 16.4 AEI practices applied per farm. Farms in SW Uganda were moderately intensified (i.e., 13.0 practices). The FarmDESIGN model revealed a higher species diversity, relatively higher profitability (2,039 – 3,270 $/ha/year) and nutritional yield on farms in Central Uganda. However, relatively high soil erosion levels (0.243 – 0.240) and negative nitrogen (N) balances (−72 to −50 kg N/ha/year) were indicative of unsustainable practices. In contrast, farms in SW Uganda were less diverse and more market oriented. Their commercial orientation allowed investments in soil fertility management, resulting in more sustainable [low soil erosion level (0.172) and positive N balance (5 kg/ha/year)], but less profitable (506 $/ha/year) systems. To improve farm performance, bananas and other perennials played a key role. Explorations with Calliandra calothyrsus (Calliandra) hedgerow or Mucuna pruriens (Mucuna) cover crop increased on-farm mulch production, improved sustainability indicators and profitability. We conclude that AEI practices can improve farm performance, and a more intensive use would be beneficial. In addition, the FarmDESIGN model provides a useful tool for redesigning these farms, proposing different redesigns depending on farmers' objectives (profitability, productivity or sustainability), and for evaluating ex ante the impact of new agricultural measures on farm performance.

Published

2020

12. Geographical Distribution and Genetic Diversity of the Banana Fusarium Wilt Fungus in Laos and Vietnam

Author

Khonesavanh Chittarath, Chung Huy Nguyen, Wendy C. Bailey, Si-Jun Zheng, Diane Mostert, Altus Viljoen, Anthony Fredrick Tazuba, Walter Ocimati, Elizabeth Kearsley, Trần Yến Chi, Nguyen Thi Tho, Nguyen Tien Hung, Miguel Dita, Trushar Shah, Margaret Karanja, George Mahuku, and Guy Blomme

Subjects

Cavendish, field survey, Fusarium TR4, Greater Mekong Subregion, ‘Pisang Awak’, Biology (General), QH301-705.5

Abstract

Fusarium wilt, caused by the fungus Fusarium oxysporum f. sp. cubense (Foc), poses a major threat to global banana production. The tropical race 4 (TR4) variant of Foc is a highly virulent form with a large host range, and severely affects Cavendish bananas. Foc TR4 was recently observed within the Greater Mekong Subregion, after Chinese private companies expanded Cavendish production to the region. In this study, extensive surveys conducted across Laos and Vietnam show that Foc TR4 is still mainly constricted to the northern regions of these countries and is limited to Cavendish cultivation settings. In Laos, Foc TR4 is associated with large-scale Cavendish plantations owned by or involved with Chinese companies through which infected planting material could have been imported. In Vietnam, mostly small-holder Cavendish farmers and backyard gardens were affected by Foc TR4. In Vietnam, no direct link is found with Chinese growers, and it is expected the pathogen mainly spreads through local and regional movement of infected planting materials. Foc TR4 was not recorded on banana cultivars other than Cavendish. The extensively cultivated ‘Pisang Awak’ cultivar was solely infected by VCGs belonging to Foc race 1 and 2, with a high occurrence of VCG 0123 across Laos, and of VCG 0124/5 in Vietnam. Substantial diversity of Foc VCGs was recorded (VCGs 0123, 0124/5, 01218 and 01221) from northern to southern regions in both countries, suggesting that Fusarium wilt is well established in the region. Interviews with farmers indicated that the local knowledge of Fusarium wilt epidemiology and options for disease management was limited. Clear communication efforts on disease epidemiology and management with emphasis on biosecurity practices need to be improved in order to prevent further spread of Foc TR4 to mixed variety smallholder settings.

Published

2022

13. Spent Pleurotus ostreatus Substrate Has Potential for Managing Fusarium Wilt of Banana

Author

Walter Ocimati, Evans Were, Anthony Fredrick Tazuba, Miguel Dita, Si-Jun Zheng, and Guy Blomme

Subjects

basidiomycetes, biocontrol, corm damage, Fusarium oxysporum f. sp. cubense, metabolites, spent mushroom substrates, Biology (General), QH301-705.5

Abstract

A range of basidiomycetes including the edible mushroom Pleurotus ostreatus (Po) can suppress plant pathogens such as Fusarium spp. With the current increase in production and consumption of Po in Uganda, the spent Po substrate (SPoS) could be an alternative to manage Fusarium wilt of banana (FWB), caused by the soil borne pathogen Fusarium oxysporum f. sp. cubense, race 1 (Foc). This study determined the potential of SPoS to inhibit Foc in vitro and in potted plants. In vitro studies confirmed suppression of Foc in pure co-culture (Po vs. Foc) assays and media amended with different concentrations (0% to 50% w/v) of un-sterilized SPoS filtrates. Foc growth in the sterile SPoS filtrate was comparable to the water control, suggesting possible roles of biotic or thermolabile components of the SPoS. To further verify the suppressive effects of SPoS, pot experiments were carried out with a resistant (‘Mbwazirume’, AAA) and susceptible (‘Sukali Ndizi’, AAB) banana cultivar using both artificially and naturally infested soils. Independent of the inoculation method, SPoS significantly reduced the severity of FWB in pot experiments. Susceptible cultivar ‘Sukali Ndizi’ growing in substrates amended with SPoS showed lower (1.25) corm damage (Scale 0–5) than the un-amended control (3.75). No corm damage was observed in uninoculated controls. The resistant cultivar ‘Mbwazirume’, showed slight (0.25) corm damage only in the Foc-inoculated plants without SPoS. These findings suggest that SPoS could be used as part of the management practices to reduce the impact of FWB.

Published

2021

14. The risk posed by Xanthomonas wilt disease of banana: Mapping of disease hotspots, fronts and vulnerable landscapes.

Author

Walter Ocimati, Hein Bouwmeester, Jeroen C J Groot, Pablo Tittonell, David Brown, and Guy Blomme

Subjects

Medicine, Science

Abstract

Banana production landscapes in the African Great Lakes Region (AGLR) have been under immense pressure from Xanthomonas wilt (XW) disease over the past two decades. XW, first reported on banana in central Uganda and eastern DR Congo in 2001, has since spread to the entire AGLR. XW is currently spreading westwards from hot spots in eastern DR Congo highlands, putting the plantain (Musa AAB genome) belt of central and west Africa at risk. In-depth understanding of the key variables responsible for disease spread, current hotspots, and vulnerable landscapes is crucial for disease early warning and management. We mapped aggregated disease distribution and hotspots in the AGLR and identified vulnerable landscapes across African banana production zones. Available data on disease prevalence collected over 11 years was regressed against environmental and expert developed covariates to develop the AGLR XW hotspots map. For the Africa-wide risk map, precipitation, distance to hotspots, degree of trade in fresh banana products, production zone interconnectedness and banana genotype composition were used as covariates. In the AGLR, XW was mainly correlated to precipitation and disease/banana management. Altitude and temperature had unexpectedly low effects, possibly due to an overriding impact of tool-mediated spread which is part of the management covariate. In the AGLR, the eastern part of DR Congo was a large hotspot with highest vulnerability. Apart from endemic zones in the AGLR and Ethiopia, northern Mozambique was perceived as a moderate risk zone mainly due to the predominance of 'Bluggoe' (Musa ABB type) which is highly susceptible to insect-vectored transmission. Presence of XW hotspots (e.g. eastern DR Congo) and vulnerable areas with low (e.g. north-western Tanzania) or no disease (e.g. Congo basin, western DR Congo and northern Mozambique) pressure suggest key areas where proactive measures e.g. quarantines and information sharing on XW diagnosis, epidemiology, and control could be beneficial.

Published

2019

15. The Integration of Shade-Sensitive Annual Crops in Musa spp. Plantations in South Kivu, Democratic Republic of Congo

Author

Jules Ntamwira, Walter Ocimati, Elizabeth Kearsley, Nancy Safari, Liliane Bahati, Daniel Amini, Antoine Kanyenga Lubobo, Boaz Waswa, and Guy Blomme

Subjects

banana, biomass, food crops, intensification, whole field productivity, Agriculture

Abstract

Small-holder banana fields are often intercropped with various annual crops to optimize land-use in East and Central Africa, a practice severely constrained by light availability under the banana canopy. Light availability is not a major constraint in newly established banana fields, giving a window of opportunity to target light-demanding annual crops before shifting to more shade-tolerant crops. This study investigated the performance of climbing and bush beans and the vegetable amaranth in banana fields with varying shade levels across three sites in the South Kivu province, DR Congo. These crops were selected for their highly nutritious and good market value and the added benefit of nitrogen fixation for the legumes. We show that both grain legumes and vegetable amaranth can achieve reasonable yields during a first annual cropping season in newly established banana fields, irrespective of the plant density. Declines in yield occurred during a second cropping season in more densely spaced banana fields (2 × 2 m and 2 × 3 m). A greater decline occurred in amaranth and its cultivation should be limited to the first annual cropping season or to less dense banana fields. The legumes could be extended to a second cropping season with reasonable yield. Significant variability in amaranth and legumes performance was observed across sites, with rapid yield declines occurring under more fertile soil conditions due to fast banana growth/canopy formation and under more vigorous cultivars. The choice of banana spacing will need to be tailored to the banana cultivar, soil conditions and the farmers’ objectives.

Published

2021

16. A Multi-Objective Model Exploration of Banana-Canopy Management and Nutrient Input Scenarios for Optimal Banana-Legume Intercrop Performance

Author

Walter Ocimati, Jeroen C. J. Groot, Guy Blomme, Carl J. Timler, Roseline Remans, Godfrey Taulya, Jules Ntamwira, and Pablo Tittonell

Subjects

banana, hedges, FarmDESIGN model, multi-objective optimization, operating profit, Pareto-optimal, Agriculture

Abstract

Bananas on smallholder farmers in the African Great Lakes region are often pruned to illuminate shorter understory intercrops, reducing overall farm profitability. The impact of this practice on environmental and nutritional indicators are not known. This study determined the effect of this practice on operating profit, protein yield, soil organic matter (SOM) balance, and nitrogen input; and the management options for optimal performance of the intercrops. Alternative scenarios for improving soil nutrient balances of the system were also explored. Data from an experiment intercropping bush beans with banana at three leaf pruning levels (i.e., retaining all, seven, and four leaves) was used as the input for the multi-objective optimization FarmDESIGN model. Retention of four functional leaves mimicked a worst-case scenario observed on farms. Banana and bush bean monocrops served as controls. The model maximized operating profit, protein yield, and SOM, and minimized nitrogen input. Nutrient input scenarios in which (i) farmyard manure was only applied at planting (business as usual (‘BaU’)); and ‘BaU’, was combined with (ii) hedges, (iii) inorganic fertilizers, (iv) hedges and goat manure, (v) hedges and inorganic fertilizers, (vi) inorganic fertilizers and goat manure, and (vii) hedges, inorganic fertilizers, and goat manure, were also explored. Severe banana leaf pruning reduced profitability, SOM, and protein yield, although it’s less nutrient demanding. In contrast, the “un-pruned banana-bush bean intercrop” and “sole banana crop” had a higher profitability, SOM balance, and protein yield, whereas they demand more soil nutrients. No profound improvements in operating profit, SOM balance, and protein yield occurred for ‘BaU’, while hedges resulted in mild improvements. Profound improvements in all objectives occurred with the addition of the inorganic fertilizers, while goat manure resulted in a high SOM balance and N input. For ‘BaU’ and hedges, “severely pruned banana-bush bean intercrop” dominated the optimal solution set for improving farm performance. In contrast, when the inorganic fertilizers and/or goat manure was introduced, “un-pruned banana-bush bean intercrop” and/or “sole un-pruned banana crop” were the optimal solutions. The study confirms severe leaf pruning to negatively impact profitability, while the more profitable un-pruned crop options are unsustainable without external input of nutrients. Thus, investments in external inputs are crucial for a sustainable banana-intercrop system. The FarmDESIGN model made the trade-offs and synergies in this complex intercrop system explicit, thus was also helpful for field-level decision making.

Published

2021

17. Risks Posed by Intercrops and Weeds as Alternative Hosts to Xanthomonas campestris pv. musacearum in Banana Fields

Author

Walter Ocimati, Evans Were, Jeroen C. J. Groot, Pablo Tittonell, Gloria Valentine Nakato, and Guy Blomme

Subjects

alternative host, banana, Canna spp., maize, millet, sorghum, Plant culture, SB1-1110

Abstract

Alternative host plants are important in the survival and perpetuation of several crop pathogens and have been suspected to play a role in the survival of Xanthomonas campestris pv. musacearum (Xcm) and perpetuation of Xanthomonas wilt (XW) disease of banana and enset. This study determined the potential risk posed by two weeds (Canna spp. and wild sorghum) and common banana intercrops (maize, millet, sorghum, taro, and sugarcane) as alternative hosts to Xcm. The study employed screenhouse experiments, laboratory procedures and diagnosis of banana fields in XW-affected landscapes. Typical XW symptoms were only observed in artificially inoculated Canna sp., with an incidence of 96%. Leaf lesions characteristic of xanthomonads occurred on millet (50%) and sorghum (35%), though the plants recovered. No symptoms occurred in maize, sugarcane, taro or wild sorghum. However, Xcm was recovered from all these plant species, with higher recoveries in Canna sp. (47%), millet (27%), sugarcane (27%), and wild sorghum (25%). Only isolates recovered from Canna sp., millet, sorghum and wild sorghum caused disease in banana plantlets. The presence and incidence of XW on-farm was positively associated with the presence of susceptible ABB Musa genotypes and negatively with number of banana cultivars on farm and household access to training on XW management. Only 0.02% of field sampled Canna spp. plants had Xcm. Risk posed by Canna spp. on-farm could be limited to tool transmission as it has persistent floral bracts that prevent insect-mediated infections. Given the high susceptibility, perennial nature and propagation through rhizomes of Canna sp., it could pose a moderate-high risk, thus warranting some attention in the management of XW disease. Sugarcane could offer a low-moderate risk due to its perennial nature and propagation through rhizomes while risk from maize, millet, and sorghum was deemed zero-low due to their annual nature, wind-mediated mode of pollination and propagation through seed. Understanding the interactions of a crop pathogen with other plants is thus important when diversifying agroecosystems. The study findings also suggest other factors such as cultivar composition and management of the disease at farm and landscape level to be important in the perpetuation of XW disease.

Published

2018

18. Bacterial Diseases of Bananas and Enset: Current State of Knowledge and Integrated Approaches Toward Sustainable Management

Author

Guy Blomme, Miguel Dita, Kim Sarah Jacobsen, Luis Pérez Vicente, Agustin Molina, Walter Ocimati, Stephane Poussier, and Philippe Prior

Subjects

bacterial disease, banana, ensete, Ralstonia-associated, Xanthomonas wilt, Erwinia-associated, Plant culture, SB1-1110

Abstract

Bacterial diseases of bananas and enset have not received, until recently, an equal amount of attention compared to other major threats to banana production such as the fungal diseases black leaf streak (Mycosphaerella fijiensis) and Fusarium wilt (Fusarium oxysporum f. sp. cubense). However, bacteria cause significant impacts on bananas globally and management practices are not always well known or adopted by farmers. Bacterial diseases in bananas and enset can be divided into three groups: (1) Ralstonia-associated diseases (Moko/Bugtok disease caused by Ralstonia solanacearum and banana blood disease caused by R. syzygii subsp. celebesensis); (2) Xanthomonas wilt of banana and enset, caused by Xanthomonas campestris pv. musacearum and (3) Erwinia-associated diseases (bacterial head rot or tip-over disease Erwinia carotovora ssp. carotovora and E. chrysanthemi), bacterial rhizome and pseudostem wet rot (Dickeya paradisiaca formerly E. chrysanthemi pv. paradisiaca). Other bacterial diseases of less widespread importance include: bacterial wilt of abaca, Javanese vascular wilt and bacterial fingertip rot (probably caused by Ralstonia spp., unconfirmed). This review describes global distribution, symptoms, pathogenic diversity, epidemiology and the state of the art for sustainable disease management of the major bacterial wilts currently affecting banana and enset.

Published

2017

19. Spread of Xanthomonas vasicola pv. musacearum within banana mats: implications for Xanthomonas wilt management

Author

Anthony Fredrick Tazuba, Walter Ocimati, and Guy Blomme

Subjects

Horticulture, Xanthomonas, biology, Inoculation, parasitic diseases, Xanthomonas vasicola, Sucker, Corm, Colonization, Plant Science, biology.organism_classification, Rhizome

Abstract

Xanthomonas wilt (XW) of banana caused by Xanthomonas vasicola pv. musacearum (Xvm) does not spread to all plants physically interconnected through the rhizome when one or a few are diseased. Factors causing this incomplete systemic spread of Xvm are not fully known yet could be important for XW management. We explored the effect of 1) Xvm inoculum amounts; 2) number, size, and position of suckers on mother plant corms; and 3) other mother plant attributes on sucker colonization. A shorter (p Xvm was recovered in corms at 29 days post inoculation (dpi) in both treatments with no differences (p > 0.05) in proportions of corms with Xvm between the treatments. However, Xvm was recovered earlier and at a higher frequency in attached suckers when all leaves were inoculated. Lower Xvm recoveries occurred in the lower corm sections to which most suckers were attached relative to the middle and upper corm sections. Xvm incidence in corms increased with the number of attached maiden suckers, and the dpi, while it declined with increasing mother plant pseudostem and corm height. Thus, Xvm spread within mats is influenced by the amount of inoculum and the physiological stage of the mother plant and attached suckers. The position of suckers, predominantly at the bottom of corms also protects them from infection. Measures that reduce Xvm inoculum build-up in mats will thus minimize within mat Xvm spread.

Published

2022

20. Banana bunchy top disease in Africa – Predicting continent‐wide disease risks by combining survey data and expert knowledge

Author

Hein Bouwmeester, Guy Blomme, Aman Bonaventure Omondi, and Walter Ocimati

Subjects

Genetics, Plant Science, Horticulture, Agronomy and Crop Science

Published

2023

21. Assessing drought effects on banana production and on-farm coping strategies by farmers — a study in the cattle corridor of Uganda

Author

Eldad Karamura, Robooni Tumuhimbise, Julia Sibiya, D. Karamura, Walter Ocimati, Enoch Kikulwe, and Moureen Nansamba

Subjects

Agricultural science, Atmospheric Science, Global and Planetary Change, Production (economics), Business

Abstract

Drought is a major threat to banana production in Uganda, leading to large yield losses. This study documented drought effects on banana production and identified farmers’ coping strategies to mitigate the impact of droughts. Interviews were conducted in eight districts, randomly selected from banana-growing districts in Uganda’s cattle corridor, characterised by frequent droughts. Data were collected from 120 respondents/farms. Banana production in the study area was dominated by small-scale farmers, growing mostly a combination of cooking and dessert banana types. Among the 15 identified effects of drought stress on banana growth, reduced bunch weight, wilting and drying of leaves, reduced leaf production and reduced number of fingers and clusters were the most reported. ‘Mpologoma’ and ‘FHIA 17’ cultivars were reported as the most and least affected by drought stress, respectively. Although the cattle corridor is prone to recurrent droughts, the deployment of drought coping strategies was mostly low, with farmers using one to three strategies. A total of 12 drought mitigation practices were used across the cattle corridor, with mulching being the most common option. Irrigation was perceived as the most effective mitigation option though its deployment was limited by water scarcity and the high cost of water pumps. This study suggests the need for government support in drought stress mitigation practices and the development of drought-tolerant cultivars by breeders. Additionally, farmers need to prioritise preventive coping strategies like planting drought-tolerant cultivars, irrigation, mulching, and manure application and ensure the appropriate time of deployment of mitigation practices.

Published

2022

22. Comparing effectiveness, cost- and time-efficiency of control options for Xanthomonas wilt of banana under Rwandan agro-ecological conditions

Author

Petronille Dusingizimana, Elizabeth Kearsley, S.V. Gaidashova, Guy Blomme, Jules Ntamwira, Boudy van Schagen, Anne M. Rietveld, and Walter Ocimati

Subjects

0106 biological sciences, business.industry, Total cost, Control (management), Time efficiency, Central africa, Single plant, 04 agricultural and veterinary sciences, Plant Science, Horticulture, Biology, 01 natural sciences, Agricultural science, Incentive, Agriculture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, business, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Xanthomonas wilt of banana (XW) is a major disease affecting banana throughout East and Central Africa (ECA). Initial control was through complete diseased mat uprooting (CDMU), which had limited adoption due to high labour demands and cost. Further research demonstrated single diseased stem removal (SDSR) was an effective, less labour intensive and less costly alternative to CDMU. A comparative assessment of the two control practices was needed to foster uptake by policy makers, especially in countries like Rwanda where SDSR had not been tested or scaled up. To test SDSR in Rwanda, a study was conducted in farmers’ fields comparing the effectiveness, labour cost and time demands of CDMU and SDSR. SDSR was equally effective as CDMU for XW control, with initial XW incidences of 3.0 to 9.4% being reduced to

Published

2021

23. Can the timely removal of outer symptomatic leaves of enset plants following a tool-mediated infection with Xanthomonas vasicola pv. musacearum lead to recovery?

Author

Zerihun Yemataw, A. Said, Guy Blomme, o Ilri, P.O. Box , Addis Ababa, Ethiopia, Walter Ocimati, and Sadik Muzemil

Subjects

Xanthomonas, Xanthomonas vasicola, Horticulture, Biology, biology.organism_classification, Agronomy and Crop Science, Disease control, Food Science, Musaceae, Microbiology

Published

2020

24. Banana pest risk assessment along banana trade axes running from low to high altitude sites, in the Eastern DR Congo and in Burundi

Author

Walter Ocimati, Mariam Bumba, Daniel Amini, Muller Kamira, Serge Amato, Liliane Bahati, Guy Blomme, Alexandra zum Felde, and Jules Ntamwira

Subjects

0106 biological sciences, 0303 health sciences, biology, business.industry, Agroforestry, Sowing, biology.organism_classification, 01 natural sciences, Fusarium wilt, Landscape level, 03 medical and health sciences, Geography, Agriculture, Disease management (agriculture), Curculionidae, PEST analysis, Pest risk assessment, General Agricultural and Biological Sciences, business, 030304 developmental biology, 010606 plant biology & botany

Abstract

Pests and diseases greatly contribute to the decline in banana yields, food and income insecurity in the Great Lakes region of Africa. Understanding people’s role in pest and disease spread at landscape level is crucial for effective pest and disease management. To determine this, focus group discussions (FGDs) targeting 10 experienced farmers (50% female and 50% male) were conducted in 27 villages along four banana trade routes in western Burundi and eastern DR Congo. FGDs determined the presence and risk of spread of key banana pests and diseases via the movement of banana bunches, planting material and other products, labourers, traders and farm tools. Black leaf streak (BLS), Fusarium wilt and banana bunchy top disease (BBTD) were reported to have been in the landscape for over 40 years while Xanthomonas wilt (XW) was a more recent introduction (1-7 years). BBTD, XW and weevils were the most prevalent constraints. BBTD was observed at previously unsuitable high-altitude zones, which should be a cause of concern, especially with the current risk of climate change. Climate change, and linked temperature increases, could also worsen the prevalence of XW, weevils, nematodes and BLS. Movement of farming tools by labourers and traders, of planting material/suckers and banana bunches emerged as the most common human practices potentially responsible for the spread and/or build-up of banana pests/diseases. Strengthening farmer’s knowledge and institutional capacities of actors on these different modes of disease spread in banana value chains in the region is recommended. Key words: Black leaf streak, bunchy top disease, Fusarium wilt, nematodes, weevils, Xanthomonas wilt.

Published

2020

25. A literature review on yield gaps of various root, tuber and banana crops as a background for assessing banana yield reductions due to pests and diseases at a field site in western Burundi

Author

Alexandra zum Felde, Déo Kantungeko, Guy Blomme, David Amwonya, and Walter Ocimati

Subjects

Abiotic component, Soil health, biology, Agronomy, Yield (wine), Weevil, Yield gap, Corm, Soil fertility, General Agricultural and Biological Sciences, biology.organism_classification, Fusarium wilt

Abstract

Banana pests (corm weevil and root nematodes) and diseases (Xanthomonas wilt of banana, banana bunchy top disease and fusarium wilt) are major constraints to banana production in Central Africa. The pests cause various degrees of yield reduction, while plants affected by three of the diseases eventually die before producing an edible bunch. Studies on yield gaps for most of these constraints are currently limited. This paper reviews yield gap studies of some root, tuber and banana crops broadly and with a specific focus on biotic constraints. It also presents an initial case study conducted in Burundi to understand yield gaps due to various banana pests and diseases. Bunch weights of banana varied widely at production zones in western Burundi due to biotic constraints. Boundary line analysis revealed large yield gaps due to the various pests. The often sub-optimal, medium and small bunch sizes found in visibly healthy fields however indicate that in addition to mitigating effects of biotic constraints, significant improvements in bunch weights could be attained through the application of agronomic/field management practices that enhance soil fertility, soil moisture content and soil health. Simple and robust methods [such as the boundary line analysis] for estimating yield gaps caused by pests and diseases, and abiotic constraints on farm are crucial for informing/guiding on the need to apply agronomic and/or disease control efforts. In addition, continuous/sustained field monitoring, with the involvement of farmers, over time will be necessary for a more accurate assessment of yield gaps caused by diseases and pests. Key words: Banana bunchy top disease, boundary line analysis, fusarium wilt, nematodes, weevils, Xanthomonas wilt.

Published

2020

26. <scp> Mucuna pruriens </scp> , <scp> Crotalaria juncea </scp> , and chickpea ( <scp> Cicer arietinum </scp> ) have the potential for improving productivity of banana‐based systems in Eastern Democratic Republic of Congo

Author

Guy Blomme, Jules Ntamwira, and Walter Ocimati

Subjects

Plant Science, Food Science

Published

2022

27. Scaling Banana Bacterial Wilt Management Through Single Diseased Stem Removal in the Great Lakes Region

Author

Enoch Kikulwe, Marsy Asindu, Walter Ocimati, Susan Ajambo, William Tinzaara, Francois Iradukunda, and Guy Blomme

Abstract

Xanthomonas wilt (XW) of banana caused by Xanthomonas vasicola pv. musacearum (Xvm) is an important emerging and non-curable infectious disease which can cause up to 100% yield loss. At the start of the XW epidemic, complete uprooting of diseased mats (CMU) was recommended. There was little adoption of CMU, especially by women farmers, because it was labor-intensive and it sacrificed banana production for up to 2 years. CMU assumed that infection on a single plant would systemically spread to all plants in a mat. However, field experiments showed that Xvm did not spread systemically in a mat and that latent infections occurred. As a result, not all shoots on an infected plant show symptoms. This led to the idea of removing only the visibly infected banana plants, referred to as single diseased stem removal (SDSR). The SDSR package comprises three innovations: (1) regularly cutting symptomatic stems at ground level, (2) sterilizing cutting tools with fire, and (3) early male bud removal using a forked stick. The SDSR package was promoted jointly with a set of complementary practices: (i) avoiding infections by browsing animals, (ii) using clean planting materials, (iii) bending leaves at the petiole level when intercropping in infected fields, (iv) training on disease recognition and epidemiology, and (v) demand-specific extension and knowledge sharing. Several approaches that have been used for scaling out XW management technologies are documented in this chapter. This review looks at the process, practices, challenges, lessons learned, and future policy implications associated with scaling of XW management practices.

Published

2022

28. Estimating Yield Components, Limiting Factors, and Yield Gaps of Enset in Ethiopia Using Easily Measurable Above-Ground Plant Traits

Author

Guy Blomme, Tesfaye Dejene, Zerihun Yemataw, Alemar Said, David Amwonya, and Walter Ocimati

Subjects

Germplasm, Yield (finance), Geography, Planning and Development, Tree allometry, TJ807-830, yield gaps, Management, Monitoring, Policy and Law, TD194-195, Renewable energy sources, bula, allometric equations, kocho, GE1-350, Mathematics, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Yield gap, Regression analysis, Intercropping, Limiting, biology.organism_classification, Environmental sciences, Agronomy, fiber, Soil fertility

Abstract

The quantification of yield for different enset products has mainly been based on farmers’ estimates, which are often inaccurate. Several allometric models have been developed to overcome this challenge. Building on past work, the current study developed allometric models for enset fiber, kocho, and bula yield estimation. Enset yield limiting factors and associated yield gaps were also determined. In this study, above-ground growth and yield (kocho, bula, and fiber) traits of five-year-old plants of two widely grown enset landraces, ‘Unjame’ and ‘Siskela’, were assessed in farmers’ fields at three contrasting altitude sites. Except for bula, a minor yield component, correlation, and PCA analysis showed strong association between the above-ground and yield traits. Allometric equations based on the above-ground traits significantly (R2 = 25 to 68%) explained the variation in the yield traits. This study, for the first time, generated allometric models that can reliably estimate enset fiber yield. Leaf length, petiole length, and plant height are especially good for estimating fiber and kocho yields. The performance of models for bula were poor possibly due to the very low bula yields per plant. Soil chemical characteristics differently influenced enset yield attributes. For example, improving K supply can potentially enhance fiber yield. Higher yield gaps were observed for bula, with P accounting for the highest yield gaps across yield traits. Through careful targeting, the different yield attributes can thus be enhanced. This and previous studies clearly show that non-destructive enset plant assessments can provide solid information for quick and easy yield assessments for various traits during e.g., agronomic, germplasm evaluation, soil fertility enhancement, and intercropping trials.

Published

2021

29. Spent

Author

Walter, Ocimati, Evans, Were, Anthony Fredrick, Tazuba, Miguel, Dita, Si-Jun, Zheng, and Guy, Blomme

Subjects

corm damage, fungi, food and beverages, basidiomycetes, Fusarium oxysporum f. sp. cubense, biocontrol, Article, metabolites, spent mushroom substrates

Abstract

A range of basidiomycetes including the edible mushroom Pleurotus ostreatus (Po) can suppress plant pathogens such as Fusarium spp. With the current increase in production and consumption of Po in Uganda, the spent Po substrate (SPoS) could be an alternative to manage Fusarium wilt of banana (FWB), caused by the soil borne pathogen Fusarium oxysporum f. sp. cubense, race 1 (Foc). This study determined the potential of SPoS to inhibit Foc in vitro and in potted plants. In vitro studies confirmed suppression of Foc in pure co-culture (Po vs. Foc) assays and media amended with different concentrations (0% to 50% w/v) of un-sterilized SPoS filtrates. Foc growth in the sterile SPoS filtrate was comparable to the water control, suggesting possible roles of biotic or thermolabile components of the SPoS. To further verify the suppressive effects of SPoS, pot experiments were carried out with a resistant (‘Mbwazirume’, AAA) and susceptible (‘Sukali Ndizi’, AAB) banana cultivar using both artificially and naturally infested soils. Independent of the inoculation method, SPoS significantly reduced the severity of FWB in pot experiments. Susceptible cultivar ‘Sukali Ndizi’ growing in substrates amended with SPoS showed lower (1.25) corm damage (Scale 0–5) than the un-amended control (3.75). No corm damage was observed in uninoculated controls. The resistant cultivar ‘Mbwazirume’, showed slight (0.25) corm damage only in the Foc-inoculated plants without SPoS. These findings suggest that SPoS could be used as part of the management practices to reduce the impact of FWB.

Published

2021

30. Pro‐vitamin A carotenoid content of 48 plantain (Musa AAB genome) cultivars sourced from eastern Democratic Republic of Congo

Author

Walter Ocimati, Lusenge Vutseme, Inge Van den Bergh, Mark W. Davey, Deborah Nabuuma, Beatrice Ekesa, Stephen Buah, Charles Sivirihauma, Liliane Bahati, and Guy Blomme

Subjects

Vitamin, children below 5 years, Adult, Male, pro vitamin A, Adolescent, 030309 nutrition & dietetics, Biology, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, 0404 agricultural biotechnology, medicine, Humans, Cultivar, Vitamin A, retinol activity equivalents (RAE), Research Articles, women of child‐bearing age, 0303 health sciences, Nutrition and Dietetics, dietary reference intake (DRI), business.industry, Vitamin A Deficiency, Provitamins, Retinol, Infant, Staple food, Ripening, Musa, 04 agricultural and veterinary sciences, Middle Aged, medicine.disease, 040401 food science, Carotenoids, Vitamin A deficiency, Horticulture, chemistry, Agriculture, Dietary Reference Intake, Child, Preschool, Fruit, Democratic Republic of the Congo, Female, business, Agronomy and Crop Science, Food Science, Biotechnology, Research Article

Abstract

BACKGROUND Vitamin A deficiency (VAD) is widespread in sub‐Saharan Africa (SSA). Unlike in developed countries, where the main source of vitamin A comes from meat, the diet of poor populations in SSA is largely plant based. It is thus important to identify local / popular plants with higher vitamin A content for combating VAD. Banana (including plantains) is an important staple food crop in this region. The identification and promotion of vitamin A‐rich banana cultivars could contribute significantly to the alleviation of VAD in areas heavily dependent on the crop. We assessed pro‐vitamin A carotenoid (pVACs) content in the fruit pulp of 48 local plantains from eastern Democratic Republic of Congo, to identify cultivars that could help reduce VAD, especially among young children and women of reproductive age. RESULTS Mean pVACs content varied from 175–1756 μg/100 gfw in ripe fruits. Significant increases (P

Published

2019

31. Controlling Xanthomonas wilt of banana: Influence of collective application, frequency of application, and social factors on the effectiveness of the Single Diseased Stem Removal technique in eastern Democratic Republic of Congo

Author

Walter Ocimati, Guy Blomme, Mariam Bumba, Jules Ntamwira, Vutseme Lusenge, and Charles Sivirihauma

Subjects

0106 biological sciences, East African Highland bananas, Toxicology, 010602 entomology, Economic shortage, Biology, 01 natural sciences, Agronomy and Crop Science, Disease control, Plant disease, Control methods, 010606 plant biology & botany

Abstract

The continuous cutting of single diseased stems at soil level (Single Diseased Stem Removal - SDSR) reduces Xanthomonas wilt incidence from as high as 80% to below 2% within 3–4 months when applied weekly and collectively by all farmers within a village or landscape. However, various constraints (e.g. labour shortage, absentee farmers, perception on the effectiveness of the technology) may hamper frequent and collective SDSR application. The current study explored effects of varying the intensity of SDSR application in space (collective vs individual/isolated farm application) and frequency of application at mid-high elevations (1400–1800 m a.s.l.) dominated by east African highland bananas. In addition, farmer technology adoption or disadoption (i.e., tried out the technology and then [partially] adandoned it) levels, and the bottlenecks to SDSR application were assessed 6 and 12 months after close of study site, through a survey of farms that participated in the SDSR experiments in east Democratic Republic of Congo (DR Congo). Research results suggest that initial application of SDSR preferably needs to be carried out at regular intervals (i.e. at least weekly) during the first 3–4 months of application, to remove most of the Xanthomonas campestris musacearum (Xcm) inoculum from a field or landscape. This is valid for both collective and individual/isolated disease control approaches. After this phase of rigorous removal of inoculum, frequency of application could be reduced (e.g. to bi-weekly applications), in case e.g. labour is a constraint. With the exception of the weekly SDSR application, collective application relative to the isolated/individual application more rapidly reduced the XW infection levels. An isolated SDSR application compared to collective application did not significantly differ for the weekly SDSR application. Specific level/speed of success will hence mainly depend on frequency of SDSR application. For SDSR, the continuous appearance of diseased plants, even when numbers are very low, over an often large time period, is discouraging small-scale farmers who often want quick results. This is calling for continuous support and training of affected farm communities. Tool sterilization, one of the recommended SDSR package technologies was poorly applied across the sites due to damage caused to metal farm tools by fire. Novel approaches of tool sterilization thus need to be explored.

Published

2019

32. Effect of timing of diseased plant cutting, altitude and banana cultivar on efficacy of singly removing Xanthomonas wilt infected banana plants

Author

Guy Blomme, Walter Ocimati, Jules Ntamwira, and Liliane Bahati

Subjects

0106 biological sciences, 0301 basic medicine, East African Highland bananas, food and beverages, Plant Science, Horticulture, Biology, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Altitude, Nutrient, Xanthomonas, parasitic diseases, Shoot, Cultivar, Diseased plant, Agronomy and Crop Science, Control methods, 010606 plant biology & botany

Abstract

The single diseased stem removal (SDSR) technology (i.e. timely cutting of diseased banana plants) is an important Xanthomonas wilt (XW) control method being promoted in XW-endemic zones of east/central Africa. Proper SDSR application leads to quick field recovery. However, its efficacy on farms has been variable. For example, delayed cutting of diseased stems/plants is postulated to increase Xcm inoculum buildup and risk of infection in other physically attached shoots, while larger suckers were thought to be less reliant on the mother plants for nutrients and water thus being less susceptible than small suckers. Previous SDSR evaluations took place at mid-high altitudes dominated by east African highland bananas whereas low-lying altitudes especially dominated by ABB types exist, and this site and type is more prone to insect-mediated XW infections. This study hence determined effects of: i) timing of cutting symptomatic plants on recovery of mats, ii) size of attached suckers at infection on their susceptibility to infection, and iii) the efficacy of SDSR at an ABB banana dominated low altitude site. XW incidence in suckers increased with a delay in cutting of symptomatic mother plants, with lowest incidence (0.27%) observed when symptomatic plants were immediately cut upon symptom expression and highest (1.61%) when plants decayed in situ. The larger maiden (32.1% diseased shoots) and sword suckers (22.2%) were significantly more susceptible than the small peepers (7.4%). XW incubation period was shorter for the maiden suckers (4.5 to 6.2 months) compared to 8.9–11.3 months for sword suckers and 11.3 months for peepers. Immediate cutting of plants after first visible symptoms should be recommended to farmers, while additional studies to understand the low susceptibility of small peepers would be warranted. SDSR was observed to be as effective at the ABB banana dominated low altitude sites as previously reported for highland bananas and environments.

Published

2019

33. Seed degeneration of banana planting materials: strategies for improved farmer access to healthy seed

Author

M.-L. Iskra-Caruana, Kim Jacobsen, E. Alvarez, Miguel A. Dita, G. Blomme, Conny J.M. Almekinders, W. Tinzaara, P. L. Kumar, Walter Ocimati, Charles Staver, and Bonaventure Aman Omondi

Subjects

0106 biological sciences, 0301 basic medicine, Organisme transmissible par semence, seed-health, Nematoda, WASS, Plant Science, Ralstonia, 01 natural sciences, Drageon, santé des plantes, propagation, Banana streak virus, biology, systemicity, food and beverages, Fusarium wilt, Fusarium oxysporum, Virus bunchy top bananier, F02 - Multiplication végétative des plantes, Technologie and Innovatie, Knowledge Technology and Innovation, Kennis, Xanthomonas, Cosmopolites sordidus, Multiplication des plantes, Horticulture, 03 medical and health sciences, parasitic diseases, Genetics, Sucker, Transmission des maladies, Phytosanitary certification, H20 - Maladies des plantes, Abiotic stress, Sowing, Musa, biology.organism_classification, H10 - Ravageurs des plantes, infection, Banana bunchy top virus, 030104 developmental biology, Agronomy, suckers, Agronomy and Crop Science, Kennis, Technologie and Innovatie, Offset (botany), 010606 plant biology & botany

Abstract

Vegetatively propagated crops suffer from yield loss and reduced stand density and longevity caused by the build‐up of certain pests and pathogens between successive plantings via infected planting material. Here, six seedborne phytosanitary problems of banana are reviewed to evaluate whether a seed degeneration framework is a useful tool to identify approaches to achieve healthier planting materials. Phytoparasitic nematodes and weevils generate gradual declines in yields and in sucker health. Fusarium wilt and banana bunchy top virus cause progressive mat collapse across the field. Symptomless suckers from any mat in infested fields represent a risk of transmitting the disease to a new field. Xanthomonas and ralstonia wilts, due to incomplete systemicity, are intermediate in their threat to yield loss and frequency of transmission in suckers. Losses to banana streak virus are triggered by abiotic stress, although sucker transmission of episomal banana streak virus also contributes. A qualitative equation described here for seed degeneration covers a cycle beginning with the quality and risk factors of the planting material used to plant a new field and ends with the quality and risk factors of the suckers extracted from the field to plant a new field. This review of five planting material multiplication methods commonly used in banana contrasts their differing usefulness to address seed degeneration in the small farm context. It is proposed that initiatives to offset banana seed degeneration should integrate the role of off‐farm actors into decentralized initiatives rather than attempt to duplicate national seed certification frameworks from other true seed or vegetatively propagated crops.

Published

2019

34. Farmer Friendly Options for Sterilizing Farm Tools for the Control of Xanthomonas Wilt Disease of Banana

Author

Guy Blomme, Walter Ocimati, and Anthony Fredrick Tazuba

Subjects

0106 biological sciences, Resource poor, 0303 health sciences, Laundry, sodium hypochlorite, Plant culture, Positive control, Central africa, Negative control, Agriculture, Sterilization (microbiology), Pulp and paper industry, 01 natural sciences, SB1-1110, hot water, 03 medical and health sciences, detergent, soap, Environmental science, bacteria, tool sterilization, 030304 developmental biology, 010606 plant biology & botany, Wilt disease

Abstract

The adoption of tool sterilization using either 3.5% sodium hypochlorite (household bleach) or fire, a core element of the cultural control packages for Xanthomonas wilt (XW) of banana has been poorly adopted hampering XW control in East and Central Africa. Household bleach is costly and not accessible to the rural poor while repeated heating weakens metal blades of garden tools (machetes, knives, and hoes). Identification of economically viable tool sterilization options is thus crucial for XW management. We explored a range of practices including tool insertion for varying time periods into cold and hot ash, fire and boiling water; tool exposure over varying time periods to the sun while under black or transparent plastic sheets; and washing tools with cold water and laundry soap or detergent. Cleaning with household bleach served as a negative control while uncleaned tools as positive control. Like for household bleach, no Xanthomonas vasicola pv. musacearum (Xvm) the causal agent of XW was recovered from tools washed with cold water and different laundry soaps or detergents. Culturing Xvm in varying detergent and soap concentrations (0.00125–0.035 g/mL), only resulted in growth at lower concentrations of 0.00125 and 0.0025 g/mL. The cleaning effect of soap could thus be due to both an anti-bacterial effect and dislodgment of bacteria from tools. Laundry soaps/detergents are cheaper than household bleach and used for various purposes within and across households, including the resource poor and rural households, hence a cheaper and convenient tool sterilization alternative. Tool insertion into boiling water was effective from the 40th second and thus a viable alternative. Heating tools in fire required up to a minute to clear all bacteria. The currently recommended 20–40 s heating could thus be inadequate. Repeated heating for 1 min may also damage tools. Other practices (washing with cold water only, use of solar radiation, repeatedly and forcefully inserting tools into the soil, tool insertion into hot and cold ash for up to 5 min) only reduced Xvm populations on tools, thus not independently recommended. We recommend expanding the tool sterilization options to include washing with soap/ detergents and tool insertion into boiling water for at least 1 min.

Published

2021

35. The Integration of Shade-Sensitive Annual Crops in Musa spp. Plantations in South Kivu, Democratic Republic of Congo

Author

Walter Ocimati, Elizabeth Kearsley, Antoine Kanyenga Lubobo, Nancy Safari, Daniel Amini, Boaz Waswa, Guy Blomme, Jules Ntamwira, and Liliane Bahati

Subjects

0106 biological sciences, Canopy, Amaranth, Biology, whole field productivity, 01 natural sciences, lcsh:Agriculture, chemistry.chemical_compound, Yield (wine), Cultivar, intensification, Biomass (ecology), biomass, lcsh:S, 04 agricultural and veterinary sciences, food crops, banana, Agronomy, chemistry, 040103 agronomy & agriculture, Nitrogen fixation, 0401 agriculture, forestry, and fisheries, Soil fertility, Agronomy and Crop Science, Cropping, 010606 plant biology & botany

Abstract

Small-holder banana fields are often intercropped with various annual crops to optimize land-use in East and Central Africa, a practice severely constrained by light availability under the banana canopy. Light availability is not a major constraint in newly established banana fields, giving a window of opportunity to target light-demanding annual crops before shifting to more shade-tolerant crops. This study investigated the performance of climbing and bush beans and the vegetable amaranth in banana fields with varying shade levels across three sites in the South Kivu province, DR Congo. These crops were selected for their highly nutritious and good market value and the added benefit of nitrogen fixation for the legumes. We show that both grain legumes and vegetable amaranth can achieve reasonable yields during a first annual cropping season in newly established banana fields, irrespective of the plant density. Declines in yield occurred during a second cropping season in more densely spaced banana fields (2 × 2 m and 2 × 3 m). A greater decline occurred in amaranth and its cultivation should be limited to the first annual cropping season or to less dense banana fields. The legumes could be extended to a second cropping season with reasonable yield. Significant variability in amaranth and legumes performance was observed across sites, with rapid yield declines occurring under more fertile soil conditions due to fast banana growth/canopy formation and under more vigorous cultivars. The choice of banana spacing will need to be tailored to the banana cultivar, soil conditions and the farmers’ objectives.

Published

2021

36. Sensitivity and Tolerance of Different Annual Crops to Different Levels of Banana Shade and Dry Season Weather

Author

Nancy Safari, Jules Ntamwira, Walter Ocimati, Daniel Amini, Guy Blomme, Elizabeth Kearsley, and Liliane Bahati

Subjects

0106 biological sciences, 0301 basic medicine, Mucuna, Canopy, lcsh:TX341-641, cover crop, Horticulture, Management, Monitoring, Policy and Law, 01 natural sciences, 03 medical and health sciences, Dry season, Cover crop, intensification, Shade tolerance, mucuna, Global and Planetary Change, biomass, lcsh:TP368-456, Ecology, biology, Monocropping, Intercropping, Democratic Republic of Congo, biology.organism_classification, lcsh:Food processing and manufacture, banana, 030104 developmental biology, Agronomy, Shading, lcsh:Nutrition. Foods and food supply, Agronomy and Crop Science, 010606 plant biology & botany, Food Science

Abstract

Intercropping in small-holder production systems in East and Central Africa is very common and offers potential for significant yield and environmental benefits. However, the reduced light availability under banana canopies constrains the success of the intercrop in banana systems. Determining a balance between the optimal spacing/densities of banana plants with optimized intercrop selection based on their sensitivity and tolerance to shade is imperative. This study, through extensive field experiments performed in South Kivu, DR Congo investigated the resilience of a wide range of food and forage crops to varying banana shade levels. The same crop species grown as monocrops served as controls. Quantitative yield assessments showed yam, sweet potato, ginger and forage grasses to have a good potential to grow under moderately dense to dense banana fields. Taro, soybean, mucuna, chili, eggplant, and Crotalaria sp. performed well in sparsely spaced banana fields with moderate shading. Cassava and soybean showed limited tolerance to shade. Intercropping in banana systems is also generally confined to the rainy seasons due to the high sensitivity of most annual intercrops to long dry weather in the dry season months. We also thus assessed the sensitivity of chickpea and mucuna to the long dry weather of the dry seasons and found them to have great potential for extending farming production into the dry season. Overall, we show that careful selection and allocation of crops with varying sensitivity to various banana shade levels and dry season weather can potentially increase whole field productivity.

Published

2020

37. Collection and evaluation of banana and plantain landraces in Africa

Author

Guy Blomme, J.G. Adheka, Eldad Karamura, Charles Sivirihauma, Walter Ocimati, D. B. Dhed'a, and D. Karamura

Published

2020

38. Responding to future regime shifts with agrobiodiversity : A multi-level perspective on small-scale farming in Uganda

Author

Enoch Kikulwe, Jeroen C.J. Groot, Walter Ocimati, Elisabetta Gotor, Tamar de Jager, and Marta Kozicka

Subjects

010504 meteorology & atmospheric sciences, Natural resource economics, media_common.quotation_subject, Integrated modelling, 01 natural sciences, Banana disease, Smallholder farmer, Revenue, Climate change, Regime shift, Vulnerability and resilience, 0105 earth and related environmental sciences, media_common, Adaptive capacity, business.industry, Impact assessment, Agricultural biodiversity, food and beverages, Farm Systems Ecology Group, 04 agricultural and veterinary sciences, PE&RC, Crop diversity, Agriculture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, Business, Psychological resilience, Agronomy and Crop Science

Abstract

We analyse the impact of two large-scale regime shifts caused by disease incidence or climate change, and associated crop productivity and price changes, on banana-based smallholders in Uganda. We evaluate these farmers' vulnerability and assess the potential of using increased crop diversity to improve their resilience. We further explore trade-offs and synergies between environmental, economic and nutritional outcomes faced by the farmers in their decision making when a regime shift occurs. We simulate the large-scale scenarios with the IMPACT model and use the results obtained to assess their effect at the local level using the bio-economic farm-household model, FarmDESIGN. Our results indicate that climate change can lead to a regime shift that expands revenue variance, increases soil erosion and reduces vitamin A yield for farmers. Banana disease can negatively impact income levels and species diversity. We show that under both scenarios farmers have scope to reconfigure their farms and recover farm performance. Specifically, we discuss the benefits of species diversity; increasing agrobiodiversity by adding new crops increases the farm's adaptive capacity and resilience, allowing for much higher revenues, on-farm crop diversity and vitamin A production. The conceptual approach and the method we developed can be applied to assess the local synergies and trade-offs between crop diversity conservation, nutrition, environmental protection and human nutrition that farmers face as a result of global drivers. Our results offer a further understanding of how biodiverse systems respond to regime shifts, which can inform effective policy design. Our method can be also useful to help farmers manage their farms in a way to better meet their complex needs.

Published

2020

39. The performance of a wide range of plantain cultivars at three contrasting altitude sites in North Kivu, Eastern Democratic Republic of Congo

Author

L. Vutseme, Charles Sivirihauma, David Turner, Guy Blomme, and Walter Ocimati

Subjects

Plant growth, Yield, Latin Americans, Agroforestry, Range (biology), media_common.quotation_subject, Temperature, Staple food, Farm Systems Ecology Group, Musa, Horticulture, PE&RC, Democracy, Crop, Altitude, Geography, Pro-Vitamin A carotenoid, parasitic diseases, Cultivar, Agronomy and Crop Science, Food Science, media_common

Abstract

Plantains (Musa spp., plantain subgroup in the AAB genome group), an important staple food and income crop for millions of people in Africa and Latin America, grow best at lower elevations (

Published

2020

40. Agroecological integration of shade- and drought-tolerant food/feed crops for year-round productivity in banana-based systems under rain-fed conditions in Central Africa

Author

Jeroen C.J. Groot, Walter Ocimati, Déo Kantungeko, Guy Blomme, Liliane Bahati, Pablo Tittonell, Roseline Remans, and Jules Ntamwira

Subjects

0106 biological sciences, 0301 basic medicine, Wet season, biology, ved/biology, Drought tolerance, ved/biology.organism_classification_rank.species, Horticulture, biology.organism_classification, 030112 virology, 01 natural sciences, 03 medical and health sciences, Light intensity, Agronomy, Dry season, Pueraria phaseoloides, Soil fertility, Cover crop, Colocasia, 010606 plant biology & botany

Abstract

Yield gaps in banana-based production systems have increased in the past two decades due to declining soil fertility, drought and biotic stresses. Sustainable, environmentally sound and economically viable strategies for intensification in these systems are urgently needed. Agroecological practices, such as the integration of shade- and drought-tolerant crops, nitrogen-fixing and cover crops could potentially improve soil fertility and moisture retention, reduce the weed burden, narrow yield gaps and increase overall plot/farm productivity in these systems. In Malaysia, leguminous crops like Pueraria phaseoloides, Calopogonium caeruleum and Centrosema pubescens are often cultivated as cover crops (to suppress weeds, and reduce moisture loss and soil erosion) in young rubber and oil palm plantations with low shade levels. Even in mature oil palm plantations with less than 30% light intensity, various shade-tolerant crops are grown, e.g., elephant foot yam, turmeric and arrow root. In humid tropical Africa, Colocasia (taro) and Xanthosoma (cocoyam) are reported to tolerate shade conditions and hence often planted under perennial banana/plantain plantations. Drought tolerance is a less common feature of most annual crops grown in the humid tropics. A few root and tuber crops (e.g., cassava, taro, yam and sweetpotato) remain in the field during the dry season in Central Africa and are then harvested according to household needs. This paper also reports on crops (Mucuna, lablab and chickpea) with potential for integration into banana-based systems during the dry season, if planted during the last month of the rainy season. These crops are reported to use the residual soil moisture content for continued growth during the dry season months. The paper concludes with detailed descriptions (from a literature review) on drought- and shade-tolerance characteristics of various crops which have long been integrated in Central African banana-based cropping systems, crops with a more recent cultivation history and crops with potential for system integration.

Published

2018

41. Effects of Xanthomonas wilt and other banana diseases on ecosystem services in banana-based agroecosystems

Author

Walter Ocimati, Jeroen C.J. Groot, Godfrey Taulya, Guy Blomme, and Pablo Tittonell

Subjects

0106 biological sciences, Agroecosystem, Agroforestry, 04 agricultural and veterinary sciences, Horticulture, Diversification (marketing strategy), 01 natural sciences, Plant disease, Ecosystem services, Crop, Geography, Sustainability, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Cover crop, Cropping, 010606 plant biology & botany

Abstract

Banana plantations are multifunctional agroecosystems that besides their main provisioning service also deliver a range of supporting, regulatory and cultural services that are largely unvalorized. Banana is perennial in nature with plantations as old as 50 years reported in the African Great Lakes region. Banana is cultivated in a wide range of agroecologies (from sea level to 2400 m a.s.l.) and cropping systems, where it contributes to various ecosystem services (ES). These include regulating soil erosion, water cycles and quality, and nutrient recycling. However, the outbreak of Xanthomonas wilt of banana (XW) along with some of its management practices, such as uprooting mats/entire fields, is devastating banana production and rendering landscapes bare and prone to degradation. Yet this process is also leading to diversification of agroecosystems in over 70% of farms in the African Great Lakes region with unknown but potentially positive consequences for resilience and adaptation, as well as for local diets. The sustainability of these alternative land-uses is variable. This study reviews the different services offered by banana plantations and the impacts, positive or negative, that XW-driven diversification may have on these services. It suggests the need to consider explicitly the consequences of pests and diseases for the full range of ES provided by the crop and an ES-broad framework for estimation of losses, and planning resources and strategies for disease management. The study also suggests strategies, such as incorporation of shade- and drought-tolerant cover crops, hedges and agroforestry trees, to augment the supply of key ES within XW-affected agroecosystems/landscapes.

Published

2018

42. Ecologically sustainable technologies for management of highland banana pests in East and Central Africa

Author

W. Tinzaara, Walter Ocimati, Eldad Karamura, and Jerome Kubiriba

Subjects

Geography, Agroforestry, Central africa, Horticulture

Published

2018

43. Spent Pleurotus ostreatus Substrate Has Potential for Managing Fusarium Wilt of Banana

Author

Anthony Fredrick Tazuba, Evans Were, Miguel Dita, Guy Blomme, Sijun Zheng, and Walter Ocimati

Subjects

Microbiology (medical), Fusarium, QH301-705.5, Inoculation, Fusarium oxysporum f. sp. cubense, fungi, food and beverages, basidiomycetes, Corm, Fusarium oxysporum f.sp. cubense, Plant Science, Biology, biology.organism_classification, spent mushroom substrates, Fusarium wilt, corm damage, Horticulture, Fusarium oxysporum, biocontrol, Pleurotus ostreatus, Cultivar, Biology (General), metabolites, Ecology, Evolution, Behavior and Systematics

Abstract

A range of basidiomycetes including the edible mushroom Pleurotus ostreatus (Po) can suppress plant pathogens such as Fusarium spp. With the current increase in production and consumption of Po in Uganda, the spent Po substrate (SPoS) could be an alternative to manage Fusarium wilt of banana (FWB), caused by the soil borne pathogen Fusarium oxysporum f. sp. cubense, race 1 (Foc). This study determined the potential of SPoS to inhibit Foc in vitro and in potted plants. In vitro studies confirmed suppression of Foc in pure co-culture (Po vs. Foc) assays and media amended with different concentrations (0% to 50% w/v) of un-sterilized SPoS filtrates. Foc growth in the sterile SPoS filtrate was comparable to the water control, suggesting possible roles of biotic or thermolabile components of the SPoS. To further verify the suppressive effects of SPoS, pot experiments were carried out with a resistant (‘Mbwazirume’, AAA) and susceptible (‘Sukali Ndizi’, AAB) banana cultivar using both artificially and naturally infested soils. Independent of the inoculation method, SPoS significantly reduced the severity of FWB in pot experiments. Susceptible cultivar ‘Sukali Ndizi’ growing in substrates amended with SPoS showed lower (1.25) corm damage (Scale 0–5) than the un-amended control (3.75). No corm damage was observed in uninoculated controls. The resistant cultivar ‘Mbwazirume’, showed slight (0.25) corm damage only in the Foc-inoculated plants without SPoS. These findings suggest that SPoS could be used as part of the management practices to reduce the impact of FWB.

Published

2021

44. Banana pest risk assessment along banana trade axes running from low to high altitude sites, in the Eastern DR Congo and in Burundi

Author

Guy, Blomme, primary, Walter, Ocimati, additional, Serge, Amato, additional, Alexandra, zum Felde, additional, Muller, Kamira, additional, Mariam, Bumba, additional, Liliane, Bahati, additional, Daniel, Amini, additional, and Jules, Ntamwira, additional

Published

2020

45. A literature review on yield gaps of various root, tuber and banana crops as a background for assessing banana yield reductions due to pests and diseases at a field site in western Burundi

Author

Guy, Blomme, primary, Walter, Ocimati, additional, Alexandra, Zum Felde, additional, David, Amwonya, additional, and Deo, Kantungeko, additional

Published

2020

46. Diversity and morphological characterization of Musa spp. in North Kivu and Ituri provinces, Eastern Democratic Republic of Congo

Author

Charles Sivirihauma, Bonaventure Ibanda, Muller Kamira, Deborah Karamura, Walter Ocimati, Benoît D. Dhed'a, J.G. Adheka, Kambale Valimuzigha, and Guy Blomme

Subjects

0106 biological sciences, East African Highland bananas, media_common.quotation_subject, Biodiversity, Forestry, 010603 evolutionary biology, 01 natural sciences, Geography, Environmental protection, Cultivar, Genetic erosion, 010606 plant biology & botany, Diversity (politics), media_common

Abstract

Eastern Democratic Republic of Congo constitutes an area where the East African Highland bananas (Musa-AAA-EA) and plantains (Musa-AAB) meet. However, Musa diversity in this region has never been characterized nor represented in national or international collections, yet increasing human activities and build-up of pests and diseases, especially Xanthomonas wilt of banana and banana bunchy top disease, could negatively affect this diversity. This study assessed, collected and morphologically characterized on-farm Musa diversity in the North Kivu and Ituri provinces. Musa accessions collected were added to the UCG-Butembo in situ field collection. A total of 90 and 150 farms were assessed, respectively, in the North Kivu and Ituri provinces. High Musa variability was observed in both provinces. Forty-one cultivars (six presumed new) were identified in Ituri Province compared to 38 cultivars (13 presumed new) in North Kivu Province. Nineteen cultivars occurred in both provinces. Beni and Lubero territories in North Kivu and Mambasa territory in Ituri Province had greater Musa diversity, varying between 27 and 38 cultivars, approximately double of the number of cultivars observed in the other territories. Twenty-three of the 34 Musa descriptors contributed more to the discrimination of the cultivars identified across the provinces and were therefore used for grouping the cultivars using principal component analysis (PCA). The Morisita index of similarity between Ituri Province and North Kivu Province territories was less than 0.5, suggesting dissimilarity in diversity between these sites. Six cultivars: ‘Kirisirya’, ‘Pakuma’, ‘Nziravahima’, ‘Vuhindi’, ‘Tundu’ and ‘Kisubi musa’ were reportedly at risk of genetic erosion. Key words: Banana, conservation, cultivars, ex-situ, genetic erosion, genotypes, plantain.

Published

2017

47. Multi-locational evaluation of cooking banana cultivars NARITA 4 hybrid and Mpologoma in Rwanda

Author

Walter Ocimati, R. Crichton, Perez Muchunguzi, Guy Blomme, Liliane Bahati, Svetlana Gaidashova, Jules Ntamwira, P.J.A. van Asten, and O. Ndayitegeye

Subjects

060201 languages & linguistics, Crop, Germplasm, Agronomy, Yield (wine), 0602 languages and literature, 06 humanities and the arts, Cultivar, General Agricultural and Biological Sciences, Cropping, Mathematics, Crop cycle

Abstract

This study assessed the growth and yield of two introduced cooking banana cultivars ‘Mpologoma’ and ‘NARITA 4’ relative to seven local highland cooking cultivars, across three sites in Rwanda, namely Karongi (1496 m a.s.l.), Gatore (1523 m a.s.l.) and Rwinzuki (1671 m a.s.l.). Data were obtained during two cropping cycles (plant crop cycle and the 1st ratoon). Data on pseudostem girth (cm) at 100 cm above the ground was collected at flowering, while number of hands per bunch, number of fingers of the second lowest hand and bunch weight (kg) were obtained at bunch harvest. Significant differences for all assessed growth and yield parameters were observed between cultivars (p

Published

2017

48. Symptomless banana suckers sourced from Xanthomonas wilt infected fields are a viable alternative for seed within infected banana-based landscapes lacking access to clean planting materials

Author

Lilliane Bahati, Walter Ocimati, Guy Blomme, Lusenge Vutseme, Charles Sivirihauma, and Jules Ntamwira

Subjects

0106 biological sciences, biology, food and beverages, Central africa, Sowing, 04 agricultural and veterinary sciences, biology.organism_classification, 01 natural sciences, Xanthomonas campestris, Limited access, Horticulture, Combined treatment, Agronomy, Xanthomonas, Rouging, South kivu, parasitic diseases, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, General Agricultural and Biological Sciences, 010606 plant biology & botany

Abstract

Xanthomonas wilt (XW) caused by Xanthomonas campestris pv. musacearum (Xcm) is an important constraint to banana production in East and Central Africa. The use of clean planting materials (CPM) for establishing new fields/ re-planting rouged fields/mats is recommended. However, banana is mainly produced by resource-poor small-holder households with no/limited access to CPM. We assessed XW incidence in fields planted with symptomless suckers sourced from fields with >70% XW incidence and the role of Xcm-soil inoculum on XW persistence in North Kivu Province, eastern DR Congo. Symptomless suckers were planted in i) fields previously with banana having >70% XW incidence, 10 days after rouging and ii) fields previously under grass fallow. Symptomless suckers planted in fields previously under grass fallow served as checks. To contrast, healthy suckers and healthy macro-propagated plantlets were established in similar field typologies. Each treatment combination had three replicates of 30 plants. Additional experiments established in September, 2014 in South Kivu Province using symptomless suckers from fields with incidence levels varying from 1 to 90% assessed the reproducibility of the North Kivu results. In the North Kivu trials and when using symptomless suckers, relatively low cumulative XW plant incidences of 3.6 and 4.2% were recorded in fields previously under grass fallow and fields with >70% initial XW-incidence, respectively. The resulting fields were well established, suggesting that suckers sourced from diseased fields could potentially be used in zones with no access to CPM. Even lower incidences (0 to 0.28%) recorded in South Kivu further support this. Plant incidences of 1.8 and 2.9% were respectively observed in previously diseased fields planted with healthy macro-propagated plantlets and healthy suckers compared with zero incidence levels in the disease-free fields, confirming the role of residual Xcm-soil inoculum in infections. Key words: Disease incidence, macro-propagated plantlets, Musa, Xanthomonas campestris pv. Musacearum.

Published

2017

49. Diversity of cultural practices used in banana plantations and possibilities for fine-tuning: Case of North Kivu and Ituri provinces, eastern Democratic Republic of Congo

Author

Charles Sivirihauma, Guy Blomme, Muller Kamira, Mariamu Bumba, Jules Ntamwira, Lusenge Vutseme, Walter Ocimati, and Kambale Valimuzigha

Subjects

0106 biological sciences, Banana Xanthomonas wilt, biology, Agroforestry, Intercropping, biology.organism_classification, medicine.disease, Weed control, 01 natural sciences, Staking, Crop, 010602 entomology, Geography, Environmental protection, medicine, Cultural methods, General Agricultural and Biological Sciences, Mulch, Cropping, 010606 plant biology & botany

Abstract

Diverse cultural practices have been communicated to and/or applied by resource-poor households over the past two decades to improve the overall farm health and crop tolerance to biotic/abiotic factors. This study assessed the current diversity and use of cultural practices on banana fields in Ituri and North Kivu provinces, eastern Democratic Republic of Congo (DR Congo). Interview schedules coupled with farm diagnosis were used to take stock of cultural practices. Farmers’ choice of banana cultivars was mainly influenced by bunch size, demand/price, pulp flavor/taste, and juice quality. Availability of planting materials and the lifespan of mats were also important. In contrast, drought tolerance, soil fertility conditions, length of production cycle, and pest and disease resistance were not highly considered. Suckers were the predominant type of planting material used. Banana-bean (in 15 to 39% of farms) and banana-taro-bean (18 to 30%) were the dominant intercrops. Staking of banana plants with bunches was applied by 94 to 95% of the respondents, possibly due to the perceived immediate benefits from bunches. Cutting of green leaves to among other things improve sunlight penetration for legume intercrops which was practiced by 74 to 85% of the farmers. This practice has greatly contributed to the perpetuation of banana Xanthomonas wilt disease (XW) in the region. Male bud removal was applied in 55 to 66% of farms to control XW and improve bunch size. However, 38 to 51% of these farmers de-budded after the recommended time. Other common cultural practices included de-suckering, pseudostem use for mulch and weeding. Strategies for safe application of some of the practices such as weeding, leaf cutting, de-trashing and in light of diseases such as XW are recommended. In addition, some practices such as mulching and male bud removal are knowledge intensive, while others such de-suckering have no immediate perceived benefits to farmers, thus the need to strengthen knowledge extension to enhance their adoption. Key words: Cropping, cultivars, cultural practices, de-budding, de-leafing, de-suckering.

Published

2017

50. A control package revolving around the removal of single diseased banana stems is effective for the restoration of Xanthomonas wilt infected fields

Author

Guy Blomme, Javier M. Ekboir, Bumba Mariamu, Jules Ntamwira, Boudy van Schagen, Lusenge Vutseme, Walter Ocimati, Muller Kamira, and Charles Sivirihauma

Subjects

0106 biological sciences, business.industry, Symptom development, food and beverages, Central africa, Sowing, 04 agricultural and veterinary sciences, Plant Science, Horticulture, Biology, biology.organism_classification, 01 natural sciences, Xanthomonas campestris, Plant disease, Biotechnology, Toxicology, Xanthomonas, Control option, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Cultural methods, business, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Xanthomonas campestris pv. musacearum, the causal agent of Xanthomonas wilt of banana (XW), does not infect or cause symptom development in all physically attached shoots in an infected mat. Incomplete/partial systemicity and latent infections often occur. The single diseased stem removal (SDSR, the removal of only symptomatic plants) technique depends on these observations. The SDSR technique, as an alternative or complementary practice to complete mat uprooting (CMU) for XW control, was evaluated at eight XW pilot sites in eastern Democratic Republic of Congo as a novel control option. This technique is low-cost, simple and easily applicable. Within one month, XW plant incidence at the experimental sites declined to below 10%, while within three and 10 months declined to below 2% and 1%, respectively. Restoration of banana plots was observed even in plots that initially had over 80% plant disease incidence. CMU removes a larger portion of the inoculum in a field but is very tedious, time consuming and costly in terms of labour and lost production, due to the premature cutting of symptomless plants that potentially could bear a bunch. CMU can potentially prevent further spread when XW appears for the first time on a farm or location. The choice of CMU relative to SDSR also depends largely on farming objectives. CMU can be carried out in intensive and market-oriented production systems, whose ultimate target is eradication, for example, in South-Western Uganda. In contrast, SDSR is more appealing to subsistence-oriented production, such as in eastern DR Congo, Burundi or central Uganda, whose target is more oriented towards management/control. SDSR can be suggested where access to clean planting material is difficult, thus could be recommended to a very large percentage of small-scale farmers in the currently affected banana-based production systems in east and central Africa.

Published

2017