Your search keyword '"agroecological zones"' showing total 241 results

1. Isolation and Characterization of Biofertilizer Microbes within Rice Rhizosphere of Soil Samples Collected from Different Agroecological Zones of Ebonyi State, Nigeria, for Enhanced Plant Growth.

Author

Ukwa, J. N., Uda, O. M. C., Nweze, N. P., Okafor, O. C., Ochere, C. N., and Ezeh, F. A.

Subjects

RHIZOSPHERE, BIOFERTILIZERS, SOIL sampling, PLANT growth

Abstract

Rhizosphere microbial community plays a critical role in plant growth and development, serving as biofertilizer that solubilizes minerals, enhances nutrient uptake, and produces plant growth-promoting substances. Therefore, this study was caried out to isolate and characterize the microbial community structure in flooded Paddy across Ebonyi State Agroecological Zones, for Biofertizer microbes and effects on Rice plant growth. The four rice accessions (Oryza sativa) used in this study were sourced from Biotechnology Research and Development Centre, Ebonyi State University; and planted in Pots with control checks (unplanted soil), in a Greenhouse. The physicochemical parameters of the soil were determined using AOAC standard methods. The microbial community in the rhizosphere of paddy microcosms was characterized using (Colony counting machine, expressed in colony forming unit per mililitre (cfu/ml)), 16SrRNA gene amplification and three Random Amplified Polymorphic DNA (RAPD) primers namely, OPB05, OPT05, and OPB03 and resolved independently on agarose gel. Rice plant growth were measured in heights across four growth stages and across the three Agroecological Zones. The physicochemical properties showed that the soil was slightly acidic, had different fractions of sand, Organic Carbon, Organic matter and essential nutrients such as; Ca, P, and Mg. The microbial population differed significantly between planted and unplanted soils; while the microbial load decreased gradually as the plants' growth stages increased. Isolates biochemical analysis revealed mostly the presence of bacteria (Bacillus and Brevibacillus species), while confirmatory molecular identification of the bacterial isolates, showed that Aeromonas hydrophilia strain A210 16S, Pseudomonads plecoglossicida strain RJ39 16S, Aeromonas caviae 16S, Eschericha coli strain 26561, Pseudomonas otitidis strain JK79 16S, Enterobacter cloacae strain ES-2 16S, Serratia marcescens strain AL105_R2A02 16S and Aeromonas diversa strain 2478-85 16S were present in the rhizosphere of different Oryza species. Phylogenetic relatedness among the isolates showed isolates B1, B3 and B10 to be closely related. It showed that 90% of the isolates were of the gamma proteobacteria origin, while 10% belong to the Firmicutes. On 90 Day After Planting (DAP), Faro 59 performed the highest across the zones, while Faro 52 was the least performed across the zones. The study has proven the presence of biofertilizer microbes in rice rhizosphere and that; Despite a higher absolute microbial abundance, there was no major shift in the relative abundance of microbial groups in the planted paddy, suggesting how highly adapted and relatively stable, and beneficial microbial community is to rice plants across Ebonyi State soil, and the possibilities of using them as biofertilizer source by farmers and breeders as a sustainable alternative to chemical fertilizer in promoting plants growth and yield to mitigate environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Impact of Planting Dates on the Performance of Soybean Varieties [ Glycine max (L.) Merr.] in the Nigerian Savannas.

Author

Eseigbe, Osagie B., Kamara, Alpha Y., Miko, Sani, Omoigui, Lucky O., Solomon, Reuben, Adeleke, Musibau A., Tofa, Abdullahi I., and Bebeley, Jenneh F.

Subjects

*PLANT productivity, *SAVANNAS, *PLANTING, *CROPS, *FARMERS

Abstract

Increasing delays in the onset of the rainy season and extended dry spells in the Nigerian savannas are complicating the determination of optimal planting dates for rain-fed crops, which increases risks for farmers. This study evaluated the impact of planting dates on soybean [Glycine max (L.) Merr.] performance to identify optimal planting dates for different soybean varieties in two agroecological zones (AEZs) of Nigeria. The study involved six planting dates (15 June, 22 June, 29 June, 6 July, 13 July, and 20 July) and three soybean varieties (TGX-1835-10E, TGX-1951-3F, TGX-1904-6F). Results showed significant differences in growth and yield parameters based on location, variety, and planting date. In the Sudan savanna (SS), AEZ at BUK-Kano, optimal yields (>1500 kg ha−1) were achieved when planting TGX-1835-10E and TGX-1951-3F from 15 to 29 June and TGX-1904-6F on 15 June. Planting beyond 29 June reduces yields by 12–55% for TGX-1835-10E and 27–63% for TGX-1951-3F. For TGX-1904-6F, planting after 15 June reduces yields by 27–90%. In the Northern Guinea savanna (NGS) AEZ at Zaria, optimal yields (>1500 kg ha−1) were obtained when planting TGX-1835-10E and TGX-1951-3F from 15 June to 6 July, and TGX-1904-6F between 15 to 29 June. Delaying planting beyond these dates significantly reduced yields by 18–31% for TGX-1835-10E and 12–20% for TGX-1951-3F and 10–41% for TGX-1904-6F. [ABSTRACT FROM AUTHOR]

Published

2024

3. Farmers' use of Indigenous knowledge on climate change adaptation across farming systems and agroecological zones of Sierra Leone.

Author

Oladele, Oladimeji Idowu and Amara, Augustine

Subjects

*CLIMATE change adaptation, *ROTATIONAL grazing, *RAINFALL frequencies, *AGRICULTURE, *ANIMAL behavior

Abstract

The qualitative analysis of farmers' use of Indigenous knowledge on climate change adaptation across farming systems and agroecological zones of Sierra Leone was conducted using a combination of interpretive phenomenological analysis, Focus Group Discussions, and participant observation, which was analyzed with a qualitative interpretative approach. Farmers respond to climate change through the use of wind and cloud patterns, animal and bird behavior, moon shape, and position of the sun to predict changes in temperature, intensity, drying up of rivers, and frequency of rainfall, as well as the incidence of pests and diseases. Other Indigenous knowledge used by farmers were rotational grazing, migration, crop-livestock integration, and the use of manure for composting with herbal and biological treatment for disease management. The study recommended that in the current context of climate change, the promotion of adaptation strategies should explore the interdependency of different knowledge systems and knowledge hybridity in agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of Climate Variability on Crop Diversity Over the Agroecological Zones of Gumara Watershed, Northwest Ethiopia

Author

Tegegne, Belay M., Taye, Mintesinot A., Leyew, Sileshie M., Melesse, Assefa M., Brilly, Mitja, Advisory Editor, Hoalst-Pullen, Nancy, Advisory Editor, Leitner, Michael, Advisory Editor, Patterson, Mark W., Advisory Editor, Veress, Márton, Advisory Editor, Melesse, Assefa M., editor, Deribe, Mekdelawit M., editor, and Zeleke, Ethiopia B., editor

Published

2024

5. Agroecological dimension of sustainable intensification technologies adoption in northern Ghana

Author

Emmanuel Tetteh Jumpah, Abdulai Adams, Tomas Ratinger, Bernard Kwamena Cobinna Essel, and Forzia Ibrahim

Subjects

Adoption, agroecological zones, northern Ghana, smallholder farmers, sustainable intensification technologies (SITs), Manuel Tejada, Universidad de Sevilla, Spain, Agriculture, Food processing and manufacture, TP368-456

Abstract

AbstractAdopting sustainable intensification technologies improves the productivity, incomes, and livelihoods of small farm households; however, their adoption remains disproportionately low. Although soil, climate and vegetative cover are important factors in determining the viability of sustainable intensification technologies in agronomic trials or field experiments, they are rarely considered in socio-economic analyses of smallholder adoption decisions. Using agroecological zones as proxies for similar soil, climate, and vegetation conditions in two agroecological zones in northern Ghana, we examined their effects on smallholder farmers’ decisions to adopt sustainable intensification technologies. We applied a multistage sampling technique to obtain data from 461 small farm households in the Sudan savannah and Guinea savannah agroecological zones. We observed a statistically significant difference in the covariates of adopters and non-adopters of sustainable intensification technologies in terms of age (6.389, p

Published

2024

6. Soil quality evaluation for irrigated agroecological zones of Punjab, Pakistan: The Luenberger indicator approach.

Author

Sheikh, Asjad Tariq, Hailu, Atakelty, Mugera, Amin, Pandit, Ram, and Davies, Stephen

Subjects

SOIL quality, DATA envelopment analysis, CROP yields, SOIL profiles, AGRICULTURAL productivity

Abstract

This article describes the construction of the Luenberger soil quality indicator (SQI) using data on crop yield, non‐soil inputs, and soil profile from three irrigated agroecological zones of Punjab, Pakistan, namely, rice–wheat, maize–wheat–mix, and cotton–mix zones. Plot level data are used to construct a soil quality indicator by estimating directional distance functions within a data envelopment analysis (DEA) framework. We find that the SQI and crop yield relationships exhibit diminishing returns to improving soil quality levels. Using the constructed SQI values, we estimate linear regression models to generate weights that could be used directly to aggregate individual soil attributes into soil quality indicators without the necessity of fitting a frontier to the crop production data. For wheat and rice production, we find that SQI is most sensitive to changes in soil electrical conductivity (EC) and potassium (K). The SQI has direct relevance for site‐specific decision‐making problems where policymakers need to price land resources and conservation services to achieve agricultural and environmental goals. [ABSTRACT FROM AUTHOR]

Published

2024

7. Agro-morphological characterization in Aloe vera genotypes in two states of Mexico.

Author

Lagunes-Domínguez, Abimael, Pérez-Vázquez, Arturo, Hernández-Salinas, Gregorio, Antonio Acosta-Osorio, Andrés, and Isela Casllo-Zamudio, Rosa

Subjects

ALOE vera, PRINCIPAL components analysis, GENOTYPES

Abstract

In the last decade, the pharmaceutical industry has shown great interest in the cultivation of aloe vera [Aloe vera (L.) Burm. F.]. In Mexico, it is grown in different states and agroecological conditions. This study aimed to characterize in situ the agro-morphological characteristics of aloe vera at two sites in the states of Puebla and Veracruz, Mexico. In the 2019 agricultural cycle, two-year-old aloe vera plants were collected in both agroecological regions during both the dry and rainy seasons. The agro-morphological variables recorded were: leaf length, width, contour, thickness and weight, useful leaf weight, residue weight, gel weight, and skin weight. The edaphic variables analyzed were: pH, electrical conductivity, organic matter, texture, bulk density, total nitrogen, phosphorus, and potassium. In addition, the altitude and average temperature and precipitation of each site were recorded. The variables were analyzed through an analysis of variance, principal components and Pearson’s correlation using the Rstudio program and the Statistical Analysis System. Significantly higher values (p≤ 0.05) were found in 60% of the agro-morphological variables of materials 1P, 2P, and 2V compared to 1V. According to the principal component analysis, the first two principal components accounted for 98.22% of the total morphological variability in the materials evaluated by site. There was a correlation between one geophysical variable, two climatic variables, two edaphic variables and morphological variables, except for leaf width. It is concluded that there is a significant relationship between the agro-morphological characteristics of aloe vera and the agroecological conditions of the site. [ABSTRACT FROM AUTHOR]

Published

2024

8. Edible indigenous fruit trees and shrubs in Tigray, Ethiopia

Author

Abadi Tesfay, Sarah Tewolde-Berhan, Emiru Birhane, Meley Mekonen Rannestad, Anbesa Gebretsadik, Gebrehiwot Hailemichael, Mebrahtu Haile, and Aster Gebrekirstos

Subjects

Agroecological zones, Domestication, Food security, Fruit nutrition, Restoration, Shelf life, Forestry, SD1-669.5, Plant ecology, QK900-989

Abstract

Edible indigenous fruit trees and shrubs (IFTS) serve as crucial sources of supplementary food and essential nutrients, income/cash, traditional medicine, and various other uses for local communities in Tigray, Ethiopia. However, there is limited documentation on IFTS contributions, production potential, and nutritional compositions. The primary aim of this study was to analyse the production potential, nutritional compositions, and overall contributions of IFTS to rural households. Data were gathered through structured and semi-structured questionnaires from 55 key informants, 15 vendors, and 30 consumers. Nutrient analyses were conducted using triplicate samples following the basic procedures of the Association of Official Analytical Chemists. This study has identified and documented 44 IFTS species. These edible fruits from trees and shrubs are available throughout the year, with peak seasons varying across agroecological zones. Specifically, the lowland, midland, and highland experienced peak fruit availability in November, May, and June, respectively. Fruit yields exhibited significant variation among agroecological zones (P = 0.001), and among growth stages (P < 0.001) within each agroecological zone. Further laboratory analysis revealed that edible IFTS are rich in carbohydrates, crude fiber, crude protein, crude fat, iron (Fe) and zinc (Zn) contents. These nutritional attributes underline the importance of integrating indigenous fruits into the diets of rural and urban households. In conclusion, this research highlights the significant roles played by edible IFTS in the livelihoods of rural households in Tigray, Ethiopia. It also suggests the need for their recognition, conservation, domestication and restoration to enhance food security, income generation, climate adaptation and overall well-being in these communities and beyond.

Published

2024

9. The Impact of Planting Dates on the Performance of Soybean Varieties [Glycine max (L.) Merr.] in the Nigerian Savannas

Author

Osagie B. Eseigbe, Alpha Y. Kamara, Sani Miko, Lucky O. Omoigui, Reuben Solomon, Musibau A. Adeleke, Abdullahi I. Tofa, and Jenneh F. Bebeley

Subjects

agroecological zones, planting dates, productivity, soybean, variety, Agriculture

Abstract

Increasing delays in the onset of the rainy season and extended dry spells in the Nigerian savannas are complicating the determination of optimal planting dates for rain-fed crops, which increases risks for farmers. This study evaluated the impact of planting dates on soybean [Glycine max (L.) Merr.] performance to identify optimal planting dates for different soybean varieties in two agroecological zones (AEZs) of Nigeria. The study involved six planting dates (15 June, 22 June, 29 June, 6 July, 13 July, and 20 July) and three soybean varieties (TGX-1835-10E, TGX-1951-3F, TGX-1904-6F). Results showed significant differences in growth and yield parameters based on location, variety, and planting date. In the Sudan savanna (SS), AEZ at BUK-Kano, optimal yields (>1500 kg ha−1) were achieved when planting TGX-1835-10E and TGX-1951-3F from 15 to 29 June and TGX-1904-6F on 15 June. Planting beyond 29 June reduces yields by 12–55% for TGX-1835-10E and 27–63% for TGX-1951-3F. For TGX-1904-6F, planting after 15 June reduces yields by 27–90%. In the Northern Guinea savanna (NGS) AEZ at Zaria, optimal yields (>1500 kg ha−1) were obtained when planting TGX-1835-10E and TGX-1951-3F from 15 June to 6 July, and TGX-1904-6F between 15 to 29 June. Delaying planting beyond these dates significantly reduced yields by 18–31% for TGX-1835-10E and 12–20% for TGX-1951-3F and 10–41% for TGX-1904-6F.

Published

2024

10. Farmers' Perception of Viral Diseases and Their Management in Pepper (Capsicum spp.) Production in Benin.

Author

Zohoungbogbo, Herbaud P. F., Ganta, Judicael S. O., Oliva, Ricardo, Yuan-Li Chan, Adandonon, Appolinaire, Bokonon-Ganta, Aimé H., Ba, Malick N., Achigan-Dako, Enoch G., and Barchenger, Derek W.

Subjects

*VIRUS diseases, *PEPPERS, *CUCUMBER mosaic virus, *DISEASE management, *MOSAIC viruses, *BIOPESTICIDES, *CASH crops, *INTEGRATED pest control

Abstract

Pepper (Capsicum spp.) is an important solanaceous cash crop in Benin; however, productivity is limited due to several key constraints, especially diseases caused by viruses. We sought to understand farmers' perceptions of viral diseases, management strategies deployed, and to identify the virus population affecting pepper production in Benin. To assess farmers' perceptions and management of viral diseases, a survey was carried out in four agroecological zones of Benin. A total of 144 pepper farmers were interviewed using the snowball method. A total of 52 pepper leaf samples with virus-like symptoms were collected and diagnosed by reverse-transcriptase polymerase chain reaction (RT-PCR) or PCR. Pepper production systems varied across agroecological zones (P # 0.001) with a predominance of farms practicing monoculture (82%). The majority of farmers (89%) indicated that pests and diseases were the main constraints to increased production. Cucumber mosaic virus (92% of the total samples), Pepper vein yellow virus (52%), and Pepper veinal mottle virus (50%) were the major viruses detected in pepper fields in Benin. There were both single (29%) and mixed (71%) infections of the viruses, suggesting that mixed infections are common for pepper in Benin, confounding efforts to reduce virus infections. Nearly 100% of the farmers surveyed were not aware of these viral diseases. They also could not directly relate symptoms of virus infection to the presence of aphids, whiteflies, or thrips. Farmers relied primarily on synthetic insecticides (93%) to control virus vectors. Interestingly, some farmers applied commercial (12%) and homemade (17%) biopesticides, with neem-based preparations being the most widely used. A total of 15% of farmers used companion cropping with maize, mint or basil and 43% of farmers used crop rotation as a cultural management practice to control viral disease and vector pressure in pepper fields. The implications of this work include the importance of training farmers and extension agents on diagnosis of viruses and their vectors causing viral diseases. This study provides baseline information for the development of host-resistant cultivars and deployment of integrated pest management strategies for pepper in Benin to reduce farmer losses. [ABSTRACT FROM AUTHOR]

Published

2024

11. Biochar Improves Soil Fertility and Crop Performance: A Case Study of Nigeria.

Author

Zubairu, Abdulrahman Maina, Michéli, Erika, Ocansey, Caleb Melenya, Boros, Norbert, Rétháti, Gabriella, Lehoczky, Éva, and Gulyás, Miklós

Subjects

*SOIL fertility, *BIOCHAR, *SUSTAINABILITY, *EVIDENCE gaps, *SAVANNAS, *PERFORMANCE theory

Abstract

Africa, specifically Nigeria, has witnessed a dramatic increase in population over the last century, prompting efforts to ensure sustainable food production and quality. Concerns for soil sustainability and food security have led to the exploration of cost-effective methods, such as biochar, to enhance soil quality. Researchers in Nigeria and Africa as a whole have investigated biochar's potential to improve soil fertility and crop performance across various agroecological zones. This paper aims to review recent biochar research priorities on soil fertility and crop performance with an emphasis on various sole biochar applications and combinations with fertilizers to determine the research gaps that need to be developed more in biochar research in Nigeria. From the papers reviewed, sole biochar applications and biochar + macronutrients and biochar + manure combinations were studied more dominantly, while biochar + micronutrients research projects were scanty despite their low content in the semi-arid soils of Nigeria. The studies were spread across the country with the majority taking place in derived savanna and humid forest, while Sudan savanna and Sahel savanna received less research attention despite being characterized by a low-fertile soil and vast area of land. Research involving BC in the context of Sahel savanna (SLS) and Sudan savanna (SS) soils is strongly encouraged in Nigeria. This research should encompass a wide range of investigations, including sole BC applications and combinations of BC with macronutrients, micronutrients, and manure, as well as exploring its potential as a slow-release fertilizer. Incorporating exclusive biochar in substantial amounts appears economically unfeasible within the context of local biochar production. However, it can be utilized in the synthesis of slow-release fertilizers, requiring smaller quantities and potentially offering cost-effectiveness. This approach enhances soil condition and crop productivity. Challenges are faced due to less commercial production as a result of inadequate power and structural facilities. Exploring the modification of local biochar for slow-release fertilizers through future research offers potential profitability. [ABSTRACT FROM AUTHOR]

Published

2023

12. Endophytic bacterial taxonomic and functional diversity in the seeds of wheat genotypes from different agroecologies.

Author

Sharma, Pushpendra, Suman, Archna, Aswini, Krishnan, SaiPrasad, Jogdande, and Gond, Shrikant

Subjects

*WHEAT seeds, *ENDOPHYTIC bacteria, *BACILLUS (Bacteria), *COMPOSITION of seeds, *PAENIBACILLUS, *BACTERIAL diversity, *GRAIN yields, *WHEAT

Abstract

Plant genotype and agroecology influence the composition and functionality of seed endophytic bacterial communities. Taxonomic analysis of 123 wheat seeds endophytic bacteria classified these into 23 genera predominantly under Firmicutes followed by Actinobacteria and Proteobacteria. Genus Bacillus was most abundant (30.7%) followed by Streptomyces (18.4%) with other representative genera such as Stenotrophomonas, Paenibacillus, Mixta, Enterobacter, Micrococcus, Pantoea, Alkalihalobacillus, Cortiobacterium, and more. Across agroecologies, the core microbiota of seeds consists of Bacillus, Streptomyces, Paenibacillus, and Stenotrophomonas, with maximum diversity and abundance observed in seeds of the North Western Plain Zone of India. Seed endophytic bacteria had PGP traits; nitrogen fixation (n = 101), production of IAA (n = 65), siderophores (n = 43), ammonia (n = 82) and solubilization of phosphate (n = 47), potassium (n = 37), and zinc (n = 8). The isolates produced HCN and hydrolytic enzymes and displayed antagonism against fungal pathogens. Overall, the information generated on wheat seeds' endophytic bacterial taxonomy and beneficial traits may pave the path for the development of novel bioinoculants. Key message Wheat seeds from various agro-ecologies of India harbor diverse endophytic bacteria. Firmicutes were dominant followed by Actinobacteria and Proteobacteria. Genus Bacillus, Stenotrophomonas, Streptomyces, and Paenibacillus were core endophytic bacteria in different agro-ecologies. The endophytic bacterial strains were displaying diverse functional traits. [ABSTRACT FROM AUTHOR]

Published

2023

13. Analysis of Fall armyworm infestations on rainy season crops under different cropping systems in two agroecological zones in Burkina Faso, West Africa.

Author

Compaoré, Idrissa, Sanou, Manoé R., Badolo, Athanase, Agboyi, Lakpo K., and Sanon, Antoine

Subjects

*FALL armyworm, *CROPPING systems, *AGRICULTURE, *INTERCROPPING, *CORN, *PEARL millet, *PEST control, *SORGHUM

Abstract

The Fall armyworm (FAW), Spodopterafrugiperda, was first reported in a few regions of Burkina Faso in 2017. Since then, it has continued to spread and damage maize crops in the country, thereby threatening food security. This study, conducted three years later, aimed to assess the pest status on major rainy season crops, and the effects of cropping systems, crop diversity, and phenology in 11 localities of Sudanian and Sudano-Sahelian zones in Burkina Faso. Two sampling periods, the first conducted at the beginning of the rainy season and the second at the end of the season, were considered. Maize was the most FAW-infested crop, mainly as monocrops (84–88% of surveyed fields). Sorghum, pearl millet, cowpeas, and peanuts were the secondary infested crops, more infested when intercropped with maize. Maize fields were more FAW-affected in the Sudanian zone, whereas the secondary infested crops were significantly more affected in the Sudano-Sahelian zone. The highest field infestation rates were recorded during the second survey period, coinciding in most cases (> 90%) with the flowering and post-flowering of maize. Then, FAW attacks were found in vegetative, flowering, and post-flowering cereal organs. Despite the technical recommendations, most farmers (57.30 ± 10.34 and 66.78 ± 6.74% in the Sudanian and Sudano-Sahelian zones, respectively) did not apply insecticide in infested maize fields. Thus, in 3 years, the FAW has become an important pest of cereals, specifically maize, in the main agricultural zones of Burkina Faso. These results should be taken into account to develop effective control actions against FAW. [ABSTRACT FROM AUTHOR]

Published

2023

14. Forecasting monthly soil moisture at broad spatial scales in sub-Saharan Africa using three time-series models: evidence from four decades of remotely sensed data.

Author

Tesfamichael, Solomon G., Shiferaw, Yegnanew A., and Woldai, Tsehaie

Subjects

LAND cover, SOIL moisture, BOX-Jenkins forecasting, STANDARD deviations, FORECASTING, RANDOM walks

Abstract

Soil moisture is a critical environmental variable that determines primary productivity and contributes to climatic processes. It is, therefore, important to forecast soil moisture to inform expectations of derivative outputs reliably. While forecasting soil moisture continues to advance, there is a need to extend it to different geoclimatic regions, including in sub-Saharan Africa, where livelihoods predominantly rely on subsistence agriculture. We used remotely sensed soil moisture data produced by the European Space Agency – Climate Change Initiative (ESA CCI). The data, which covered the period 1978 to 2019, were used to forecast monthly soil moisture in different agroecological zones and land cover types. The Seasonal Random Walk, Exponential Smoothing and Seasonal Autoregressive Integrated Moving Average (SARIMA) forecasting models were trained on 70% of the data (November 1978 – August 2007) and subsequently applied to a test dataset (September 2007 – December 2019). All models showed solid prediction accuracies for all agroecological zones (unbiased root mean square error, ubRMSE ≤ 0.05 m3 m−3) and land cover types (ubRMSE ≤ 0.04 m3 m−3). This was corroborated by similarities in season-adjusted anomalies between observed and forecasted soil moisture for nearly all agroecological zones and land cover types, with a correlation coefficient of r > 0.5 for most locations). The broad-scale interpretation of soil moisture forecasting can inform moisture availability and variability by regions; however, more research is encouraged to improve forecasting at spatially and temporally detailed levels to assist small-scale farming practices in the continent. [ABSTRACT FROM AUTHOR]

Published

2023

15. Analysis of land use/ land cover changes and landscape fragmentation in the Baro-Akobo Basin, Southwestern Ethiopia

Author

Kassahun Mulatu, Kitesa Hundera, and Feyera Senbeta

Subjects

Agroecological zones, Fragmentation, Land use/land cover, Landscape metrics, Satellite images, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This study investigated the relationship between land use/land cover (LULC) changes and forested landscape fragmentation in the southwestern region of Ethiopia. Satellite images from 1986, 2002 and 2019 were collected and analyzed using standard procedures in ERDAS 2015 software. Fragstat 4.2.1 software was utilized to assess landscape fragmentation by examining a raster datasets derived from the classified LULC map over the research period. The study identified seven LULC classes in the study area. Findings revealed a substantial reduction in shrubland by 46.3%, dense forest by 23.75%, open forest by 17.3%, and wetland by 32.63%, while cropland increased by 38.06%, agroforestry by 20.29%, and settlements by 163.8% during the study period. These changes varied across different agroecological zones and slope gradients. Landscape metrics results indicated an increase in the number of patches and patch density for all LULC classes, demonstrating significant fragmentation of the landscape. The largest patch index, mean patch areas, and the percentage of landscape occupied by open forest, dense forest, shrubland, and wetland declined as a result of conversion to cropland, agroforestry, and settlement. Conversely, the largest patch index, the mean patch area and the percentage of the landscape occupied by agroforestry, cropland and settlement increased, indicating their increasing dominance in the landscape over the study periods. The findings highlighted the potential deleterious impacts of ongoing land use change and fragmentation on the environment, ecosystem function and local livelihoods. Therefore, it is crucial to implement appropriate conservation efforts and sustainable land management practices to mitigate the rapid change and fragmentation of land use and its negative impacts on sub-watershed ecosystems.

Published

2024

16. Population and conservation status of the endangered Dracaena ombet tree in dry Afromontane forests

Author

Tesfay Gidey, Emiru Birhane, Negasi Solomon, Tesfay Atsbha, Ashenafi Manaye, Hadgu Hishe, Yirga Gufi, Musse Tesfaye, Aklilu Negussie, Tânia Sofia Oliveira, Joao HN Palma, Petr Maděra, and Jose G. Borges

Subjects

Agroecological zones, Desa'a forest, Ethiopia, Nubian dragon tree, Overexploitation, Persistence, Ecology, QH540-549.5

Abstract

Dracaena ombet, a flagship tree species in arid ecosystems, holds a significant ecological, economic, and socio-cultural value. However, its persistence is currently under threat from both anthropogenic and natural factors. Consequently, the species has been listed as an endangered tree species on the IUCN Red List, requiring urgent conservation actions for its continued existence. To develop effective conservation actions, it is necessary to have information on the population dynamics of the species. A study was conducted in the lowland and midland agroecological zones (sites) within the Desa'a dry Afromontane forest, northern Ethiopia to analyze the population status of D. ombet and identify its site-specific threats. At each site, abundance, health status, diameter, height and threats of the species were collected using 60 sample plots (20 m × 20 m) distributed over six transects (500 m × 20 m) spaced one km apart. The study showed that the D. ombet population was characterized by low abundance and unstable structure. It was further characterized by a substantial number of unhealthy damaged and dead trees. The low abundance of the species with unstable age structure in the dry Afromontane forests can be attributed to various factors such as stem cutting and debarking, leaf defoliation, overgrazing, soil erosion, and competition from expansive shrubs. Alternative livelihood options for the local inhabitants should be introduced to minimize the overexploitation of D. ombet for subsistence use in the dry Afromontane forests. The impacts of overgrazing and soil erosion on D. ombet and its Desa'a habitats should also be addressed through the introduction of community-based exclosures and in-situ soil and water conservation practices, respectively.

Published

2024

17. Farmers’ Perception of Viral Diseases and Their Management in Pepper (Capsicum spp.) Production in Benin

Author

Herbaud P. F. Zohoungbogbo, Judicael S. O. Ganta, Ricardo Oliva, Yuan-Li Chan, Appolinaire Adandonon, Aimé H. Bokonon-Ganta, Malick N. Ba, Enoch G. Achigan-Dako, and Derek W. Barchenger

Subjects

agroecological zones, aphids, cucumovirus, pest management, polerovirus, potyvirus, Plant culture, SB1-1110

Abstract

Pepper (Capsicum spp.) is an important solanaceous cash crop in Benin; however, productivity is limited due to several key constraints, especially diseases caused by viruses. We sought to understand farmers’ perceptions of viral diseases, management strategies deployed, and to identify the virus population affecting pepper production in Benin. To assess farmers’ perceptions and management of viral diseases, a survey was carried out in four agroecological zones of Benin. A total of 144 pepper farmers were interviewed using the snowball method. A total of 52 pepper leaf samples with virus-like symptoms were collected and diagnosed by reverse-transcriptase polymerase chain reaction (RT-PCR) or PCR. Pepper production systems varied across agroecological zones (P ≤ 0.001) with a predominance of farms practicing monoculture (82%). The majority of farmers (89%) indicated that pests and diseases were the main constraints to increased production. Cucumber mosaic virus (92% of the total samples), Pepper vein yellow virus (52%), and Pepper veinal mottle virus (50%) were the major viruses detected in pepper fields in Benin. There were both single (29%) and mixed (71%) infections of the viruses, suggesting that mixed infections are common for pepper in Benin, confounding efforts to reduce virus infections. Nearly 100% of the farmers surveyed were not aware of these viral diseases. They also could not directly relate symptoms of virus infection to the presence of aphids, whiteflies, or thrips. Farmers relied primarily on synthetic insecticides (93%) to control virus vectors. Interestingly, some farmers applied commercial (12%) and homemade (17%) biopesticides, with neem-based preparations being the most widely used. A total of 15% of farmers used companion cropping with maize, mint or basil and 43% of farmers used crop rotation as a cultural management practice to control viral disease and vector pressure in pepper fields. The implications of this work include the importance of training farmers and extension agents on diagnosis of viruses and their vectors causing viral diseases. This study provides baseline information for the development of host-resistant cultivars and deployment of integrated pest management strategies for pepper in Benin to reduce farmer losses.

Published

2023

18. Forecasting monthly soil moisture at broad spatial scales in sub-Saharan Africa using three time-series models: evidence from four decades of remotely sensed data

Author

Solomon G. Tesfamichael, Yegnanew A. Shiferaw, and Tsehaie Woldai

Subjects

Soil moisture forecasting, remote sensing, ESA CCI, sub-saharan Africa, agroecological zones, land cover types, Oceanography, GC1-1581, Geology, QE1-996.5

Abstract

ABSTRACTSoil moisture is a critical environmental variable that determines primary productivity and contributes to climatic processes. It is, therefore, important to forecast soil moisture to inform expectations of derivative outputs reliably. While forecasting soil moisture continues to advance, there is a need to extend it to different geoclimatic regions, including in sub-Saharan Africa, where livelihoods predominantly rely on subsistence agriculture. We used remotely sensed soil moisture data produced by the European Space Agency – Climate Change Initiative (ESA CCI). The data, which covered the period 1978 to 2019, were used to forecast monthly soil moisture in different agroecological zones and land cover types. The Seasonal Random Walk, Exponential Smoothing and Seasonal Autoregressive Integrated Moving Average (SARIMA) forecasting models were trained on 70% of the data (November 1978 – August 2007) and subsequently applied to a test dataset (September 2007 – December 2019). All models showed solid prediction accuracies for all agroecological zones (unbiased root mean square error, ubRMSE ≤ 0.05 m3 m−3) and land cover types (ubRMSE ≤ 0.04 m3 m−3). This was corroborated by similarities in season-adjusted anomalies between observed and forecasted soil moisture for nearly all agroecological zones and land cover types, with a correlation coefficient of r > 0.5 for most locations). The broad-scale interpretation of soil moisture forecasting can inform moisture availability and variability by regions; however, more research is encouraged to improve forecasting at spatially and temporally detailed levels to assist small-scale farming practices in the continent.

Published

2023

19. Endophytic bacterial taxonomic and functional diversity in the seeds of wheat genotypes from different agroecologies

Author

Pushpendra Sharma, Archna Suman, Krishnan Aswini, Jogdande SaiPrasad, and Shrikant Gond

Subjects

Agroecological zones, bacterial endophytes, wheat, diversity, functional traits, Plant culture, SB1-1110, Plant ecology, QK900-989

Abstract

ABSTRACTPlant genotype and agroecology influence the composition and functionality of seed endophytic bacterial communities. Taxonomic analysis of 123 wheat seeds endophytic bacteria classified these into 23 genera predominantly under Firmicutes followed by Actinobacteria and Proteobacteria. Genus Bacillus was most abundant (30.7%) followed by Streptomyces (18.4%) with other representative genera such as Stenotrophomonas, Paenibacillus, Mixta, Enterobacter, Micrococcus, Pantoea, Alkalihalobacillus, Cortiobacterium, and more. Across agroecologies, the core microbiota of seeds consists of Bacillus, Streptomyces, Paenibacillus, and Stenotrophomonas, with maximum diversity and abundance observed in seeds of the North Western Plain Zone of India. Seed endophytic bacteria had PGP traits; nitrogen fixation (n = 101), production of IAA (n = 65), siderophores (n = 43), ammonia (n = 82) and solubilization of phosphate (n = 47), potassium (n = 37), and zinc (n = 8). The isolates produced HCN and hydrolytic enzymes and displayed antagonism against fungal pathogens. Overall, the information generated on wheat seeds’ endophytic bacterial taxonomy and beneficial traits may pave the path for the development of novel bioinoculants.Key message Wheat seeds from various agro-ecologies of India harbor diverse endophytic bacteria.Firmicutes were dominant followed by Actinobacteria and Proteobacteria.Genus Bacillus, Stenotrophomonas, Streptomyces, and Paenibacillus were core endophytic bacteria in different agro-ecologies.The endophytic bacterial strains were displaying diverse functional traits.

Published

2023

20. ASSESSMENT OF THE GENETIC DIVERSITY OF NEW SUGARCANE HYBRIDS USING PRINCIPAL COMPONENT AND CLUSTER ANALYSES.

Author

Ramírez-Madero, Gustavo, Gómez-Merino, Fernando Carlos, Bello-Bello, Jericó Jabín, Trejo-Téllez, Libia Iris, and Hidalgo-Contreras, Juan Valente

Subjects

*PRINCIPAL components analysis, *GENETIC variation, *CLUSTER analysis (Statistics), *SACCHARUM, *CULTIVARS

Abstract

With a cultivated area of approximately 800 thousand hectares distributed in 15 states, sugarcane (Saccharum spp.) is one of the main crops in Mexico. Despite its socioeconomic importance, the genetic base of this crop has been reduced in recent decades, making the production system vulnerable to both biotic and abiotic stresses. For this reason, the Colegio de Postgraduados Campus Córdoba initiated a varietal selection program in 2009. In this study, morphological and agronomic attributes of 20 advanced hybrids were analyzed during the 2020-2021 and 2021- 2022 growing seasons to determine genetic variability based on principal component analysis (PCA) and cluster analysis. Commercial cultivars widely planted in the area of influence of the Córdoba Campus (CP 72-2086, Mex 79-431, Mex 69-290 and Mex 05-204) were used as reference samples. In terms of agronomic indicators, most of the new hybrids showed higher averages than the commercial control cultivars. The hybrids COLPOSCCMex 09-50 and COLPOSCCMex 09-66 showed better germination capacity. The average height of the tallest milling stems was presented by the hybrids COLPOSCCMex 09-341 (318.1 cm) and COLPOSCCMex 09-93 (311.85 cm). The hybrid COLPOSCCMex 09-289 showed outstanding values for five variables: diameter (36.43 mm), °Brix (21.89 %), stem height (149.33 cm), leaf width (5.36 cm) and number of leaves (11.15). Morphological characterization was carried out according to 54 descriptors, combining categorical and continuous traits that were easy to observe, with a high degree of differentiation and low environmental influence. Principal component and cluster analyses showed the distribution of hybrids into five groups. These results show promising sugarcane lines with high yields, which can contribute to genetic diversity in agroecological zones where they can be adapted. [ABSTRACT FROM AUTHOR]

Published

2023

21. Population Exposure Changes to Mean and Extreme Climate Events Over Pakistan and Associated Mechanisms.

Author

Saleem, Farhan, Zhang, Wenxia, Hina, Saadia, Zeng, Xiaodong, Ullah, Irfan, Bibi, Tehmina, and Nnamdi, Dike Victor

Subjects

CLIMATE extremes, DEMOGRAPHIC change, CLIMATE change, GLOBAL warming, RAINFALL

Abstract

The increasing prevalence of warmer trends and climate extremes exacerbate the population's exposure to urban settlements. This work investigated population exposure changes to mean and extreme climate events in different Agro‐Ecological Zones (AEZs) of Pakistan and associated mechanisms (1979−2020). Spatiotemporal trends in mean and extreme temperatures revealed significant warming mainly over northern, northeastern, and southern AEZs. In contrast, mean‐to‐extreme precipitation changes showed non‐uniform patterns with a significant increase in the northeast AEZs. Population exposure to mean (extreme) temperature and precipitation events increased two‐fold during 2000–2020. The AEZs in urban settlements (i.e., Indus Delta, Northern Irrigated Plain, and Barani/Rainfall) show a maximum exposure to extreme temperatures of about 70–100 × 106 (person‐days) in the reference period (1979−1999), which increases to 140–200 × 106 person‐days in the recent period (2000−2020). In addition, the highest exposure to extreme precipitation days also increases to 40–200 × 106 person‐days during 2000–2020 than 1979−1999 (20–100 × 106) person‐days. Relative changes in exposure are large (60%–90%) for the AEZs across northeast Pakistan, justifying the spatial population patterns over these zones. Overall, the observed changes in exposure are primarily attributed to the climate effect (50%) over most AEZs except Northern Irrigated Plain for R10 and R20 events, where the interaction effect takes the lead. The population exposure rapidly increased over major AEZs of Pakistan, which could be more vulnerable to extreme events due to rapid urbanization and population growth in the near future. Plain Language Summary: This study investigates the impact of climate change on population in different AEZs of Pakistan from 1979 to 2020. The findings depict widespread warming trends in northern, northeastern, and southern AEZs of Pakistan, whereas changes in precipitation patterns are non‐uniform, with a notable increase in the northeast zone. The study reveals that population exposure to temperature and precipitation events doubled between 2000 and 2020. Urban AEZs such as the Indus Delta, Northern Irrigated Plain, and Barani/Rainfall exhibit the largest exposure to extreme temperatures and precipitation, with exposure increasing over time. The northeast zones of Pakistan experience the highest relative changes in exposure, highlighting the vulnerability of these AEZs to climate events. Climate effect account for the majority of observed exposure changes in AEZs, except Northern Irrigated Plain, where interaction effect plays a key role. The findings suggest that as urbanization and population growth continue, major AEZs in Pakistan are becoming increasingly susceptible to extreme climate events in the future. Key Points: Spatiotemporal trends in mean to extreme temperature (precipitation) events reveal widespread warming across Agro‐Ecological ZonesPopulation exposure to mean (extreme) temperature and precipitation events increases two‐fold in recent climate periodObserved changes in population exposure are primarily attributed to the climate effect (50%) over major Agro‐Ecological Zones [ABSTRACT FROM AUTHOR]

Published

2023

22. Geographical distribution of Aspergillus flavus in peanut harvest period in China

Author

Xiaohan Liu, Jiayun Fu, Mingbo Wen, Haohua Gu, Pingping Ji, Xiaofeng Yue, Xiaoqian Tang, Meijuan Liang, Yang Zhou, Qi Zhang, and Peiwu Li

Subjects

Agroecological zones, Peanut, Aspergillus flavus, Distribution, Aflatoxin contamination, Genetics, QH426-470

Abstract

In order to grasp the distribution of Aspergillus flavus in the soil of peanut production areas in China, A. flavus biomarkers were tested on 555 soil samples from 37 sampling points in 17 provinces, peanut fields in four agroecological zones (Southern area, Yangtze River Basin, Northern area, Northeast area). The results showed that (1) the cultivation amount of A. flavus per gram of soil in the Yangtze River Basin is 1.30 times that of the southern area, 1.56 times that of the northern area, and 6.20 times that of the northeast area, with obvious regional characteristics. (2) In the Yangtze River basin, the change of longitude in the east-west direction has no direct impact on the cultivation amount of A. flavus per gram of soil. (3) In the east coast, the A. flavus cultivated per gram of soil increased first and then decreased with the increase of latitude from south to north. (4) A. flavus can be isolated in the soil samples above 1000 ​m. Field pollution is an important source of aflatoxin contamination in peanut. The study on the distribution of A. flavus in soil in China could provide theoretical support for the early warning and prevention and control measures of aflatoxin contamination in peanut.

Published

2023

23. Controlling aflatoxin in maize: The effects of varieties, packaging materials, and agroecological zones

Author

Sandra Ama Kaburi, Francis Appiah, Francis Padi Lamptey, and Gifty Serwaa Otoo

Subjects

Aflatoxin, Opeaburo, Wangdataa, Packaging materials, Agroecological zones, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Contamination of crops by aflatoxin is rampant in warm regions worldwide, including Sub-Sahara Africa. Contamination of maize and other foodstuffs with aflatoxin seriously threatens the health of humans and animals. The experimental design used was 2 × 2 × 3 factorial, laid out in a complete randomized design (CRD) consisting of two agroecological zones, two varieties, and three different packaging materials. At the end of the six months of storage, there was no contamination of the maize with aflatoxin G1. Again, there was no contamination of maize stored in the Forest zone with aflatoxin B1. High contamination levels of aflatoxin B1 (8.91 μg/kg), aflatoxin B2 (10.74 μg/kg), and aflatoxin G2 (14.49 μg/kg) occurred in the Wangdataa variety stored in jute. Purdue Improved Crop Storage (PICS) bags recorded lower contamination levels than jute and polypropylene (PP). Contamination was higher in the Savannah zone than in the Forest zone. The three packaging materials used gave maximum protection to all the maize stored in the Forest against aflatoxin B1 and aflatoxin G1. Farmers, traders, and all aggregators of maize in the Savannah zone should be discouraged from using jute bags to store maize in the Savannah zone for an extended period. Opeaburo should be planted and stored in the Savannah zone rather than Wangdataa. Farmers should be encouraged to use PICS bags to store maize in the Savannah zone to control aflatoxin B1, aflatoxin B2, and aflatoxin G2.

Published

2023

24. Population Exposure Changes to Mean and Extreme Climate Events Over Pakistan and Associated Mechanisms

Author

Farhan Saleem, Wenxia Zhang, Saadia Hina, Xiaodong Zeng, Irfan Ullah, Tehmina Bibi, and Dike Victor Nnamdi

Subjects

population exposure, extreme event, trend analysis, Agroecological zones, Pakistan, Environmental protection, TD169-171.8

Abstract

Abstract The increasing prevalence of warmer trends and climate extremes exacerbate the population's exposure to urban settlements. This work investigated population exposure changes to mean and extreme climate events in different Agro‐Ecological Zones (AEZs) of Pakistan and associated mechanisms (1979−2020). Spatiotemporal trends in mean and extreme temperatures revealed significant warming mainly over northern, northeastern, and southern AEZs. In contrast, mean‐to‐extreme precipitation changes showed non‐uniform patterns with a significant increase in the northeast AEZs. Population exposure to mean (extreme) temperature and precipitation events increased two‐fold during 2000–2020. The AEZs in urban settlements (i.e., Indus Delta, Northern Irrigated Plain, and Barani/Rainfall) show a maximum exposure to extreme temperatures of about 70–100 × 106 (person‐days) in the reference period (1979−1999), which increases to 140–200 × 106 person‐days in the recent period (2000−2020). In addition, the highest exposure to extreme precipitation days also increases to 40–200 × 106 person‐days during 2000–2020 than 1979−1999 (20–100 × 106) person‐days. Relative changes in exposure are large (60%–90%) for the AEZs across northeast Pakistan, justifying the spatial population patterns over these zones. Overall, the observed changes in exposure are primarily attributed to the climate effect (50%) over most AEZs except Northern Irrigated Plain for R10 and R20 events, where the interaction effect takes the lead. The population exposure rapidly increased over major AEZs of Pakistan, which could be more vulnerable to extreme events due to rapid urbanization and population growth in the near future.

Published

2023

25. RECLASSIFICATION OF AGROECOLOGICAL ZONES: CASE STUDY AT NANGAPANDA, ENDE, EAST NUSA TENGGARA.

Author

Putri, Nadya Paramitha, Frimawaty, Evi, and Wibowo, Adi

Subjects

*AGRICULTURAL ecology, *SUSTAINABLE agriculture, *ALTERNATIVE agriculture, *ECOLOGICAL zones, *BIOTIC communities

Published

2023

26. The Agricultural Potential of a Region with Semi-Dry, Warm and Temperate Subhumid Climate Diversity through Agroecological Zoning.

Author

Castorena, Edgar Vladimir Gutiérrez, Gómez, Gustavo Andrés Ramírez, and Solorio, Carlos Alberto Ortíz

Abstract

The sustainability of the natural resources used in agricultural production is essential to meet the future food needs of the population. It is necessary to understand the characteristics of climate and soil changes through agroclimatic zoning models, even with non-existent or limited climatic and edaphic databases, to avoid a decline in production. The objective of the study was to determine the accuracy of the Global Agroecological Zoning (GAEZ), ECOCROP and Papadakis models for major cereals, vegetables and fruit trees in the state of Nuevo León, Mexico, using the databases of climatic stations and soil profiles collected by INEGI with random sampling in the field. The model with the best projection was ECOCROP, which predicted 37,609 km2 of irrigated area for sorghum and 34,796 km2 for wheat, in addition to identifying by soil characteristics rainfed areas with higher suitability for beans measuring 8470 km2 and orange measuring 6175 km2 with zoning predictions based on field information. In conclusion, the thematic maps obtained with ECOCROP had an accuracy greater than 50% for more than half of the crops analyzed, making it the best method for the study area. Therefore, the food production decisions of the producers must be directed towards cereal crops based on the projected area; however, it is necessary to establish an updating program and generate edaphoclimatic databases, updating thematic soil and climate maps with models that support the projections verified in the field. [ABSTRACT FROM AUTHOR]

Published

2023

27. Climate Change Knowledge and Perception among Farming Households in Nigeria.

Author

Madaki, Mustapha Yakubu, Muench, Steffen, Kaechele, Harald, and Bavorova, Miroslava

Subjects

CLIMATE change mitigation, AGRICULTURE, PHYSIOLOGICAL adaptation, CLIMATE change, EXTREME weather, KNOWLEDGE gap theory, LAND cover

Abstract

Nigeria is committed to achieving a 20% unconditional and 45% conditional reduction of GHG emissions by 2030 through a strong focus on awareness of and preparedness for climate change impacts via the mobilization of local communities for climate change mitigation actions. As land cover changes and forestry contribute 38% and agriculture contributes 13% of the country's GHGs, farmers are among the stakeholders to be aware of and prepare for climate change mitigations and adaptations. This study assessed the knowledge of agriculturally related practices associated with climate change and its relation to climate change perception. One thousand and eighty (1080) smallholder farmers were interviewed across six agroecological zones (AEZs) of Nigeria using a structured questionnaire. The results revealed that most farmers know that deforestation and land clearance by bush burning contributes to climate change. However, many farmers did not know that methane emissions from livestock (enteric fermentation) can cause climate change. Our results further show that the farmers' perception of climate change is associated with climate change knowledge. Factors affecting the climate change knowledge of farmers include information received from government extension services, environmental NGOs, and radio, as well as experiencing extreme weather events. Farmers of dry AEZs were more aware and knowledgeable of the agricultural practices contributing to the changing environment. Increased exposure to climate change events thus appears to elevate the knowledge on the topic. Using government services, environmental NGOs, and radio to disseminate climate change information will help further in guiding and shaping farmers' perceptions towards scientific findings for appropriate actions. [ABSTRACT FROM AUTHOR]

Published

2023

28. Micro-climatic variations across Malawi have a greater influence on contamination of maize with aflatoxins than with fumonisins.

Author

Ng'ambi, Justin Temwani, Atehnkeng, Joseph, Monjerezi, Maurice, Ngongondo, Cosmo, Vunain, Ephraim, Ching'anda, Connel, Ortega-Beltran, Alejandro, Cotty, Peter J., Matumba, Limbikani, and Bandyopadhyay, R.

Abstract

This study reports levels of aflatoxin and fumonisin in maize samples (n = 1294) from all agroecological zones (AEZs) in Malawi. Most maize samples (> 75%) were contaminated with aflatoxins and 45% with fumonisins, which co-occurred in 38% of the samples. Total aflatoxins varied across the AEZs, according to mean annual temperature (P < 0.05) of the AEZs. Samples from the lower Shire AEZ (median = 20.8 µg/kg) had higher levels of aflatoxins (P < 0.05) than those from the other AEZs (median = 3.0 µg/kg). Additionally, the majority (75%) of the positive samples from the lower Shire AEZ had aflatoxin levels exceeding the EU regulatory limit (4 µg/kg), whereas 25%, 37%, and 39% of positive samples exceeded the threshold in the mid-elevation, Lake Shore and upper and middle Shire, and highlands AEZs, respectively. The lower Shire AEZ is characterised by higher mean temperatures throughout the year and low erratic rainfall. However, total fumonisins did not show significant variation across AEZs, but all positive samples exceeded 150 µg/kg, required for tolerable daily intake of 1.0 µg/kg body weight per day, established by the European Food Safety Authority Panel on Contaminants in the Food Chain. Therefore, results of this study suggest that contamination of maize with aflatoxin responds to micro-climate more than with fumonisins. In addition, the data will be useful to public health policy-makers and stakeholders to articulate and implement monitoring and mitigation programs. [ABSTRACT FROM AUTHOR]

Published

2023

29. Detection of total fumonisins produced by Fusarium verticillioides (Sacc) isolates from maize kernels in Ethiopia.

Author

Tsehaye, Hadush, Sundheim, Leif, Tronsmo, Arne, Brurberg, May Bente, Assefa, Dereje, and Tronsmo, Anne Marte

Subjects

*GIBBERELLA fujikuroi, *FUMONISINS, *ANIMAL health, *FOOD safety, *CORN, *MATERIAL culture, *CORN seeds, *CORN diseases

Abstract

Fusarium verticillioides is the most common fungal pathogen of maize in Ethiopia. Many strains of this pathogen produce fumonisin myotoxins that are harmful to human and animal health. This study was conducted to determine the fumonisin- producing ability of isolates of F. verticillioides isolated from maize kernels collected from different maize- growing areas of the country. Eighty F. verticillioides isolates were grown on autoclaved maize cultures for one month, and the fumonisin content was quantified using Enzyme Linked Immunosorbent Assay (ELISA). All the 80 isolates evaluated were able to produce detectable levels of total fumonisins in the maize culture with values ranging from 0.25 to 38.01 mg of the toxin per kg of culture material (fungal biomass and maize kernels). The mean levels of total fumonisins produced by the F. verticillioides isolates were not significantly (p>0.05) different among maize- growing areas, however, the total fumonisins levels produced by isolates obtained from the same area as well as agroecological zones were wide-ranging. The results indicate that the majority (57.5%) of the F. verticillioides isolates associated with maize grains in Ethiopia produced total fumonisins >4 mg/kg, while 35% of the isolates produced total fumonisins <2 mg/kg. The widespread occurrence of higher fumonisin- producing strains across all maizegrowing areas in Ethiopia indicates a possible food safety risk. Thus, efforts should be made to prevent the spread of this fungus with good agronomic practices and to implore all possible ways to avoid maize contamination with fumonisin both in the field and in storage. [ABSTRACT FROM AUTHOR]

Published

2023

30. Socio-demographic factors and ethnobotanical knowledge associated with sesame management practices across agroecological zones in Benin.

Author

Azon, Christel F., Fassinou Hotegni, Nicodème V., Adjé, Charlotte A. O., Agossou, Chaldia O., Sogbohossou, Olga E. D., Nouletope, Hermine, Akotchayé, Odilon-Parfait K., Kékpè, Pancrace, Aïsso, Clavaire, Guirguissou, Maboudou A., Dossa, Komivi, Agbangla, Clément, Quenum, Florent J-B., and Achigan-Dako, Enoch G.

Subjects

SESAME, SOCIODEMOGRAPHIC factors, PRINCIPAL components analysis, TRADITIONAL ecological knowledge, FERTILIZERS, CLUSTER analysis (Statistics)

Abstract

Summary: Sesame is an oilseed crop and source of income for small-scale farmers, particularly in developing countries. In Benin, sesame production is poorly developed and the underlying reasons are still unknown. In this study, we investigated the sesame management practices, socio-demographic factors and ethnobotanical knowledge associated with sesame production, as well as the production constraints across four agroecological zones in Benin. In total, 370 farmers were surveyed based on a structured interview. Qualitative and quantitative data including socio-demographic parameters, management practices and knowledge associated with the crop, were recorded. A binary logistic regression was performed to explain the effects of socio-demographic parameters on management practices. The farm typology was generated through a principal component analysis followed by a cluster analysis. Cultivars were classified based on the seed coat colour and size. To assess the ethnobotanical knowledge related to sesame, use value, plant part used value and fidelity level were calculated. Our results showed that older farmers were more likely to practice intercropping than young farmers. In addition, male farmers applied more fertilisers and used more pesticide than female. Five distinct farm typologies were recorded in the four agroecological zones. Five different cultivars were recorded across the four agroecological zones. Sesame is mostly produced for local consumption as sauce and seed appetiser (mentioned by at least 73.23% of respondents). The seeds were the most used part of the crop. The lack of improved seeds, road impassability to the field, rarity of rain, non-availability of cultivable land for sesame production, lack of cash for farm operations were the main constraints to wide sesame production. We discussed the differences among farm typology and their productivity and proposed future research actions for expanding sesame production in Benin. [ABSTRACT FROM AUTHOR]

Published

2023

31. Biochar Improves Soil Fertility and Crop Performance: A Case Study of Nigeria

Author

Abdulrahman Maina Zubairu, Erika Michéli, Caleb Melenya Ocansey, Norbert Boros, Gabriella Rétháti, Éva Lehoczky, and Miklós Gulyás

Subjects

agroecological zones, biochar, feedstocks, pyrolysis, soil properties, Physical geography, GB3-5030, Chemistry, QD1-999

Abstract

Africa, specifically Nigeria, has witnessed a dramatic increase in population over the last century, prompting efforts to ensure sustainable food production and quality. Concerns for soil sustainability and food security have led to the exploration of cost-effective methods, such as biochar, to enhance soil quality. Researchers in Nigeria and Africa as a whole have investigated biochar’s potential to improve soil fertility and crop performance across various agroecological zones. This paper aims to review recent biochar research priorities on soil fertility and crop performance with an emphasis on various sole biochar applications and combinations with fertilizers to determine the research gaps that need to be developed more in biochar research in Nigeria. From the papers reviewed, sole biochar applications and biochar + macronutrients and biochar + manure combinations were studied more dominantly, while biochar + micronutrients research projects were scanty despite their low content in the semi-arid soils of Nigeria. The studies were spread across the country with the majority taking place in derived savanna and humid forest, while Sudan savanna and Sahel savanna received less research attention despite being characterized by a low-fertile soil and vast area of land. Research involving BC in the context of Sahel savanna (SLS) and Sudan savanna (SS) soils is strongly encouraged in Nigeria. This research should encompass a wide range of investigations, including sole BC applications and combinations of BC with macronutrients, micronutrients, and manure, as well as exploring its potential as a slow-release fertilizer. Incorporating exclusive biochar in substantial amounts appears economically unfeasible within the context of local biochar production. However, it can be utilized in the synthesis of slow-release fertilizers, requiring smaller quantities and potentially offering cost-effectiveness. This approach enhances soil condition and crop productivity. Challenges are faced due to less commercial production as a result of inadequate power and structural facilities. Exploring the modification of local biochar for slow-release fertilizers through future research offers potential profitability.

Published

2023

32. Introduction to 'Management and Development of Agricultural and Natural Resources in Egypt’s Deserts'

Author

Elkhouly, Ahmed A., Omran, El-Sayed E., Negm, Abdelazim, Kostianoy, Andrey, Series Editor, Elkhouly, Ahmed A., editor, and Negm, Abdelazim, editor

Published

2021

33. Dynamics of the bioclimatic potential of agroecological zones of the Altai Territory in the conditions of modern climatic and anthropogenic changes

Author

Yuriy A. Gulyanov, Alexander A. Chibilyov, Marina М. Silantieva, Sergey V. Levykin, Ilya G. Yakovlev, Grigoriy V. Kazachkov, Natalia V. Ovcharova, and Lyudmila V. Sokolova

Subjects

altai territory, kulunda, ecology, ecological factor, agroecological zones, bioclimatic potential, phytomass, vegetation indices, adaptive agrotechnologies, Biology (General), QH301-705.5

Abstract

The steppe zone is characterized by high dynamism of environmental conditions including sharp climatic fluctuations that affect both the possibilities of agriculture and the state of steppe landscapes. Further development of agriculture without taking into account changing climatic and environmental factors increases risks both for steppe ecosystems and for the sustainability of agriculture. The field production of the agro-climatic zones of the Altai Territory is characterized by the high variability of gross yields associated with the dynamics of precipitation, air temperature, and soil fertility. Under the current conditions, the analysis of the temporal and spatial dynamics of bioclimatic potential is of high practical importance for the development and implementation of adaptive agricultural technologies. A retrospective analysis was carried out and a modern bio-climatic characteristic of model territories representing various agroecological zones was compiled for this purpose. The object of research was data on average daily, average monthly, and average annual air temperatures, the level of precipitation, the water vapor pressure, and relative humidity. Statistical processing of analytical data was carried out in Excel. Calculations revealed significant temporal and spatial dynamics of the BCP. Spatially, it is characterized by a significant decrease in a north-western orientation. The lowest average values, 1.71-1.81 units, were observed in the Kulunda and Rubtsovskaya agroecological zones, with a coefficient of variation of more than 20.0%. The Zarinskaya and Aleyskaya agroecological zones were characterized by the highest values of BCP, and the Predgornaya zone presented maximum values of BCP, at the level of 2.70 units with high stability. Temporally, the BCP of the Zarinskaya, Kulunda, and Priobskaya agroclimatic zones is characterized by a negative trend; in other zones, its almost zero balance is noted. A sufficiently expressed difference in the BCP of various agroecological zones has an impact on the realization of the biological potential of cultivated crops. Analysis of the level of development of the vegetative mass of spring wheat by determining NDVI confirmed this assumption. For a systematic assessment of the influence of climatic and anthropogenic factors on the production process of field crops and the development of measures for the rational use of agricultural landscapes, it is advisable to determine the potential yield according to the BCP, determine the degree of its implementation in the economic harvest and justify techniques for leveling limiting factors in agrotechnology of individual agroecological zones.

Published

2022

34. Characterization of Ralstonia solanacearum causing bacterial wilt from major chili growing areas of Pakistan.

Author

Aslam, Muhammad Naveed and Mukhtar, Tariq

Subjects

BACTERIAL wilt diseases, RALSTONIA solanacearum, CLIMATIC zones, DISEASE management, CAPSICUM annuum

Abstract

For proper disease management, accurate diagnosis of the pathogen is essential. Therefore, in the present study Ralstonia solanacearum causing bacterial wilt of chili was characterized to determine the distribution of biovars of the bacterium in the eight agroecological zones with varying climatic conditions and edaphic factors. Among all the 114 isolates of R. solanacearum, 77% showed mucoid growth while 23% isolates gave non-mucoid growth. Similarly, the isolates with mucoid growth were found positive for hypersensitivity response (HR), while those with non-mucoid growth showed negative HR. All the isolates grew well at 37 °C, while none of the isolates produced its colony at 41 °C. All the 114 isolates of R. solanacearum showed positive responses for all the biochemical tests used for confirmation of the bacterium. Out of 114 R. solanacearum isolates, 81% were identified as Biovar III while the remaining 19% were recognized as Biovar IV. Biovar III constituted 37 and 70% in the provinces of Punjab and Sindh, respectively, while Biovar IV formed 19 and 30%. On the other hand, in Khyber Pakhtunkhwa and Balochistan, only Biovar III was recorded. Similarly, Biovar III was observed from all the eight agroecological zones of the four provinces of the country and found to be predominant. On the other hand, Biovar IV was recorded from four agroecological zones located in the provinces of Punjab and Sindh. All the isolates yielded a 750-bp band that corresponded to R. solanacearum. It is concluded that Biovar III is widely prevalent in the country warranting stringent control measures. [ABSTRACT FROM AUTHOR]

Published

2023

35. OCCURRENCE AND DISTRIBUTION OF DAMPING-OFF IN Vigna subterranea IN BENIN AND IDENTIFICATION OF ASSOCIATED CAUSAL AGENTS.

Author

BOSSOU, L. D. R., ADANDONON, A., ZOUNDJI, C. M., AKPLO, T. M., HOUNGNANDAN, B. H., and HOUNGNANDAN, P.

Subjects

*BAMBARA groundnut, *IDENTIFICATION of fungi, *LEGUME seeds, *DISEASE incidence, *FOOD crops, *PATHOGENIC fungi, *BLACK gram

Abstract

Bambara groundnut (Vigna subterranea (L.) Verdc.), also called ground peas or Bambara groundnut, is a West African seed legume of the Fabaceae family, playing an important social and economic role. The objective of the current study was to determine the occurrence, distribution and incidence of this disease on Bambara groundnut in agroecological production zones in Benin and to identify the causal agents responsible for the damages caused to the crop. A survey was conducted from 2019 to 2020 in five agroecological zones (AEZs) of Benin (AEZ2, AEZ3, AEZ4, AEZ5 and AEZ6). A total of 30 fields of Bambara groundnut were surveyed from 10 municipalities located in the agroeclogical zones of production at the early vegetative stage of the crop. Fields’ size of 0.5 ha were selected and scouted alongside both diagonals to evaluate the damping-off disease incidence. The results showed that damping-off occurred in four out of the five AEZs surveyed. The incidence rates varied from 0.00 to 23.33% in the AEZs 5 and 6 in 2019, and from 0.00 to 18.33% in the AEZ 6 in 2020. The highest incidence rates were obtained in the West Zone of Atacora (AEZ 4) and in the Food crop region of South (AEZ 3). Results of the correlation test showed a relationship between incidence, distribution of dampingoff and climatic factors. However, most of regression equations showed a strong relationship between chemical properties of soils and incidence of damping-off. Sclerotium rolfssi was identified in the laboratory as the causal agent of the damping-off disease and isolated from diseased plants in the fields and during greenhouse pathogenicity tests. To the best of our knowledge, this is the first report of identification of pathogenic fungus as the causal agent of damping-off on Bambara groundnut seedlings in Benin. [ABSTRACT FROM AUTHOR]

Published

2022

36. A Combined Use of Rhizobacteria and Moringa Leaf Extract Mitigates the Adverse Effects of Drought Stress in Wheat (Triticum aestivum L.).

Author

Lalarukh, Irfana, Al-Dhumri, Sami A., Al-Ani, Laith Khalil Tawfeeq, Hussain, Rashid, Al Mutairi, Khalid Awadh, Mansoora, Nida, Amjad, Syeda Fasiha, Abbas, Mohamed H. H., Abdelhafez, Ahmed A., Poczai, Peter, Meena, Khem Raj, and Galal, Tarek M.

Subjects

MORINGA, DROUGHTS, RHIZOBACTERIA, BETAINE, PLANT growth promoting substances, DISEASE resistance of plants, WHEAT

Abstract

Less nutrient availability and drought stress are some serious concerns of agriculture. Both biotic and abiotic stress factors have the potential to limit crop productivity. However, several organic extracts obtained from moringa leaves may induce immunity in plants under nutritional and drought stress for increasing their survival. Additionally, some rhizobacterial strains have the ability to enhance root growth for better nutrient and water uptake in stress conditions. To cover the knowledge gap on the interactive effects of beneficial rhizobacteria and moringa leaf extracts (MLEs), this study was conducted. The aim of this experimental study was to investigate the effectiveness of sole and combined use of rhizobacteria and MLEs against nutritional and drought stress in wheat. Nitrogen-fixing bacteria Pseudomonas aeruginosa (Pa) (108 CFU ml–1) was inoculated to wheat plants with and without foliar-applied MLEs at two different concentrations (MLE 1 = 1:15 v/v and MLE 2 = 1:30 v/v) twice at 25 and 35 days after seed sowing (50 ml per plant) after the establishment of drought stress. Results revealed that Pa + MLE 2 significantly increased fresh weight (FW), dry weight (DW), lengths of roots and shoot and photosynthetic contents of wheat. A significant enhancement in total soluble sugars, total soluble proteins, calcium, potassium, phosphate, and nitrate contents validated the efficacious effect of Pa + MLE 2 over control-treated plants. Significant decrease in sodium, proline, glycine betaine, electrolyte leakage, malondialdehyde, hydrogen peroxide, superoxide dismutase (SOD), and peroxide (POD) concentrations in wheat cultivated under drought stress conditions also represents the imperative role of Pa + MLE 2 over control. In conclusion, Pa + MLE 2 can alleviate nutritional stress and drought effects in wheat. More research in this field is required to proclaim Pa + MLE 2 as the most effective amendment against drought stress in distinct agroecological zones, different soil types, and contrasting wheat cultivars worldwide. [ABSTRACT FROM AUTHOR]

Published

2022

37. A Combined Use of Rhizobacteria and Moringa Leaf Extract Mitigates the Adverse Effects of Drought Stress in Wheat (Triticum aestivum L.)

Author

Irfana Lalarukh, Sami A. Al-Dhumri, Laith Khalil Tawfeeq Al-Ani, Rashid Hussain, Khalid Awadh Al Mutairi, Nida Mansoora, Syeda Fasiha Amjad, Mohamed H. H. Abbas, Ahmed A. Abdelhafez, Peter Poczai, Khem Raj Meena, and Tarek M. Galal

Subjects

PGPR, agroecological zones, drought stress, Pseudomonas, nitrogen-fixing bacteria, biofertilizers, Microbiology, QR1-502

Abstract

Less nutrient availability and drought stress are some serious concerns of agriculture. Both biotic and abiotic stress factors have the potential to limit crop productivity. However, several organic extracts obtained from moringa leaves may induce immunity in plants under nutritional and drought stress for increasing their survival. Additionally, some rhizobacterial strains have the ability to enhance root growth for better nutrient and water uptake in stress conditions. To cover the knowledge gap on the interactive effects of beneficial rhizobacteria and moringa leaf extracts (MLEs), this study was conducted. The aim of this experimental study was to investigate the effectiveness of sole and combined use of rhizobacteria and MLEs against nutritional and drought stress in wheat. Nitrogen-fixing bacteria Pseudomonas aeruginosa (Pa) (108 CFU ml–1) was inoculated to wheat plants with and without foliar-applied MLEs at two different concentrations (MLE 1 = 1:15 v/v and MLE 2 = 1:30 v/v) twice at 25 and 35 days after seed sowing (50 ml per plant) after the establishment of drought stress. Results revealed that Pa + MLE 2 significantly increased fresh weight (FW), dry weight (DW), lengths of roots and shoot and photosynthetic contents of wheat. A significant enhancement in total soluble sugars, total soluble proteins, calcium, potassium, phosphate, and nitrate contents validated the efficacious effect of Pa + MLE 2 over control-treated plants. Significant decrease in sodium, proline, glycine betaine, electrolyte leakage, malondialdehyde, hydrogen peroxide, superoxide dismutase (SOD), and peroxide (POD) concentrations in wheat cultivated under drought stress conditions also represents the imperative role of Pa + MLE 2 over control. In conclusion, Pa + MLE 2 can alleviate nutritional stress and drought effects in wheat. More research in this field is required to proclaim Pa + MLE 2 as the most effective amendment against drought stress in distinct agroecological zones, different soil types, and contrasting wheat cultivars worldwide.

Published

2022

38. Climate Change Knowledge and Perception among Farming Households in Nigeria

Author

Mustapha Yakubu Madaki, Steffen Muench, Harald Kaechele, and Miroslava Bavorova

Subjects

causes of climate change, climate change perception and knowledge, climate change mitigation, farm practices, knowledge gap theory, agroecological zones, Science

Abstract

Nigeria is committed to achieving a 20% unconditional and 45% conditional reduction of GHG emissions by 2030 through a strong focus on awareness of and preparedness for climate change impacts via the mobilization of local communities for climate change mitigation actions. As land cover changes and forestry contribute 38% and agriculture contributes 13% of the country’s GHGs, farmers are among the stakeholders to be aware of and prepare for climate change mitigations and adaptations. This study assessed the knowledge of agriculturally related practices associated with climate change and its relation to climate change perception. One thousand and eighty (1080) smallholder farmers were interviewed across six agroecological zones (AEZs) of Nigeria using a structured questionnaire. The results revealed that most farmers know that deforestation and land clearance by bush burning contributes to climate change. However, many farmers did not know that methane emissions from livestock (enteric fermentation) can cause climate change. Our results further show that the farmers’ perception of climate change is associated with climate change knowledge. Factors affecting the climate change knowledge of farmers include information received from government extension services, environmental NGOs, and radio, as well as experiencing extreme weather events. Farmers of dry AEZs were more aware and knowledgeable of the agricultural practices contributing to the changing environment. Increased exposure to climate change events thus appears to elevate the knowledge on the topic. Using government services, environmental NGOs, and radio to disseminate climate change information will help further in guiding and shaping farmers’ perceptions towards scientific findings for appropriate actions.

Published

2023

39. Land Management for Sustainable Agriculture

Author

Nair, Kodoth Prabhakaran and Nair, Kodoth Prabhakaran

Published

2019

40. Influence of land use on the diversity and composition of edaphic arthropods in the Granja Tunguavita

Author

Nicolas Forero, Pablo A Serrano, and Fabio E Forero

Subjects

agroecological zones, rotation crop, pasture, Agriculture

Abstract

The modification of the landscape, the intense exploitation of natural resources through intensive agriculture and the advance of the agricultural frontier result in the homogenization of the landscape and alteration of soil physicochemical conditions. These soil alterations cause changes in the composition and diversity of edaphic arthropod communities that can be used as biomonitoring and diagnostic tools in local areas. The objective of the study was to evaluate the diversity of edaphic arthropods and their association to different physicochemical parameters (i.e., pH, real density, bulk density, %OC, %OM and gravimetric and volumetric humidity) in three soil uses (permanent crop, rotational crop and pasture) in the experimental farm Tunguavita Paipa - Boyacá. The plot sampling technique was used to obtain data on biological and physicochemical variables. Samples were taken in three soil uses, permanent crop, rotational crop and cattle ranch. The edaphic arthropods and physicochemical variables were determined in the soil laboratory of the Universidad Pedagógica y Tecnológica de Colombia. The highest diversity of edaphic arthropods (309 individuals) was recorded in the permanent crop plot, followed by the rotational crop plot, both with high average values of %OM (1.82 - 1.90) and %OC (1.05 - 1.10). The Oligochaeta, Diplopoda and Araneae group were the major contributors to the biological differentiation between land uses. The changes in the abundance of edaphic arthropods were related to % gravimetric humidity, %volumetric humidity, pH, %OM and %OC, while the values of real density and bulk density did not correlate to a great extent with the changes in abundance. These variations allow the differentiation of land uses in an intervention gradient.

Published

2021

41. Climate and agriculture: empirical evidence for countries and agroecological zones of the Sahel.

Author

Yobom, Oudah and Le Gallo, Julie

Subjects

GRAIN trade, AGRICULTURAL productivity, ZONE melting, GROWING season, AGRICULTURE, CLIMATE change

Abstract

How heterogenous is the impact of climate change across space and the type of agricultural production? In this paper, we investigate the relationship between climate change and variability, measured by temperature and rainfall, and agricultural production at the country and agroecological zone levels of the Sahel. We consider a crop production index and five cereals (maize, millet, sorghum, wheat and rice). Based on an original climate database and an agricultural production function estimated for the period 1961–2016, we show that average rainfall and temperature during the growing season indeed have highly heterogeneous effects on agricultural production, depending on the specific needs and stress of each cereal and the agronomic and climatic conditions of each zone. [ABSTRACT FROM AUTHOR]

Published

2022

42. IMLAPC: Interfused Machine Learning Approach for Prediction of Crops.

Author

R., Chetan, Ashoka, D. V., and B. V., Ajay Prakash

Subjects

MACHINE learning, CROPS, CROP yields, DECISION trees, ERROR rates

Abstract

Agriculture is the main occupation of rural India, which promotes economic growth in the country's development. To increase the yield of the crops to feed the increasing population, it is essential to identify the crops which can be grown in the respective zones. In this article, the Fused Classifier Algorithm (FCA) and Interfused Machine Learning Algorithm (IMLA) are proposed to predict crops suitable for the land based on the zones and agro-climatic parameters. Focusing on the zones of the Karnataka region, the model predicts the crop to the farmers. The different machine learning models such as naïve Bayes, decision tree, neighbors, multilayer perceptron have also been evaluated by varying the hyperparameters and checked for accuracy of the models built. The FCA algorithm merges different algorithms using the error rate with hyperparameters tuning and is given to IMLA to predict crops. This article also compares different machine learning classifiers with the proposed IMLA algorithm, which shows better accuracy with 82.7%. [ABSTRACT FROM AUTHOR]

Published

2022

43. Small farms and development in sub-Saharan Africa: Farming for food, for income or for lack of better options?

Author

Giller, Ken E., Delaune, Thomas, Silva, João Vasco, van Wijk, Mark, Hammond, James, Descheemaeker, Katrien, van de Ven, Gerrie, Schut, Antonius G. T., Taulya, Godfrey, Chikowo, Regis, and Andersson, Jens A.

Abstract

Most food in sub-Saharan Africa is produced on small farms. Using large datasets from household surveys conducted across many countries, we find that the majority of farms are less than 1 ha, much smaller than previous estimates. Farms are larger in farming systems in drier climates. Through a detailed analysis of food self-sufficiency, food and nutrition security, and income among households from divergent farming systems in Ethiopia, Ghana, Mali, Malawi, Tanzania and Uganda, we reveal marked contrasts in food security and household incomes. In the south of Mali, where cotton is an important cash crop, almost all households are food secure, and almost half earn a living income. Yet, in a similar agroecological environment in northern Ghana, only 10% of households are food secure and none earn a living income. Surprisingly, the extent of food insecurity and poverty is almost as great in densely-populated locations in the Ethiopian and Tanzanian highlands that are characterised by much better soils and two cropping seasons a year. Where populations are less dense, such as in South-west Uganda, a larger proportion of the households are food self-sufficient and poverty is less prevalent. In densely-populated Central Malawi, a combination of a single cropping season a year and small farms results in a strong incidence of food insecurity and poverty. These examples reveal a strong interplay between population density, farm size, market access, and agroecological potential on food security and household incomes. Within each location, farm size is a major determinant of food self-sufficiency and a household's ability to rise above the living income threshold. Closing yield gaps strongly increases the proportion of households that are food self-sufficient. Yet in four of the locations (Ethiopia, Tanzania, Ghana and Malawi), land is so constraining that only 42–53% of households achieve food self-sufficiency, and even when yield gaps are closed only a small proportion of households can achieve a living income. While farming remains of central importance to household food security and income, our results help to explain why off-farm employment is a must for many. We discuss these results in relation to sub-Saharan Africa's increasing population, likely agricultural expansion, and agriculture's role in future economic development. [ABSTRACT FROM AUTHOR]

Published

2021

44. Micro-climatic variations across Malawi have a greater influence on contamination of maize with aflatoxins than with fumonisins

Author

Ng’ambi, Justin Temwani, Atehnkeng, Joseph, Monjerezi, Maurice, Ngongondo, Cosmo, Vunain, Ephraim, Ching’anda, Connel, Ortega-Beltran, Alejandro, Cotty, Peter J., Matumba, Limbikani, and Bandyopadhyay, R.

Published

2023

45. Climate change and sustainability of donor funded dairy projects: A case of Malava Sub-County in Kakamega, Kenya

Author

Olang, David Omondi and Oduor, Ismael Okoth

Published

2019

46. Mucilage Polysaccharide Composition and Exudation in Maize From Contrasting Climatic Regions

Author

Meisam Nazari, Sophie Riebeling, Callum C. Banfield, Asegidew Akale, Margherita Crosta, Kyle Mason-Jones, Michaela A. Dippold, and Mutez Ali Ahmed

Subjects

agroecological zones, genotype, maize, mucilage, root exudation, vapor pressure deficit, Plant culture, SB1-1110

Abstract

Mucilage, a gelatinous substance comprising mostly polysaccharides, is exuded by maize nodal and underground root tips. Although mucilage provides several benefits for rhizosphere functions, studies on the variation in mucilage amounts and its polysaccharide composition between genotypes are still lacking. In this study, eight maize (Zea mays L.) genotypes from different globally distributed agroecological zones were grown under identical abiotic conditions in a randomized field experiment. Mucilage exudation amount, neutral sugars and uronic acids were quantified. Galactose (∼39–42%), fucose (∼22–30%), mannose (∼11–14%), and arabinose (∼8–11%) were the major neutral sugars in nodal root mucilage. Xylose (∼1–4%), and glucose (∼1–4%) occurred only in minor proportions. Glucuronic acid (∼3–5%) was the only uronic acid detected. The polysaccharide composition differed significantly between maize genotypes. Mucilage exudation was 135 and 125% higher in the Indian (900 M Gold) and Kenyan (DH 02) genotypes than in the central European genotypes, respectively. Mucilage exudation was positively associated with the vapor pressure deficit of the genotypes’ agroecological zone. The results indicate that selection for environments with high vapor pressure deficit may favor higher mucilage exudation, possibly because mucilage can delay the onset of hydraulic failure during periods of high vapor pressure deficit. Genotypes from semi-arid climates might offer sources of genetic material for beneficial mucilage traits.

Published

2020

47. Spatial characterization and distribution modelling of Ensete ventricosum (wild and cultivated) in Ethiopia.

Author

Eshetae, Meron Awoke, Hailu, Binyam Tesfaw, and Demissew, Sebsebe

Subjects

*RECEIVER operating characteristic curves, *GEOSPATIAL data, *FOOD security, *FOOD crops

Abstract

Enset (Ensete ventricosum) feeds around 20 million people in Ethiopia and is arguably the most important crop for food security and rural livelihoods in the country. Therefore, it is significant to know its spatial characterization and distribution in the country. We use spatial overlay analysis and the maximum entropy (MaxEnt) model for characterizing and modelling, respectively. Inputs for the model include 26 environmental variables—19 bioclimatic and seven biophysical—in addition to the geospatial location of enset field data. The model result was validated using Receiver Operating Characteristic curve method and the area under the curve (AUC) with 0.842 for cultivated enset and 0.760 (wild enset). The highest prediction (>0.5) of both varieties occurred in the southwestern, south-central and north-eastern parts of Ethiopia—17,293.67 km2 (cultivated) and 40,402 km2 (wild) area. The presence of both enset is probabilistically higher at the tropic-cool/sub-humid Agroecological Zones. [ABSTRACT FROM AUTHOR]

Published

2021

48. Maternal diets matter for children's dietary quality: Seasonal dietary diversity and animal‐source foods consumption in rural Timor‐Leste.

Author

Bonis‐Profumo, Gianna, Stacey, Natasha, and Brimblecombe, Julie

Subjects

*DIET, *FOOD quality, *FOOD habits, *INGESTION, *LONGITUDINAL method, *MEAT, *PSYCHOLOGY of mothers, *NUTRITIONAL assessment, *SCIENTIFIC observation, *POPULATION geography, *QUESTIONNAIRES, *REGRESSION analysis, *RESEARCH funding, *RURAL conditions, *SEASONS, *STATISTICAL hypothesis testing, *STATISTICS, *SURVEYS, *DATA analysis, *SOCIOECONOMIC factors, *EDUCATIONAL attainment, *FOOD security, *DATA analysis software, *DESCRIPTIVE statistics, *NUTRITIONAL status, *CHILDREN

Abstract

Improving the dietary quality of women and children is essential to reduce all forms of malnutrition. In this study, we assessed seasonal child and maternal dietary diversity and consumption of animal‐source foods (ASF), using 1,236 observations from combined data collected among 167 mother–child dyads in rural Timor‐Leste. We used generalized linear and logistic mixed‐effects models to examine the dietary differentials of mothers and children in two agricultural livelihood zones and across the seasons, as well as to identify household and agroecological characteristics associated with children's dietary quality in relation to their mothers'. We found dietary quality to be marginally better in coastal than in mid‐altitude zones. However, women's diets were strikingly poor, and their intake of ASF was lower than among children. Mothers exhibited preferential allocation patterns of specific ASF, dairy products and eggs, to children. The intake of ASF was predicted by seasonality. Flesh foods and red meat were much more likely to be consumed during the dry season, when cultural ceremonies are often performed. We found a positive and strongly significant association between children's dietary indicators—dietary diversity score, minimum dietary diversity and ASF consumption, and those of their mothers'. Maternal dietary quality and educational attainment, more so than agroecological characteristics, were explanatory factors of children's diet. Our study highlights that addressing the dietary quality of children in Timor‐Leste would benefit from improving women's diets through better access to nutritious foods and to secondary education. [ABSTRACT FROM AUTHOR]

Published

2021

49. Influence of land use on the diversity and composition of edaphic arthropods in the Granja Tunguavita.

Author

Forero P., Nicolas, Serrano, Pablo A., and Forero, Fabio E.

Subjects

*ARTHROPODA, *LAND use, *RESOURCE exploitation, *RANCHING, *ARTHROPOD diversity, *AGRICULTURAL intensification

Abstract

The modification of the landscape, the intense exploitation of natural resources through intensive agriculture and the advance of the agricultural frontier result in the homogenization of the landscape and alteration of soil physicochemical conditions. These soil alterations cause changes in the composition and diversity of edaphic arthropod communities that can be used as biomonitoring and diagnostic tools in local areas. The objective of the study was to evaluate the diversity of edaphic arthropods and their association to different physicochemical parameters (i.e., pH, real density, bulk density, %OC, %OM and gravimetric and volumetric humidity) in three soil uses (permanent crop, rotational crop and pasture) in the experimental farm Tunguavita Paipa - Boyacá. The plot sampling technique was used to obtain data on biological and physicochemical variables. Samples were taken in three soil uses, permanent crop, rotational crop and cattle ranch. The edaphic arthropods and physicochemical variables were determined in the soil laboratory of the Universidad Pedagógica y Tecnológica de Colombia. The highest diversity of edaphic arthropods (309 individuals) was recorded in the permanent crop plot, followed by the rotational crop plot, both with high average values of %OM (1.82 - 1.90) and %OC (1.05 - 1.10). The Oligochaeta, Diplopoda and Araneae group were the major contributors to the biological differentiation between land uses. The changes in the abundance of edaphic arthropods were related to % gravimetric humidity, %volumetric humidity, pH, %OM and %OC, while the values of real density and bulk density did not correlate to a great extent with the changes in abundance. These variations allow the differentiation of land uses in an intervention gradient. [ABSTRACT FROM AUTHOR]

Published

2021

50. Analysis of land use/ land cover changes and landscape fragmentation in the Baro-Akobo Basin, Southwestern Ethiopia.

Author

Mulatu K, Hundera K, and Senbeta F

Abstract

This study investigated the relationship between land use/land cover (LULC) changes and forested landscape fragmentation in the southwestern region of Ethiopia. Satellite images from 1986, 2002 and 2019 were collected and analyzed using standard procedures in ERDAS 2015 software. Fragstat 4.2.1 software was utilized to assess landscape fragmentation by examining a raster datasets derived from the classified LULC map over the research period. The study identified seven LULC classes in the study area. Findings revealed a substantial reduction in shrubland by 46.3%, dense forest by 23.75%, open forest by 17.3%, and wetland by 32.63%, while cropland increased by 38.06%, agroforestry by 20.29%, and settlements by 163.8% during the study period. These changes varied across different agroecological zones and slope gradients. Landscape metrics results indicated an increase in the number of patches and patch density for all LULC classes, demonstrating significant fragmentation of the landscape. The largest patch index, mean patch areas, and the percentage of landscape occupied by open forest, dense forest, shrubland, and wetland declined as a result of conversion to cropland, agroforestry, and settlement. Conversely, the largest patch index, the mean patch area and the percentage of the landscape occupied by agroforestry, cropland and settlement increased, indicating their increasing dominance in the landscape over the study periods. The findings highlighted the potential deleterious impacts of ongoing land use change and fragmentation on the environment, ecosystem function and local livelihoods. Therefore, it is crucial to implement appropriate conservation efforts and sustainable land management practices to mitigate the rapid change and fragmentation of land use and its negative impacts on sub-watershed ecosystems., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 Published by Elsevier Ltd.)

Published

2024