Your search keyword '"Fertilizer"' showing total 59,586 results

1. Response of INM, spacing and cycocel on quality attributes of cabbage [Brassica oleracea (L.) var. capitata] in Bundelkhand

Author

Singh, Harpal and Kumar, Vinit

Published

2024

2. In vitro Assessment Indicates that Fertilizers Commonly Used in Legume Production Differentially Inhibit Commercial Rhizobial Strains.

Author

Riley, Ian T., Ryder, Maarten H., Rathjen, Judith R., Lai, Thang V., and Denton, Matthew D.

Abstract

In-vitro rhizobial inhibition by fertilizers commonly used in legume production was assessed with commercial inoculant strains, Bradyrhizobium lupini WU425, Mesorhizobium ciceri CC1192 and Rhizobium leguminosarum bv. viciae WSM1455, and a commercial granular inoculant (WSM1455). Standard bacterial inhibition assays were used with four fertilizers: single superphosphate (SSP), granulated DAP (based on diammonium phosphate) and MAP (monoammonium phosphate), and a compound fertilizer (MAP with ZnSO4). WSM1455 was strongly inhibited by DAP and MAP fertilizers, and moderately by SSP, with DAP being non-lethal. However, CC1192 and WU425 were not inhibited by DAP and were less sensitive to MAP fertilizers, with the effects being bacteriostatic rather than bactericidal. Apart from pH effects (particularly SSP), comparisons with analytical grade products indicated that fertilizer impurities might contribute to this inhibition. Granular inoculant mixed with MAP or DAP rapidly lost moisture and viability (75% within 1 h). The fertilizers were found to inhibit rhizobia with strain by fertilizer interactions, with differences in degree and lethality. Consequently, it is suggested that close placement of inoculated seeds near fertilizer at planting or mixing granular inoculants with fertilizers risks poor nodulation outcomes. These in-vitro findings need field validation but may be considered valuable in providing advice to legume growers. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evaluation of spent coffee grounds as a nutrient source for turfgrass systems.

Author

Flores, G., Wherley, B., McInnes, K., Feagley, S., and Hejl, R.

Subjects

*COFFEE grounds, *SYNTHETIC fertilizers, *ORGANIC fertilizers, *POULTRY litter, *AMMONIUM sulfate, *TURFGRASSES, *BERMUDA grass

Abstract

The growing popularity of cold-brewed coffee has resulted in large amounts of localized spent coffee grounds (SCG) generated from production plants. Spent coffee grounds offer many favorable agronomic properties, but also contain caffeine, tannins and phenolic compounds that may be deleterious to plant growth. There is a growing body of research examining the effects of SCG on plants, but little of which pertains to use in turfgrass systems. The objective of this two-year field study was to evaluate the feasibility of using SCG as an agronomic source of nutrients for turfgrass. Field studies were conducted over two years to characterize performance of 'Riley's Super Sport' (Celebration®) bermudagrass (Cynodon dactylon) receiving multiple nutrient source treatments including fresh and composted SCG, as well as synthetic, natural organic, and bridge fertilizers, some which included SCG. Soils were analyzed at the conclusion of the study to determine whether SGC provided long-term effects of on soil pH and/or nutrient concentrations. Our results demonstrated that although SCG possesses between 2.3-2.9% N and a favorable C:N ratio, direct SCG applications over two seasons did not produce responses typical of a fertilizer when applied as a topdressing. However, when combined with poultry litter, the SCG-containing organic fertilizer GeoJava produced improved turf quality relative to other organic and synthetic commercial fertilizers in our study, including Milorganite, ammonium sulfate, and URI-PEL S.R. Further, despite the acidic nature of SCG, their repeated application over multiple years did not result in any long-term changes to soil pH. Although early on, SCG treatments caused mild and transient phytotoxicity, these effects were not observed when it was applied in combination with the manure used in GeoJava. [ABSTRACT FROM AUTHOR]

Published

2024

4. Assessing the impact of tillage practices and nutrient levels on the growth and productivity of Ethopian mustard (Brassica carinata L.) - soybean (Glycine max (L.) Merr.) cropping system.

Author

Manhas, Shilpa, Singh, Janardan, Manuja, Sandeep, Saini, Ankit, Kumawat, Raveena, Dahiya, Pankaj, Mehta, Swati, Sahoo, Chinmaya, Johnson, Riya, Puthur, Jos T., and Fayezizadeh, Mohammad Reza

Subjects

*CROPPING systems, *NO-tillage, *SUSTAINABILITY, *FARM manure, *CROP yields, *TILLAGE, *UREA as fertilizer

Abstract

Background: An importance of tillage, inorganic and organic nutrient sources in the mustard - soybean cropping system lies in their ability to enhance soil fertility, improve nutrient availability, optimize crop growth and yield, and promote sustainable agricultural practices. Any cropping system's sustainability could be increased by implementing better management techniques like zero and reduced tillage with residue retention and better nutrient sources. Results: A field experiment was conducted for four consecutive seasons (Winter 2019 to Rainy 2021) to compare the two enhanced management practices, zero and reduced tillage to conventional tillage across four levels of nutrient sources: 75 and 100% recommended dose of nitrogen through FYM and 75 and 100% recommended dose of fertilizers through urea, single super phosphate and muriate of potash in a two years experiment. Experiment results were evaluated in terms of nutrient status, profitability and productivity of Mustard-Soybean cropping system. The results show a substantial improvement in yield, nutrient status, and overall yield performance of mustard and soybean when using the full recommended dose of fertilizers combined with reduced tillage and mulching, compared to other treatment methods. The implementation of reduced tillage practices recorded significantly higher yield of mustard and soybean over conventional and zero tillage. Conclusion: System productivity and profitability i.e. mustard equivalent yield, productivity, gross returns, net returns, profitability and B: C (benefit: cost) was found to be improved with reduced tillage and 100% recommended dose of fertilizer under reduced tillage practices. To enhance cropping system productivity in various sub-humid regions worldwide, farmers can adopt reduced tillage techniques combined with the full recommended dose of fertilizers (100% RDF). [ABSTRACT FROM AUTHOR]

Published

2024

5. The dynamic relation between fertilization, precipitation and the diffusion of agricultural non-point pollution in Hainan Island.

Author

Wang, Shuogen and Zhou, Shudong

Abstract

With the increasing demand for crops, the excessive application of fertilizers has gradually become a significant factor affecting water quality. Therefore, studying the relationship between agricultural fertilizer runoff and water quality is crucial for the sustainable development of agricultural production. The present study sets up a new dynamic model of nitrogen fertilizer loss, introducing variables such as precipitation, fertilization application during dry and rainy seasons, and their lagged and interaction terms. The paper analyzed the issue of fertilizer runoff under the complex interactions of various factors, including spatial and temporal scales and climatic conditions, and explored the relationship between agricultural activities and water quality changes in the context of sustainable development. Due to Hainan Island's independent river system, which is free from transboundary pollution, and its low level of industrial pollution, it provides an excellent sample for assessing the impact of agricultural non-point source pollution on water quality. Based on watershed monitoring data from Hainan Island, this study draws the following conclusions: 1. Precipitation exhibits a pronounced seasonal influence on total nitrogen concentration. 2. Nitrogen fertilizer enters into water bodies through precipitation, resulting in a lag effect on total nitrogen concentration. 3. The influence of grain and tropical crops on nitrogen loss is less significant, while cash crops will trigger the nitrogen overloading of rivers in scenarios where they account for a high proportion of the planting structure of the sown area. [ABSTRACT FROM AUTHOR]

Published

2024

6. Adaptation of rhizobacterial and endophytic communities in Citrus Grandis Exocarpium to long-term organic and chemical fertilization.

Author

Deyang Zhou, Kaiqing Yang, Yinhui Zhang, Cancan Liu, Ye He, Jialin Tan, Zhepu Ruan, and Rongliang Qiu

Subjects

ENVIRONMENTAL soil science, ORGANIC fertilizers, FUNGAL enzymes, POMELO, FERTILIZER analysis

Abstract

Introduction: Organic fertilizers (OF) are crucial for enhancing soil quality and fostering plant growth, offering a more eco-friendly and enduring solution compared to chemical fertilizers (CF). However, few studies have systematically analyzed the effects of OF/CF on root microbiome of medicinal plants, especially in combination with active ingredients. Methods: In this study, we investigated the composition and function of bacteria and fungi in the rhizosphere or within the root of traditional Chinese medicinal plants, Citri Grandis Exocarpium (Huajuhong), which were treated with OF or CF over 1, 3, and 5 years (starting from 2018). Additionally, we conducted metabolome analysis to evaluate the effects of different fertilizers on the medicinal properties of Huajuhong. Results: The results indicated that extended fertilization could enhance the microbial population and function in plant roots. Notably, OF demonstrated a stronger influence on bacteria, whereas CF enhanced the cohesion of fungal networks and the number of fungal functional enzymes, and even potentially reduced the proliferation of harmful rhizosphere pathogens. By adopting distancebased redundancy analysis, we identified the key physicochemical characteristics that significantly influence the distribution of endophytes, particularly in the case of OF. In contrast, CF was found to exert a more pronounced impact on the composition of the rhizosphere microbiome. Although the application of OF resulted in a broader spectrum of compounds in Huajuhong peel, CF proved to be more efficacious in elevating the concentrations of flavonoids and polysaccharides in the fruit. Discussion: Consequently, the effects of long-term application of OF or CF on medicinal plants is different in many ways. This research provides a guide for OF/CF selection from the perspective of soil microecology and aids us to critically assess and understand the effects of both fertilizers on the soil environment, and promotes sustainable development of organic agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

7. "تدوير المخلفات الخضا رء في صلاله بسلطنة عما ن "

Abstract

Copyright of Arab Journal for Scientific Publishing is the property of Research & Development of Human Recourses Center (REMAH) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Chemical constituents of green peel of Persian walnut (Juglans regia L.) fruit.

Author

ZamaniBahramabadi, Elaheh, Afshar, Hossein Malekpour, and Rezanejad, Farkhondeh

Abstract

Green peel of walnut (J. regia L.) is considered as one of the agricultural wastes, while it contains significant amounts of bioactive compounds and minerals. The aim was to evaluate the cytochemistry and the amount of minerals in these peels in order to estimate their possible uses. Mature Persian walnut fruits were collected from a village in the Kerman province of Iran. The green peels were used for manual sectioning and staining. Large amounts of starch and calcium oxalate were seen in peel cells. Carbohydrates were abundant in epidermal cells and superficial areas. Cells in the middle and inner layers had high levels of phenolic compounds. The concentration of tannins in cells of the epidermis, parenchyma, and phloem tissues was notably high. Assessment of mineral elements in peels was performed by the inductively coupled plasma mass spectrometry (ICP-MS) technique. Potassium had the highest amount; calcium was the second most abundant element, followed by phosphorus, magnesium, sulfur, silicon, iron, sodium, aluminum, strontium, titanium, copper, magnesium, selenium, zinc, molybdenum, and nickel, respectively. The great point was that walnut peel can be a complete plant fertilizer, a subject that has not been reported previously. Because fertilizers in the market contain the same elements and almost the same amount of each element similar to walnut peels, as future perspectives, the extraction of minerals and bioactive substances of these peels and investigation of their effects on the growth of model plants are needed. If the results are satisfactory, chemical fertilizer preparation from walnut peels can be economical. [ABSTRACT FROM AUTHOR]

Published

2024

9. Survival of plant seeds in digestate storage—with and without prior anaerobic digestion.

Author

Hahn, Juliane, Plogsties, Vincent, Gerowitt, Bärbel, and Heiermann, Monika

Subjects

SEED viability, CHICORY, CARROTS, CHENOPODIUM album, ANAEROBIC digestion

Abstract

Introduction: Plant seeds from weeds and energy crops have the potential to survive anaerobic digestion (AD). Species able to form physically dormant, i.e., hardseeded (HS) seeds seem particularly resistant. However, it is not yet known to what extent the storage of the digestate after AD affects seed viability. Methods: Seed survival of five HS and six non-HS (NHS) species was investigated in three combinations of digestate storage (DS) and AD. First, untreated seeds were exposed to DS for maximum 12 weeks. To simulate short-circuited AD (ADshort) in biogas reactors, seeds were second subjected to lab-scale AD for 1 day before DS. Third, seeds of six species were exposed to full-scale AD (ADfull) followed by DS. Seed viability was determined using a combination of germination tests and tetrazolium staining. Viability was modeled as a function of exposure time. Results and discussion: Seed viability was affected by DS, AD and AD + DS, but responses varied greatly between species and treatments. With increasing exposure time, viability decreased after a lag-phase, remained stable or even increased. The NHS species Cichorium intybus , Daucus carota , Echium vulgare , and Verbascum thapsus were most susceptible, with seed-killing close to 100% if DS was involved. The HS species Malva sylvestris , Melilotus albus and Melilotus officinalis were most resistant. They survived all treatments and were alive after 35 days of ADfull plus 3 months of DS. The resistance potential of the HS species Abutilon theophrasti and Malva alcea and of the NHS species Chenopodium album and two tomato varieties was intermediate. None of them survived ADfull + DS, but except A. theophrasti they were viable after ADshort + DS. With few exceptions, seed-killing by AD + DS was higher than that by AD alone. In conclusion, DS and AD + DS have the potential to reduce seed viability, but do not completely inactivate all species. Therefore, digestate can be contaminated with viable seeds and may lead to the spread of weeds, especially after a short-circuited AD. In order to ensure the sustainable use of digestates in terms of weeds, we recommend to investigate the factors contributing to seed inactivation and the quantity of seed introduced to AD. [ABSTRACT FROM AUTHOR]

Published

2024

10. Effects of Different Nitrogen and Phosphorus Doses on the Growth, Yield and Yield Components of Black Cumin (<italic>Nigella sativa</italic> L.)

Author

Turkmen, Musa

Subjects

*PLANT nutrition, *SEED yield, *GROWING season, *PLANT nutrients, *PLANT growth, *BLACK cumin, *SESAME

Abstract

Proper adjustment of fertilizer dosage is necessary to achieve maximum yield. The use of too little or too much fertilizer can negatively affect plant growth. Nitrogen and phosphorus are two important nutrients in plant nutrition. Research on the combined effect of nitrogen and phosphorus on black cumin is very limited. Therefore, a field study was conducted to determine the effects of different nitrogen and phosphorus doses on the growth, yield and yield components of black cumin (Nigella sativa L.) under Mediterranean conditions during two growing seasons. Five doses (0 kg ha−1or control, 30 kg ha−1, 60 kg ha−1, 90 kg ha−1 and 120 kg ha−1) of nitrogen and four phosphorus doses (0 kg ha−1 or control, 20 kg ha−1, 40 kg ha−1 and 60 kg ha−1) were used as experimental factors. All the parameters except for capsule number were significantly affected by the growing season. Nitrogen dose significantly affected all the examined features except for seed number in capsule, seed weight in capsule and harvest index, while phosphorus dose significantly affected only SY and HI. In general, in the 2021–2022 growing season, black cumin had lower growth, yield and related traits. On the other hand, even though nitrogen fertilization, particularly at 90 kg ha−1 and 120 kg ha−1, had a positive effect on the yield and yield components of black cumin, the optimal nitrogen dose was 90 kg ha−1 for fewer input costs according to the results obtained from the present study. A phosphorus dose of 60 kg ha−1 was determined to be the appropriate dose in terms of seed yield, and this dose can be suggested for maximum seed yield of black cumin. [ABSTRACT FROM AUTHOR]

Published

2024

11. 密度与肥料对泽泻产量的影响.

Author

彭志芸, 刘小波, 杜勇利, 廖霏霏, 熊湖, 夏魁, 李之兰, 苟才明, and 张德银

Abstract

[Objective] To explore the influence of density and fertilizer ratio on the yield and their interaction, and screen out the scientific dense fertilizer level, so as to provide theoretical basis and practical experience for the standardized cultivation of Alisma plantago-aquatica. [Method] The effect function of density, nitrogen fertilizer, phosphorus fertilizer, potassium fertilizer and the yield of Alisma plantago-aquatica was established by using four-factor and five-level quadratic orthogonal rotation combination design for field experiment. [Result] The quadratic regression equation R² was 0.9097, and the mathematical model was reliable. The effect of each factor on the yield of Alisma plantago-aquatica Linn. was in the order of density>N>K>P, and the interaction effect between density and fertilizer was significant. According to the optimization of statistical frequency, the optimal agronomic measures for the target yield of diarrhea greater than 3 300 kg/hm² were obtained as follows: the density was 146 900-150 800 plants/hm², nitrogen 219.10-234.50 kg/hm², phosphorus 124.80-150.00 kg/hm² and potassium 152.55179.55 kg/hm². [Conclusion] Both reasonable density and fertilizer application amount can effectively increase the yield of Alisma plantagoaquatica Linn. Density is the best, followed by nitrogen fertilizer, and potassium and phosphate fertilizer have less effect on increasing production. On the basis of ensuring density and nitrogen fertilizer, combining with reasonable phosphate and potassium fertilizer can achieve the goal of high yield of Alisma plantago-aquatica Linn. [ABSTRACT FROM AUTHOR]

Published

2024

12. 水肥耦合对硒砂瓜产量和品质的影响.

Author

施苏齐, 郑淑欣, 焦炳忠, and 李金泽

Abstract

[Objective] In order to investigate the suitable water-fertilizer combination pattern for selenium melon grown under drip irrigation in the arid zone of central Ningxia. [Method] The local main cultivar "Jincheng 5" was used as the test material, and three irrigation gradients and three fertilizer levels were set up, with a total of nine treatments, to determine the growth indexes of selenium squash, fruit longitudinal and transverse diameters, yields and quality indexes of selenium squash under different treatments. The key indexes were screened by principal component analysis to evaluate the combined effects of irrigation volume and fertilizer application on the indexes of selenium melon. [Result] The results show that irrigation volume, fertilizer application rate, and water-fertilizer interaction effect all affected the yield and quality of selenium melon to different degrees, and the water-fertilizer interaction effect was higher than that of irrigation volume and fertilizer application rate. The W2F2 treatment significantly increased the yield of selenium melon, the content of central and marginal soluble solids, reduced the middle and marginal differences, and made the selenium melon sweetness uniform, which improved the taste and quality of selenium melon. Based on the principal component analysis, 12 indicators of quality index, yield, irrigation water use efficiency and fertilizer bias productivity were converted into 2 independent composite indicators, whose cumulative contribution was as high as 89.244%. The W2F2 treatment had the highest composite score of water-fertilizer coupling effect. [Conclusion] The suitable water-fertilizer combination pattern for selenium melon in the central arid zone of Ningxia was an irrigation watering rate of 210 m³/hm² and a fertilizer application rate of 300 kg/hm². [ABSTRACT FROM AUTHOR]

Published

2024

13. Estimating the Effectiveness of Public Versus Private Distribution Systems: Insights from a Fertilizer Policy Reform in Malawi.

Author

Arias-Granada, Yurani and Ricker-Gilbert, Jacob

Subjects

*FERTILIZER application, *AGRICULTURE, *FARMERS, *FERTILIZERS, *PRIVATE sector

Abstract

AbstractThroughout much of the world, critical goods and services are provided by parallel public and private distribution systems. However, it is often difficult to causally differentiate the performance of these two channels. In this article, we utilize a policy change in Malawi to estimate the relative efficiency of public and private channels in distributing inputs to smallholder farmers. In the 2015/16 agricultural season, the government allowed a group of private-sector fertilizer dealers to distribute subsidized fertilizer in nine of the country’s 28 districts. We use a panel dataset and a difference-in-differences (DID) strategy to estimate the impact of the pilot reform on a set of variables encompassing the entire process of subsidized fertilizer acquisition and appropriate utilization. We find that households in districts where the private sector distributed subsidized fertilizer were 11 percentage points more likely to acquire it earlier in the planting season (p < 0.01). We also find that households in pilot districts were six percentage points more likely to apply inorganic fertilizer (p < 0.10), but this effect was no longer statistically significant after using household fixed-effects and correcting for multiple hypothesis testing. Additionally, the reform did not affect other outcomes such as timely fertilizer application or maize yields. [ABSTRACT FROM AUTHOR]

Published

2024

14. Enhancing Mango Productivity with Wood Vinegar, Humic Acid, and Seaweed Extract Applications as an Environmentally Friendly Strategy.

Author

Abdel-Sattar, Mahmoud, Mostafa, Laila Y., and Rihan, Hail Z.

Abstract

Although chemical fertilization has gained a lot of attention due to its ability to increase the yield of fruit trees, it has been known to cause numerous environmental problems such as soil deterioration, alleviating beneficial microorganisms, and reducing fruit quality and safety. Hence, today, we aim to reduce these problems by using eco-friendly and sustainable biostimulants to promote nutritional status, yield, and quality. The effect of wood vinegar (WV) on mango production has yet to be investigated. Therefore, a field trial was conducted during the 2023 and 2024 seasons to evaluate the regulatory effect of individual and combined application of wood vinegar (WV), seaweed extract (SW), and humic acid (HA) on the performance of mango (Mangifera indica L.) cv. Ewais. The results revealed that all treatments had a pronounced effect and significantly improved the total chlorophyll content (107.7 and 106.6%), leaf N (2.02 and 2.23%), P (0.38 and 0.4), and K (1.07 and 1.13%), as well as enhancing the quality of mango fruits by increasing fruit length (11.68 and 12.38 cm), fruit width (7.8 and 8.59 cm), total sugars (40 and 37.3%), and TSS (21.9 and 20.8%) while reducing the total acidity (64.3 and 69.0%) in the 2023 and 2024 seasons, respectively, compared with the control. Based on this study, the treatment of 2 L/ha seaweed + 2 L/ha humic acid + 2 L/ha wood vinegar combined had the greatest effect on enhancing Ewais mango fruit yield by up-regulating leaf mineral acquisition, antioxidant response, and sugar accumulation. This study supports the application of HA and SW in combination with WV to improve mango fruit yield and quality. [ABSTRACT FROM AUTHOR]

Published

2024

15. Investigating the Potential Use of End-of-Life Fire Extinguisher Powder as a Soil Amendment in Different Soil Types: A New Approach Following a Circular Economy Model.

Author

Tsigka, Ioanna, Kiatikidis, Nikolaos, Tsolakis, Panagiotis K., Stergiou, Nikolaos, and Golia, Evangelia E.

Abstract

A first attempt to assess the potential alternative use of fire extinguisher filler powder after its exhaustion has been investigated in the present research. The chemical composition of fire extinguisher filler powder, specifically type ABC 40%, consists of monoammonium phosphate and ammonium sulfate. As its nitrogen and phosphorus content is particularly high, the thought of its possible use as a fertilizer and/or a soil amendment is a challenge. For this purpose, a pot experiment was carried out and two leafy vegetables (spinach and lettuce) were used as biomarkers. Two soil samples from rural areas, one acidic (pH = 5.8 ± 0.1) and one alkaline (pH = 8.2 ± 0.7), were selected for the experiments. Filler powder from a used fire extinguisher was added to the soil samples in two levels (1 and 2% v/v). It was found that the addition of fire extinguisher filler powder caused no toxicity to either of the two plants studied. On the contrary, an increase in their above-ground biomass was observed, proportional to the amount of powder added. It was established that in the pots where the powder was added, in both plant species observed, the plant height, root length, and chlorophyll content of leaves increased, the total antioxidant capacity was enhanced, and the concentrations of nitrate and phosphate in the leaves and roots of plants also increased, compared to the soil without the addition of fire extinguisher powder. The early signs appear to be encouraging, as an increase was observed in almost all aspects. The mandatory end of the life cycle of the powder as a fire-extinguishing agent and its disposal is also a challenge in the context of the circular economy, as reducing the energy requirements for fertilizer production is one of the objectives of sustainable development. [ABSTRACT FROM AUTHOR]

Published

2024

16. اثر تلقیح با گونه های قارچ میکوریزا بر عملکرد اجزای عملکرد رنگیزه های فتوسنتزی و میزان پرولین در گندم زراعی تحت رژیم های مختلف آبیاری.

Author

فرشاد سرخی, مجتبی فاتح, and رامین رستمی

Abstract

Introduction Wheat (Triticum aestivum L.) is one of the oldest and most widely used crops in the world and is the most important source of human food that grows in a wide range of climatic conditions in the world. In arid and semi-arid regions, water is the main limitation. Iran is a dry and semi-arid country with limited precipitations. Therefore, the mean annual rainfall in Iran is even less than one third of the global average. There are many solutions for sustainability in agriculture, one of which is the use of biological fertilizers. Among these biofertilizers are mycorrhizal fungi. The symbiotic relationship between the arbuscular mycorrhizal fungus and the roots of the host plant significantly increases the growth and absorption of plant nutrients. In this research, the aim is to investigate the effect of arbuscular mycorrhizal fungus on improving the yield, yield components, and chlorophyll index of wheat by applying water deficit stress through increasing the interval of irrigation cycles. Materials and Methods This factorial experiment was conducted based on a randomized complete block design in four replications in the research farm of the Azad Islamic University of Miandoab, northwestern Iran in 2021. The experimental factors included the application of arbuscular mycorrhiza fungus species in three levels, control (without inoculation), inoculation with Glomus mosseae and inoculation with Glomus intraradices and three levels of irrigation regimes (i.e. irrigation after every 6, 13 and 20 days). Seeds of Elvand wheat cultivar were inoculated with mycorrhizal fungus, then the inoculated seeds were immediately planted into a depth of 3. Before planting, 15 tons/ha of manure and 25 kig of nitrogen fertilizer in the form of urea were uniformly applied to the soil. During the growing season, 50 kg of nitrogen fertilizer in the form of urea was used during the two stages of stem growth and spike formation. To measure wheat grain yield components, 10 plants were harvested and to determine grain yield and plant above- ground dry mass, 0.25 m-2 was taken from each plot. In this way, after removing two rows from each side and half a meter from the beginning and end of all rows as a margin, sampling of experimental units was done. The evaluated traits included the spikes/plant, grains/spike, the thousand-grain weight, plant aboveground dry mass, grain yield, harvest index, and greenness index Results and Discussion Results indicated that the effect of irrigation intervals and mycorrhiza fungus were significant for grains/spike, thousand-grain weight, grain yield, above-ground dry mass, harvest index, chlorophyll index, photosynthetic pigments and proline concentrations. G. mosseae species increased the grains/spike, thousand-grain weight, above-ground dry mass, harvest index, and chlorophyll concentration compared to G. intraradices species by 5.21, 9.73, 8.86, 6.96 and 4.08% and increased the above-mentioned attributes compared to the control by 29.94, 30.28, 39.68, 27.90 and 21.43%, respectively. The highest spikes/plant, grain yield, chlorophyll index and concentration of chlorophyll a belonged to irrigation interval of 6 days and inoculation with G. mosseae species with 6.34, 612.45 g m-2, 62.89 SPAD unit, and 0.306 mg g-1 FW, respectively. Prolongation of irrigation interval by creating water deficit stress caused the sterility of the spikes and significantly reduced the grains/spikes. The irrigation regime had a significant effect on the grain yield and by reducing the irrigation intervals, the grain yield was increased. The drought-induced decrease in grain yield stemmed from the decrease in green index, chlorophyll concentration, spikes/plant and grains/spike, leading to decrease in the harvest index. With increase in the irrigation interval, the concentration of chlorophyll a and b decreased, but the mycorrhizal inoculation led to significant increase in the concentration of chlorophyll a and b under water deficit stress. The plants inoculated with mycorrhizal fungus suffered less from water deficit stress than the non-colonized plants, and as a result, the concentration of proline increased less compared to the plants deprived from mycorrhizal fungus. According to these results, irrigation of wheat plants every 13 days and application of G. mosseae can produce the desirable grain yield, while decreasing water consumption for wheat production. Conclusions Mycorrhizal fungus increased the plant's resistance to drought stress by improving the absorption of water and nutrients under water stress deficit. G. mosseae was more effective in increasing the resistance of wheat against water deficit stress and as a result, it increased the grain yield, yield components, chlorophyll index and chlorophyll concentration of wheat to a greater extent compared to G. intraradices. In order to make the best use of water resources and soil nutrients, irrigation of wheat should be done every 13 days and must be accompanied by inoculation with G. mosseae to achieve an acceptable grain yield. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Use of Anaerobic Digestate for Greenhouse Horticulture.

Author

Jankauskienė, Julė, Laužikė, Kristina, and Kaupaitė, Samanta

Subjects

*CROPS, *AGRICULTURE, *ANIMAL waste, *HORTICULTURE, *CROP yields

Abstract

Agricultural crop production practices are being developed for organic, sustainable, and environmentally friendly farming systems. Developing efficient and resourceful crop fertilizers is significantly important for future agriculture. Various biofertilizers, such as animal manures, composts, and vegetable byproducts, have been successfully applied in agriculture. Anaerobic digestate, organic matter obtained from animal or plant waste processing during anaerobic digestion into biomass, has become popular due to its versatility, multiple purposes, and facile application methods. Digestate has recently been widely used in agriculture to enrich the soil with nutrients and thus increase crop yields. Several studies have shown that anaerobic digestate is a valuable fertilizer that can be used as a biofertilizer in field and greenhouse horticulture. Also, research has been carried out on the use of digestate in hydroponic horticulture. This review presents the research results and discusses the possibilities of using anaerobic digestate in greenhouse horticulture. Its objective is to provide a comprehensive understanding of the application of digestate from various sources and its impact on the growth, progress, yield, and quality of greenhouse-grown vegetables. [ABSTRACT FROM AUTHOR]

Published

2024

18. LCCO 2 Assessment and Fertilizer Production from Absorbed-CO 2 Solid Matter in a Small-Scale DACCU Plant.

Author

Cheng, Tianjiao, Hirota, Takeji, Onoda, Hiroshi, and Pandyaswargo, Andante Hadi

Subjects

*CARBON sequestration, *LIFE cycles (Biology), *MAGNESIUM hydroxide, *CARBON cycle, *CARBON dioxide

Abstract

This study investigates a novel method of utilizing Direct Air Capture (DAC) technology for fertilizer production. Unlike traditional Direct Air Carbon Capture and Utilization (DACCU) technologies, Direct Air Carbon Capture for Fertilizers (FDAC) has the potential to produce fertilizers directly. This study aims to assess the feasibility of FDAC-based fertilizer production by examining the current state of traditional DAC technologies, evaluating the CO2 fixation potential of FDAC, and analyzing the decarbonization effect of producing fertilizers using FDAC. Our evaluation results indicate that CO2 emissions from producing 1 ton of conventional chemical fertilizer, FDAC fertilizer (current status), FDAC fertilizer with ingredient adjustment (sodium hydroxide), and FDAC fertilizer with ingredient adjustment (magnesium hydroxide) are 1.69, 1.12, 1.04, and 1.06 tons of CO2, respectively. The FDAC fertilizer (current status) emits 0.57 tons of CO2 per ton less than commercial fertilizers. FDAC fertilizers also have the potential to reduce CO2 emissions further when the fertilizer composition is adjusted, offering a promising solution for lowering the environmental impact of fertilizer production. Significant CO2 reduction can be expected by replacing conventional low-intensity chemical fertilizers with FDAC-produced fertilizers. [ABSTRACT FROM AUTHOR]

Published

2024

19. Produksi Tanaman Okra (Abelmoschus esculentus L. Moench) Akibat Aplikasi Mikoriza dan Pupuk Rock Phosphat pada Cekaman Salin.

Author

Maulana, Mizan, Pratiwi, Vinny, Harta, Rika Yusli, Ritaqwin, Zaitun, and Harahap, Darmadi Erwin

Subjects

*PHOSPHATE rock, *FUNGAL colonies, *MYCORRHIZAL plants, *SOIL salinity, *PLANT colonization, *OKRA

Abstract

Okra (Abelmochus esculentus L. Moench) has a fairly high nutritional content; every 10 gr of young okra fruit contains 33 calories, 7 gs of carbohydrates, 3.2 gs of fiber, and 81 mg calcium. Okra fruit contains a lot of mucilage due to its high fiber content. This study aimed to determine the effect of rock phosphate doses and types of mycorrhizae and the interaction between these two factors on the growth and yield of okra in saline soil. The research results showed that the dose of mycorrhiza had a very significant effect on the growth and yield of okra plants. The best dose of mycorrhiza was 10 g/plant, and the best type was Acauluspora. It showed that a dose of 10 g/plant with the Acauluspora type on okra yields on Ultiisol soil had given the best results in the vegetative phase, which could be seen in plant height parameters 15 and 30 ADP. The dose of rock phosphate is 150 g, which can be seen in the 300 g planting parameter and in almost all the observed variables. Hyphae in the soil can spread widely, which helps absorb more water. The best yields of okra plants were found by applying a mycorrhizal dose of 10 g on fruit weight variables of plants' mycorrhizal colonization on vase vegetative roots and mycorrhizal colonization on plant roots in the generative phase. [ABSTRACT FROM AUTHOR]

Published

2024

20. The Impact of Nitrogen Levels on the Growth, Development, and Yield of Orange-fleshed Sweet Potatoes (Ipomoea batatas L.).

Author

Joko, Lungisa Benathi, Eiasu, Bahlebi Kibreab, and Ngwenya, Sandile Manzi

Subjects

*LEAF area index, *PLANT growth, *PLANT nutrients, *TUBERS, *SWEET potatoes, *BIOMASS

Abstract

Nitrogen (N) is one of the most important fertilizers in agriculture because it promotes the growth of plants and the uptake of other plant nutrients. This nutrient plays a significant role in determining the yield and nutrient composition of sweet potato root tubers. Therefore, this study aimed to determine the optimum application rate of N in sweet potatoes to maximize yields and increase growth efficiency. Four levels of N (50, 100, 150, and 200 kg/ha) were applied as treatments. A randomized complete block design was used, and each treatment was replicated five times. Vine length, leaf length, stem thickness, and chlorophyll content were measured weekly, and the storage root yield was determined at the end of the experiment. The results showed a significant effect of the N treatments on plant growth, chlorophyll content, vine length, leaf area index and storage root yield. The chlorophyll content and vine length increased with an increase in the N rate. However, an inverse relationship was observed between storage root yield and N rates; the highest yield was recorded for the 50 kg/ha N treatment and the lowest yield was recorded for the 200 kg/ha N applied. Therefore, a rate of 50 to 100 kg/ha N is recommended for the production of orange-fleshed sweet potatoes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Influence of various organic nutrient management technologies on microbial abundance, growth, and yield of rice (Oryza sativa L.) under field conditions.

Author

Panhwar, Qurban Ali, Ali, Amanat, and Depar, Nizamuddin

Subjects

AGRICULTURAL technology, POULTRY manure, FARM manure, FERTILIZER application, ENVIRONMENTAL management

Abstract

A field study (three years) was carried out to evaluate the outcome of various organic nutrient management technologies including farmyard manure (FYM) and poultry manure (PM) integrated with chemical fertilizers for microbial dynamics and growth and yield of rice at Experimental Farm of Nuclear Institute of Agriculture (NIA), Tandojam, Sindh, Pakistan. The most broadly grown rice variety, NIA-Shandar was selected for this study. The experiment involved integrating organic technologies, specifically Farm Yard Manure (FYM) and Poultry Manure (PM), each applied at 10 tons per hectare. These organic technologies were combined with varying levels of inorganic fertilizers: half (60 kg N ha-1 and 45 kg P2O5 ha-1) and full (120 kg N ha-1 and 90 kg P2O5 ha-1) recommended doses. Additionally, zinc was applied at 10 kg ha-1 . The study employed a randomized complete block design (RCBD) with three replications to assess treatment effects. Both organic technologies perform better for microbial dynamics and rice growth and yield enhancement either alone technology or combined with chemical fertilizers during three rice seasons. The maximum general microbial abundance (9.70 log10 CFU g soil-1), N2 fixing (7.37 log10 CFU g soil-1), P solubilizing (7.97 log10 CFU g soil-1) and Zn solubilizing (6.75 log10 CFU g soil-1) population was recorded in FYM alone or with half N and P2O5 fertilizer application. The highest plant height (106 cm), tiller numbers (17.10), panicle numbers (26.53), panicle length (26.32 cm), one thousand grain weight (26.53 g) and rice grain yield (7.92 t ha-1 ) were perceived in FYM with full rate N and P2O5 fertilizer application. Both technologies along with chemical fertilizer induced soil properties and soil nutrients which reflected to increase soil microbial abundance and growth and yield of rice however, FYM showed higher potential than poultry manure during the three years rice cultivation seasons. Hence, it was indicated that a significant contribution to the development of sustainable agricultural technologies that prioritize soil health, environmental stewardship, and food security. [ABSTRACT FROM AUTHOR]

Published

2024

22. THE EVALUATION OF TIFTON 68 PRODUCTION UNDER IRRIGATION AND EARLY NITROGENOUS FERTILIZATION.

Author

Bonafini, Bruno, Guimarães Faria, Dawson José, Fraga Júnior, Eusímio Felisbino, Parreira Filho, Joaquim Martins, and Teixeira Fernandes, André Luís

Subjects

CONTROLLED release of fertilizers, NITROGEN fertilizers, BIOMASS production, NUTRITIONAL value, VALUE (Economics)

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

23. Anaerobic Digestion for Textile Waste Treatment and Valorization.

Author

Tharamrajah, Naveenrajah, Shahbaz, Kaveh, and Baroutian, Saeid

Subjects

TEXTILE dyeing, TEXTILE waste, TEXTILE fibers, WASTE treatment, BIOGAS production

Abstract

Textile waste is becoming among the most polluting waste in the world, discarded mostly in landfills. Valorizing textile waste via anaerobic digestion (AD) helps conserve resources, reduce environmental impact, and foster a circular economy. Although several reviews have discussed textile waste AD, there is a lack of detailed understanding of the challenges encountered during textile waste AD. Therefore, the goal of this review is to focus on challenges encountered and possible solutions for those challenges for biogas and fertilizer conversion via AD. Potential strategies include chemical, biological, and thermal pretreatments that significantly increase the digestion process. Co‐digestion of natural textile waste, cotton, and wool with carbon and nitrogen‐rich substrates improves AD efficiency by twofold. Moreover, separating polyester from polycotton and textile dye removal via solvent and advanced oxidation processes significantly increases methane yield compared with untreated textile waste. This review can aid in analyzing suitable methods to optimize the biogas production of textile waste via AD. [ABSTRACT FROM AUTHOR]

Published

2024

24. The new machine learning feature selection method used in fertilizer recommendation.

Author

D. N., Varshitha and Choudhary, Savita

Subjects

FEATURE selection, AGRICULTURE, MACHINE learning, CROP growth, CROP quality

Abstract

Fertilizer recommendation is the crucial factor to be considered in automation of agricultural predictions. Fertilizer fill the necessary portion of any farming region. There are some micronutrients and macro nutrients which need to be given to crops for proper growth. If fertilization is not done to an optimum level, it may badly harm the soil quality and crop health, so optimum fertilization is important. In this paper we discuss fertilizer and nutrient recommender, where we have used a new feature selection methodology. We have shown the difference between two implementation cases considering presence and absence of feature ranking and selection. Feature ranking and selection has clearly increased the efficiency of the fertilizer & nutrient recommender in our work from 85% to 98%. Feature selection & raking has been introduced with random forest approach. [ABSTRACT FROM AUTHOR]

Published

2024

25. Effect of jasmonate and vermicompost on chlorophyll fluorescence and photosynthetic yield in Dracocephalum moldavica L. under lead stress condition.

Subjects

POLLUTANTS, LEAD, WATER efficiency, UNSATURATED fatty acids, FLUORESCENCE yield, PLANT transpiration, CHLOROPHYLL spectra, NUTRIENT uptake

Abstract

Introduction: Dracocephalum moldavica L. is a herbaceous, annual plant from the Lamiaceae family that is native to Central Asia and domesticated in Central and Eastern Europe. Essential oil of this plant has antimicrobial and bacterial properties and has many uses in the pharmaceutical, cosmetic, food and perfumery industries. Lead stress in plants causes disturbances in mitosis, leaf chlorosis, decreasing of the vegetative and productive growth stages and reduces photosynthesis and enzyme activities. One of the effects of lead toxicity is due to the similarity of the structure of calcium ions and lead, and for this reason, lead ions disrupt many mechanisms related to calcium ions and prevent the activity of key enzymes.Photosynthesis is one of the most sensitive metabolic processes to lead toxicity, and several studies have reported the inhibition of photosynthesis under lead stress in various plants. Lead prevents the absorption of elements such as magnesium and iron. These elements play a role in the structure of chlorophyll and the oxygen-releasing complex in photosystem II. Heavy metals such as lead inhibit chlorophyll biosynthesis by inhibiting the enzymes gamma-aminolevalonic acid dehydrogenase and protochlorophyll reductase. Also the availability of different nutrients in the soil changes significantly under the influence of environmental stress so that using of vermicompost can be useful in stress condition as well as Jasmonate. Jasmonate is the final oxidation product of unsaturated fatty acids such as linolenic acid, that is effective in increasing the activity of plant defense systems under environmental stress conditions such as lead stress. In order to study the effect of pb (0, 100, 200, 300, 400 mg kg-1 soil) and jasmonate (0, 50, 100, 150 mmol l-1) on Dracocephalum moldavica L. under controlled conditions in soil enriched with vermicompost and without vermicompost an experiment designed and it was done under greenhouse conditions. Materials and methods: This test was done in a random factorial design with 4 repeats and indices including CO2 assimilation rate, transpiration rate, stomatal conductance, water use efficiency(WUE), PSII photochemical efficiency (Fv/Fm), photosynthesis quantum performance, electron transfer rate (ETR), were measured in vegetative and reproductive growth stages. Results and discussion: In the conducted study, it was found that CO2 assimilation rate, water use efficienty, stomatal conductance and Fv/Fm were significantly decreased as lead concentration was increased. Also jasmonate treatment significantly increased CO2 assimilation rate, water use efficienty, stomatal conductance and Fv/Fm in lead stress condition. So that plant treated with 400 mg kg-1 soil pb and 0 mmol l-1 jasmonate showed the lowest CO2 assimilation rate, water use efficienty, stomatal conductance and Fv/Fm while plant treated with 0 mg kg-1 soil pb and 150 mmol l-1 jasmonate showed the highest CO2 assimilation rate, water use efficienty, stomatal conductance and Fv/Fm. transpiration rate was significantly increased as well as increasing pb concentration so that plant treated with 400 mg kg-1 soil pb showed the highest transpiration rate. Also jasmonate treatment significantly decreased transpiration rate in lead stress condition. Vermicompost increased CO2 assimilation rate, water use efficienty, electron transfer rate (ETR) and significantly decreased transpiration rate in lead stress condition. Jasmonate reduces the destructive effects caused by stress on photosynthetic indicators such as the amount of chlorophyll and carotenoids and also increases the performance of photosystem II and consequently increases plant photosynthesis under stress conditions. It has been reported that methyl jasmonate can maintain the concentration of chlorophyll in the reaction center, thereby improving the speed of electron transfer and increasing the efficiency of photosystem II. In addition, jasmonate can prevent the severe reduction of stomatal conductance under stress conditions and increase the quantum efficiency of photosynthesis. In the response of plants to stress, jasmonates act as genes encoding inhibitory proteins such as theonine, hydroxyproline and proline, and in general, by activating defense mechanisms, they help the plant in reducing the absorption and accumulation of heavy metals. Organic fertilizers can also improve plant performance under environmental stress conditions. Vermicompost fertilizer increases porosity, increases absorption and retention of nutrients, improves ventilation, drainage and microbial activity in the soil. Conclusion: Having nutritious mineral elements and plant growth hormones can improve plant growth in the presence of environmental pollutants such as heavy metals by influencing the physiological characteristics. It can be said based on the results obtained lead stress decreased photosynthesis index through effect on electron transport chain and photosynthetic pigments while jasmonate treatment and Soil enriched with vermicompost can reduce the destructive effects of lead stress. So that using of jasmonate and vermicompost in lead stress condition Recommended. [ABSTRACT FROM AUTHOR]

Published

2024

26. Influence and Mechanism of Fertilization and Irrigation of Heavy Metal Accumulation in Salinized Soils.

Author

Yu, Dandan, Miao, Qingfeng, Shi, Haibin, Feng, Zhuangzhuang, Feng, Weiying, Li, Zhen, and Gonçalves, José Manuel

Subjects

SUSTAINABLE agriculture, SOIL moisture, CROPS, SOIL salinity, COPPER, HEAVY metals

Abstract

The impact of fertilization and irrigation on heavy metal accumulation in saline–alkali soil and its underlying mechanisms are critical issues given the constraints that soil salinization places on agricultural development and crop quality. This study addressed these issues by investigating the effects of adjusting organic fertilizer types, proportions, and irrigation volumes on the physicochemical properties of lightly to moderately saline–alkali soils and analyzing the interaction mechanisms between microorganisms and heavy metals. The results indicate that the rational application of organic fertilizers combined with supplemental irrigation can mitigate soil salinity accumulation and water deficits, and reduce the soil pH, thereby enhancing soil oxidation, promoting nitrogen transformation and increasing nitrate–nitrogen levels. As the proportion of organic fertilizers increased, heavy metal residues, enrichment, and risk indices in the crop grains also increased. Compared to no irrigation, supplemental irrigation of 22 mm during the grain-filling stage increased soil surface Cd content, Zn content, and the potential ecological risk index (HRI) by 10.2%, 3.1%, and 8%, respectively, while simultaneously reducing the heavy metal content in grains by 12–13.5% and decreasing heavy metal enrichment. Principal component analysis revealed the primary factors influencing Cu and Zn residues and Cd accumulation in the crop grains. Soil salinity was significantly negatively correlated with soil pH, organic matter, total nitrogen, and ammonium nitrogen, whereas soil organic matter, total nitrogen, ammonium nitrogen, soil pH, oxidation–reduction potential, soluble nitrogen, and microbial biomass nitrogen were positively correlated. The accumulation and residues of Zn and Cu in the soil were more closely correlated with the soil properties compared to those of Cd. Specifically, Zn accumulation on the soil surface was primarily related to aliphatic organic functional groups, followed by soil salinity. Residual Zn in the crop grains was primarily associated with soil oxidation–reduction properties, followed by soil moisture content. The accumulation of Cu on the soil surface was mainly correlated with the microbial biomass carbon (MBC), whereas the residual Cu in the crop grains was primarily linked to the soil moisture content. These findings provide theoretical insights for improving saline–alkali soils and managing heavy metal contamination, with implications for sustainable agriculture and environmental protection. [ABSTRACT FROM AUTHOR]

Published

2024

27. Synthesis of Hydrogel Based on Poly (Acrylic Acid–Co‐Vinyl Acetate) Grafted on Modified Recycled Cellulose for Use in Fertilizer Slow‐Release System.

Author

Nazeri, Soheila, Najafi Moghadam, Peyman, and Tan, Songwei

Subjects

*WASTE paper, *ACRYLIC acid, *THERMOGRAVIMETRY, *CARBOXYMETHYLCELLULOSE, *SCANNING electron microscopes, *VINYL acetate

Abstract

The aim of this work is a synthesis of suitable hydrogel to produce slow‐release fertilizer using recycled cellulose which is obtained from waste paper. For this purpose, initially, we extracted alpha cellulose from waste paper and modified it to obtain carboxymethyl cellulose (CMC). Then, the CMC was converted to a suitable hydrogel through in situ graft copolymerization of acrylic acid and vinyl acetate in the presence of methylene bisacrylamide as a crosslinker. The various factors that affect hydrogel synthesis, such as the amounts of CMC, monomers, initiator, and crosslinker, were evaluated. In the optimized formulation, the weight ratio of monomers to CMC is 7, the molar ratio of monomers to each other is 1, and the crosslinker is used as 3 molar percent of monomers. The products were characterized using Fourier transform infrared, thermal gravimetric analysis, and scanning electron microscope analyses. The swelling behavior of the synthesized hydrogels was evaluated in different environments, such as distilled water, tap water, salt water, and different pH levels. The swelling ratio increases with an increase in pH level. Between the synthesized hydrogels, the best one was selected for slow‐release fertilizer production and loaded with 20‐20‐20 fertilizer (NPK), and the release behavior was evaluated. In an alkaline pH, there was a long time for NPK release within a slow‐release medium and even after 361 h, the release process was continued. Also, the performance of the fertilizer‐loaded hydrogel in soil using water holding capacity and water retention ratio tests were evaluated. [ABSTRACT FROM AUTHOR]

Published

2024

28. Irrigation During Flowering Is Critical for Enhancing Productivity and Economics of Late-Sown Indian Mustard Compared to other Management in the Arid Regions of Western India.

Author

Kumar, Pramod, Kumar, Suresh, Berkesia, Neelam, Kumar, Rohtas, Kumar, Sheilendra, Kalidas-Singh, Sagolshem, and Zhiipao, R. Rustum

Subjects

*BRASSICA juncea, *SEED yield, *ARID regions, *NUTRIENT uptake, *GLOBAL warming, *SOWING

Abstract

Global warming delays the harvest of kharif crops, which delay the subsequent sowing of Indian mustard, especially in northwestern India and also causes dry winters that exacerbate challenges for the timely sowing of rabi-crops. To check this, a field experiment was conducted during the Rabi-seasons of 2018–19 and 2019–20 to assess the influence of sowing dates, irrigation, and fertilizer levels under late-sown conditions. A split-plot design was used with two sowing dates, two irrigation levels and four fertilizer levels (87.5%, 100%, 112.5% and 125% RDF; Recommended-fertilizers-dose). Crop sown in the 4th week of November significantly reduced seed (46.79 and 38.77%) and stover yield (43.72 and 41.62%) as compared to the 2nd week of November sowing during 2018–19 and 2019–20, respectively. Uptake of NPK by seed and stover was higher with the 2nd week of November sowing. The 2nd week of November sowing resulted in significant increase in water productivity by 63.72% and Benefit cost ratio (B:C) by 75.45% over the 4th week of November sowing. Irrigation at flowering stage increased the seed yield, water productivity and B:C by 11.94%, 1.72% and 9.17%, respectively, as compared to No post-sown irrigation. The biological yield of the Indian mustard increased with every increase in fertilizer doses but the response was significant up to 112.5% RDF (90 kg N, 33.75 kg P2O5 and 22.5 kg K2O ha−1). Application of 112.5% RDF increased the seed, stover yield, water productivity and B:C by 16.17%, 9.29%, 15.66% and 11.27%, respectively, over 87.5% RDF. [ABSTRACT FROM AUTHOR]

Published

2024

29. Analysis of Wall Thickness and Absorption Characteristics of Ammonium Nitrate(V) from Various Sources.

Author

Biessikirski, Andrzej, Kaczmarczyk, Grzegorz Piotr, Kuterasiński, Łukasz, Machowski, Grzegorz, Stopkowicz, Agnieszka, and Ruggiero-Mikołajczyk, Małgorzata

Subjects

*AMMONIUM nitrate, *MANUFACTURING processes, *SURFACE area, *TOMOGRAPHY, *MERCURY

Abstract

This study investigates the wall thickness and specific surface area (SBET) of ammonium nitrate(V) samples of varying provenance. The research focuses on both fertilizer-grade ammonium nitrate(V) and three porous prill samples obtained from different manufacturers. The samples were analyzed using tomography scanning and two distinct porosimetry methods. The wall thickness analysis revealed that fertilizer-grade ammonium nitrate(V) possesses thicker walls, ranging from 0.05 to 0.40 mm, compared to porous prill-type ammonium nitrate(V), which predominantly exhibited wall thicknesses between 0.05 and 0.025 mm, with occasional thicker regions up to 0.040 mm. These variations in wall thickness are likely attributable to differences in manufacturing processes and prilling conditions specific to the ammonium nitrate(V) porous prill-type samples. The specific surface area (SBET), derived from nitrogen adsorption measurements, indicated that the samples exhibited surface areas ranging from 0.011 to 0.466 m2·g, suggesting that these samples do not exhibit particularly high absorption capacities. However, the SBET values obtained from the mercury intrusion method suggested significantly higher absorption capacities, falling within the range of 4.87–18.29 m2·g. These findings suggest that mercury porosimetry may provide a more accurate assessment of the porosity and absorption potential of ammonium nitrate(V) samples. [ABSTRACT FROM AUTHOR]

Published

2024

30. Effects of Long-Term Fertilizer Managements on Soil Organic Carbon Mineralization Under the Double-Cropping Rice System in Southern China.

Author

Tang, Haiming, Shi, Lihong, Wen, Li, Cheng, Kaikai, Li, Chao, Li, Weiyan, Guo, Yong, and Luo, Hanfang

Subjects

*SOIL management, *DOUBLE cropping, *MINERALIZATION, *FERTILIZERS, *CARBON in soils

Abstract

Soil organic carbon (SOC) plays an important role in maintaining or increasing soil fertility and quality in paddy field, but there is limited information about how SOC mineralization responds to different fertilizer managements under the double-cropping rice system in southern China. Therefore, this study was designed to explore changes in SOC content, soil enzyme activities, SOC mineralization at 0–10 cm and 10–20 cm layers, and its relationship with long-term fertilizer managements in a double-cropping rice system of southern China. The experiment included four fertilizer treatments: chemical fertilizer alone (CF), rice straw and chemical fertilizer (RS+F), 30% organic manure and 70% chemical fertilizer (OM+F), and without fertilizer input as a control (Con). These results showed that SOC and labile organic carbon contents at 0–10 cm and 10–20 cm layers in paddy field with RS+F and OM+F treatments were increased, compared to CF and Con treatments. Compared with Con treatment, SOC mineralization rate and accumulation with CF, RS+F, and OM+F treatments were increased. SOC accumulation and potential mineralization at 0–10 cm and 10–20 cm layers with RS+F and OM+F treatments were increased, compared with CF and Con treatments. SOC mineralization rate and accumulation at 0–10 cm layer with CF, RS+F, OM+F, and Con treatments were higher than that of 10–20 cm layer. These results indicated that soil invertase, cellulose and urease activities in paddy field with RS+F and OM+F treatments were significantly higher than that of CF and Con treatments. There was a significant positive relationship between SOC accumulation and SOC content, soil invertase, cellulose, urease activities but were significant negative correlated with soil pH, bulk density. As a result, these were beneficial practices for improving SOC content and SOC mineralization in a double-cropping rice field of southern China by combined application of rice residue or organic matter with chemical fertilizer managements. [ABSTRACT FROM AUTHOR]

Published

2024

31. Agronomy biofortification of wheat grain in a saline and calcareous soil.

Author

Jafarnejadi, Ali Reza and Meskini-Vishkaee, Fatemeh

Subjects

*CALCAREOUS soils, *SOIL salinity, *BIOFORTIFICATION, *IRON fertilizers, *LIMING of soils, *AGRONOMY, *WHEAT

Abstract

Agronomy biofortification is an important crop management strategy to enhance concentrations of micronutrients in edible portions. The availability of micronutrients for plant uptake is reduced by the high salinity, pH, and lime of soils. Hence, this study aimed to determine the most appropriate time and the best ratio of zinc (Zn) and iron (Fe) consumption during the wheat growth stages in a saline and calcareous soil. The experiment consisted of two factors with four levels; 0, 30, 60, and 120 kg Zn ha−1 as Zn0, Zn1, Zn2, and Zn3 respectively, and 0, 2.5, 5, and 7.5 kg Fe ha−1 as Fe0, Fe1, Fe2, and Fe3 respectively, in a randomized complete block design with four replications. The results showed that the interaction effects of Fe and Zn fertilizers application were significant on the wheat yield indices and concentration of Fe and Zn in wheat shoots and grain. The simultaneous application of 120 kg Zn ha−1 and 5 kg Fe ha−1 caused significant improvement (p < 0.05) in thousand kernel weight (9.1%) and subsequently grain yield (23.4%) compared to the control treatment. The Zn concentration in the wheat shoot during tillering (37.0–58.2 mg Zn kg−1) was higher than the other two growth stages (elongation (29.2–40.8 mg Zn kg−1) and booting (20.0–31.0 mg Zn kg−1)). While the highest Fe concentration in wheat shoots was observed at the stem elongation stage (98.5–268.8 mg Fe kg−1), then the booting stage (91.0–150.8 mg Fe kg−1) and finally the least absorption was at the tillering (80.0–120.0 mg Fe kg−1). Because of the high calcium carbonate, salinity and Zn- deficient soil of the experimental site, the Zn concentration in wheat grain was obtained in a range of 3 to 19 mg kg−1. The results clarified that the fertilizer application of 30 kg Zn ha−1 and 2.5 kg Fe ha−1 can be proportionally and simultaneously increased the concentration of Fe and Zn in wheat grain by 100%. Therefore, the soil application of 30 kg Zn and 2.5 kg Fe per hectare proposed for improvement in quantitative (619 kg ha−1 increase in wheat grain yield) and qualities (100% increase in grain Zn and Fe concentration and 8% increase in thousand kernel weight) indices of wheat yield in calcareous and saline soils. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Use of Secondary Metallurgy Slag as Soil Corrective in Agriculture: Approval of Their Application in Italy.

Author

Mombelli, Davide, Dall’Osto, Gianluca, Scolari, Sara, Mapelli, Carlo, Moreschi, Roberto, Marras, Roberto, and Morandi, Riccardo

Subjects

*SEWAGE sludge, *HEAVY metals, *TECHNICAL specifications, *CALCIUM aluminate, *RAW materials

Abstract

Among the steelmaking slag, secondary metallurgy slag (SMS) is the most problematic to be recycled. Several attempts to recover such slag as lime replacement, slag flux, pozzolanic materials have been made for long time with pros and cons. However, the amount of recyclable slag is limited and often their employment requires higher energy demand than traditional materials. Nevertheless, the use of SMS in agriculture is poorly or never considered. In this article, the legal and technical evaluation of SMS as raw material for fertilizers production is investigated. Compliance of technical specification, toxic metals concentration, and leaching behavior allows to confirm the technical feasibility of SMS use as a raw material for fertilizers manufacture. Both from the literature data and the experimental results on 16 industrial SMS samples, the requirements for calcium‐magnesium‐sulfur‐based fertilizers, soil correctives and for sanitizing agricultural sewage sludge, appear fully satisfied. The CaO concentration in SMS (35–60 wt%) is abundantly higher than the requirements (≥15 wt%) and CaO is present in most part as water‐soluble complexes such as calcium aluminates (70 wt%), silicates (10 wt%), and sulfide (4 wt%). The pH of the SMS samples leachate is comparable to that of fresh lime (12.35 vs 12.46), highlighting a better behavior for sewage sludge sanitation with respect to limestone (9.98). The measured toxic metals and leachate elements concentration over the corresponding admittable threshold are always lower than 0.5 and 1.0 (mg kg−1/mg kg−1) for liming materials. Finally, these results lead to officially approve the use of SMS as soil corrective according to the Italian Fertilizer Regulation. [ABSTRACT FROM AUTHOR]

Published

2024

33. Effects of Phosphorus Fertilizer, Poultry Manure Applications with Bacillus megaterium M-3 Inoculation on Yield and Yield Components of Common Vetch (Vicia sativa).

Author

Kaynar, Dilara and Çomaklı, Binali

Subjects

*BACILLUS megaterium, *POULTRY manure, *ORGANIC fertilizers, *PLANT growth, *SUSTAINABLE agriculture

Abstract

Phosphorus is considered one of the essential elements for legumes as it increases nitrogen fixation due to nodulation. Hence, for high productivity in legumes, it should be added as inorganic or organic fertilizer to soils containing insufficient phosphorus. Especially in recent years, using inorganic and organic fertilizers together has gained importance in terms of sustainable agriculture, considering plant growth and soil and environmental health together. The effects of three different doses of phosphorus fertilizer (0, 50, 100 kg P2O5 ha-1), and two different doses of poultry manure (0, 3 t ha-1) applications with two different doses (B0 or B1) of phosphorus solubilizing bacteria (Bacillus megaterium M-3) inoculation on hay yield and yield components of common vetch were examined in this study. In fact, while the highest hay yield and crude protein rate were obtained by bacterial inoculation together with phosphorus fertilizer application, the effect of poultry manure application on yield and yield parameters was variable. Instead, the applications had no significant effect on the number of main branches, ADF and NDF rates. Consequently, the application of 100 kg P2O5 ha-1 together with Bacillus megaterium inoculation can be recommended for high hay yield in common vetch under irrigated conditions in areas with poor or medium soils in terms of phosphorus. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Effect of Plant Growth Promoting Bacteria Strains on Yield and Some Quality Parameters of Eggplant (Solanum melongena L.).

Author

Aydın, Meltem and Dönmez, Mesude Figen

Subjects

*EGGPLANT, *PLANT growth, *PLANT propagation, *PLANT yields, *BIOFERTILIZERS

Abstract

This research was carried out under field conditions to determine the effect of PGPB on the yield and quality of Pulsar F1 eggplant variety under Igdir ecological conditions in 2021. The experiment was conducted with 8 treatments (Brevibacillus reuszeri strain IT 119, Kluyvera cyrocrescens strain IT 160, IT 119 + IT 160, IT 119 + Fertilizer, IT 160 + Fertilizer, IT 119 + IT 160 + Fertilizer, Fertilizer and Negative Control) with 3 replications according to the randomized block design. Bacterial strains were applied by inoculating 100 ml (106 cfu/ml) to the root zone of the plants during seedling stage. PGPB treatments increased total yield, discard yield, marketable yield, plant height, plant stem thickness, number of leaves, plant root wet weight, plant root dry weight, stem wet weight, stem dry weight, number of fruits per plant, fruit wet weight, fruit dry weight and root length compared to negative and positive control groups. The treatments had no effect on fruit diameter. Although both strains were found to be successful, especially Kluyvera cyrocrescens strain IT 160 alone and in combination showed positive effects in terms of the parameters examined in eggplant plants and has the potential to be used as biofertilizer. [ABSTRACT FROM AUTHOR]

Published

2024

35. Spruce and pine utilization of phosphorus in soil amended with 33P‐labelled hydroxylapatite.

Author

Rütting, Louise, Hofmann, Diana, Pütz, Thomas, Konrad‐Schmolke, Matthias, and Bol, Roland

Subjects

*PHOSPHATE fertilizers, *FORESTS & forestry, *LIQUID scintillation counting, *SPOIL banks, *FOREST soils

Abstract

Mined rock phosphate is expected to become a scarce resource within the next few decades as global phosphorus (P) deposits are declining. As a result, mineral P fertilizer will be less available and more expensive. Therefore, improved knowledge is needed on other P resources, for example, apatite fertilizers derived from the by‐products of iron mining. Forestry is a potential future consumer of apatite‐rich products with the aim of obtaining more wood per hectare. The actual P availability in apatite to plants has so far been barely quantified. We therefore examined tree P uptake using 33P apatite under chamber‐grown and outdoor conditions. We examined the P uptake for the two main conifer species spruce (Picea abies) and pine (Pinus sylvestris) used in Fenno‐Scandinavian forestry. We synthesized 33P‐enriched apatite and applied it to mesocosms with growing seedlings of spruce and pine. The P uptake from 33P‐labelled hydroxylapatite was subsequently traced by (bio)imaging of radioactivity in the plants and by liquid scintillation counting (LSC) upon destructive harvest in all plant fractions (leaves, stem and roots) and rhizosphere soil. Two climatic conditions were compared, one at natural outdoor conditions and one set as 5°C warmer than the climate record from the previous years. Plant P uptake from 33P‐labelled hydroxylapatite was enhanced in chamber‐grown compared with outdoor seedlings for both tree species. This uptake was manifested in the clear radioactive images obtained over ca. 1 month after soil apatite application. Furthermore, all aboveground plant fractions of both spruce and pine seedlings showed a higher P uptake in warmer than colder daytime environments. The observed quantities and rates of P uptake from 33P‐labelled hydroxylapatite by spruce (18 Bq g−1 hour−1) and pine (83 Bq g−1 hour−1; averages in chamber condition) are as to our knowledge unique observations. Natural forest soils in Sweden are often P‐poor. Our research suggests that apatite‐based P fertilization of spruce and pine forests can increase wood production by overcoming any existing P limitation. [ABSTRACT FROM AUTHOR]

Published

2024

36. The use of biofertilizer contribution to plant development and yield in greenhouse broccoli cultivation.

Author

Altuntaş, Özlem and Küçük, Rabia

Subjects

*BIOFERTILIZERS, *PLANT development, *PLANT growth, *FERTILIZATION (Biology), *MICROORGANISMS

Abstract

In this study, the effects of chemical fertilizers and fertilizers containing microorganisms on broccoli yield were examined. It is aimed to reduce the amount of chemical fertilizer by using microorganisms. Mundo F1 Broccoli variety was used as plant material. The research was established according to the randomized block trial design with 3 treatments and 3 replications, and 20 plants were used in each replication. Applications: 1. Control: 100% chemical fertilization (U1), 2. Treatment II: 70% chemical fertilization + Microorganisms (U2), 3. Treatment II: 100% chemical fertilization + Microorganisms (U3). The aim of the study is the effects of chemical fertilizers and microorganisms on plant growth and development; To examine the effect of plant height, stem diameter, number of leaves and yield. It was concluded that the number of leaves, plant height and stem diameter generally increased in the plots where microorganisms were applied. When the results were evaluated in terms of yield compared to the control treatment, U2 treatment increased yield by 20% and U1 treatment increased yield by 15%. [ABSTRACT FROM AUTHOR]

Published

2024

37. Response surface method Box-Behnken design-based optimization of organic fertilizer enrichment using bat guano.

Author

Erkmen, Jülide

Subjects

*SUSTAINABLE agriculture, *ORGANIC fertilizers, *SYNTHETIC fertilizers, *AGRICULTURAL pollution, *POLLUTION

Abstract

Agricultural environmental pollution needs to be reduced in our future. The biggest obstacles to preventing this situation are that agricultural inputs such as synthetic fertilizers increase product yield and scattered agricultural areas. This study involves the optimization of the production process of an easy-to-apply organic fertilizer with high nutritional value by subjecting bat guano, one of the valuable organic fertilizers, to anaerobic digestion together with cattle manure. Response surface method Box-Behnken design, a statistical model, was used for process optimization. The process input parameters were temperature, cattle manure, and bat manure, and the response value was considered as 2% total nitrogen. As a result of the optimization for a total nitrogen value of 2%, the optimum mixture ratio was determined as cattle manure 77.0448%, bat manure 12%, and temperature 40 °C. Analysis results showed that the addition of bat manure increased the N, P, K, and humic and fulvic acid values in the fertilizer. The study revealed that strong organic fertilizers can be used to increase the value of cattle manure organically. It also offers very promising results based on reducing agricultural pollution and ensuring agricultural sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effect of Nitrogen-15, Phosphorus-15, and Potassium-15 Fertilizer on Indigenous Microorganisms Involved in Biodegradation of Crude Oil Contaminated Soil Collected from Shawguwolo Jeddo Metropolis, Okpe L.G.A, Delta State, Nigeria.

Author

OKONKWO, H., NWAEZEAPU, A., ERHUEN, E., BUKAR, S., and SUMBIRI, W.

Abstract

The increasing occurrence of oil pollution presents a significant environmental challenge, necessitating effective remediation strategies. Hence, the objective of this paper was to evaluate the effect of Nitrogen-15, Phosphorus-15, and Potassium-15 fertilizer on indigenous microorganisms involved in biodegradation of crude oil contaminated soil collected from Shawguwolo Jeddo Metropolis, Okpe L. G. A, Delta State, Nigeria using appropriate standard methods. It was observed that the hydrocarbon reduced from 5315.80 to 2276.57 within four weeks. The highest rate was observed in sample C, which showed a 95.7% reduction in the hydrocarbon contamination. Sample C also showed a 34% increase in the hydrocarbon utilizing bacteria present in the soil. Bioremediation leverages microbial activity to degrade pollutants, offering a cost-effective approach compared to other technologies, as it speeds up the process of degrading hydrocarbon by increasing the growth rate of hydrocarbon utilizing bacteria. [ABSTRACT FROM AUTHOR]

Published

2024

39. Hemp (Cannabis salvia L.) Cultivation: Chemical Fertilizers or Organic Technologies, a Comprehensive Review.

Author

Ahmadi, Fatemeh, Kallinger, Daniel, Starzinger, August, and Lackner, Maximilian

Subjects

SUSTAINABILITY, ORGANIC fertilizers, HEMP industry, INDUSTRIAL minerals, NUTRIENT uptake

Abstract

Hemp (Cannabis sativa L.), renowned for its applications in environmental, industrial, and medicinal fields, is critically evaluated in this comprehensive review focusing on the impacts of chemical and organic fertilizers on its cultivation. As hemp re-emerges as a crop of economic significance, the choice between chemical and organic fertilization methods plays a crucial role in determining not only yield but also the quality and sustainability of production. This article examines the botanical characteristics of hemp, optimal growth conditions, and the essential biochemical processes for its cultivation. A detailed comparative analysis is provided, revealing that chemical fertilizers, while increasing yield by up to 20% compared to organic options, may compromise the concentration of key phytochemicals such as cannabidiol by approximately 10%, highlighting a trade-off between yield and product quality. The review presents quantitative assessments of nitrogen (N), phosphorus (P), and potassium (K) from both fertilizer types, noting that K significantly influences the synthesis of terpenes and cannabinoids, making it the most impactful element in the context of medicinal and aromatic hemp varieties. Optimal rates and timing of application for these nutrients are discussed, with a focus on maximizing efficiency during the flowering stage, where nutrient uptake directly correlates with cannabinoid production. Furthermore, the challenges associated with the U.S. industrial hemp market are addressed, noting that reducing production costs and improving processing infrastructure is essential for sustaining industry growth, especially given the slow expansion in fiber and cannabidiol markets due to processing bottlenecks. The review concludes that while chemical fertilizers may offer immediate agronomic benefits, transitioning towards organic practices is essential for long-term environmental sustainability and market viability. The future of the hemp industry, while promising, will depend heavily on advancements in genetic engineering, crop management strategies, and regulatory frameworks that better support sustainable cultivation practices. This nuanced approach is vital for the industry to navigate the complex trade-offs between productivity, environmental health, and economic viability in the global market. [ABSTRACT FROM AUTHOR]

Published

2024

40. Environmental risks and agronomic benefits of industrial sewage sludge-derived biochar.

Author

Frišták, Vladimír, Polt'áková, Lucia, Soja, Gerhard, Kaňková, Hana, Ondreičková, Katarína, Kupcová, Elena, and Pipíška, Martin

Subjects

AGRICULTURE, SEWAGE sludge, SEWAGE disposal plants, HEAVY metals, CARBON sequestration, VERMICOMPOSTING

Abstract

The main objective of the present work was to assess the ecotoxicological safety of the use of thermochemically treated sewage sludge from the wastewater treatment plant (WWTP) of a distillery plant as a soil additive in agricultural soils based on its physicochemical characteristics and the bioaccumulation of selected elements in the plant tissues of maize (Zea mays). We have carried out physicochemical characterization (pH, EC, Corg, Cinorg, CEC, N, H, ash content, PAHs) of sewage sludge feedstock (SS) and sludge-derived biochar (BC) produced by slow pyrolysis at a temperature of 400 °C. The effect of 1% (w/w) amendment of SS and BC on soil physicochemical properties (pH, EC, Cinorg), germination of ryegrass, soil rhizobacteria and microorganisms, as well as on the accumulation and translocation of selected elements in maize (Zea mays) was studied. The results show that pyrolysis treatment of distillery WWTP sludge at 400 °C increases pH (from 7.3 to 7.7), Corg(from 28.86% to 36.83%), N (from 6.19% to 7.53%), ash content (from 23.59% to 50.99%) and decreases EC (from 2.35 mS/cm to 1.06 mS/cm), CEC (from 118.66 cmol/kg to 55.66 cmol/kg), H (from 6.76% to 1.98%) and Σ18 PAHs content (from 4.03 mg/kg to 3.38 mg/kg). RFA analysis of SS and BC showed that pyrolysis treatment multiplies chromium (Cr) (2.2 times), nickel (Ni) (2.96 times), lead (Pb) (2.13 times), zinc (Zn) (2.79 times), iron (Fe) (1.26 times) in the obtained BC, but based on an ecotoxicological test with earthworms Eisenia fetida, we conclude that pyrolysis treatment reduced the amount of available forms of heavy metals in BC compared to SS. We demonstrated by a pot experiment with a maize that a 1% addition of BC increased soil pH, decreased EC and Cinorg and had no significant effect on heavy metal accumulation in plant tissues. According to the results of the three-level germination test, it also does not affect the germination of cress seeds (Lepidium sativum). There was a significant effect of 1% BC addition on soil microbial community, and we observed a decrease in total microbial biomass and an increase in fungal species variability in the soil. Based on these results, we conclude that BC represents a promising material that can serve as a soil additive and source of nutritionally important elements after optimization of the pyrolysis process. [ABSTRACT FROM AUTHOR]

Published

2024

41. Iowa's Annual Phosphorus Budget: Quantifying the Inputs and Outputs of Phosphorus Transport Processes.

Author

Anderson, Elliot, Schilling, Keith, Jones, Christopher, Weber, Larry, and Wolter, Calvin

Subjects

FERTILIZER application, BUDGET, SOIL surveys, AGRICULTURE, ESSENTIAL nutrients

Abstract

Phosphorus (P) plays an integral part in Iowa's economic and environmental activities through its role as an essential nutrient and waterborne pollutant. However, the amount of phosphorus transported through these activities has not been well quantified. This study estimates the annual mass of P entering and exiting Iowa's landscape from 1998 to 2022 through seven transport pathways. Four input pathways (fertilizer application, manure production, industrial sources, and human sources) and three output pathways (harvesting, livestock grazing, and stream export) were quantified using various agricultural, economic, and water quality datasets. We also estimated the total mass of P present in the top 0.61 m layer of Iowa's landscape using results from a statewide soil sampling survey. The harvest component was the largest, with annual values consistently above 200 million kg. This was followed by the fertilizer and manure components, with annual values near 100 million kg. The other components were much smaller; the mean grazing and stream export values were 15 and 19 million kg, respectively, and human and industrial sources were less than 4 million kg. Stream export was the most dynamic pathway, with the largest coefficient of variation (0.59). The net P budget (inputs–outputs) was negative in 20 of the 25 years assessed, indicating that Iowa typically runs a P deficit. A trend analysis revealed that the manure, human, industry, and harvesting components increased across the 1998–2022 period while the grazing component decreased. The mass of P in Iowa's top layer of soil was 81.5 billion kg—orders of magnitude larger than any individual budget component. This analysis provides a new perspective on P transport pathways in Iowa and may help inform policymakers as they make decisions on the many activities involving P. [ABSTRACT FROM AUTHOR]

Published

2024

42. 萃取/反萃恥电感耦合等离子体发射光谱(ICP-OES)法 测定肥料样品中铅、镉、汞、铠花弟、碑

Author

刘珂珂, 谢亚雄, 李果果, 张祥, and 董学亮

Subjects

INDUCTIVELY coupled plasma atomic emission spectrometry, FARM produce, COMPLEX ions, HEAVY metals, ACID solutions, IODINE

Abstract

Copyright of Chinese Journal of Inorganic Analytical Chemistry / Zhongguo Wuji Fenxi Huaxue is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. 微波消解■电感耦合等离子质谱(ICP-MS)法 测定肥料中8种重金属元素.

Author

杨凯, 欧阳燕, 文典, and 刘成文

Subjects

LEAD, COPPER, HEAVY elements, INDUCTIVELY coupled plasma mass spectrometry, BISMUTH, HEAVY metals

Abstract

Copyright of Chinese Journal of Inorganic Analytical Chemistry / Zhongguo Wuji Fenxi Huaxue is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

44. Performance and Evaluation of Slow-Release Fertilizer Encapsulated by Waterless Synthesized GO Sheets.

Author

Cheng, Hsuhui, He, Yishi, Xian, Yuxing, and Hao, Xiangying

Subjects

GRAPHENE oxide, X-ray diffraction, PLANT nutrients, ELECTRONIC structure, POLLUTION

Abstract

Slow-release fertilizer was developed by encapsulating NPK compound pellets with graphene oxide (GO) sheets employing a waterless synthesis technique. As-prepared GO sheets were characterized by XRD, Raman, XPS, FTIR, SEM, and EDS. The XRD patterns of the GO sheets indicate that the peak for the GO is observed at 2θ = 9.3°, and the peak (002) for graphite vanished. Moreover, a higher intensity ratio of the Raman ID/IG of the GO sheets than that of pristine graphite confirms the oxidation of the graphite. The FTIR and XPS analyses provided information on electronic structure, chemical structure, and oxygen-bonding neighbors. The SEM images indicated the GO sheet, whereby its morphology resembles a thin curtain or corrugated shape. The EDS spectrum of coated GO-F pellets revealed the distribution of C, O, N, P, and K elements in the synthesized materials. Afterwards, GO shell formation on fertilizer pellets greatly improved the slow-release characteristics of fertilizer, thus providing plants with their requisite nutrients and reducing environmental pollution. [ABSTRACT FROM AUTHOR]

Published

2024

45. The analysis of release and percolation rate of nutrients from regular and obsidian-based slow-release fertilizers.

Author

Dida, Eki Naidania, Solihin, Solihin, and Kurniadie, Denny

Subjects

SOIL percolation, ATOMIC absorption spectroscopy, SOIL absorption & adsorption, POTASSIUM phosphates, SCANNING electron microscopes

Abstract

Research on the observation of nutrient release rates from slow-release and regular fertilizers combined with the percolation rate in the soil is scarce. This work aims to observe potassium and phosphate release behavior from slow-release and regular fertilizer, followed by the percolation of that nutrient in the soil. The characteristics of the soil were analyzed using X-ray Diffraction (XRD), X-ray Fluorescence (XRF), and Scanning Electron Microscope (SEM). The concentration of potassium and phosphate in soil is analyzed using Atomic Absorption Spectroscopy (AAS) and Ultraviolet–Visible Spectroscopy (UV–Vis), respectively. The release rate of nutrients from slow-release fertilizer is 6 to 8 times slower than regular fertilizer. Meanwhile, the rate of nutrients released from slow-release and regular fertilizer followed by soil percolation matches the quadratic equation. Potassium adsorption on the soil surface is significantly higher than that of potassium. The negativity of soil polarity contributed to the high level of potassium adsorption on soil particle surfaces. The low phosphate adsorption capability of magnetite and the negativity of soil polarity contributed to the soil's low phosphate adsorption. [ABSTRACT FROM AUTHOR]

Published

2024

46. The Market for Low-Carbon-Intensity Ammonia.

Author

Wang, Haoying, Lin, Ning, and Arzumanyan, Mariam

Subjects

CARBON sequestration, HYDROGEN economy, NATURAL gas, VALUE chains, CARBON emissions

Abstract

As carbon capture and storage (CCS) technologies mature, the concept of a low-carbon or net-zero-carbon economy becomes more and more feasible. While many chemical and energy products do not contain carbon in their compounds, the upstream production process does. An added CCS module allows the removal of carbon emissions from the production process, which expands the value chain. This paper focuses on one of such commodities—low-carbon-intensity ammonia (LCIA). Even though ammonia is carbon-free in its final product, it is commonly made from natural gas, and the production process could generate significant carbon emissions. The idea of LCIA is to reduce the carbon footprint of the ammonia production process (e.g., blue ammonia) or eliminate carbon from the production process (e.g., green ammonia via electrolysis) so that the entire supply chain is decarbonized. The goal of this paper is two-fold. We first explore the US domestic market and the international market for LCIA. We then discuss relevant federal and local policies that could help grow markets for LCIA. The agricultural sector will be the center of the discussion, which consumes an estimated 70–90% of the global ammonia supply as fertilizers. The paper also examines other potential uses of LCIA, such as alternative fuels for decarbonizing agricultural machinery and transportation sectors. Finally, we argue that developing a comprehensive LCIA value chain, supported by dedicated policy measures and broad stakeholder engagement, is critical for materializing the potential of LCIA in contributing to a climate-resilient and sustainable economy. [ABSTRACT FROM AUTHOR]

Published

2024

47. Report from Lawrence Berkeley National Laboratory on the mechanisms of Actagro product - Proximus

Author

Brodie, Eoin

Subjects

Soil, Fertilizer, Microorganism, Nitrogen use efficiency, Agriculture, Nutrient loss, Nitrification, Semi-humic substance

Abstract

Under a collaborative research and development (CRADA) agreement, LBNL scientists investigated the effect of the semi-humic substance, Proximus, on nitrogen dynamics in two contrasting soils. We specifically tested four hypotheses that Proximus (1) binds ammonium and reduces nitrification; (2) does not bind ammonium but chemically inhibits nitrification; (3) stimulates microbial immobilization of N in biomass; (4) stimulates denitrification. We performed two primary experiments, one in the laboratory using a pure culture of a nitrifying bacterium, and one in a greenhouse setting testing the fate of nitrogen and response of microbial communities in soils with and without Proximus.Our findings can be summarized as follows:•Proximus does not chemically inhibit nitrification – this conclusion was reached by analysis of the response of Nitrosomonas europaea (ATCC 19718) to Proximus addition at field relevant concentrations, relative to the known nitrification inhibitor Nitropyrin. No inhibition of growth or ammonia oxidation to nitrite was observed at field relevant concentrations.•In soils with higher clay and silt content with relatively low N fertilizer application rates (100lbs/ac), the effect of Proximus on nitrogen concentrations and microbial communities was minimal. •In sandier soils with low organic matter and clay content and with relatively low N fertilizer application rates (100lbs/ac), Proximus aided delayed availability of inorganic nitrogen in the system. •Using a stable isotope tracer (15N) we observed differential effects of Proximus on N uptake by soil microbial biomass. In sandy soils, although Proximus slowed the release of NH4+ from fertilizer, Proximus did not have any significant effect on nitrogen assimilation by soil microbes. However, in more clay rich Iowa soils, while Proximus did not affect the magnitude or timing of total NH4+ or NO3- availability, it did reduce the availability of fertilizer N to soil microbes, delaying uptake into microbial biomass.•Proximus addition did not significantly affect overall microbial (bacterial, archaeal, fungal) community composition, although specific genera of bacteria and fungi were found to be enriched or repressed due to Proximus addition.•Over the 5 week observation period, Proximus did not stimulate any significant increase in denitrification relative to fertilizer alone. In summary, we see no evidence that Proximus inhibits nitrifiers or nitrification directly, nor does it stimulate more nitrogen loss through denitrification than fertilizer application alone. We do not find strong evidence for the direct role of microbial biomass stimulation as a Proximus mode of action. A consideration for future analyses and experimental design is the fertilization rate simulated in these experiments which may be considered low relative to more intensive agricultural practices. A study of dose dependence of Proximus application rate across soil types would also illuminate the importance of potential interactions with soil mineralogy. A further consideration is the interactions between plants and soil microorganisms not considered here. Root deposition of carbon enhances microbial growth and nutrient demand and we expect that Proximus impacts on the soil microbiome and nutrient retention would differ in the presence of growing plants.

Published

2023

48. Assessing the impact of tillage practices and nutrient levels on the growth and productivity of Ethopian mustard (Brassica carinata L.) - soybean (Glycine max (L.) Merr.) cropping system

Author

Shilpa Manhas, Janardan Singh, Sandeep Manuja, Ankit Saini, Raveena Kumawat, Pankaj Dahiya, Swati Mehta, Chinmaya Sahoo, Riya Johnson, Jos T. Puthur, and Mohammad Reza Fayezizadeh

Subjects

Farm yard manure, Fertilizer, Mustard (Brassica carinata L.), Mustard equivalent yield, Nitrogen, Soybean (Glycine max), Botany, QK1-989

Abstract

Abstract Background An importance of tillage, inorganic and organic nutrient sources in the mustard - soybean cropping system lies in their ability to enhance soil fertility, improve nutrient availability, optimize crop growth and yield, and promote sustainable agricultural practices. Any cropping system’s sustainability could be increased by implementing better management techniques like zero and reduced tillage with residue retention and better nutrient sources. Results A field experiment was conducted for four consecutive seasons (Winter 2019 to Rainy 2021) to compare the two enhanced management practices, zero and reduced tillage to conventional tillage across four levels of nutrient sources: 75 and 100% recommended dose of nitrogen through FYM and 75 and 100% recommended dose of fertilizers through urea, single super phosphate and muriate of potash in a two years experiment. Experiment results were evaluated in terms of nutrient status, profitability and productivity of Mustard-Soybean cropping system. The results show a substantial improvement in yield, nutrient status, and overall yield performance of mustard and soybean when using the full recommended dose of fertilizers combined with reduced tillage and mulching, compared to other treatment methods. The implementation of reduced tillage practices recorded significantly higher yield of mustard and soybean over conventional and zero tillage. Conclusion System productivity and profitability i.e. mustard equivalent yield, productivity, gross returns, net returns, profitability and B: C (benefit: cost) was found to be improved with reduced tillage and 100% recommended dose of fertilizer under reduced tillage practices. To enhance cropping system productivity in various sub-humid regions worldwide, farmers can adopt reduced tillage techniques combined with the full recommended dose of fertilizers (100% RDF).

Published

2024

49. Growth and Production of Two Job’s Tears Cultivars (Coix Lacrima Jobi-L.) at Various Doses of NPK Compound Fertilizer (16:16:16)

Author

Nugraha Ramadhan and Indra Dwipa

Subjects

job's tears, cultivar, fertilizer, Agriculture

Abstract

Indonesia has the potential to develop alternative food sources, one of the cereal crops that has the potential and prospects to be developed is job's tears (Coix lacrima-jobi L.). Efforts that can be made to increase job's tears production are variety selection, proper cultivation techniques, and favorable environmental conditions. Fertilization is one of the most important factors that need to be considered in plant cultivation techniques. This research was conducted in Padang city, West Sumatera. The research was factorial in the form of a complete random design. The job’s tears cultivars used in this riset were Pulut and Batu. The purpose of this study was to determine the effect of NPK fertilizer on growth and yields of two job’s tears cultivars. NPK fertilizer dosage treatment in this study consisted of : 0 kg/hectare, 100 kg/hectare, 200 kg/hectare, and 300 kg/hectare. The results showed that there was no interaction between NPK fertilizer and two job’s tears cultivars. Pulut showed the highest mean values on growth variables (plant height, leaf length, and stem diameter), but Batu showed the highest mean values on yield variables (seed weight / plant). While the best dose of NPK fertilizer to increase growth and yield is 300 kg/hectare.

Published

2024

50. ASSISTANCE AND TRAINING IN THE MAKING OF BIOFERTILIZER 'UNAIR' WITH LECTURE AND PRACTICE METHODS FOR FARMERS IN KEDUNGPRING VILLAGE, LAMONGAN, TO SUPPORT SUSTAINABLE AGRICULTURE

Author

Ni'matuzahroh, Agus Supriyanto, Moch. Affandi, and Indah Fahmiyah

Subjects

kedungpring, lamongan, farmers, sustainable agriculture, fertilizer, biofertilizer, Social sciences (General), H1-99

Abstract

Many farmers use chemical fertilizers to increase their agricultural productivity, including farmers in Kedungpring Village, Kedungpring Subdistrict, Lamongan Regency. However, it is currently difficult for farmers to meet their fertilizer needs due to the policy of limiting fertilizer subsidies, therefore farmers must have the independence to meet their fertilizer needs. Biofertilizers can be an alternative because they are easy to make by themselves, and are more environmentally friendly than chemical fertilizers. Assistance and training on biofertilizer production for farmers in Kedungpring Village, Lamongan is needed. The purpose of this community service activity is to increase the knowledge of farmers in Kedungpring Village, Lamongan about biological fertilizers, and have the ability to make biological fertilizers, so that they can meet their fertilizer needs. This activity begins with the coordination and planning stages of the activity, providing material on biofertilizers to increase farmers' knowledge of biofertilizers using the lecture method, assistance and training in making biofertilizers using the lecture and practice methods so that farmers have the ability to make biofertilizers, and monitoring and evaluation carried out by the follow-up method. Based on the community service activities carried out, farmers' knowledge about biofertilizers has increased, which is indicated by most farmers having a higher post-test score than the pre-test score, also farmers are able to make their own biofertilizers which are indicated by the color of cloudy brown fertilizer and the distinctive sour smell of fermentation. Through this Community Service activity, farmers in Kedungpring Village also received six bioreactors for making biological fertilizers. Through this whole series of activities, it is an effort to realize sustainable agriculture, and it is hoped that farmers in Kedungpring Village, Lamongan can meet their fertilizer needs independently.

Published

2024