Crop For Farmers Research Articles

Comparative Analysis of Yield and Fibre Traits in Newly Developed Bt and Non-Bt Cotton Hybrids

Aims: Cotton is a major fibre crop for textile industry and farmers in the world. Despite its tremendous importance, productivity constraints are still present. To eliminate productivity problem and increase the yield, the present investigation focused on developing new Bt cotton hybrids with better yield and fibre characteristics through estimation of heterosis in different combination of Bt and Non Bt parents. Study Design: Randomized block design with three replication was used to conduct the experiment. Place and Duration of Study: The experiment was conducted at Cotton Research Unit, Dr. PDKV, Akola, Maharashtra, during Kharif 2019 & 2020. Methodology: The five diverse parents were crossed with one another as making four crosses of Bt x Bt parents and four crosses of Non-Bt x Bt parents. Eight F1 hybrids then were evaluated for heterosis performance for different morphological, yield, yield contributing traits and fibre traits with standard checks i.e. PDKV JKAL 116 and Ajeet 155 in Kharif 2020. Results: Results showed that for seed cotton yield (kg/ha), the cross AKH 09-5 × ICAR-CICR Rajat Bt recorded highest 12.30% standard heterosis over the check PDKV JKAL 116. Significant standard heterosis of 35.83% and 34.36% was observed for no. of bolls per plant over both the checks. While the cross ICAR-CICR 081 Bt × ICAR-CICR Rajat Bt was found to be most heterotic for fibre parameters. Conclusion: It was found that the Non-Bt × Bt crosses performed better for yield and its contributing trait than Bt × Bt crosses, while Bt × Bt crosses did gave good results for fibre quality parameters. Understanding the genetics behind, can be beneficial for the farming community.

Evaluation of variability and principal component analysis in segregating populations of groundnut (Arachis hypogaea L.)

Groundnut is a favourable and profitable crop for resource-poor farmers in Africa and Asia, both for edible oil production and direct consumption. There is significant potential to breed high-yielding, better-quality groundnut cultivars by generating new variations through artificial techniques. In this study, the F2 generations of the crosses CO 7 × Chico and ICGV 07222 × Chico was analysed to assess the variability created through artificial hybridization in groundnut. The various yield and yield-related traits were analysed to estimate genetic parameters, skewness, kurtosis and subjected to principal component analysis (PCA). The variability study of the F2 population from both crosses revealed significant variations for the traits under study. The traits “days to accumulation of 25 flowers” and “shelling %” showed low GCV (genotypic coefficient of variation) and PCV (phenotypic coefficient of variation) in both populations. Most traits exhibited moderate to high heritability and genetic advance, whereas “days to accumulation of 25 flowers” and “maturity duration” had moderate heritability and low genetic advance. Only shelling % had low estimates of heritability and genetic advances. Tests for skewness and kurtosis revealed that both F2 population did not follow a normal distribution. The traits “days to maturity”, “shelling %”, “kernel yield,” and “hundred kernel weight” displayed significant positive skewness. The traits “days to accumulation of 25 flowers”, “number of matured pods”, “height of main axis”, “shelling %”, “hundred pods” and “hundred kernel weight” and “pod yield” showed platy- kurtosis, while “Kernel yield” displayed lepto-kurtosis in both populations. The first principal component explained 37 % and 32 % of the total variance in the 2 F2 populations respectively, with a focus on yield-related traits. The PCA biplot effectively clustered the genotypes based on the 10 different traits studied and clearly, grouped the population based on maturity duration. Thus, hybridization created significant variation in groundnut for all yield-related traits and yield, except for “days to maturity”. The traits require further enhancement using additional sources and could be improved through intense selection.

Influence of Farmer’s Income Level on Adoption of Agricultural Water Management Practices among Smallholder Farmers in Rongai Sub-county, Kenya

Water is a resource that cannot be replaced and can only be renewed if it is well managed. It is basic for all forms of life, for every aspects of socio-economic development, and for the maintenance of a healthy ecosystem. Agriculture is the biggest water user globally, accounting for 70 percent of total water withdrawals on average. There are different practices that can aid in managing water used for agriculture. Some of these agricultural water management practices are; rainwater harvesting, irrigation, organic farming, and use of drought resistant crops. Farmer’s decision to either adopt or reject these practices can be affected by several factors, some of which are socio-economic. Some of the socio-economic factors that may influence adoption of these practices include farmer’s educational level, income level and farm size. This study examined the influence of farmer’s income level on adoption of agricultural water management practices (Rainwater harvesting, Irrigation Drought resistant crops). Cross-sectional survey design was adopted, while proportionate and simple random sampling technique was used to obtain the respondents. The accessible population was 6,230 smallholder farmers from the target population of 26,804 smallholder farmers in Rongai sub county Kenya. The study was done in August 2023 to November 2023.The study included 120 smallholder farmers in Rongai Sub County. The study used questionnaire to collect data while binary logistic regression was used to analyze the data. The results indicated that adoption of agricultural water management practices is low, only 36% of smallholder farmers had adopted agricultural water management practices. The P value calculated for the 120 smallholder farmers was P=.033 which is < than .05 and therefore the null hypothesis was rejected concluding that in this study income level had statistically significant influence on adoption of agricultural water management practices among smallholder farmers in Rongai sub-county in Nakuru ,Kenya. The findings may help in emphasizing the necessity of assisting farmers in removing financial obstacles that may hinder adoption of agricultural water management practices.

Влияние на две системи на земеделие върху продуктивността и биохимичните качества на лимец и ръж

The experiment was conducted in the period 2019 - 2022 in the experimental field of the Institute of Agriculture in Karnobat. The aim of the research was to determine the influence of two farming systems - organic and conventional on the productivity and biochemical characteristics of rye (Secale cereale L.) and triticale (Triticum monococcum L.). The crop structure and grain yield of rye and einkorn grown in different farming systems depend not only on the studied factor, but also on weather conditions during the growing season of the crops. Organic farming of both crops promotes the formation of higher number of spike-bearing stems compared to conventional farming. We believe that this is a compensatory mechanism, especially under unfavorable climatic conditions. In the case of organically grown rye and einkorn, the plant height, spike length, number of grains in the spike, mass of the grain in the spike were lower than the conventional ones. For organically grown einkorn, despite differences in agro-meteorological conditions, spike length remained stable over the years, but was 18% shorter than that of conventional. The biochemical parameters of the crops differ according to the cultivation method, with conventional rye having a higher percentage of crude protein and lower ash values compared to organic. The lysine content is almost the same in both cultivation methods, but the percentage of crude fiber is higher in conventional farming. Despite lower crude protein levels, organically grown einkorn showed greater stability in ash and fiber content over the years, as well as higher lysine content.

Nilai Ekonomi Pengelolaan Hutan Lindung Blok Kawae KH. Maria/RTK 25 BKPH Maria Donggomasa Dinas LHK Provinsi NTB

One part of the Sari watershed, which was a strategic area for Bima City, was the Kawae Block protected forest area. This forest area acted as a catchment area for the Bima City Region and supports the lives of the people of Wawo, Bima Regency and its surroundings. In the last decade, the Kawae Block protected forest area has come under pressure from vulnerability in several ways, especially pressure from destruction due to illegal logging and encroachment on forest areas for farming of seasonal crops (corn). The aim of this research were to analyze the factors that directly cause damage and the economic value of damage as well as the economic value of potential natural resources in the Kawae Block Protected Forest Area. This research was conducted in the Kawae KH Block Protected Forest Area. Maria/RTK 25 BKPH Maria Donggomasa Provincial LHK Service. NTB with an area of 1,500 hectares. The sample used was 210 respondents. The variables used in this research were the price value of NTFPs and the price value of water to calculate the value of direct benefits of forest areas, ecological benefits, flood control and carbon emission reduction/carbon credits to calculate the value of indirect benefits of areas and the value of biodiversity to calculate the value of selected benefits. Data analysis was carried out for regional economic valuation using the total economic value valuation method (Total Economic Value). The research resulted in the factors that directly cause damage to the area; they were land burning, encroachment on areas for agricultural land for seasonal crops/corn, excessive community management, rosewood theft/illegal logging and opening of farming roads. Meanwhile, the total economic value of the HL Kawae Block area was IDR. 61,135,306,500,-. The economic value resulting from sustainable forest management is much more profitable than the results of cultivating seasonal crops (especially corn).

Impact of Weather Parameters on the Population Fluctuation of Major Sucking Pest in Summer Mung Bean [Vigna radiata (L.) Wilczek

Background: Mungbean may be grown in an extensive range of agro climatic zones in India and across the world. It is a crucial component of our diet. Because of its capacity to fix nitrogen, it also plays a vital role in managing soil fertility. Mung beans are one of the most significant crops for farmers as a cash crop. In order to implement control measures effectively and on schedule, it is crucial to monitor the population dynamics of major sucking pests, such as aphids, jassids and whiteflies in relation of weather parameters. Methods: PDM-139 (Samrat) variety seeds were manually planted 5-7cm deep in the ground. Weekly observations were made from 10 randomly chosen plants Split cage methods were used to record the observations of jassids and whiteflies and aphids from the top and bottom surfaces of the first three trifoliate plants were tallied. Averages population were computed. Result: The incidence of pest population start on the 14-15th standard meteorological weeks which attain their peak population in 19th SMW. The insect-pest population was established positive correlation with the max and min temperature whereas population was negatively correlated with R.H. and Rainfall.

Effect of Packaging Material on Infestation Level in Stored Groundnut Pods

Groundnut crop is an important crop for farmers of the Saurashtra region of Gujarat State in India. Generally, farmers cultivate groundnut crop in the Kharif season. Storage of groundnut pods is associated with the problem of bruchid during storage in jute bags. To address this storage problem with groundnut pods, current research was carried out comparing performance of different packaging materials with their traditional storage system in jute bags. Seven different types of bags were used as packaging materials. The experiment was carried out for the year 2016-17 and 2017-18. The storage period was December-July. Pool data for two years were considered for determination of the effect of packaging material on storage of groundnut pods with respect to moisture content, germination percentage, pod damage due to infestation, pest population, and aflatoxin. Groundnut stored in cloth bag showed maximum variation in moisture content during the storage period (6.40% to 8.35%), maximum pest population of pupa (6.82 pupa/200 gm sample) and adult of bruchid beetle (3.14 adult/200 gm sample), pod damage due to infestation on number basis (61.13%) as well as weight basis (63.46%) whereas minimum variation was found in moisture content during the storage period (6.74% to 6.90%), maximum pest population of pupa (2.44 pupa/200 gm sample) and adult of bruchid beetle (1.51 adult/200 gm sample), pod damage due to infestation on number basis (18.24%) as well as weight basis (18.76%) in triple layer hermetic storage bag i.e., Purdue Improved Crop Storage (PICS) bags followed by closely woven net bag. The minimum germination percentage (69.22%) was found in cloth bag and it was the maximum (78.18%) in triple layer hermetic storage bag. Aflatoxin in the pods stored in triple layer hermetic storage bags was under limit. Results of this study will be helpful to select storage bags for storing groundnut pods.

Carbon Farming of Main Staple Crops: A Systematic Review of Carbon Sequestration Potential

Carbon farming has become increasingly popular as it integrates agriculture, forestry, and diverse land use practices, all crucial for implementing European strategies aimed at capturing 310 million tons of carbon dioxide from the atmosphere. These farming methods were proven to reliably increase the amount of carbon stored in the soil. However, there is a lack of discussion and consensus regarding the standards used to report these values and their implications. This article analyzes carbon sequestration rates, calculation methodologies, and communication procedures, as well as potential co-benefits and best practices. The average carbon sequestration rates in major staple crops range from very low values (0–0.5 Mg/ha/yr) to medium values (1–5 Mg/ha/yr). Scientific agricultural experiments in key global staple crops demonstrate positive rates of 4.96 Mg C ha−1 yr−1 in wheat–maize rotations and 0.52–0.69 Mg C ha−1 yr−1 in rice–wheat rotations. In agriculture, carbon sequestration rates are reported using different terms that are not consistent and pose communication challenges. This assessment involves a systematic review of the scientific literature, including articles, reviews, book chapters, and conference papers indexed in Scopus from 2001 to 2022. Specifically, this review focuses on long-term experiments, meta-analyses, and reviews that report an increase in soil carbon stock. The research trends observed, through a VOSviewer 1.6.18 analysis, show a steadily increasing interest in the field of carbon sequestration.

Content Analysis of Knowledge and Adoption of Climate-resilient Cotton Production Practices among Dryland Farmers

Cotton is a vital crop for smallholder farmers in India, particularly in the rainfed regions of Andhra Pradesh. The dryland farming is vulnerable to climate change, water scarcity, and soil degradation, leading to reduced crop yields and decreased livelihood security. Critical interventions like conservation agriculture, micro irrigation, and integrated nutrient management are essential to address these challenges. Despite their importance, the adoption of these interventions among dryland farmers remains limited. This study aimed to assess the knowledge and adoption of critical interventions among dryland farmers in cotton cultivation. The results showed that 75-100% of farmers had knowledge about basic practices like sowing time, seed rate, and spacing, while 50-75% knew about pest and disease management practices. However, only 25-50% were aware of drought mitigating measures, and 0-25% knew about advanced practices like micro irrigation and anti-transpirants. The adoption of critical interventions was also low, with 75-100% adoption of basic practices, 50-75% adoption of pest and disease management practices, and 25-50% adoption of drought mitigating measures. The study highlights the need for awareness and training programs to improve the knowledge and adoption of critical interventions among dryland farmers. The findings suggest that there is a significant knowledge and adoption gap among dryland farmers, particularly regarding advanced practices. Addressing this gap is crucial to enhancing the livelihoods of dryland farmers and promoting sustainable cotton production in the region.

Urban Farming, Planning and Environmental Jurisprudence in Delhi

This article analyses the manner in which bourgeois environmentalism and aspirational urban planning have brought about a recalibration of justice for agrarian communities along the Yamuna in Delhi. Bela Estate, the research site, is one such agrarian community in the urban segment of the Yamuna. Following a ban on the farming of edible crops in this region, pronounced by India’s apex environmental court in 2015, the Delhi Development Authority has conducted multiple demolition drives for nearly a decade now to evict farmers and clear their land for redevelopment. Utilising archival sources and based on a close reading of planning documents and court judgements, this article contributes to discourses of public interest in the wider context of development and law. More specifically, it decodes the ongoing contentions involving farmers, planning agencies and the judiciary in this region as symptomatic of the larger erosion of social justice in an urbanising, aspirational India that undervalues the role of nature-based livelihoods in Indian cities.

Adaptability and Yield Performance of Introduced Tomato Lines under Greenhouse and Open Field Conditions in Honduras

In Honduras, tomato (Solanum lycopersicum L.) is an economically important crop for farmers because of its high domestic consumption, year-round production, and high export potential. However, tomato production faces challenges such as diseases and pests and is confounded by climate change, all of which reduce productivity and quality. Evaluating the adaptation of tomato cultivars is critical to ensuring the long-term sustainability and resilience of the horticulture sector in the region. The objective of this study was to identify tomato lines with adaptability, high yield, pest, and disease resistance under greenhouse and open field production conditions for the Honduran market. Ten tomato lines and two commercial hybrids were evaluated between Feb and Jul 2022 in San Antonio de Oriente, Francisco Morazán, Honduras. Desirable traits related to vegetative growth, productivity, fruit quality, and resistance to insect pests and diseases were measured. Seven lines were highly adapted and had high vegetative growth. The tomato lines were not significantly different in terms of tomato yellow leaf curl disease and late blight disease index; however, the fruit borer susceptibility varied, with AVTO1908 being the most susceptible. The highest performing line was AVTO1903, which had the greatest total marketable yield in both the open field (101.3 t⋅ha−1) and greenhouse (62.1 t⋅ha−1). Additionally, AVTO1903 and AVTO1915 had good quality traits (roundness index, total soluble solids, and dry matter), thus demonstrating their potential for sustainable and high-yielding cultivation in Honduras. The growth and productivity of the tomato lines were highly influenced by the environment. This work highlights the advantages of introducing exotic cultivars to combat the effects of climate change and ensure sustained production; however, further research is needed to ensure that local farmer and consumer demands are met.

Agronomic Advances and Challenges of Chia Production in Kenya: A Review

Chia (Salvia hispanica L.) is an annual tropical plant belonging to the Lamiaceae family. In Kenya, Chia has gained significant attention in recent years due to its nutritional benefits and increasing demand in the local and global market. This review aims to explore the potential of chia production in Kenya as a source of income for farmers. The review highlights the agronomic requirements of chia, including soil, water, and climate conditions, as well as practices necessary for successful cultivation. Chia production is becoming a favorite enterprise for most farmers in Kenya due to its ease of management and short growth period. However, a seamless production has been encountered by several challenges, including scarce information regarding its agronomic management practices, poor yielding varieties, emerging pests and diseases, and poor harvesting and post-harvesting techniques. The growing demand for chia globally presents an opportunity for Kenyan farmers to tap into this market and generate income through export. Chia, has the potential to become a new golden crop for Kenyan farmers, contributing to food security, poverty reduction, and sustainable development. However, to realize this potential, there is a need for investment in research, extension services, and market linkages to support chia production, improve agronomic practices, and create a sustainable market for the crop.

Carbon usage in yellow-fleshed Manihot esculenta storage roots shifts from starch biosynthesis to cell wall and raffinose biosynthesis via the myo-inositol pathway.

Cassava is a crucial staple crop for smallholder farmers in tropical Asia and Sub-Saharan Africa. Although high yield remains the top priority for farmers, the significance of nutritional values has increased in cassava breeding programs. A notable negative correlation between provitamin A and starch accumulation poses a significant challenge for breeding efforts. The negative correlation between starch and carotenoid levels in conventional and genetically modified cassava plants implies the absence of a direct genomic connection between the two traits. The competition among various carbon pathways seems to account for this relationship. In this study, we conducted a thorough analysis of 49 African cassava genotypes with varying levels of starch and provitamin A. Our goal was to identify factors contributing to differential starch accumulation. Considering carotenoid levels as a confounding factor in starch production, we found that yellow- and white-fleshed storage roots did not differ significantly in most measured components of starch or de novo fatty acid biosynthesis. However, genes and metabolites associated with myo-inositol synthesis and cell wall polymer production were substantially enriched in high provitamin A genotypes. These results indicate that yellow-fleshed cultivars, in comparison to their white-fleshed counterparts, direct more carbon toward the synthesis of raffinose and cell wall components. This finding is underlined by a significant rise in cell wall components measured within the 20 most contrasting genotypes for carotenoid levels. Our findings enhance the comprehension of the biosynthesis of starch and carotenoids in the storage roots of cassava.

Genome Size Variation in Sesamum indicum L. Germplasm from Niger.

Sesamum indicum L. (Pedaliaceae) is one of the most economically important oil crops in the world, thanks to the high oil content of its seeds and its nutritional value. It is cultivated all over the world, mainly in Asia and Africa. Well adapted to arid environments, sesame offers a good opportunity as an alternative subsistence crop for farmers in Africa, particularly Niger, to cope with climate change. For the first time, the variation in genome size among 75 accessions of the Nigerien germplasm was studied. The sample was collected throughout Niger, revealing various morphological, biochemical and phenological traits. For comparison, an additional accession from Thailand was evaluated as an available Asian representative. In the Niger sample, the 2C DNA value ranged from 0.77 to 1 pg (753 to 978 Mbp), with an average of 0.85 ± 0.037 pg (831 Mbp). Statistical analysis showed a significant difference in 2C DNA values among 58 pairs of Niger accessions (p-value < 0.05). This significant variation indicates the likely genetic diversity of sesame germplasm, offering valuable insights into its possible potential for climate-resilient agriculture. Our results therefore raise a fundamental question: is intraspecific variability in the genome size of Nigerien sesame correlated with specific morphological and physiological traits?

The Development of Agrotechnopark Model Based on Modern Villages

Agrotechnopark is an area for implementing various types of technology in agriculture, animal husbandry, fisheries, and product processing (postharvest), which has been reviewed by multiple governments and private research institutions and functions as a training ground and center for technology transfer to the broader community. Implementing the Agricultural Technology Park (TTP) uses socio-cultural, ecological, and economic approaches. A comprehensive understanding of community needs will be obtained through a socio-cultural system, which will become input for the company. At the same time, the environmental system will identify the potential basis of local resource excellence as a reference for community development activities. Furthermore, the economic approach is developing productive business units to increase people's income while paying attention to market demand. South Konawe Regency is one of the autonomous regions in Southeast Sulawesi, which is supported by its potential resources. The position of the South Konawe Regency area is very strategic, a southern cross-section of the Southeast Sulawesi peninsula that connects several Regencies/Cities in Southeast Sulawesi with prototypes of coastal and inland villages. One is Atari Jaya Village because it has a heterogeneous population composition, and most of the Javanese Transmigration community is reasonably competent in agricultural development. Because of this, socio-culturally and economically, this village grows and develops and is dynamic by carrying out the diffusion of technology in various fields supporting Agrotechnopark, such as the development of Integrated Farming (Multiple cropping) and integrated farming (Mixed culture) of plantation crops and plantations. Atari Jaya Village is also a central area for the development of Agropolitan both food crops, as well as plantation and horticultural crops on a national scale and a People's Plantation Centre worthy of being an Agricultural Technology Park Area (Agro et al.) in South Konawe Regency, Southeast Sulawesi Province. Development of the Agricultural Technology Park Area (TTP) to become a center for Agribusiness and Agro-fruit tourism as a basic framework for community and regional economic growth towards Konsel Hebat Regency. Atari Jaya Village was realized as an independent village, a pilot Agrotechnopark village in South Konawe Regency, and a service center for upstream and downstream Agribusiness trade in Agrofruit and plantations.

Modern and conventional processing technologies and their impact on the quality of different millets.

Millet, the highly sustainable crop for farming and combating hunger, has recently regained a resurgence in popularity as people seek more sustainable and nutrient-dense alternatives. International organizations and research institutions have advocated for increased millet production and consumption by introducing novel technologies and machinery in response to global food security and climate change challenges. This review aims to identify the impact of modern and conventional processing technologies on the quality of different millets. A comprehensive analysis of research reviews reveals that double-stage and tabletop centrifugal dehullers, infrared roasting, pulsed light, ultrasound, high-pressure processing methods, fortification, and encapsulation are optimal for nutrient retention in various millets. Extrusion technology application in millet processing has created a diverse range of value-added products with extended shelf stability. Emphasis is needed to develop robust promotion and distribution channels and establish an export promotion forum involving all stakeholders to promote and diversify millet-based products and technologies.

Breaking ground: transformative partnerships for inclusive bean breeding in Zimbabwe

Common bean is often considered a woman’s crop because they play important roles from production to marketing. However, breeding programs often focus on farmers without adequate attention to the interconnectedness between gender and other socioeconomic variables and how they influence varietal and trait preferences of other value chain actors. This study analyzed gendered differences in bean production and trade, implications of socioeconomic conditions on bean production and marketing, and the role of partnerships in closing gender gaps in the bean value chain in Zimbabwe. The results obtained from the analysis of survey data collected from 131 farmers and 18 trades revealed beans as a dual-purpose crop for male and female farmers and traders. Varietal and trait preferences were the same for both male and female farmers and traders but were prioritized differently. While female farmers prioritized cooking time, men farmers prioritized biofortification and market traits. Whereas male traders equally preferred price, color, and appearance, female traders prioritized price over color and appearance. Poverty and marital statuses of respondents influenced the number of varieties preferred by male and female farmers. We found that the effectiveness of partnerships in closing gender gaps in marketing is variety specific. While having partners closed the gender gaps in the marketing of the NUA45 variety, such partnerships did not have the same effect on closing gender gaps in the marketing of Cherry, Gloria, and other varieties. The results show that considering socioeconomic characteristics of actors and partnerships can reduce gender disparities in the bean value chain. Therefore, breeding programs should recognize the interconnectedness between socioeconomic variables and gender when developing breeding products.

The soil microbiome modulates the sorghum root metabolome and cellular traits with a concomitant reduction of Striga infection

Sorghum bicolor is among the most important cereals globally and a staple crop for smallholder farmers in sub-Saharan Africa. Approximately 20% of sorghum yield is lost annually in Africa due to infestation with the root parasitic weed Striga hermonthica. Existing Striga management strategies are not singularly effective and integrated approaches are needed. Here, we demonstrate the functional potential of the soil microbiome to suppress Striga infection in sorghum. We associate this suppression with microbiome-mediated induction of root endodermal suberization and aerenchyma formation and with depletion of haustorium-inducing factors, compounds required for the initial stages of Striga infection. We further identify specific bacterial taxa that trigger the observed Striga-suppressive traits. Collectively, our study describes the importance of the soil microbiome in the early stages of root infection by Striga and pinpoints mechanisms of Striga suppression. These findings open avenues to broaden the effectiveness of integrated Striga management practices.

Agrientreprenuiral Feasibility of High-value Vegetable Crops for Small-holder Farmers for Supplementing Inorganic Fertilizer with Bioinoculants

Agrientreprenuiral Feasibility of High-value Vegetable Crops for Small-holder Farmers for Supplementing Inorganic Fertilizer with Bioinoculants

Farmers’ perceptions of agroforestry, Democratic Republic of the Congo

The development of agriculture, particularly monocultures and extensive land-consuming practices, are causing deforestation and forest degradation, and this destruction of important carbon sinks is fueling climate change. Agroforestry, which involves the association of trees with crops and/or livestock, is presented as an alternative to industrial agriculture and slash-and-burn practices, to promote climate change resilience. In addition to climate change mitigation, agroforestry offers a plenitude of benefits, but there are often challenges to implementing agroforestry models. These include ensuring feasibility in local contexts and meeting diverse needs, which requires constant adaptation and mutual learning between farmers and technical experts. This proved true for Tropenbos DRC who worked to promote agroforestry among small forest and agricultural producers in the Bafwasende area of Tshopo Province. Tropenbos DRC’s initial approach of creating community agroforestry fields faced limited success as an unexpected degree of individualism made a communitarian approach unsuitable. The original model also met resistance as it combined cocoa and plantain with trees despite plantain not being an economically viable crop for farmers. In response, a shift in approach was made to rather support individual farmers interested in agroforestry, who could prioritise cocoa plants amongst trees, to ensure greater profits. In the former model, from 2019 to 2021, only 4 ha of cocoa trees were planted. Conversely, in just six months of adopting the new model in 2021, 45 ha of cocoa trees were planted. It is clear then, that the success of agroforestry models depends on farmer’s acceptance. All stakeholders must be included in what should be a participatory and iterative process that must remain flexible, as adaptability is essential for the continuous improvement and success of agroforestry initiatives.