Your search keyword '"ORGANIC fertilizers"' showing total 193 results

1. Substituting partial chemical nitrogen fertilizers with organic fertilizers maintains grain yield and increases nitrogen use efficiency in maize

Author

Le Wang, Hongliang Zhou, and Cong Fei

Subjects

organic fertilizers, rainfed maize, nitrogen recovery efficiency, grain yield, semi-arid region, Plant culture, SB1-1110

Abstract

IntroductionLong-term application of excessive nitrogen (N) not only leads to low N use efficiency (NUE) but also exacerbates the risk of environmental pollution due to N losses. Substituting partial chemical N with organic fertilizer (SP) is an environmentally friendly and sustainable fertilization practice. However, the appropriate rate of SP in rainfed maize cropping systems in semi-arid regions of China is unknown.MethodsTherefore, we conducted a field experiment between 2021 and 2022 in a semi-arid region of Northern China to investigate the effects of SP on maize growth, carbon and N metabolism (C/NM), and NUE. The following treatments were used in the experiment: no N application (CK), 100% chemical N (SP0, 210 kg N ha–1), and SP substituting 15% (SP1), 30% (SP2), 45% (SP3), and 60% (SP4) of the chemical N. The relationship between these indicators and grain yield (GY) was explored using the Mantel test and structural equation modeling (SEM).Results and discussionThe results found that the SP1 and SP2 treatments improved the assimilates production capacity of the canopy by increasing the leaf area index, total chlorophyll content, and net photosynthetic rate, improving dry matter accumulation (DMA) by 6.2%–10.6%, compared to the SP0 treatment. SP1 and SP2 treatments increased total soluble sugars, starch, free amino acids, and soluble protein contents in ear leaves via increasing the enzymatic reactions related to C/NM in ear leaves during the reproductive growth stage compared with SP0 treatment. The highest plant nitrogen uptake (PNU) and nitrogen recovery efficiency were obtained under the SP2 treatment, and the GY and nitrogen agronomic efficiency were higher than the SP0 treatment by 9.2% and 27.8%. However, SP3 and SP4 treatments reduced DMA and GY by inhibiting C/NM in ear leaves compared to SP0 treatment. Mantel test and SEM results revealed that SP treatments indirectly increased GY and PNU by directly positively regulating C/NM in maize ear leaves. Therefore, in the semi-arid regions, substituting 30% of the chemical N with SP could be considered. This fertilizer regime may avoid GY reduction and improve NUE. This study provides new insights into sustainable cultivation pathways for maize in semi-arid regions.

Published

2024

2. CHROMIUM SPECIATION IN ORGANIC FERTILIZERS BY SPECTROPHOTOMETRY

Author

Arthur Felipe Burg, Graciela Marini Hiedrich, Ana Barbosa Viana, and Valderi Luiz Dressler

Subjects

chromium speciation, organic fertilizers, UV-Vis spectrophotometry, Chemistry, QD1-999

Abstract

In the present study a spectrophotometric method for Cr(VI) determination in organic fertilizers, especially those from tanning industry residues, is proposed. Conditions for chromium extraction, extract clean-up and analytical characteristics of the method were established. The method is based on the complexation of Cr(VI) with 1,5-diphenylcarbazide (DPC) in acid medium (pH 2.0). A mixture of NaOH and Na2CO3 solution at 0.125 and 0.07 mol L–1 (pH 12), respectively, and heating at 90 °C for 60 min were the best conditions for chromium extraction. Florisil and activated charcoal were tested for clean-up of the extract, with activated charcoal being effective. Under the established conditions, the calibration linear range is up to 2500 μg L–1 Cr(VI), the results obtained are in agreement with the value of a certified reference material (CRM041), precision is better than 5% for five consecutive determinations of a solution at 1000 μg L–1 of Cr(VI) and the limit of quantification is 1.62 μg g–1. In can be concluded that the method is robust, accurate and precise, and can be easily applied for the determination of Cr(VI) in routine analysis, since it complies with legislation of most countries regarding the maximum allowed concentration of 2 μg g–1 of Cr(VI).

Published

2024

3. Yellow mealworm frass: A promising organic fertilizer for common sowthistle (Sonchus oleraceus L.) and bristly oxtongue (Helminthotheca echioides (L.) Holub) cultivation

Author

Anestis Karkanis, Angeliki Charitomeni Asprogeraka, Efthymios Paouris, Theodora Ntanasi, Ioannis Karavidas, Christos I. Rumbos, Christos G. Athanassiou, and Georgia Ntatsi

Subjects

Fertilization, Leafy vegetables, Organic fertilizers, Soil improvement agents, Weed, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Common sowthistle (Sonchus oleraceus L.) and bristly oxtongue [Helminthotheca echioides (L.) Holub] are winter broad-leaved weeds that have gained interest for cultivation as leafy vegetables. The aim of this study was to examine the effects of frass from the yellow mealworm (Tenebrio molitor L.) on nutrient content in soil, growth parameters, and nutrient content in above-ground plant tissues of common sowthistle and bristly oxtongue. Thus, two pot experiments were carried out with 5 treatments [control, calcium ammonium nitrate (CAN) applied at a dose of 100 kg N ha−1, and insect frass applied at a rate of 3500 kg ha−1 (0.5 % w/w) 7000 kg ha−1 (1 % w/w), and 14,000 kg ha−1 (2 % w/w)]. Our results showed that the lowest values of growth parameters for both plant species were recorded in the control treatment. At the final rosette growth stage [e.g., 152 days after sowing (DAS)], the CAN treatment exhibited the highest values of rosette diameter and above-ground dry weight, followed by the highest rate of insect frass. Similarly, at 152 DAS the SPAD index values in the CAN treatment were 28.4–41.5 % higher compared to the control treatment in both species. Regarding root dry weight, the highest values were found in the CAN and insect frass 2 % treatments. In addition, the application of insect frass significantly enhanced soil fertility, with the highest levels of P and K recorded in the insect frass 2 % treatment. In contrast, the CAN treatment resulted in the highest NO3–N content in the soil (15.83 and 19.26 mg kg−1 in common sowthistle and bristly oxtongue, respectively). Moreover, both P and K content in the above-ground plant tissues had the highest values in the insect frass 2 % treatment, while the content of Mg, Mn, and Cu in plant tissues was not affected by the fertilization sources. Therefore, our findings indicate that insect frass can be an additional option in crop fertilization programs as it can improve both the soil fertility and growth of crops compared to conventional inorganic fertilizer sources. However, the effects of insect frass in mixtures with inorganic fertilizers needs to be taken into consideration in future studies.

Published

2024

4. Effect of fertilizers and growth stimulants on the content of coumarin and its derivatives in the vegetative mass of melilot

Author

M. N. Suraganov, T. M. Seilkhanov, U. M. Sagalbekov, A. M. Suraganova, and G. T. Ualiyeva

Subjects

melilot, nuclear magnetic resonance spectroscopy, organic fertilizers, organomineral fertilizers, mineral fertilizers, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract The paper presents the results of determining the content of coumarin and its derivatives in the melilot using nuclear magnetic resonance spectroscopy, including the study of the effect of fertilizers on the quantitative content of coumarin and its derivatives in the composition of the melilot treated by phases using the method of 1H and 13C nuclear magnetic resonance spectroscopy. Based on the results of the nuclear magnetic resonance spectroscopy, the possibility of qualitative and quantitative determination of the content of coumarin and its derivatives isolated from extracts of fertilized melilot was evaluated. The effect of eight preparations on the plant and its concentration in solution on the content of coumarin substances in the Altynbas yellow melilot variety was studied. It was shown that the preparations have a slight effect on the coumarin content in the melilot and, accordingly, on the quality of feed based on it. In the control variant (variant 9), the coumarin proton content was 9.85%, and the maximum coumarin proton content was observed in the variant where BioEnergy was used as fertilizer and amounted to 22.44%.

Published

2024

5. Impact of Different Organic Extracts on Growth and Yield of Chili Pepper (Capsicum frutescens L.)

Author

Muna Aied Yousif and Hussam Nafea Shakir

Subjects

Pepper, Organic fertilizers, Plant growth, Baking yeast, Chemical fertilization, Special industries and trades, HD9000-9999, Industrial engineering. Management engineering, T55.4-60.8

Abstract

There are many ways to increase the quality and productivity of the chili pepper plant, one of which is the use of organic fertilizer, to improve the properties of the soil as well as provide the nutrients needed. A pot experiment was carried out in the greenhouse of the Faculty of Agriculture, Samarra University, during the agricultural season 2022, with the aim of studying the effect of using seven types of fertilizers (bread yeast fertilizer A2, decomposed cow dung fertilizer A3, tea residue fertilizer A4, coffee residue fertilizer A5, rice soaked fertilizer A6, and chemical fertilizer A7in addition to the control A1) on the growth and yield of chili pepper using a randomized complete block design with four replications. The results were as follows: Fertilizer treatment A3 was significantly superior in vegetative growth characteristics, as the plant length reached 81.69 cm, stem diameter 7.95 mm, number of branches 10.75, and number of leaves 95.0 leaves. Plant- 1, leaf area 178.14 cm2, number of fruits 34.26 fruits. Plant- 1, and total yield 1.76 kg.plant-1, while treatment A2 excelled in the characteristics of root length 27.84 cm and root fresh weight 26.75 g. Fertilization treatment A4 had the lowest rate in all traits.

Published

2024

6. Effects of organic fertilizers on changes of functional traits in vegetative growth period of Leymus chinensis

Author

DAI Jingzhong, YAN Ruirui, ZHANG Xiaoying, and LÜ Guangping

Subjects

leymus chinensis, organic fertilizers, functional traits, correlation, driving factor, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract [Objective] This paper studied the changes, response mechanism, and correlation of functional traits of Leymus chinensis during vegetative growth period under different levels of organic fertilizers, in an attempt to provide reference for the dynamic study of resources, environment, and plant functional characters, as well as restoration of the grassland ecosystems. [Methods] Selecting a grassland that had not been fertilized for more than 20 years as the experimental site, which was enclosed and divided into several small areas. Setting up four levels of organic fertilizer applications, with effective N amounts of 0, 63, 127, and 190 kg/hm2, respectively. Collecting samples before, during, and after the major vegetative growth of L. chinensis, and measuring functional traits. The changing trend, difference, correlation, and influence coefficient of functional characters of L. chinensis were analyzed by conic equation fitting, single factor multivariate analysis of variance, Pearson correlation analysis, and integral (stepwise) regression. [Results] (1) Organic fertilizers increased at beginning and then decreased the leaf length, leaf area, natural leaf width, unfolded leaf width, specific leaf area, stem length, stem mass, and single plant mass of L. chinensis sativus, while leaf dry matter and stem dry matter were decreased. (2) Organic fertilizers changed the correlation among functional characters of L. chinensis, enhancing the correlation between leaf area and specific leaf area, stem length and stem mass, and stem length and single plant mass, while decreasing the correlation between single leaf mass and single plant mass, and leaf width and plant height. (3) Organic fertilizers changed the contribution rate of phenotypic traits, including leaves, stems, and plant heights, to single plant mass. Increasing fertilization levels, the contribution of leaves, stems and plant heights tended to be balanced. The order of phenotypic traits affecting single plant mass of L. chinensis was: Leaves > plant heights > stems. [Conclusion] Short-term application of organic fertilizers had a significant effect on the functional characters of L. chinensis, which was mainly occurred in the later stage of vegetative growth, especially on the single plant mass. Among them, leaf length, unfolding leaf width, leaf area, and plant height had great influence on the single plant mass of L. chinensis, while plant height was the most stable factor driving the change of single plant mass. At the same time, the correlation between functional characters of L. chinensis was affected by the levels of fertilization. Fertilization enhanced the correlation of some functional traits while weakened the correlation among others, and thus there was a balance as a whole.

Published

2024

7. Increasing growth of monobulb garlic through the application of corona glow discharge plasma radiation and organic fertilizers

Author

Erma Prihastanti, Sumariyah Sumariyah, and Febiasasti Trias Nugraheni

Subjects

allicin, corona glow discharge, organic fertilizers, root development, agricultural technology, Biology (General), QH301-705.5, Biotechnology, TP248.13-248.65

Abstract

Monobulb garlic, distinguished by its elevated allic.in content, has garnered heightened consumer interest due to its perceived health benefits. However, the challenge lies in scaling up production to meet this demand. This study investigates the potential enhancement of monobulb garlic growth by employing a novel approach that combines corona glow discharge plasma radiation technology and organic fertilizers. By employing a factorial complete randomized design with nine treatments and three repetitions, the research evaluates the impact of varying durations of plasma radiation (0, 15, and 30 minutes) and levels of organic fertilizers (0, 31.25, and 62.5 grams). Key growth parameters, including plant height, leaf count, root length, and root quantity, were measured. Results indicate that the optimal combination for growth enhancement involves 30 minutes of radiation coupled with 31.25 grams of organic fertilization. In conclusion, the integration of corona glow discharge plasma radiation technology and organic fertilization proves effective in promoting the growth of monobulb garlic plants.

Published

2024

8. Effects of vermicompost on the growth and yield of spring onion (Allium fistulosum L.)

Author

Thi Thuy Luu Hai, Truc Le Linh, and Green Iain D.

Subjects

allium fistulosum, onion, organic fertilizers, vermicompost, welsh onion, Agriculture

Abstract

Spring onion (Allium fistulosum L.) is a popular salad vegetable produced widely over the world, including in Vietnam. Thanks to its flavor and aroma, it is an indispensable ingredient used to flavor soups and other dishes. Vermicompost is a natural and environmentally friendly fertilizer used widely to increase crop production and maintain the sustainability of agrosystems. Consequently, this study was conducted to investigate the efficiency of vermicompost at different application rates in promoting the growth and yield parameters of spring onion. The results show that adding vermicompost to spring onion production had significant positive effects on plant height, number of leaves, number of tillers, individual plant weight, and plot yield. Particularly, the application of vermicompost at 40 t ha-1 showed the highest performance in the observed parameters, increasing the number of leaves, number of tillers, individual plant weight, and plot yields to 64.78, 21.18, 302.96 g plant-1 , and 4.86 kg m-2 , respectively. The plot yields in the treatments of the highest and lowest vermicompost application increased by 49.1% and 3.9%, respectively, in comparison to the control. Consequently, there was a strongly positive relationship between the application rate of vermicompost and the plot yield.

Published

2024

9. Changes in Soil Physical Properties Following Applications of Vermicompost Superimposed with Liquid Organic Fertilizer

Author

Bandi Hermawan, Zainal Muktamar, Fahrurrozi Fahrurrozi, Nanik Setyowati, Sigit Sujatmiko, Muhammad Chosin, and Elsa Lolita Putri

Subjects

ameliorant, drainage pores, organic fertilizers, water loss, Science (General), Q1-390

Abstract

Soil properties play essential roles in transmitting and holding precipitation water; therefore, they determine the amount of plant-available water in the soil profile. The study aimed to compare the size distributions of Andept soil pores following four-year applications of vermicompost and liquid organic fertilizer (LOF). The experiment was done from 2016 to 2019. The five doses of vermicompost (5, 10, 15, 20, and 25 Mg ha-1) set as the main factor, supplemented with 0 and 100 percent concentrations of LOF as a sub-factor, were arranged in a split-plot design with three replicates. Results showed that adding LOF decreased slow-drainage pores significantly when combined with 10 Mg ha-1 of vermicompost. However, the pore changes by LOF were not significant when applied to other doses of vermicompost. Applying vermicompost and LOF lowered the slow-drainage pores by increasing soil organic carbon and reducing soil particle density. The findings suggest that vermicompost and LOF act as soil ameliorants to reduce water loss by drainage from soil profiles. The study highlights the importance of soil properties in determining plant-available water in the soil profile.

Published

2023

10. Evaluating Belizean Sugarcane Farmers’ Adoption Intentions Regarding Organic Fertilizer

Author

Tzul Yuri Leonardo, Szu-Hung Chen, Gwo-Bao Liou, and Chi-Ming Hsieh

Subjects

organic fertilizers, sugarcane, extended theory of reasoned action (ETRA), health risks, environmental concerns, Agriculture

Abstract

Sugarcane is vital to Belize’s economy, significantly contributing to its Gross Domestic Product and supporting a large portion of the population. It is necessary to address the declining soil health in this nation due to excessive chemical fertilizer use, and Belize aims to promote organic fertilizers, which enhance soil quality and reduce environmental impacts. The primary purpose of this study was to investigate the determinants of adoption intentions regarding organic fertilizers among Belizean sugarcane farmers using the Extended Theory of Reasoned Action. Data were collected from 207 farmers in the Orange Walk and Corozal districts using a non-probability sampling approach via a self-administered questionnaire measuring perceived health risks, environmental concerns, attitudes, subjective norms, and adoption intentions. The results revealed that both perceived health risks and environmental concerns influenced farmers’ attitudes and subjective norms, which, in turn, affected their adoption intentions, as revealed through path analysis; socio-economic factors, years of farming experience, and ownership background partially affected adoption intentions regarding organic fertilizers, as determined via binary logistic regression analysis. The findings suggest that raising farmers’ awareness of health risks and environmental crises, as well as enhancing farmers’ knowledge and their positive attitudes towards the use of organic fertilizers, will contribute to the sustainable development of the sugarcane industry in Belize. Some interventions by policymakers are recommended to support the transition to the use of organic fertilizers in sugarcane farming.

Published

2024

11. Soil Microbial Community Structure and Carbon Stocks Following Fertilization with Organic Fertilizers and Biological Inputs

Author

Diana Sivojienė, Aistė Masevičienė, Lina Žičkienė, Almantas Ražukas, and Audrius Kačergius

Subjects

organic fertilizers, soil microbiome, metagenomic sequencing, diversity of soil microbial population, Biology (General), QH301-705.5

Abstract

The application of organic fertilizers and biological inputs to soil inevitably affects its quality, agrochemical indicators, and microbiota. Sustainable agriculture is based on continuously learning about how to properly manage available soil, water, and biological resources. The aim of the study was to determine changes in microorganism communities and carbon stocks in infertile soils for fertilization using different organic fertilizers and their combinations with bio-inputs. Genetic analysis of microorganism populations was performed using the NGS approach. Our study showed that the application of organic fertilizers affects the soil microbiota and the taxonomic structure of its communities. Specific groups of bacteria, such as Bacillota, were promoted by organic fertilization, meanwhile the abundance of Pseudomonadota and Ascomycota decreased in most treatments after the application of poultry manure. Metagenomic analysis confirmed that the use of bio-inputs increased the relative abundance of Trichoderma spp. fungi; meanwhile, a significant change was not found in the representatives of Azotobacter compared to the treatments where the bio-inputs were not used. The positive influence of fertilization appeared on all the studied agrochemical indicators. Higher concentrations of Corg and Nmin accumulated in the soil when we used granulated poultry manure, and pHKCl when we used cattle manure.

Published

2024

12. The problem of nitrogen in modern agriculture

Author

V. Gamayunova and O. Sydiakina

Subjects

mineral fertilizers, organic fertilizers, biological fixation, nitrogen removal, leaching, evaporation, nitrogen balance, Agriculture, Agricultural industries, HD9000-9495

Abstract

Optimal nitrogen supply to plants, in conditions of sufficient moisture, allows for high crop productivity with high-quality indicators. The aim of this article was to summarize and analyze statistical data on the dynamics of nitrogen input and expenditure from arable land worldwide and in Ukraine, as well as provide practical recommendations for addressing the nitrogen issue in modern agriculture. The research utilized theoretical generalization, comparative analysis, graphical, abstract-logical methods and statistical data from FAOSTAT for the period of 2000-2020. The research results have shown that nitrogen input from mineral fertilizers has been constantly increasing both globally and in Ukraine. In contrast to global indicators, there has been a significant reduction in nitrogen input from manure in Ukraine, as well as a decrease in nitrogen input from atmospheric precipitation and through biological fixation by leguminous crops. The components of nitrogen balance, such as leaching, evaporation, and denitrification, play a significant role in nitrogen expenditure. These expenditure components tend to increase both globally and in Ukraine. The largest share in the expenditure component of all countries worldwide, including Ukraine, is occupied by nitrogen removal by cultivated crops. Calculations showed that the nitrogen balance on arable land, both globally and in most countries across different continents for the researched period, was positive. However, in Ukraine, it was negative for 18 out of 21 years. To solve this problem, practical recommendations are proposed using the best practices and developments of economically developed countries worldwide

Published

2023

13. Arthropod Community Structure Indicating Soil Quality Recovery in the Organic Agroecosystem of Mount Ciremai National Park’s Buffer Zone

Author

Isma Dwi Kurniawan, Ida Kinasih, Rahmat Taufiq Mustahiq Akbar, Liberty Chaidir, Sawaludin Iqbal, Bayu Pamungkas, and Zikri Imanudin

Subjects

conservation, ecological indices, organic fertilizers, pgpr, qbs-ar, soil communities, Agriculture

Abstract

The Mount Ciremai National Park (TNGC) buffer zone is designed to support conservation efforts. However, agriculture in this area is dominated by conventional farming that excessively uses synthetic fertilizers, which threatens soil quality. Introducing an organic fertilizer and plant growth-promoting rhizobacteria (PGPR) is expected to enhance soil quality recovery in this area. This study aimed to analyze the differences in soil arthropod communities between organic and conventional agriculture and a forest in the TNGC buffer zone to assess soil quality improvement generated by the application of the organic fertilizer and PGPR. Soil arthropods were collected with Berlese-Tullgren funnels and pitfall traps. Several associated environmental parameters, including soil pH, C-organic, temperature, and moisture, were also measured. Data were analyzed using ecological indices (i.e., richness, diversity, evenness, dominance, similarity) and soil biological quality (QBS-ar). Non-metric multidimensional scaling (NMDS) was performed to examine the relation of arthropods with environmental parameters. In total, 957 individuals of soil arthropods belonging to four classes and 15 orders were recorded. Berlese-Tullgren and pitfall traps resulted in a similar tendency in most variables, with higher richness, diversity, and evenness values in the forest, followed by organic and conventional habitats. In addition, similarity and QBS-ar indicated that forest and organic communities were more similar than conventional community. C-organic, soil moisture and pH were considered the most deciding environmental parameters for arthropod assemblages. All measured variables in this study illustrated better soil quality in organic than in conventional agriculture. This study implicates the benefit of utilizing organic fertilizers and PGPR for soil quality restoration in agroecosystems.

Published

2023

14. Analysis of Manure Separation Technology Efficiency into Fractions Followed by Liquid Fraction Rectification

Author

Ekaterina V. Shalavina, Eduard V. Vasilev, and Eduard A. Papushin

Subjects

pig complex, technology, manure, flocculation, rectification, total nitrogen, organic fertilizers, Engineering (General). Civil engineering (General), TA1-2040, Technology (General), T1-995

Abstract

Introduction. There is not enough data on the used intensive technologies of processing pig manure into organic fertilizer to accurately calculate the content of nutrients in the final products and, accordingly, their doses of application. Aim of the Article. To determine the efficiency of pig manure processing technology, which includes liquid fraction rectification, by the quantitative and qualitative characteristics of manure and final products, and to trace the redistributing total nitrogen between the final products on the example of a pilot pig breeding complex production. Materials and Methods. For the study, there was chosen a typical pig-breeding complex, where the pig manure processing included slurry acidification, flocculation, separation into fractions in a decanter centrifuge, rectification of liquid fraction, passive composting of solid fraction, and long-term storing of liquid fraction. The technology allows producing three types of end products: solid organic fertilizer, concentrated liquid (ammonia water), and fertilizer solution. Quantity and quality of pig manure and the end products were calculated by the known methods. Experimental studies were performed to compare the results. Samples were analyzed in the analytical laboratory of Institute for Engineering and Environmental Problems in Agricultural Production in 2022. Three replications were carried out for each sample. The experimental data were statistically analysed in MS Excel. Results. Quantitative and qualitative characteristics of pig manure, its solid and liquid fractions, and end products were calculated. The difference between the calculated and actual values does not exceed 10.2% that indicates the reliability of calculations. Discussion and Conclusion. The introduction of a new technology at the pig-breeding complex has reduced atmospheric emissions by 10% due to the nitrogen conservation, has reduced operating costs for transporting organic fertilizer by 47% due to the concentration of nutrients in a smaller volume and has improved soil fertility through fertilizer irrigation.

Published

2023

15. Evaluation of selected organic fertilizers on conditioning soil health of smallholder households in Karagwe, Northwestern Tanzania

Author

Baraka Ernest, Amna Eltigani, Pius Z. Yanda, Anders Hansson, and Mathias Fridahl

Subjects

Organic fertilizers, Soil health, Cation exchange capacity, Soil organic carbon, Macronutrient, Micronutrient, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Soil management is a strategy for improving soil suffering from problems such as low pH, nutrient deficiency, and erosion. The study evaluated the effects of human urine (HU), biogas slurry (BS), standard compost (StC), animal manure (AM), and synthetic fertilizer (SF) in comparison with no soil fertility management (NFM) on soil pH, cation exchange capacity (CEC), soil organic carbon (SOC), soil moisture content, nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), sodium (Na), copper (Cu), zinc (Zn), manganese (Mn), and iron (Fe) in the Karagwe district, a Northwestern Tanzania. Four household farms representing each soil amendment type were selected for soil sampling. A total of 192 soil samples were collected and air-dried. After laboratory analysis, BS-enriched soil had the highest pH (6.558), CEC (23.945 cmol+/kg), SOC (5.573%), soil moisture (5.573%), N (0.497%), P (247.130 mg/kg), K (3.036 cmol+/kg), Ca (18.983 cmol+/kg), Mg (4.076 cmol+/kg), Na (2.960 cmol+/kg), and Cu (12.548 mg/kg). Similar soil properties were lower in NFM than in the other soils. The soil properties on the chosen farms did not differ significantly depending on the sampling zone for each organic fertilizer. Therefore, the result indicates that all evaluated organic fertilizers improved soil health compared to NFM, but BS and HU fertilizers led to relatively better soil health improvements than StC, AM, and SF.

Published

2024

16. Carbon and nitrogen stocks in a Rhodic Nitisol under different tillage methods and mineral and organic fertilizers

Author

Camila Rosana Wuaden, Rodrigo da Silveira Nicoloso, Paulo Cezar Cassol, Caroline Aparecida Matias, and Letícia Paweukievicz

Subjects

soil management, organic fertilizers, particulate organic matter, mineralassociated organic matter, Agriculture (General), S1-972

Abstract

ABSTRACT Changes in soil management, for example by more vigorous crops, adoption of conservation tillage and optimization of fertilization, can increase soil organic carbon (SOC) and total nitrogen (TN) stocks. We hypothesized that corn - black oat rotation under no-tillage (NT) and adequate soil fertilization can increase these stocks, compared to conventional tillage (CT). This study compared these two tillage methods and organic with mineral fertilizers, regarding their effects on C and N cycling and SOC and TN stocks in a Rhodic Nitisol in southern Brazil. The study started in 2012, in a pasture area, which was converted into corn (Zea mays L.) - black oat (Avena strigosa Scherb.) rotation. The treatments were applied in a 2 × 5 factorial arrangement, consisting of two soil tillage methods (NT and CT) and five fertilizers (pig slurry (PS); biodigested PS (PS-B); composted PS (PS-C); mineral fertilizer; and a control). From 2019 onwards, treatment PS-B was replaced by injected PS (PS-I) and PS-C by poultry litter (PL). A randomized block design was used in a split-plot arrangement, where the plots corresponded to soil tillage and subplots to fertilization. In every year of the study, corn was fertilized with 140 kg N ha-1 and at least 115 kg P2O5 ha-1 and 77 kg K2O ha-1. Total SOC and TN stocks were determined in six soil layers (0.00-0.05, 0.05-0.10, 0.10-0.20, 0.20-0.30, 0.30-0.40 and 0.40-0.60 m) whereas the soil particulate (POC and PN) and mineral-associated (MAOC and MAN) fractions were evaluated in the four upper layers (0.00-0.05, 0.05-0.10, 0.10-0.20, 0.20-0.30m) at the beginning of the study (2012) and after nine years (2021). The cumulative values under NT showed that SOC stocks nearly doubled, compared to those under CT. These increases occurred in the most labile POC and PN fractions. However, no difference in response to the different fertilizers was observed in these stocks. The studied factors indicated a marked effect of soil tillage on alterations in C and N stocks. No-tillage increases SOC and TN stocks, mainly in the most labile fractions (POC and PN) of Rhodic Nitisols in southern Brazil, under corn - black oat rotation.

Published

2023

17. Multifaceted Ability of Organic Fertilizers to Improve Crop Productivity and Abiotic Stress Tolerance: Review and Perspectives

Author

Yiren Liu, Xianjin Lan, Hongqian Hou, Jianhua Ji, Xiumei Liu, and Zhenzhen Lv

Subjects

antioxidants, salinity stress, organic fertilizers, organic matter, nutrient uptake, microbial activity, Agriculture

Abstract

The long-term use of chemical fertilizers poses a serious threat to crop productivity and soil quality. Organic fertilizers are used to improve the soil fertility and crop productivity. The application of organic fertilizers improves soil health and plant growth by improving the soil organic matter (SOM), soil structure, aggregate stability, nutrient uptake, water-holding capacity, cation exchange capacity, nutrient use efficiency and microbial activities of soil. The intensity of abiotic stress is continuously increasing, which is a serious threat to crop productivity and global food security. However, organic fertilizers have been reported to improve tolerance against drought, salinity, heat and heavy metal (HM) stresses. The application of organic fertilizer improves the leaf water status, nutrient uptake, nutrient homeostasis, synthesis of chlorophyll, osmolytes, hormones, secondary metabolites, antioxidant activities and gene expression, resulting in improved tolerance against drought, salinity, heat, and heavy metals. In the present review, we have discussed the ability of organic fertilizers to improve soil fertility, crop yield, and the nutrient use efficiency. We have also presented the various mechanisms through which organic fertilizers improve tolerance against drought, salinity, heat, and heavy metals. Therefore, this review will put forth new directions for researchers working on the use of organic materials to improve soil fertility, crop productivity and tolerance against abiotic stresses.

Published

2024

18. Biofertilization with Liquid Vermicompost-Activated Biochar Enhances Microbial Activity and Soil Properties

Author

Pablo Carril, Michelangelo Becagli, Silvia Celletti, Riccardo Fedeli, Stefano Loppi, and Roberto Cardelli

Subjects

bacteria, organic fertilizers, soil amendments, soil enzyme activities, soil quality, tea vermicompost, Physical geography, GB3-5030, Chemistry, QD1-999

Abstract

Biochar (Bc) and liquid vermicompost extracts (LVEs) are increasingly being used as biofertilizers in agriculture to promote soil-microbe-crop interactions. However, although both these products can potentially act synergistically due to their complementary characteristics, their co-application in different soils has not yet been investigated. Therefore, firstly, an LVE-activated biochar (BLVE) was experimentally formulated and the persistence of LVE bacteria over a 60-day storage period was determined. The total number of LVE bacteria increased by 10-fold after 7 days and was stable throughout the entire biochar storage period. In addition, changes in the composition of the bacterial community were observed after 30 days of storage, indicating that taxa less represented in pure LVE may be advantaged upon biochar colonization. Secondly, a microcosm experiment was performed to evaluate whether the biological fertility and enzyme activities of two soils, differing in organic matter content, could be enhanced by the addition of LVE-activated biochar. In this experiment, three different doses of Bc, LVE, and BLVE against the carbon-related biological fertility index (i.e., biological fertility index, BFI) and three enzyme activities over a 21-day incubation period were tested. The BLVE treatment yielded the best results (i.e., BFI +32%, enzyme activities +38%). This indicates that Bc and LVEs can act synergistically to promote soil fertility, quality, and microbial activity. By integrating LVE-activated biochar into their soil management practices, farmers could achieve higher crop yields and healthier products.

Published

2024

19. Repurposing Waste from Aggressive Acacia Invaders to Promote Its Management in Large Invaded Areas in Southwestern Europe

Author

Paula Lorenzo and Maria Cristina Morais

Subjects

agricultural and forestry systems, bioherbicides, biostimulants, organic fertilizers, green manure, Botany, QK1-989

Abstract

Several Acacia species are aggressive invaders outside their native range, often occupying extensive areas. Traditional management approaches have proven to be ineffective and economically unfeasible, especially when dealing with large infestations. Here, we explain a different approach to complement traditional management by using the waste from Acacia management activities. This approach can provide stakeholders with tools to potentially reduce management costs and encourage proactive management actions. It also prioritizes potential applications of Acacia waste biomass for agriculture and forestry as a way of sequestering the carbon released during control actions. We advocate the use of compost/vermicompost, green manure and charcoal produced from Acacia waste, as several studies have shown their effectiveness in improving soil fertility and supporting crop growth. The use of waste and derivatives as bioherbicides or biostimulants is pending validation under field conditions. Although invasive Acacia spp. are banned from commercialization and cultivation, the use of their waste remains permissible. In this respect, we recommend the collection of Acacia waste during the vegetative stage and its subsequent use after being dried or when dead, to prevent further propagation. Moreover, it is crucial to establish a legal framework to mitigate potential risks associated with the handling and disposal of Acacia waste.

Published

2024

20. Fertilizers’ Impact on Grassland in Northeastern Romania

Author

Otilia A. Culicov, Doina Tarcau, Inga Zinicovscaia, Octavian G. Duliu, Mihai Stavarache, and Vasile Vintu

Subjects

organic fertilizers, mineral fertilizers, grassland, dietary cation–anion difference, instrumental neutron activation analysis, Physics, QC1-999, Chemistry, QD1-999

Abstract

In order to obtain more data concerning the influence of fertilizers (organic and mineral) on different forage plants in the northeastern Romanian grassland, the mass fractions of 14 essential, enzymatic, or toxic elements were determined by instrumental neutron activation analysis together with the amount of crude proteins, ash, fibers, as well as fat ether extract. The final results showed a significant variance in the content of analyzed elements on organic as well as on mineral fertilized experimental plots. At the same time, increased content of crude protein and fat ether extract was evident in fertilized grasses for all applied fertilizers, while other global indicators such as neutral and acid fibers of sulfuric lignin content decreased, suggesting significantly higher nutritional values for fertilized forage plants.

Published

2024

21. The Use of Spectroscopic Methods to Study Organic Matter in Virgin and Arable Soils: A Scoping Review

Author

Evgeny Lodygin and Evgeny Abakumov

Subjects

humic substances, organic fertilizers, NMR spectroscopy, EPR spectroscopy, Agriculture

Abstract

The use of modern spectroscopic methods of analysis, which provide extensive information on the chemical nature of substances, significantly expands our understanding of the molecular composition and properties of soil organic matter (SOM) and its transformation and stabilization processes in various ecosystems and geochemical conditions. The aim of this review is to identify and analyze studies related to the application of nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectroscopy techniques to study the molecular composition and transformation of organic matter in virgin and arable soils. This article is mainly based on three research questions: (1) Which NMR spectroscopy techniques are used to study SOM, and what are their disadvantages and advantages? (2) How is the NMR spectroscopy technique used to study the molecular structure of different pools of SOM? (3) How is ESR spectroscopy used in SOM chemistry, and what are its advantages and limitations? Relevant studies published between 1996 and 2024 were searched in four databases: eLIBRARY, MDPI, ScienceDirect and Springer. We excluded non-English-language articles, review articles, non-peer-reviewed articles and other non-article publications, as well as publications that were not available according to the search protocols. Exclusion criteria for articles were studies that used NMR and EPR techniques to study non-SOM and where these techniques were not the primary methods. Our scoping review found that both solid-state and solution-state NMR spectroscopy are commonly used to study the structure of soil organic matter (SOM). Solution-phase NMR is particularly useful for studying soluble SOM components of a low molecular weight, whereas solid-phase NMR offers advantages such as higher 13C atom concentration for stronger signals and faster analysis time. However, solution-phase NMR has limitations including sample insolubility, potential signal aggregation and reduced sensitivity and resolution. Solid-state NMR is better at detecting non-protonated carbon atoms and identifying heterogeneous regions within structures. EPR spectroscopy, on the other hand, offers significant advantages in experimental biochemistry due to its high sensitivity and ability to provide detailed information about substances containing free radicals (FRs), aiding in the assessment of their reactivity and transformations. Understanding the FR structure in biopolymers can help to study the formation and transformation of SOM. The integration of two- and three-dimensional NMR spectroscopy with other analytical methods, such as chromatography, mass spectrometry, etc., provides a more comprehensive approach to deciphering the complex composition of SOM than one-dimensional techniques alone.

Published

2024

22. Vigna unguiculata: a productive option in the face of climate change?

Author

Hipolito Murga-Orrillo, Jhon K. Chuquimez Gonzales, Beto Pashanasi Amasifuén, and Luis A. Arévalo López

Subjects

soil macrofauna, soil temperature, plastic mulch, organic fertilizers, climate extremes, Agriculture, Plant culture, SB1-1110

Abstract

Faced with the challenges of extreme climatic events and increasing food demand, cowpea farming offers a viable option for generating grains and foliage while aiding soil preservation. This research aimed to evaluate the impact of diverse organic fertilizers and plastic mulches on cowpea yields and soil macrofauna. A completely randomized block design was employed, with a factorial arrangement of 3 × 3 + 1, encompassing plastic mulch (3.5 mm) color (white, black, and blue), organic fertilizer (compost of chicken manure-agricultural soil-dolomite, island guano, and cattle manure compost), as well as a control (without synthetic mulch and organic fertilization). The study evaluated soil temperature, plant height, area biomass, foliar macronutrients, yield, and soil macrofauna. The findings demonstrate that soil temperature varies based on the color of the plastic mulch. It was observed that using organic fertilizers resulted in significantly taller plants than the control group, with fresh and dry biomass weight also being significantly greater (p40°C. However, high precipitation during the fruiting and harvesting seasons significantly impacted grain yields. Organic fertilizers produced noticeable variances (p

Published

2023

23. Use of organic fertilizers with microbes for improving maize growth, physiology and soil properties

Author

D. D. Corilla Flores, J. M. More López, C. M. Caira Mamani, N. E. Saavedra Mallma, G. M. Manyari Cervantes, J. A. Julcahuanga Dominguez, V. A. Zarate Paucarpura, L. L. Aguirre Huayhua, J. V. Nunja García, G. S. Pacovilca Alejo, V. G. Sánchez Araujo, A. Perales Angoma, and F. Ore Areche

Subjects

nutrient deficiency, organic fertilizers, microbial application, yield, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Integrated nutrient management is a promising way to avoid plant nutrient shortages because of the positive relationship between the bioavailability of nutrients and greater economic interest in their application through organic amendments and microbial application. To examine how compost, charcoal, and rhizobium influence maize development, an experiment was set up in a container. In addition to the appropriate amounts of nitrogen, phosphorous, and potassium, the soil in the allotted pots was treated with 50 ml of rhizobium, 5 tonnes of compost, and 2.5 tonnes of biochar before maize seeds were planted. A total of nine treatments (with three replicates each) were arranged in a completely randomized design for this experiment. Various agronomic, chemical, and physiological data were measured and recorded after the crop was harvested 110 days after sowing. The results showed that when biochar, compost, and rhizobium were applied together, the root fresh biomass rose by 43.4%, the root dry biomass increased by 38.3%, and the shoot length increased by 61.7%, compared to the control treatment. Chlorophyll content (41.3% higher), photosynthetic rate (58.5% higher), transpiration rate (64.4% higher), quantum yield (32.6% higher), and stomatal conductivity (25.3% higher) were all significantly improved compared to the control. Soil levels of nitrogen, phosphorus, and potassium were also improved with this treatment compared to the control. The combined use of biochar, compost, and rhizobium was more successful than any of the components used individually in boosting maize yields. Based on the findings of our study, the integration of rhizobium, biochar, and compost within a unified treatment shown a substantial enhancement in both the growth and yield of maize.

Published

2023

24. Editorial: Integrated nutrients management: an approach for sustainable crop production and food security in changing climates

Author

Amanullah, Gabrijel Ondrasek, and Abdel Rahman Al-Tawaha

Subjects

integrated nutrients management, chemical fertilizers, organic fertilizers, biofertilizers and nanofertilizers, yield and food security, Plant culture, SB1-1110

Published

2023

25. MONITORING OF THE AGRICULTURAL LANDS AND SOIL FERTILITY LEVEL OF THE REPUBLIC OF ADYGEA

Author

Y. N. Ashinov and N. I. Mamsirov

Subjects

soil monitoring, agricultural landscape, soil fertility, natural resource potential, humus balance, relief, mineral fertilizers, organic fertilizers, soil types, productivity, Technology

Abstract

According to the “Regulations on the implementation of state monitoring of lands”, approved by the Decree of the Government of the Russian Federation of November 28, 2002 No. 846, information is collected on the state of lands in the Russian Federation, processed and stored. Continuous monitoring of the use of lands is carried out on the basis of their intended purpose and permitted use, analysis and assessment of the qualitative state of land, taking into account the impact of natural and anthropogenic factors. Land monitoring is carried out by the federal executive authorities, the executive authorities of the constituent entities of the Russian Federation and local governments in accordance within their powers [1]. But, the ongoing monitoring does not provide the proper result for monitoring land plots and crop rotation fields as a production resource and is not carried out according to a number of parameters characterizing soil fertility that are essential for agricultural production. The specificity of accounting for agricultural lands as a natural resource used as the main means of production in agriculture requires different approaches and a wider list of indicators of the state of such lands and their fertility [2; 3]. In this regard, studies have been carried out to monitor agricultural lands and analyze the current state of the use of agricultural lands for effective agricultural production, and on its basis a comprehensive assessment of the ecological state of agricultural landscapes of the Republic of Adygea has been carried out. The authors have analyzed the state of agricultural lands at the present stage and identified possible ways of rational use of available crop lands. Factors limiting the placement of agricultural crops in specific areas of the republic and the reasons that reduce their productivity and product quality have also been established.

Published

2022

26. Fine-tuning fertilizer applications in organic cool-season leafy green crops can increase soil quality and yields

Author

Richard Smith, Michael Cahn, Tim Hartz, Daniel Geisseler, and Patricia Love

Subjects

nitrogen, organic fertilizers, organic production, Agriculture

Abstract

Organic cool-season vegetable growers on the Central Coast face challenges in applying nitrogen (N) to balance yields with new environmental regulations. It is hard to time fertilizer applications while calculating N mineralization of soil organic matter and organic fertilizers to plant-available N. Organic fertilizers with high phosphorus (P) to N ratios may elevate P levels and harm surface water quality. In this study, we evaluated (1) mineralization of soil organic matter and fertilizers, (2) effectiveness of residual soil nitrate-N tests and (3) long-term impacts of organic fertilizers on P levels and soil microbial activity. We found that mineralization of N from soil organic matter provided limited N to leafy green vegetables. Soil tests were more reliable in heavier than sandier soils. Application rates of 4-4-2 were calculated to meet N demands, resulting in an oversupply of P. However, only 9% to 17% of fertilizer P solubilized without elevating available soil P levels. While it's difficult for organic vegetable growers to use cover crops, organic fertilizers increased carbon levels, resulting in higher levels of soil microbial activity.

Published

2022

27. Placement Precision of Organic Fertilizer Based on Soil Conservation in Taro Cultivation

Author

Andi Masnang, Asmanur Jannah, Dyah Budibruri Wibaningwati, Febi Nurilmala, and Lany Nurhayati

Subjects

organic fertilizers, production, soil conservation, taro, Agriculture, Technology

Abstract

One of the things that are important to consider when fertilizing is how to place the fertilizer so that plants can consume nutrients efficiently. The research objective was to assess the precision of soil conservation based on fertilizer placement so that fertilizers could increase the production of taro effectively. This study applied four treatments, namely without fertilizer, placing manure in the planting hole, placing manure in the biopore, and placing manure on the borders. The three treatments were given 1 kg of goat manure. The treatment was performed with six replications. Harvesting is carried out in 8 months after planting. The results showed that the placement of manure on the borders was the most effective treatment with the highest yield of wet tubers of 21.4 Mg/ha and was not different from the treatment of manure in biopore 18.3 Mg/ha.This yield was different significantly as compared to that of resulted from treatments where fertilizer was placed in the planting hole (15.9 Mg/ha) or the production of taro without manure application (11.57 Mg/ha).

Published

2022

28. Fertilizers for Improving the Growth Characteristics and N Uptake of Wild Rorippa indica L. Hiern in Different Soil

Author

Hastin Ernawati Nur Chusnul Chotimah, Akhmat Sajarwan, Ruben Tinting, Antonius Mau, and Gusti Irya Ichriani

Subjects

inorganic fertilizers, organic fertilizers, peat, rorippa indica, ultisol, Agriculture (General), S1-972, Plant culture, SB1-1110

Abstract

Rorippa indica L. Hiern is a local vegetable that is widely consumed by Dayak’s tribe in Central Kalimantan, Indonesia. It is mostly traditionally cultivated without fertilizers, resulting in low productivity. The research aimed to investigate the effect of fertilizers and soil type on the growth characteristics and N uptake of R. indica. The experiment was arranged in a factorial completely randomized design consisting of two factors with four replications. The first factor was fertilizer application (control, 20 t ha-1 of chicken manure, and 600 kg ha-1 of NPK), and the second was soil type (peat and Ultisol). The results revealed that the interaction of fertilizers and soil type gave a non-significant effect on all variables observed, except N uptake. The application of NPK increased the plant height and number of leaves significantly. Compared to control, the increment was 112.50% and 130.32%, respectively, and chicken manure application increased the dry weight (327.87%), N total (310.16%), and N uptake of plants by 478% in peat soil and 228% in Ultisol. This finding concludes that 20 t ha-1 of chicken manure can be applied to increase the productivity of R. indica.

Published

2022

29. Application of foliar fertilization with Agrochelate fertilizer on melon seed crops

Author

V. E. Lazko, E. N. Blagorodova, O. V. Yakimova, and E. V. Kovaleva

Subjects

melon, seed production, summer sowing, organic fertilizers, foliar feeding, flowering phase, seeds, Agriculture

Abstract

The results are reflected, which confirm the effectiveness of foliar fertilizing with organic fertilizer Agrohelate for melon plants of early varieties Tamanskaya and Strelchanka. A single treatment of plants in the seed plots in the flowering phase and the beginning of the growth of the first ovary contributed to better pollination. More than half of the fruits with typical varietal characteristics were selected for seed extraction: Tamanskaya varieties – 51.4% and Strelchanka varieties – 51.0%. The mass of fruits in the Tamanskaya variety increased noticeably by 0.16...0.23 kg on average, in the Strelchanka variety – by 0.12...0.42 kg. The data on the increase in the content of dry soluble substances in the pulp of the fruits of the first two harvests of melon variety Strelchanka by 0.8 ... 1.6% are given. In the pulp of Tamanskaya melon fruits, there was a tendency to increase the content of dry soluble substances. Fertilizer Agrochelate had an impact on the seed productivity of melon varieties. In the fruits of the Tamanskaya variety, 122–145 more seeds were ripened, and the number of feeble and unripe seeds was 5.5–7.2% less than in the fruits of the control variant. The number of puny and unripened seeds in the fruits of Strelchanka melon variety was 10% less. In weight terms, on average, 2.6 g more seeds were isolated from each fruit of the Tamanskaya variety than in the variant without treatment. A noticeable increase in the yield of seeds in the variety Strelchanka was not observed. Application of foliar application with organic mineral fertilizer Agrochelate did not affect the mass of seeds. The indicators of sowing qualities of seeds were high in all variants of the experiment: germination energy – from 58.1 to 81.5% and germination - from 90.7 to 97.3%. The analysis of the obtained results substantiates the feasibility of applying top dressing with Agrochelate organic fertilizer.

Published

2022

30. Effect of cow vermicompost on growth, fruit yield, and quality of hot pepper (Capsicum annuum var. Red chili)

Author

Mohammad Hossein Aminifard

Subjects

chlorophyll, fruit yield, organic fertilizers, plant height, vitamin c, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Purpose This study evaluated the response of hot pepper (Capsicum annuum var. Red chili) towards cow vermicompost application under field conditions.Method Cow vermicompost was supplied in four levels (0, 5, 10, and 15 t ha-1) across the two growing seasons in 2017 and 2018. Results Vermicompost application significantly increased the plant height, internode distance, and the number of lateral branches in both seasons. It was noticed that manuring with 15 t ha-1 of cow vermicompost resulted with enhanced chlorophyll contents, fruit yield, and fruit number in both years. In both seasons, the highest leaf number, fruit weight, and total soluble solids are related to the third treatment (10 t ha-1 of cow vermicompost). The results showed that 1000-seed weight and vitamin C content were affected by cow vermicompost. Data showed that manuring with vermicompost (5 t ha-1) caused the best quality components in 2017 and 2018.Conclusion It was concluded that the application of vermicompost had a significant impact on vegetative and reproductive growth and fruit quality of hot pepper.

Published

2022

31. Recycling of Municipal Sewage Sludge in Sustainable Logistics Systems in the Focus of Information Technology Management

Author

Оlena Chukurna, Vladyslav Vaysman, Oleg Kassien, Vitalii Dobrovoslkyi, and Natalia Strunnikova

Subjects

information technology management, sustainable logistics system, information systems, informational logistics flow, recycling, municipal sewage sludge, organic fertilizers, Information resources (General), ZA3040-5185

Abstract

The article is devoted to the problem of designing recycling in sustainable logistics systems in the field of processing wastewater treatment waste - municipal sewage sludge (MSS) in the focus of information technology management. The essence of the developed and proposed wastewater treatment project is based on its integration into the city's public utilities system, which will be a single basis for a closed-type logistics system that is managed on the basis of the introduction of a unified information system. This approach to the design of sustainable logistics systems ensures the formation of a closed material and informational logistics flow according to the "supply of raw materials - production - product distribution". This allows solving two problems: ensuring the creation of a closed logistics system that is managed by a single information base and developing a new type of fertilizer.The solutions proposed in this project in the implementation of the MSS processing project are complex and allow implementing all areas of the sustainable development strategy in the aspect of implementing modern information systems. The design technology makes it possible to completely close the logistics cycle for the supply and processing of MSS into finished products in the form of organic fertilizers

Published

2022

32. Characterizing indigenous plant growth promoting bacteria and their synergistic effects with organic and chemical fertilizers on wheat (Triticum aestivum)

Author

Israr Asghar, Maqsood Ahmed, Muhammad Ansar Farooq, Muhammad Ishtiaq, Muhammad Arshad, Muhammad Akram, Adnan Umair, Abdulwahed Fahad Alrefaei, Muhammad Yousuf Jat Baloch, and Aamna Naeem

Subjects

plant growth promoting bacteria, chemical fertilizers, organic fertilizers, wheat, integrated nutrient management, Plant culture, SB1-1110

Abstract

The excessive use of chemical fertilizers is deteriorating both the environment and soil, making it a big challenge faced by sustainable agriculture. To assist the efforts for the solution of this burning issue, nine different potential native strains of plant growth-promoting bacteria (PGPB) namely, SA-1(Bacillus subtilis), SA-5 (Stenotrophomonas humi),SA-7(Azospirillum brasilense), BH-1(Azospirillum oryzae), BH-7(Azotobacter armeniacus), BH-8(Rhizobium pusense), BA-3(Azospirillum zeae), BA-6(Rhizobium pusense), and BA-7(Pseudomonas fragi) were isolated that were characterized morphologically, biochemically and molecularly on the basis of 16S rRNA sequencing. Furthermore, the capability of indigenous PGPB in wheat (Triticum aestivum, Chakwal-50) under control, DAP+FYM, SA-1,5,7, BH-1,7,8, BA-3,6,7, DAP+ FYM + SA-1,5,7, DAP+FYM+ BH-1,7,8 and DAP+FYM+ BA-3,6,7 treatments was assessed in a randomized complete block design (RCBD). The results of the study showed that there was a significant increase in plant growth, nutrients, quality parameters, crop yield, and soil nutrients at three depths under SA-1,5,7, BH-1,7,8, and BA-3,6,7 in combination with DAP+FYM. Out of all these treatments, DAP+ FYM + BA-3,6,7 was found to be the most efficient for wheat growth having the highest 1000-grain weight of 55.1 g. The highest values for plant height, no. of grains/spike, spike length, shoot length, root length, shoot dry weight, root dry weight, 1000 grain weight, biological yield, and economic yield were found to be 90.7 cm, 87.7 cm, 7.20 cm, 53.5 cm, 33.5 cm, 4.87 g, 1.32 g, 55.1 g, 8209 kg/h, and 4572 kg/h, respectively, in the DAP+FYM+BA treatment. The DAP+FYM+BA treatment had the highest values of TN (1.68 µg/mL), P (0.38%), and K (1.33%). Likewise, the value of mean protein (10.5%), carbohydrate (75%), lipid (2.5%), and available P (4.68 ppm) was also highest in the DAP+FYM+BA combination. C:P was found to be significantly highest (20.7) in BA alone but was significantly lowest (11.9) in DAP+FYM+BA. Hence, the integration of strains BA-3, BA-5, and BA-7 in fertilizers can be regarded as the most suitable choice for agricultural growth in the sub-mountainous lower region of AJK. This could serve as the best choice for sustainable wheat growth and improved soil fertility with lesser impacts on the environment.

Published

2023

33. Mediators of biomass transformation – A focus on the enzyme composition of the vermicomposting process

Author

Matthew Chekwube Enebe and Mariana Erasmus

Subjects

Enzymes, Vermicomposting process, Microorganisms, Earthworms, Organic fertilizers, Environmental sciences, GE1-350

Abstract

Vermicomposting is a unique waste management approach for converting organic wastes into useful and environmental friendly fertilizer. Wastes originating from farms, forests, human settlement and industries are treated and the key drivers of this decomposition process are the microbes and earthworms. These organisms employ a plethora of biological catalysts in the breakdown of organic matter. Hence, the need for a critical understanding of these proteins that catalyze the various reactions in waste reduction and degradation. In this review, we emphasize the various roles of enzymes in vermicomposting, factors affecting their biological activities, and their indicator role in vermicompost maturity while focusing on maximizing their potential for quick waste treatment.

Published

2023

34. Effect of mulching on nutrient uptake and efficiency of fertilizers in mid-early cabbage production

Author

Boris Adamović, Ranko Cabilovski, Đorđe Vojnović, and Žarko Ilin

Subjects

cabbage, organic fertilizers, black polyethylene film, head yield, head weight, Biochemistry, QD415-436, Plant culture, SB1-1110, Science

Abstract

A three-year field trial was conducted to determine the effects of mulching with black polyethylene film and fertilizing with organic and mineral fertilizers in mid-early cabbage production. The two-factor trial was set up as a split-plot design. The main plots included unmulched and mulched treatments. The sub-plots consisted of unfertilized control and five fertilized treatments. In the first and third trial years, total cabbage yield, total head yield, and average head weight were significantly higher on black polyethylene film plots than on unmulched plots. However, in the second year, the mean air temperature during cabbage growing exceeded the long-term average, and values of the examined parameters did not differ significantly between the mulched and unmulched treatments. In all three years, amounts of removed nutrients were significantly higher in treatment with composted pig manure + mineral fertilizer. Mulching significantly increased fertilizer use efficiency in the first and third years, while the second year saw better results on unmulched plots.

Published

2023

35. Growth and Performance of Baby Spinach grown under different Organic Fertilizer

Author

Sharma Ravi, Aadesh, Jadoun Samrat Singh, Panwar Kshitij, and Tomar Ajay

Subjects

organic farming, spinach, organic fertilizers, azotobacter, vermicompost, soil health, crop productivity, sustainable agriculture, Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

This study investigates the effects of several organic fertilizers on baby spinach (Spinacia oleracea L.) cultivation’s growth, productivity, and sustainability. A randomized complete block design was employed to assess six organic fertilizer treatments, including vermicompost, farm yard manure (FYM), poultry waste, Azotobacter + poultry waste + FYM, Azotobacter + vermicompost, and a control (no fertilizer application). Plant growthparameters, nutrient content, pest resistance, soil health indicators, and environmental implications were evaluated to understand the effectiveness of organic fertilizers in promoting sustainable spinach production. Results indicate that treatments incorporating Azotobacter inoculants, particularly those combined with poultry waste or vermicompost, demonstrated superior performance in terms of production, biomass accumulation, plant height, leaf area, and nutrient content. These findings underscore the potential of bioinoculants in organic farming to increase soil fertility and ecological resilience, decreasedependency on synthetic inputs, and increase crop output. Moreover, organic fertilizers significantly influenced soil health parameters, with treatments exhibiting higher soil pH, organic matter content, and microbial activity contributing to improved soil fertility. Environmental implications of organic fertilizer use were also assessed, revealing varyinglevels of nutrient runoff and greenhouse gas emissions across different treatments. While Azotobacter-inoculated treatments showed higher greenhouse gas emissions, they also exhibited greater nutrient retention, indicating complex trade-offs between nutrient cyclingand environmental impact

Published

2024

36. Shifts in Soil Bacterial Communities under Three-Year Fertilization Management and Multiple Cropping Systems

Author

Mohammad Yaghoubi Khanghahi, Maddalena Curci, Eugenio Cazzato, Cesare Lasorella, Andreina Traversa, Carmine Crecchio, and Matteo Spagnuolo

Subjects

green manure, inorganic fertilizers, livestock manure, organic fertilizers, soil bacterial community, Physical geography, GB3-5030, Chemistry, QD1-999

Abstract

The current study was undertaken to investigate how organic and inorganic fertilizers shape soil bacterial communities and soil nitrogen and carbon status and to find their relationships with plant production. Soils were collected from fields under a three-year application of green manures (vetch (GMV), field bean (GMB), and wheat (GMW)), livestock manure (MF), inorganic mineral fertilizer (IF), and control (no nitrogen fertilization). The plants cultivated during the three years were tomato, watermelon, and pepper, respectively. The findings showed an increase in crop yields under both organic and inorganic fertilizers, in which the effects of leguminous green manures (GMV and GMB) were more pronounced, equal to +65–81% in tomato, +32–40% in watermelon, and +51–57% in pepper. An extensive modification in the bacterial communities was observed under organic fertilization. These changes were associated with a higher ratio of Proteobacteria (a copiotrophic phylum) to Acidobacteria (an oligotrophic phylum) in GMV and GMB, due to higher soil N content compared to IF and control treatments. Therefore, the data indicated an increase in soil N and organic C levels, as well as higher plant production by replacing IF with GMV, GMB, and MF, suggesting a promising movement to preserve the soil ecosystem. Such changes were more pronounced in MF-treated soils, where bacterial diversity improved and the heterogeneity of bacterial communities was preserved.

Published

2024

37. Assessment of Beef Manure Economic Value by the Method of Equivalent Green and Mineral Fertilizer Substitution

Author

Veljko Šarac, Dragan Milić, Nataša Vukelić, Tihomir Novaković, Dragana Novaković, Mirjana Ljubojević, and Vesna Rodić

Subjects

circular economy, green manure, manure pricing, organic fertilizers, soil quality, sustainability, Plant culture, SB1-1110

Abstract

The imperative of sustainable agricultural development, coupled with growing challenges related to climate change reaffirms the importance of manure and increases the demand for it. Due to the underdeveloped market for manure, there is a problem in assessing its economic value, requiring appropriate research on this topic. Thus, this research aimed to assess the manure’s economic value using the method of equivalent substitution. For this purpose, the chemical composition of manure was determined by standard agrochemical analyses concerning the content of the most important mineral elements—nitrogen (N), phosphorus (P2O5), and potassium (K2O). These elements ranged from 0.49–0.60%, 0.15–1.10%, and 0.70–1.07%, respectively, and the content of organic matter ranging from 20.88 to 27.00%. Subsequently, the cost of equivalent substitution was calculated taking into account market prices for commercial fertilizers and organic matter based on the cost of an adequate quantity of white mustard—Sinapis alba L. fresh mass. The average cost of equivalent substitution for manure was determined to be 28.60 USD/t. The results of the applied t-test indicate that there is no statistically significant difference between the market prices of beef manure and the calculated prices of its substitution (t = −1.4069; df = 12; p = 0.1848), which implies that white mustard green manure could replace the deficit in animal-derived manure. Since both animal and green manures unambiguously should be prioritized over chemical fertilizers, future studies will reveal which other crops are applicable for further increments of green manure to make up for insufficient availability of animal manure.

Published

2024

38. Global Meta-Analysis of Nitrate Leaching Vulnerability in Synthetic and Organic Fertilizers over the Past Four Decades

Author

Naila Sumreen Hina

Subjects

nitrogen, synthetic nitrogenous fertilizers, organic fertilizers, agricultural ecosystems, ground water, pollution, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

The significance of nitrogen in agricultural ecosystems cannot be overstated; however, it can pose a threat to the environment when it leaches into groundwater. This comprehensive meta-analysis sheds light on the complex relationship between organic and inorganic fertilizers and nitrogen leaching, encompassing 39 years of data. The results indicate that the impact of fertilizers is dependent on crop type, soil properties, and fertilization practices. Vegetables treated with synthetic fertilizers were found to have the highest levels of nitrogen leaching, while grasses exhibited the lowest. Soil texture was also determined to be a significant factor, with coarser soils leading to higher levels of leaching than medium or fine soils. The meta-analysis showed that organic sources resulted in an average of 16% higher losses of nitrate-N, but there was no significant difference between organic and synthetic N fertilizers in terms of leaching overall. These findings provide valuable insights for the responsible management of nitrogen and to further our understanding of the impact of fertilizers on nitrate pollution.

Published

2024

39. Enhancing Soil Fertility and Elevating Pecan Fruit Quality through Combined Chemical and Organic Fertilization Practices

Author

Yinhao Tong, Zhaocheng Wang, Duxin Gong, Cheng Huang, Xiaomin Ma, Xiaoxiang Ma, Feiyang Yuan, Songling Fu, and Chun Feng

Subjects

pecan, chemical fertilizer, organic fertilizers, soil fertility, quality of pecan fruits, Plant culture, SB1-1110

Abstract

This study focused on 6-year-old ‘Pawnee’ pecan trees to elucidate the differential responses of physicochemical properties of orchard soil and pecan fruit quality when combining chemical and organic fertilizers. The aim was to unveil the mechanisms that underlie the effects of different fertilization treatments on soil fertility, soil enzyme activities, and pecan fruit quality. Four treatments were established: sole chemical fertilizer (CF; N:P2O5:K2O is 15:15:15), chemical fertilizer combined with cake fertilizer (CF+CC), chemical fertilizer combined with manure fertilizer (CF+M), and chemical fertilizer combined with cake and manure fertilizer (CF+CC+M). Measurements were taken to assess the soil nutrient content, soil enzyme activities, and fruit growth quality in some orchards under different fertilization treatments. The results revealed that the combined application could increase yield and enhance pecan quality. Among these, the CF+M+CC treatment demonstrated the most favorable outcomes, with the pecan kernel oil and unsaturated fatty acid contents reaching 72.33% and 97.54%, respectively. The combined fertilization treatments had no significant impacts on soil trace elements such as Mg, Cu, and Mn; however, it significantly increased the Available Phosphorus (AP), Total Nitrogen (TN), Soil Organic Matter (SOM) and S-ACP (soil acid phosphatase) activities. In summary, the combined application of chemical and organic fertilizers can significantly increase the soil nutrient content and enzyme activities in pecan orchards, to promote the enhancement of fruit quality and economic aspects.

Published

2023

40. Effect of liming and fertilizers on the growth and nutrition of 12-month old Teak (Tectona grandis L.) grown on acidic soil of Peru

Author

Cesar Oswaldo Arevalo-Hernandez, E. Arévalo-Gardini, J. A. Correa V., Mahiler Mirco Vasquez Gonzales, and Dapeng Zhang

Subjects

Organic fertilizers, Forestry nutrition, forest plantations, ultisols, soil fertility, Agriculture, Agriculture (General), S1-972

Abstract

Peru has a great potential for forestry plantations, nevertheless, importations of this type of products are getting very expensive. Soils under forest are acidic and infertile to support sustainable economically valuable forest tree species such as teak. Information is lacking on proper fertility management in forest plantations such as teak. Therefore, the objective of this study was to explore the effect of lime, and organic and inorganic fertilizers on the early growth and nutrient composition of 12-month old teak grown on acidic soil of Peru. The soil under field study was acidic with a pH of 4.99, low in fertility. A factorial design of 2x3: Lime (No Lime and Liming) and fertilizer (organic, inorganic and mixture), with 9 repetitions was adopted. Tree biometric parameters (height, diameter, biomass) and N, P, K, Ca, Mg, Fe, Cu, Mn, Zn foliar concentrations were determined during early the growth of teak. Treatments with addition of dolomite lime favored higher biometric parameters, and use of organic fertilizers promoted more growth than inorganic fertilizers. In the case of nutrients, no major differences were observed between limed and unlimed treatments while organic fertilizer promoted Ca, K and S nutrition. The results show that the application of lime and organic fertilizers is essential for the successful management and establishment of teak plants in acidic soils of Peru.

Published

2023

41. Perceptions of organic practices among turfgrass professionals in Louisiana

Author

Tyler Granberry, Matthew Lambert, Jeffery Beasley, Jeff Kuehny, Lisa Fultz, and Shelli Rampold

Subjects

sustainable practices, organic fertilizers, organic pesticides, Agriculture, Social Sciences

Abstract

Landscape contractors are increasingly interested in organic products for Louisiana’s residential and commercial turfgrass areas. However, the use, motivations, and barriers to adopting organic practices in the commercial turfgrass and landscape industry sector are not well documented. This study examined the perceptions of organic landscaping practices among members of the Louisiana Turfgrass Association. The study’s participants were primarily men aged 31 to 60, with six to 25 years of landscaping experience. Most turfgrass professionals were applying organic fertilizers and believed future organic product use would increase due to consumer demands and potential governmental regulation. Turfgrass professionals responded that they understood the USDA definition of organic but were less familiar with Organic Materials Review Institute (OMRI) labeling. Greater efficacy and access to organic products coupled with increased extension and educational efforts may increase Louisiana turfgrass professionals’ choices to adopt organic practices; however, more research is needed to better understand the adoption processes at play.

Published

2023

42. Humic acids induce the expression of nitrate transporters in passion-fruit seedlings

Author

Paulo Fernando Marques Cavalcanti Filho, Daiane Carvalho Baía, Rafael Chaves Ribeiro, Raul Castro Carrielo Rosa, and Luciano Pasqualoto Canellas

Subjects

organic fertilizers, physiological responses, NRT genes, H+-ATPase, Plant culture, SB1-1110

Abstract

Abstract The management of organic fertilization in passion fruit has been carried out empirically based on the responses of the crops and the experience of farmers. Knowledge of the physiological responses of plants to organic fertilizers is essential to optimize fertilization programs. The objective of this study was to evaluate the differential expression of genes coding for nitrate transporters as well as plasma membrane H+-ATPase in passion fruit seedlings treated with different organic fertilizers in the presence or not of humic acids. The equivalent of one gram of total nitrogen dissolved in water from cattle manure, castor oil cake and urea were added and the seedlings were treated or not with a suspension of humic acids (2 mmol/L). Differential expression of low and high affinity nitrate transporters (PeNRT2.2 and PeNRT1.1 PeNRT2.2e) and H+-ATPase (PeMha) was performed by qRT-PCR. The use of cattle manure increased the differential expression of the high affinity transporter regarding to the control. The application of humic acids amplified the increase observed in the differential transcription of the high-affinity transporter with manure and urea fertilization, with no effect observed with the use of castor oil cake. Humic acids induced transcription of the gene encoding H+-ATPases in all treatments compared to control. The application of biofertilizer based on humic acids in low concentrations directly on the plant can be used with the objective of optimizing the organic fertilization of passion fruit with cattle manure and urea.

Published

2023

43. Teknologi Pembuatan Pupuk Kompos Dari Limbah Biohidrogen Buah Maja (Aegle marmelos (L) correa) Dengan Menggunakan Starter Kotoran Kambing

Author

Irawati Ramli and Nurhikmah wahab

Subjects

biohydrogen, organic fertilizers, alternative energy, waste, Electronic computers. Computer science, QA75.5-76.95

Abstract

Hydrogen is an alternative energy source that can be produced from renewable energy sources, such as biomass and is known as biohydrogen. In addition to abundant producing sources, biohydrogen is also environmentally friendly. But this biohydrogen industry will produce waste that will pollute the environment if simply thrown away. Industrial liquid waste can have a considerable impact on the environment, this waste can cause biological oxygen demand (BOD) and chemical oxygen demand (COD). The high value of BOD and COD produced by this waste resulted in it not being discharged directly into the environment and special treatment was needed in advance. Technology that can be used in handling waste problems, among others, is the utilization of microorganisms as an effort to speed up the process of decomposition of waste, especially organic waste into organic fertilizers. Biohydrogen waste contained in the biohydrogen fermenter tank, then filtered biohydrogen waste which was originally in the form of slury, liquid waste is discharged and solid waste is stored to be mixed with goat manure. A mixture of biohydrogen waste and goat manure is made with a ratio of 20: 80 ; 40:60 ; 60:40 and 80:20 after all the ingredients are well mixed then the sample is stored in a sealed container that has previously been fitted with a thermometer to measure the temperature of the compost. The compost mixture sample is then stored for 30 days and observed its temperature and pH every day, and measured the moisture content at the beginning of the composting process and the end of composting After 30 days of storage the compost mixture is then analyzed nitrogen (N), phosphorus (P), potassium (K) levels. In the research on making compost from biohydrogen waste with maja fruit raw materials obtained the best results, namely at a ratio of 60:40 with N levels of 0.05%, P levels of 0.15% and K levels of 0.61%.

Published

2022

44. Uji Kualitas Produk Pupuk Organik Beragensia Hayati

Author

Mujiyo Mujiyo, Aktavia Herawati, Ganjar Herdiansyah, Suntoro Suntoro, Jauhari Syamsiyah, Widyatmani Sih Dewi, Hery Widijanto, Rahayu Rahayu, and Sutarno Sutarno

Subjects

agensia hayati, pupuk organik, standar baku, uji kualitas, biological agents, organic fertilizers, quality control, standarts, Agriculture (General), S1-972, Nutrition. Foods and food supply, TX341-641

Abstract

Processing cow dung into organic fertilizer with additional biological agents is an effort to prevent environmental pollution due to agricultural waste. Sources of organic fertilizer materials have different nutrient content. Good quality organic fertilizer means that it has match the Organic Fertilizer Standards based on the Decree of Agriculture Minister Republic Indonesia Number 261/KPTS/SR.310/M/4/2019. This activity aims to determine the quality of the bio-agent organic fertilizer product produced by Perkumpulan Pertanian Organik Wonoagung Wonogiri (PPOWW) by analyzing its nutrient content. The activities carried out include an initial survey of partner conditions, preparation of materials, and analysis of fertilizers. The results show that the PPOWW management understands the mechanism of standard and how to carry out quality control on the organic fertilizers produced. The results of the analysis of the nutrient content of PPOWW organic fertilizer products are N-total 1.32%, P2O5 1.50%, K2O 2.24%, C-organic 23.09%, C/N ratio 17.55 and pH 8.27 which have met the quality standards of organic fertilizers and biological fertilizers. The addition of biological agents in the process of making organic fertilizers is proven to improve the quality of fertilizers.

Published

2022

45. Controlling Acyrthosiphon pisum L. infestation using products of natural origin in forage pea

Author

Ivelina Nikolova

Subjects

control, naturalis, organic fertilizers, pea aphid, plastid pigments, Plant culture, SB1-1110

Abstract

The perspective direction in the biological regulation of insect pest populations is the combined use of different products of organic origin including fungal biological control agents. Therefore, the present study was aimed to evaluate the efficacy of products of natural origin (Aminogreen 24, Nitrogreen, Foliamin and Naturalis − strain ATCC 74040 of entomopathogenic fungus Beauveria bassiana) and one synthetic insecticide − standard (deltamethrin + thiacloprid), applied alone and in a mixture in the control of Acyrthosiphon pisum in forage pea. The study was conducted in a field experiment during the period 2017 − 2020. Infestation by leaf aphids was estimated by calculating the cumulative insect- -days (CID). It was found that the combination of Aminogreen 24 + Naturalis had the most pronounced decrease in CID among products over the years from 2017 to 2020 and the average for the period. The greatest, significant reduction in the number of aphids occurred on day 5 (F8.5 = 15.244; p < 0.033) and day 7 (F8.5 = 33.087; p < 0.037) after treatment. On the 14th day, the decrease in CID (57.4% decrease) statistically exceeded the Proteus 110 OD standard (55.3% decrease) (F8.5 = 49.841; p < 0.049). Good protection against A. pisum was also found with Naturalis and Nitrogreen + Naturalis. There was an additive effect between Naturalis and Aminogreen 24 throughout the entire study period. The ratio of chlorophyll a (Chl a) to chlorophyll b (Chl b) and the ratio of green pigments (Chl a + + Chl b) to carotenoids determined that plants treated with Aminogreen 24 + Naturalis and Naturalis had the best physiological state. The combination of Aminogreen 24 and Naturalis gave the largest, significant, increase in stem height, followed by Nitrogreen + Naturalis. The use of Naturalis, alone and in a combination with Aminogreen 24 and Nitrogreen can be a successful alternative to conventional chemical control.

Published

2022

46. Buckwheat Husks, Ash and Biomass for Sustainable Plant Fertilization and Soil Improvement

Author

Odeta Pocienė and Rasa Šlinkšienė

Subjects

buckwheat, organic fertilizers, granulation, General Works

Abstract

Nowadays, it is difficult to imagine agriculture without the use of fertilizers, because plants cannot absorb the required amount of nutrients from the soil [...]

Published

2023

47. Effects of Vermicompost on Soil and Plant Health and Promoting Sustainable Agriculture

Author

Ivan Oyege and Maruthi Sridhar Balaji Bhaskar

Subjects

sustainable agriculture, organic fertilizers, integrated nutrient management, pest management, organic pesticides, enzymes, Physical geography, GB3-5030, Chemistry, QD1-999

Abstract

This review highlights the potential of vermicompost and its derived products as sustainable and eco-friendly solutions for enhancing production and pest management in grain crops. It assesses their impact comprehensively on crops such as maize, wheat, barley, rice, and pearl millet. Vermicompost improves soil quality, increases nutrient availability, boosts crop productivity, and enhances pest and disease tolerance. It acts as an organic fertilizer, enriching the soil with essential nutrients, humic acids, growth-regulating hormones, and enzymes, improving plant nutrition, photosynthesis, and overall crop quality. Furthermore, vermicompost shows promise in mitigating soil degradation and sequestering organic carbon while demonstrating the potential for pest management, including effectiveness against pests like fall armyworm (Spodoptera frugiperda). This review emphasizes the importance of integrated nutrient management and proper application strategies to maximize the benefits of vermicompost in grain crops. Factors such as the form and timing of application, efficacy against specific pests, and economic viability for different farming scales are discussed. Understanding these factors is crucial for successfully implementing and adopting vermicompost-based pest management strategies in grain crops. This review also explores the potential of vermicomposting as an eco-friendly and cost-effective solution to remediate organic contaminants, emerging contaminants, personal-care and pharmaceutical products, and microplastics. The review further identifies knowledge gaps and highlights the need for future studies to effectively utilize vermicompost and its derived products in cereal production for sustainable agriculture, contributing to global food security.

Published

2023

48. Soil Microbial Community Responses to Cyanobacteria versus Traditional Organic Fertilizers

Author

Antisar Afkairin, Mary Stromberger, Heather Storteboom, Allison Wickham, David G. Sterle, and Jessica G. Davis

Subjects

cyanobacteria, organic fertilizers, EL-FAMEs, Cucumis sativus, Prunus persica, Agriculture (General), S1-972

Abstract

This study explores the impact of diverse organic fertilizers, including a non-traditional cyanobacteria-based alternative, on soil microbial communities in varying soil types and depths. The research aims to elucidate the effects of these fertilizers on soil microorganisms in certified organic cucumber (Cucumis sativus) field and peach (Prunus persica) orchard settings. Fertilizers were applied either on the soil surface or banded 5 cm below the soil surface, and microbial ester-linked fatty acids (EL-FAMEs) were analyzed in collected soils. Notably, cyanobacteria and Neptune hydrolyzed fish emulsion fertilizers induced significant alterations in the microbial communities of cucumber plots, enhancing microbial biomass and favoring the proliferation of Gram-negative bacteria, Gram-positive bacteria, and actinomycetes compared to other treatments. In the peach orchard, fertilizer choice differentially impacted microbial communities, especially in the first year and at greater soil depths. Notably, the supplementation of poultry manure with cyanobacteria fertilizer resulted in augmented microbial biomass and relative fungal and arbuscular mycorrhizal fungal abundances compared to poultry manure alone. These shifts have promising implications for organic vegetable and fruit cultivation. The study further underscores the potential of cyanobacteria-based fertilizers to reduce reliance on traditional options and minimize manure application, promoting self-sufficiency and benefiting soil microorganisms, plant growth, and the ecosystem. Thus, the research emphasizes the importance of exploring and adopting cyanobacteria-based fertilizers to bolster sustainable agricultural practices.

Published

2023

49. The Molecular Composition of Peat Organic Matter and Prospects for Its Use in Agriculture

Author

Evgeny Lodygin, Roman Vasilevich, and Evgeny Abakumov

Subjects

humic acids, fulvic acids, organic fertilizers, NMR spectroscopy, Histosols, Agriculture

Abstract

This paper highlights the molecular composition of native peat and preparations of humic substances (HSs) isolated from permafrost hummock peatlands (Histosols) of the forest tundra zone of the European north-east of Russia. The structural and functional parameters of humic—(HAs) and fulvic acids (FAs) of the peatlands studied are determined by the combined action of cryogenic processes, species composition and the degree of peat decomposition, which reflects the climatic conditions during peat formation in the Holocene. The predominance of the proportion of HAs over FAs in the composition of peat, as well as the low acidity of FAs, makes HS-based preparations highly promising for use as organic fertilizers. The high contents of alkyl and carbohydrate fragments in the structure of the studied HSs allow us to recommend them for use in mineral loamy-textured soils.

Published

2023

50. Soil chemical attributes under combinations of organic fertilizing and water salinity

Author

Márcio Henrique da Costa Freire, Geocleber Gomes de Sousa, Thales Vinicius de Araújo Viana, Carla Ingryd Nojosa Lessa, and Francisco Hermeson Rodrigues Costa

Subjects

zea mays l., organic fertilizers, salt stress, Agriculture (General), S1-972

Abstract

The use of brackish water causes chemical changes in cultivated soils. It is therefore necessary to apply strategies that can minimize its negative impacts, such as the use of organic fertilizers. This study aimed to evaluate in the field the chemical attributes of a Red Yellow Argisol under irrigation with saline water and organic fertilizing in an area cultivated with corn. The design was randomized blocks, in a split-plot scheme, with the plots comprising salinity levels for the irrigation water (0.8 and 3.0 dS m-1) and the subplots combinations of organic fertilizers (cattle manure + poultry biofertilizer + goat biofertilizer; cattle manure + goat biofertilizer; cattle manure + poultry biofertilizer; control), with four replications. The 3.0 dS m-1 irrigation has a negative effect on the soil chemical attributes, particularly reducing the pH and increasing the sodium, exchangeable sodium percentage and electrical conductivity of the soil saturation extract. The combination of cattle manure + poultry biofertilizer + goat biofertilizer mitigates the salt stress by favouring the accumulation of nitrogen and organic matter, while the cattle manure + poultry biofertilizer favours the potassium accumulation in the soil. The combination of cattle manure + poultry biofertilizer + goat biofertilizer increases the contents of phosphorus and potassium when using the 0.8 dS m-1 irrigation.

Published

2023