Your search keyword '"Fertilizer"' showing total 15,038 results

1. Autonomous fertilizer mixer through the Internet of Things (IoT)

Author

Lee Seng Hua, Abdul Hadi Ishak, Mohamed Thariq Hameed Sultan, Sami Salama Hussen Hajjaj, Mohd Fazly Mail, and Kisheen Rao Gsangaya

Subjects

010302 applied physics, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, Process (engineering), 02 engineering and technology, General Medicine, Agricultural engineering, engineering.material, 021001 nanoscience & nanotechnology, 01 natural sciences, Automation, Work (electrical), Agriculture, 0103 physical sciences, engineering, Production (economics), Environmental science, Fertilizer, 0210 nano-technology, business, Internet of Things, Organic fertilizer

Abstract

Organic fertilizers have been used since the dawn of mankind to improve soil fertility and promote crop growth. However, the process of preparing organic fertilizers for use in agricultural activities is a labour-intensive and time-consuming procedure. Thus, in order to reduce labour costs and improve the efficiency of organic fertilizer preparation, automated organic fertilizer mixers were developed. For this research work, an improved organic fertilizer mixer based on the Internet of Things (IoT) technology capable of monitoring the status of fertilizer production remotely and providing updates and alerts to workers was developed. The aim of this work was to further reduce labour workload and costs, thus increasing efficiency of the organic fertilizer mixing process. In order to accommodate the IoT monitoring system, several modifications and design changes were carried out on the prototype of an automated organic fertilizer mixer. Tests conducted on the prototype unit showed that it performs as required. The IoT monitoring system successfully captures and uploads information on the weight of agricultural waste mixture in the storage drum to the IoT platform. This information can then be used to alert workers on when to add more agricultural waste material to the mixture or remove the processed organic fertilizer. Furthermore, an overall operational cost comparison of different organic fertilizer production methods showed that the automated organic fertilizer prototype provides operational cost savings of over 5 times when compared to current automated systems. Future work includes further automation to the agricultural waste filling and organic fertilizer removal process.

Published

2023

2. Economic-Environmental Management of Sugar Beet Fertilizer by Using Statistical Quality Control Technique.

Author

Karim, M. H., Ebrahimi, M., and Abbasian, M.

Subjects

SUGAR beets, CROP yields & the environment, FERTILIZER analysis, ENVIRONMENTAL protection, SOIL salinity, PLANT growth

Abstract

Sugar Beet as a source of human nourishment contains about 30% of sugar consumption in the world. On the other hand, problems encountered in providing human food as well as environmental pollution caused by unbridled human interference in the normal process of nature have created serious anxiety among scholars and concerned organizations. Therefore, efforts to increase production along with improving the quality of strategic products, provided that the environment is protected and not polluted, is the only fundamental solution to this global problem. In conservative agriculture, using fertilizer for increasing sugar beet production must be planned on the bases of economic beneficiary and environmental conservation. Considering the robust growth of sugar beet in saline soils and low-quality land, it is imperative to conduct studies in this respect. Unaware of the fact that compliance with the principles of operation and maintenance of fertilizing soil quality can be significantly raised the yield of sugar beet. Since Fasa region is one of the leading sugar beet production regions in Iran, it was chosen as the statistical population example. The purpose of this study is to provide guidelines for optimal use of fertilizers to sugar beet using MINITAB software and quality control charts. For this purpose, 80 samples were recorded from the fields of excavation and their OC, K, and P were tested. Results were quantified. The paper is concluded with some practical strategy suggestions. [ABSTRACT FROM AUTHOR]

Published

2020

3. Impacts of residential fertilizer ordinances on Florida lacustrine water quality

Author

E. Fay Belshe, Diego Aviles, Samuel Smidt, and Alexander J. Reisinger

Subjects

Environmental protection, engineering, Environmental science, Fertilizer, Water quality, engineering.material, Aquatic Science, Oceanography

Published

2022

4. Effect of crop rotation and cropping history on net nitrogen mineralization dynamics of a clay loam soil

Author

Jingyi Li, Alex L. Woodley, Xueming Yang, Craig F. Drury, and Bin Zhang

Subjects

Soil nitrogen, fungi, food and beverages, Soil Science, Mineralization (soil science), Crop rotation, engineering.material, Agronomy, Loam, Soil water, engineering, Environmental science, Fertilizer, Nitrogen cycle, Cropping

Abstract

Estimating soil nitrogen (N) mineralization is critical to balance fertilizer N requirements and their environmental impacts. In this study, net N mineralization was examined in soils under different crop rotations with each phase of the rotation present every year with biologically based incubations in 2011 and 2015. Net N mineralization was significantly different among treatments when the current crop was soybean, and the effect was dependent upon the previous crop and the cropping sequence. In particular, net increases in inorganic N were greater when the previous crop was winter wheat with or without red clover than if it were corn, and greater for the first year of soybean compared with the second year for rotations with two consecutive years of soybean in the 2011 incubation. However, cropping history did not influence net soil N mineralization when the current crop was corn, winter wheat, or winter wheat with red clover. In 2015, the presence of red clover in the rotation increased net N mineralization in all phases of the rotation. These results suggest both current and previous crops should be considered when estimating the N supplying capacity (net mineralization) of the soil. Net mineralizable N was found to be significantly correlated with total amino sugars (P

Published

2022

5. Irrigated crop rotation and phosphorus fertilizer-manure addition impacts on soil water repellency of a clay loam soil in southern Alberta

Author

Jim J. Miller, Xueming Yang, David S. Chanasyk, Miss Mallory Owen, Ben Ellert, and Craig F. Drury

Subjects

Crop, Irrigation, Agronomy, Loam, Soil water, engineering, Soil Science, Environmental science, Fertilizer, engineering.material, Crop rotation, Phosphorus fertilizer, Manure

Abstract

Soil water repellency (SWR) was measured for a 28 yr field study under irrigation on a clay loam Dark Brown soil in southern Alberta. The objectives were to study the effect of legume–cereal crop rotations, feedlot manure, and phosphorus (P) fertilizer application on soil hydrophobicity (SH) and soil water repellency index (RI) under irrigation. Mean SH and RI were similar (P > 0.05) for a legume–cereal and cereal rotation and were unaffected by P fertilization. However, P fertilization shifted the RI classification from slight to subcritical. In contrast, SH was significantly greater for manured than nonmanured treatments, while RI was unaffected. Soil organic carbon (SOC) concentration was significantly (P ≤ 0.05) correlated with SH (r = 0.74), but not with RI (r = −0.17). This suggested a closer association between the quantity of SOC and quantity of hydrophobic compounds (SH method) compared with the hydrophobic coatings inhibiting infiltration of water (RI method). No significant correlation between SH and RI (r = −0.09) suggests that SH is not a good predictor of SWR using the RI method. Overall, manure application increased SH and P fertilization shifted the RI classification from slight to subcritical. In contrast, legume–cereal rotations had no influence on SH and SWR using RI method compared with continuous cereal.

Published

2022

6. An overview on the preparation of rice husk biochar, factors affecting its properties, and its agriculture application

Author

Keeren Sundara Rajoo, Arifin Abdu, Che Fauziah Ishak, Farrah Melissa Muharam, Dzarifah Zulperi, Prakash B. Nagabovanalli, Daljit Singh Karam, and Zamri Rosli

Subjects

business.industry, Amendment, food and beverages, engineering.material, Husk, Nutrient, Agronomy, Agriculture, Biochar, engineering, Environmental science, Fertilizer, Arable land, Soil fertility, General Agricultural and Biological Sciences, business

Abstract

In rice-producing countries, the abundance of rice residue must be sustainably managed to avoid environmental problems. Moreover, repeated usage of inorganic fertilizers has caused rapid soil deterioration in these arable lands. Converting rice husk residue into rice husk biochar (RHB) and reapplying it back to paddy fields as a soil amendment can be a sustainable approach in rice production. Due to its adsorptive capability, nutrient retention capacity and high silica content, RHB can improve soil fertility and improving the effectiveness of fertilizer when mixed together due to its nutrient retention capacity and high silica content. High silica content in rice husk biochar provides better nutrient retention, turgidity, and structure for plant. The objectives of this review article are to compile studies related to rice husk biochar properties and factors affecting it and application of rice husk biochar in Asian agriculture.

Published

2022

7. Organic manure input and straw cover improved the community structure of nitrogen cycle function microorganism driven by water erosion

Author

Qingwen Zhang, Liu Xingren, Yulong Shi, Zheng Li, Xuekai Jing, and Chang Shi

Subjects

Erosion control, 0208 environmental biotechnology, Soil Science, Soil chemistry, 04 agricultural and veterinary sciences, 02 engineering and technology, engineering.material, Straw, Manure, 020801 environmental engineering, Microbial population biology, Agronomy, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Fertilizer, Surface runoff, Agronomy and Crop Science, Nitrogen cycle, Nature and Landscape Conservation, Water Science and Technology

Abstract

Water erosion process induces differences to the nitrogen (N) functional microbial community structure, which is the driving force to key N processes at soil-water interface. However, how the soil N transformations associated with water erosion is affected by microorganisms, and how the microbial respond, are still unclear. The objective of this study is to investigate the changes of microbial diversity and community structure of the N-cycle function microorganisms as affected by water erosion under application of organic manure and straw cover. On the basis of iso-nitrogen substitution, four treatments were set up: 1) only chemical fertilizer with N 150 kg ha−1, P2O5 60 kg ha−1 and K2O 90 kg ha−1 (CK); the N was substituted 20% by 2) organic manure (OM); 3) straw (SW); and 4) organic manure + straw (1:1) (OMSW). The results showed that applying organic manure and straw to sloping farmland can increase soil N contents, but reduce runoff depth, Kw, sediment yield and N loss, especially in the OMSW. Straw cover and straw + organic manure increased the diversity (Chao1) of nitrifier (AOB), and both diversity and uniformity (Shannon) of denitrifier (nirK/S) were increased in the OMSW. All erosion control measures reduced N-fixing bacteria diversity and increased their uniformity, and the combined application of organic manure and straw cover was a better erosion control measure than the single application of them. Improved soil chemistry and erodibility were the main drives for the changes of N-functional microbial community structure and the appearance of dominant bacteria with different organic materials.

Published

2022

8. From inert gas to fertilizer, fuel and fine chemicals: N2 reduction and fixation

Author

Feipeng Yang, Artur Braun, Hongxin Wang, Jinghua Guo, Elisabeth Lettau, Lars Lauterbach, Stephen P. Cramer, and Debajeet K. Bora

Subjects

Energy carrier, chemistry.chemical_element, Context (language use), 02 engineering and technology, General Chemistry, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Nitrogen, Catalysis, 0104 chemical sciences, Ammonia production, Ammonia, chemistry.chemical_compound, chemistry, Scientific method, Nitrogen fixation, engineering, Environmental science, Biochemical engineering, Fertilizer, 0210 nano-technology

Abstract

The 100th anniversary of a leading nitrogen fixation technology developer like CASALE SA is a reason to reflect over the 20th century successful solution of the problem of world food supply, and to look out for solutions for sustainable developments with respect to ammonia production. We review the role of nitrogen as essential chemical constituent in photosynthesis and biology, and component of ammonia as it is used as fertilizer for primary production by photosynthesis for farming and food supply and its future role as energy carrier. While novel synthesis methods and very advanced synchrotron based x-ray analytical techniques are being developed, we feel it is important to refer to the historical and economical context of nitrogen. The breaking of the N N triple bond remains a fundamental chemical and energetic problem in this context. We review the electrochemical ammonia synthesis as an energetically and environmentally benign method. Two relatively novel X-ray spectroscopy methods, which are relevant for the molecular understanding of the catalysts and biocatalysts, i.e. soft X-ray absorption spectroscopy and nuclear resonant vibration spectroscopy are presented. We illustrate the perceived reality in fertilizer usage on the field, and fertilizer production in the factory complex with photos and thus provide a contrast to the academic view of the molecular process of ammonia function and production.

Published

2022

9. Ammonia volatilization from manure mixed with biochar

Author

Joann K. Whalen, Barry Husk, Chih-Yu Hung, and Naseer Hussain

Subjects

Volatilisation, Liquid manure, Soil Science, Environmental pollution, engineering.material, Ammonia volatilization from urea, Manure, Ammonia, chemistry.chemical_compound, chemistry, Environmental chemistry, Biochar, engineering, Environmental science, Fertilizer

Abstract

Ammonia (NH3) volatilization from NH3-based fertilizer and animal manure reduces their nitrogen (N) fertilizer value and is a source of environmental pollution. Mixing manure with biochar may lower NH3 volatilization from manure by adding H+, adsorbing mineral N, or increasing N immobilization in microbial biomass. The objective of this study was to determine whether wood-based biochar could lower NH3 volatilization from vented pails containing manure (liquid swine, dairy slurry, and solid poultry manure) or a urea ammonium nitrate solution (UAN). Two types of wood-based biochar (BlueLeaf and Dynamotive) were mixed with three types of manure and UAN fertilizer solution at 0, 2.5, 5, 10, and 25% biochar by volume in vented pails. After 21 d storage in an outdoor shaded area, the greatest NH3 volatilization was from poultry manure, which had pH 9.4 on average and low water content regardless of the biochar source and application rate. There was less NH3 volatilization from UAN fertilizer solution when mixed with 25% (v/v) of Dynamotive biochar compared with NH3 volatilization from UAN fertilizer solution mixed with 0%–10% (%) of Dynamotive biochar, probably because pH decreased from 7.0 to 6.4 after 21 d contact. Mixing wood-based biochar with manure had no impact on NH3 volatilization, suggesting that these biochar sources did not appreciably change the pH and N dynamics in stored manure after 21 d.

Published

2022

10. Soybean and soil responses to biochar amendment in controlled environments with elevated temperature and carbon dioxide

Author

Maren Oelbermann, Mae Galo, and Runshan W. Jiang

Subjects

Plant growth, Amendment, Soil Science, chemistry.chemical_element, engineering.material, Nitrogen, Nutrient, chemistry, Agronomy, Biochar, engineering, Environmental science, Fertilizer, Poultry manure, Carbon

Abstract

Warmer atmospheric temperatures (eT) will increase plant nutrient uptake, and elevated atmospheric CO2 (eCO2) is expected to enhance plant growth, whereas a multicomponent eTeCO2 effect should also be beneficial for agroecosystems. Our goal was to understand if single- (eT, eCO2) or multicomponent (eTeCO2) climate effects, predicted for southern Ontario, Canada, will affect soybean and soil properties differently when soil is amended with manure and biochar (MB) or with manure, nitrogen (N) fertilizer, and biochar (MNB) compared with the addition of manure and N fertilizer (MN). We hypothesized that biochar regulates climate effects and causes soybean and soil properties to be similar to ambient climate conditions than soil without biochar. However, soil amended with biochar functioned independently of single- or multicomponent climate effects. Soybean pod and shoot biomass, shoot height, and shoot:root ratio were greater (p 2 increased (p 4+ and NO3−), and the C/N ratio but increased (p

Published

2022

11. Impact of manure and biochar additions on annual crop growth, nutrient uptake, and fate of 15N-labelled fertilizer in two contrasting temperate prairie soils after four years

Author

R.D. Hangs, J.D. Knight, and Jeff J. Schoenau

Subjects

Phosphorus, Soil Science, chemistry.chemical_element, 04 agricultural and veterinary sciences, 010501 environmental sciences, engineering.material, 01 natural sciences, Nitrogen, Manure, Nutrient, Agronomy, chemistry, Soil water, Biochar, 040103 agronomy & agriculture, Temperate climate, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Fertilizer, 0105 earth and related environmental sciences

Abstract

Liquid hog manure (LHM) and solid cattle manure (SCM) co-applied with biochar could beneficially influence soil nitrogen (N) and phosphorus (P) dynamics. A split-plot design was used at two sites (Brown and Black) in Saskatchewan to assess LHM and SCM (100 kg N·ha−1) applied alone or in combination with biochars (8 Mg carbon·ha−1) produced using slow or fast pyrolysis. Crop growth and nutrient uptake, along with fertilizer 15N recovery, were followed over four years in a cereal–oilseed rotation. Crop growth on the Brown soil was more responsive to the treatments than the Black soil, reflecting lower fertility of the Brown soil. The manure and biochar, applied alone or in combination, had little impact on available soil P. Manure and biochar effects on crop growth and nutrient uptake were attributed to temporal effects on soil N immobilization–mineralization influencing plant-available soil N. A negative impact of the fast pyrolysis biochar on growth and plant uptake was observed and attributable to its greater labile-carbon content, which likely promoted soil N immobilization. Synergism observed between SCM and the slow pyrolysis biochar may reflect enhanced net SCM-N mineralization and increased water-holding capacity. The majority (55%–80%) of plant 15N recovery occurred during the first year, with 86% of fertilizer 15N conserved within the soil–plant system after four years. Greater (40%) plant 15N recovery without biochar addition, coupled with increased (38%) soil 15N recovery with added biochar, suggests biochar-related immobilization and (or) sorption in the biochar-amended soils.

Published

2022

12. Tomato growth, yield, and quality response to mixed chemical–organic fertilizers and grafting treatments in a high tunnel environment

Author

Fairuz Buajaila, Carol A. Miles, Lynne Carpenter-Boggs, Jeremy S. Cowan, and Debra Ann Inglis

Subjects

0106 biological sciences, Plant Science, Horticulture, engineering.material, 01 natural sciences, Crop, chemistry.chemical_compound, Yield (wine), biology, fungi, food and beverages, 04 agricultural and veterinary sciences, biology.organism_classification, Grafting, Lycopene, chemistry, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Fertilizer, Poultry manure, Solanum, Rootstock, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Tomato (Solanum lycopersicum L.) is a major vegetable crop world-wide and grown in high tunnels in many regions. This study investigates the use of two fertilizer sources, chemical and integrated (composted poultry manure plus urea) fertilizers, and grafting on growth, nitrate-N content, yield, and fruit quality of tomato grown in high tunnels in northwestern Washington. Grafting treatments consisted of ‘Panzer’ tomato grafted on one of three tomato rootstocks ‘Estamino’, Maxifort’, ‘DRO138TX’, or non-grafted (control). Application of chemical fertilizer increased number of leaves per plant, plant height, and cumulative fresh biomass of pruned suckers relative to tomato plants grown with the integrated fertilizer treatment. Grafted tomato plants had greater plant growth than non-grafted plants throughout the growing season. There was no significant difference between fertilizer treatments on nitrate-N concentration in plant tissue or fresh petiole sap; however, grafted plants contained higher levels of nitrate-N than non-grafted plants. Total and marketable fruit weight and number did not differ due to fertilizer source, but total and marketable fruit weight was higher for grafted plants than for non-grafted plants in 2016. There was no significant effect due to fertilizer source on fruit firmness, water content, pH, titratable acidity, and β-carotene; however, total soluble solids (TSS) and lycopene content were higher for fruit grown with integrated fertilizer in 2016. Grafting enhanced water content of tomato fruit in 2015, and TSS (°Brix) in 2016.

Published

2022

13. Rice-crayfish coculture delivers more nutrition at a lower environmental cost

Author

David Styles, Yang Che, Xiang Peng, Jun Hou, Hui Gao, Hong-Cheng Zhang, Zhi-peng Xing, Halun Guo, Zhi Dou, and Qiang Xu

Subjects

Environmental Engineering, Renewable Energy, Sustainability and the Environment, business.industry, musculoskeletal, neural, and ocular physiology, food and beverages, engineering.material, Crayfish, Industrial and Manufacturing Engineering, nervous system, Agronomy, Productivity (ecology), Aquaculture, Agriculture, engineering, Environmental Chemistry, Environmental science, Fertilizer, Arable land, Monoculture, business, Hectare

Abstract

A growing demand for food products from limited arable land has meant that paddy fields have been developed to provide both grain and aquatic products. China has the world's largest aquaculture area of crayfish, of which ∼86% is in the form of rice-crayfish coculture. Here, we use a life cycle assessment to evaluate and compare the environmental impacts of three farming systems: rice monoculture, crayfish monoculture, and rice-crayfish coculture. Two functional units were used: one hectare of land occupied, and one Nutrient Density Unit (NDU) – i.e., the combined nutrition delivered in rice and/or crayfish products. Rice-crayfish coculture has a larger environmental footprint than rice monoculture per hectare occupied across at least 7 of the 8 impact categories studied, though performs better than crayfish monoculture. However, rice-crayfish coculture yields 1.12 to 2.21 times more nutrition per hectare than rice monoculture and crayfish monoculture, respectively. Hence, rice-crayfish coculture was found to have lower impact per NDU across all 8 impact categories studied, compared with the monoculture systems. Application of urea, crayfish feed inputs, and electricity consumption dominated most environmental burdens for rice-crayfish coculture, while field emissions (e.g., CH4 and NH3) strongly influenced global warming potential, terrestrial acidification potential and freshwater eutrophication potential, respectively. Environmental burdens of rice-crayfish coculture could be further reduced by increasing productivity per hectare and/or improving fertilizer and feed use efficiency. Shifting from rice- and crayfish-monoculture to rice-crayfish coculture could deliver more nutrition at a lower environmental cost, as well as increasing farm profitability by 7−462%.

Published

2022

14. Evaluation of electrochemically precipitated struvite as a fertilizer‐phosphorus source in flood‐irrigated rice

Author

Niyi S. Omidire, Kristofor R. Brye, Trenton L. Roberts, Laszlo Kekedy‐Nagy, Lauren Greenlee, Edward E. Gbur, and Leandro A. Mozzoni

Subjects

chemistry.chemical_compound, Flood myth, chemistry, Agronomy, Struvite, Nutrient management, Phosphorus, engineering, Environmental science, chemistry.chemical_element, Fertilizer, engineering.material, Agronomy and Crop Science

Published

2021

15. Influence of crested wheatgrass on soil water repellency in comparison to native grass mix and annual spring wheat cropping

Author

Craig F. Drury, B.J. Ellert, Jim J. Miller, M.L. Owen, David S. Chanasyk, Walter D. Willms, and X. M. Yang

Subjects

geography, geography.geographical_feature_category, biology, food and beverages, Soil Science, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, engineering.material, biology.organism_classification, 01 natural sciences, Soil quality, Agropyron cristatum, Agronomy, Spring (hydrology), Soil water, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Fertilizer, Cropping, 0105 earth and related environmental sciences

Abstract

Crested wheatgrass (CWG) [Agropyron cristatum (L.) Gaertn.] is a commonly introduced grass in the Canadian prairies, but concerns remain about its possible long-term effects on soil quality, and its influence on soil water repellency (SWR) has not been determined. The long-term (24 yr) effects of CWG on SWR in comparison to seeded native grasses and annual cropping were determined for a clay loam soil in southern Alberta, Canada by measuring SOC concentration and SWR using soil hydrophobicity (SH) and soil water repellency index (RI) methods. The cropping treatments were CWG, seeded native grass mix (NGM), continuous wheat, and wheat–fallow rotation, each with fertilized (nitrogen) and non-fertilized subplots, replicated four times. Mean SOC concentration, SH, and RI in samples of surface soil were similar (P > 0.05) for CWG and seeded NGM, and they did not support our hypothesis (seeded NGM > CWG). Mean SOC was significantly greater for seeded perennial grasses than annual crops by 1.7–2 times and SH by 2.1–2.5 times, which supported our hypothesis, but RI was similar among treatments. As expected, nitrogen fertilization significantly increased SOC concentrations, but the effects on SH and RI were undetectable. A strong positive correlation occurred between SOC concentration and SH (r = 0.92) but not for RI (r = 0.10). Our findings suggested that SWR was similar for CWG and seeded NGM. The SWR as measured using SH was greater for seeded perennial grasses than annual cropping but was similar using RI.

Published

2021

16. Opportunities to reduce nitrous oxide emissions from horticultural production systems in Canada

Author

Khagendra Raj Baral, Laura L. Van Eerd, Inderjot Chahal, Kate A. Congreves, and Claudia Wagner-Riddle

Subjects

business.industry, Plant Science, Nitrous oxide, Horticulture, engineering.material, chemistry.chemical_compound, chemistry, Agriculture, Environmental protection, Greenhouse gas, High nitrogen, engineering, Temperate climate, Environmental science, Production (economics), Fertilizer, business, Agronomy and Crop Science

Abstract

Horticultural systems, specifically vegetable production systems, are considered intensive agricultural systems as they are characterized by high nitrogen (N) fertilizer application rate, frequent tillage, and irrigation operations. Accordingly, horticultural production in temperate climates is prone to N losses — mainly during post-harvest (during fall and winter) or pre-plant (spring) periods — such as N2O emissions and nitrate leaching. The risk for N losses is linked to low crop N use efficiency (NUE) combined with a narrow C:N and high N content of crop residues. Here we reviewed the studies conducted in Canada and similar climates to better understand the risk of N2O emission and potential agronomic management strategies to reduce N2O emissions from horticultural systems. Current knowledge on N2O emissions from horticultural systems indicate that increasing crop NUE, modifying the amount, type, time, and rate of N fertilizer inputs, and adopting cover crops in crop rotations are some of the effective approaches to decrease N2O emissions. However, there is uncertainty related to the efficiency of the existing N2O mitigation strategies due to the complex interactions between the factors (soil characteristics, type of plant species, climatic conditions, and soil microbial activity) responsible for N2O production from soil. Little research on N2O emissions from Canadian horticultural systems limits our ability to understand and manage the soil N2O production processes to mitigate the risk of N2O emissions. Thus, continuing to expand this line of research will help to advance the sustainability of Canadian horticultural cropping systems.

Published

2021

17. Groundwater contamination risks with manure-borne microorganisms under different land-application options

Author

M. G. Aziz, Tanvir Ahmed, Farhana Haque Ananna, Md. Ashrafuzzaman, Deen Islam, and M. G. Mostofa Amin

Subjects

TC401-506, Manure management, Irrigation, Lysimeter, Fresh manure, Ocean Engineering, Total Viable Count, engineering.material, Manure, Rice-maize rotation, River, lake, and water-supply engineering (General), Agronomy, engineering, Leaching, Paddy field, Environmental science, Fertilizer, Leaching (agriculture), Total viable count, Dry manure, Civil and Structural Engineering

Abstract

There is a huge potential for recycling animal manure in agricultural farms, but fecal microorganisms from land-applied animal manure can join shallow groundwater through leaching especially in alluvial formations. Thus, this study investigated the leaching rate of total viable count (TVC) below a 1.1-m soil depth in a field lysimeter planted with rice–maize–rice rotation, where the rotation received different treatments, i.e., chemical fertilizer, dry manure, fresh manure, alternate wetting and drying (AWD) irrigation, and traditional irrigation. Leachate samples of six major irrigation/rainfall events were collected and analyzed for TVC concentration. In the Aman rice season, manure application had a significantly higher TVC leaching (5.5 × 106 colony forming units (CFU) per milliliter) than the no-manure treatment (8.2 × 104 CFU/mL). In the maize season, manure application increased more than one log-scale of TVC leaching concentration. A higher concentration of TVC leaching (3 × 105 CFU/mL) was observed even after 93 d of fresh manure application. The fresh manure had a higher TVC load, and it possibly helped microorganisms survive longer by providing a more manure-like environment in the soil. In the Boro rice season, manure application increased the TVC leaching up to 3–4 log-scale compared with the control treatment. The AWD irrigation increased TVC leaching compared with the continuous irrigation because the desiccation fractures developed in the AWD irrigation helped TVC bypass the organic-rich topsoil. The Boro rice fields had higher TVC leaching than the maize fields with higher manure doses. The study suggests that there is scope to improve manure management to protect the groundwater quality.

Published

2021

18. Arsenic as a contaminant of struvite when recovering phosphorus from phosphogypsum wastewater

Author

Horák Miroslav, Koziskova Jarmila, Híc Pavel, and Balík Josef

Subjects

Reducing agent, General Chemical Engineering, Phosphorus, chemistry.chemical_element, Phosphogypsum, General Chemistry, engineering.material, Pulp and paper industry, Ascorbic acid, chemistry.chemical_compound, chemistry, Wastewater, Struvite, engineering, Environmental science, Fertilizer, Arsenic

Abstract

Background Phosphogypsum is a waste product from production of phosphorus and is stored in a containment pond. Phosphogypsum wastewater still contains a usable amount of phosphorus. In addition to phosphorus, this water contains a small amount of arsenic, which prevents direct use of this water in agriculture. Method Recycling of phosphorus from phosphogypsum wastewater was performed by struvite (NH4MgPO4•6H2O), precipitation. Arsenostruvite (NH4MgAsO4•6H2O) has always occurred naturally in the presence of struvite. The properties of arsenostruvite in comparison with struvite were monitored. The effect of selected reductants (SnCl2, ascorbic acid, K2S2O5) on the potential of reducing the concentration of As in the struvite crystallized from phosphogypsum wastewater, was monitored. Findings When recovering phosphorus from phosphogypsum wastewater in the form of struvite the results showed that a ratio of As to P was lower by 50% compared to the original wastewater. K2S2O5 proved to be the most effective reducing agent for reducing the arsenic content of the product, but it was still not sufficient for the product to be used as a fertilizer without any further treatment.

Published

2021

19. Soil fertility status for potato production in the central highlands of Malawi

Author

Rintaro Kinoshita, Jiwan P. Palta, Masayuki Tani, Chandiona Munthali, and Daigo Aiuchi

Subjects

Regosol, Amendment, engineering.material, Soil type, complex mixtures, Manure, Soil management, Nutrient, Agronomy, engineering, Environmental science, Fertilizer, Soil fertility, General Agricultural and Biological Sciences

Abstract

The potato is one of the most important food and cash crops in Malawi, but current yields are low and the fertilizer recommendations rely on outdated soil fertility information. To understand the influence of soil factors in limiting current potato production, the mineralogical and physicochemical soil characteristics of 26 farms in the central highlands of Malawi were evaluated. Cluster analysis with clay, crystalline iron oxide, and total carbon content revealed three clusters with two corresponding to Ferralsols and one to Regosols, which are known to exist in the area. In the three clusters, the soil was generally acidic with low exchangeable acidity and aluminium (Al; < 0.7 cmolc kg-1); thus, Al toxicity was not a concern because the soil solution Al would be very low to negatively affect plant growth. Inorganic nitrogen was adequate, while available phosphate and exchangeable potassium (K) were variable within each cluster. However, a deficiency in exchangeable calcium (Ca; < 3.6 cmolc kg-1) and magnesium (Mg; < 1.2 cmolc kg-1) indicated that low base cation concentration was the problem and the potential yield-limiting factor. Soil management, not soil type, appeared to determine soil nutrient conditions based on the current soil Ca and Mg deficiencies and variable K nutrient status. There is a need for updating the current fertilizer recommendations by incorporating K, Ca, and Mg and promoting soil amendment interventions using locally available animal manure and plant ash. Key words: acid soil; fertilizer; Ferralsols, Regosols, Solanum tuberosum L., aluminium toxicity, calcium; magnesium.

Published

2021

20. Sustained nutrient delivery system: A new perspective in bioremediation

Author

Chioma Blaise Chikere, Onyewuchi Akaranta, and Ehis-Eriakha Chioma Bertha

Subjects

Pollution, Waste management, media_common.quotation_subject, engineering.material, Controlled release, Industrial waste, Bioremediation, Nutrient, engineering, Environmental science, Fertilizer, Eutrophication, Organic fertilizer, media_common

Abstract

Crude oil induced pollution on soil environment is an increasing trend due to incessant accidental release of this component into the environment. Bioremediation which is considered the most effective clean-up tool is faced with the challenge of sustained nutrient delivery to enhance and sustain the activities of oleophilic microbes. Slow release fertilizer (SRF) is a purposely designed system that releases nutrients in synchrony with sequential needs of organisms hence they provide optimized nutrient use efficiency. This approach aids in mitigating challenges associated with the conventional fertilizer application such as eutrophication, soil hardening, increased fertilizer loss rate and other environmental devastation. Superabsorbent polymers are hydrophilic gels as they exhibit the ability of swelling and retaining water which supports its use in SRF production. Most SAP used in practice are synthetic and semi-synthetic polymers with high production cost and environmentally unfriendly properties. Natural based polymers such as guar gum, cellulose, chitosan, and starch are abundantly available from plant and other sources but most of these biopolymers have other application which may lead to scarcity for other uses. In most part of the world, enormous quantity of waste is generated which invariably causes pollution. World agro and industrial waste materials with little or no value is therefore recommended to be applied as SAP for SRF formulation. This review therefore provides insight on the potential use of controlled release fertilizer system as a useful tool in ensuring sustained nutrient delivery during bioremediation and also suggest more eco-safe and cost-effective approaches of SRF formulation. Key words: Hydrocarbons, encapsulation, degradation, organic fertilizer.

Published

2021

21. Soil fertility status, fertilizer application and nutrient balance in SNNPR, southern Ethiopia in contrasting agro-ecological zones of Ethiopia

Author

Abuye Francis, Haile Wassie, Haile Mitiku, and Hanna Befekadu

Subjects

Nutrient, Balance (accounting), Agroforestry, engineering, Environmental science, Fertilizer, engineering.material, Soil fertility, General Agricultural and Biological Sciences

Published

2021

22. Harvesting a Solid Fertilizer Directly from Fetid Air

Author

Keiko Noda, Koji Sakurai, Akira Takahashi, Tohru Kawamoto, and Kimitaka Minami

Subjects

Agronomy, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, engineering, Environmental Chemistry, Environmental science, General Chemistry, Fertilizer, engineering.material

Published

2021

23. Compilation of Black Soldier Fly Frass Analyses

Author

Daniel Gärttling and Hannes Schulz

Subjects

Nutrient cycle, business.industry, Frass, Soil Science, chemistry.chemical_element, Context (language use), Plant Science, engineering.material, Nitrogen, Nutrient, Agronomy, chemistry, Agriculture, engineering, Environmental science, Fertilizer, business, Agronomy and Crop Science, Organic fertilizer

Abstract

In the context of black soldier fly (BSF) rearing, often the residues from production — mainly faeces but also undigested substrate — are addressed as frass in a broader sense. As BSF production is expanding, the valorization of BSF frass as organic fertilizer is gaining importance. However, in contrast to established organic fertilizers, little is known on the properties and variation of this by-product, which is essential for assessing possible application purposes. To elaborate a first overview on this relatively new waste stream, BSF frass analyses from the literature and anonymized frass analyses enquired from BSF producers were compiled. For a possible agricultural use as a fertilizer, their nutrient patterns were assessed. With a balanced nitrogen:phosphorous pentoxide:potassium oxide (N:P2O5:K2O) ratio of 1:0.9:1.1, BSF frass can be characterized as a slightly alkaline (pH 7.5), nutrient-rich compound fertilizer, with the nutrient and especially the micronutrient contents showing high variation. The comparably high carbon-to-nitrogen ratio and low shares of ammonium nitrogen indicate a limited immediate nutrient release and point to possible applications of frass as a long-term fertilizer. The use of frass as an organic fertilizer as one element in a fertilization strategy is promising. By improving nutrient cycling back to the field, BSF frass can represent an important element of sustainable circular agriculture. However, more information on BSF feed and production systems needs to be combined with the nutrient analyses to better understand the variation in frass nutrient contents.

Published

2021

24. Biochar-Fertilizer Blends—a Valuable Soil Amendment for Asparagus Cultivation?

Author

Sebastian Meyer, Anne Meyer, Malin Pettersson Silvén, Daniel Fischer, and Erik Karltun

Subjects

biology, Agronomy, Biochar, Amendment, engineering, Soil Science, Environmental science, Asparagus, Plant Science, Fertilizer, engineering.material, biology.organism_classification, Agronomy and Crop Science

Published

2021

25. Performance of Pilot-scale Constructed Floating Wetlands in the Removal of Nutrients and Pesticides

Author

Helen Karasali, George Pavlidis, Georgios Bariamis, Ioanna Zotou, Ioannis Nalbantis, Anna Marousopoulou, and Vassilios A. Tsihrintzis

Subjects

geography, geography.geographical_feature_category, biology, Agrochemical, business.industry, Hyacinth, Agricultural pollution, Wetland, engineering.material, Pesticide, biology.organism_classification, Toxicology, Nutrient, Aquatic plant, engineering, Environmental science, Fertilizer, business, Water Science and Technology, Civil and Structural Engineering

Abstract

Aiming to evaluate the efficacy of constructed floating wetlands (CFW) in removing agrochemicals (nutrients and pesticides), a series of experiments were run continuously for a 16-week period in pilot-scale CFW systems to study the effect of two aquatic plant species (duckweed and water hyacinth) and climatic parameters. The CFW systems were loaded daily with agricultural polluted water containing a fertilizer and five pesticides, whose concentrations and removal efficiencies were measured in the experiments. Average nutrient and pesticide reductions varied from 27.4% to 83.6% and from 12.4% to 42.7%, respectively. The two plants performed almost equally well. High temperatures and increased solar radiation significantly contributed to increased removal performance. The results suggest the use of CFW systems as effective and low-cost agricultural pollution control technologies.

Published

2021

26. The effectiveness of fertilizer for sunflower on typical black soil of the Tambov region

Author

S.A. Erofeev, S.V. Vetrova, O.M. Ivanova, and M.R. Makarov

Subjects

Agronomy, engineering, Environmental science, Fertilizer, engineering.material, Sunflower

Abstract

Currently, sunflower is the main oil crop in the Tambov region. The most important task of modern agricultural production is the use of technologies that increase the yield and quality of field crops. Data on seed and oil yield of sunflower are very important when choosing different types of mineral fertilizers. In this regard, the purpose of our research was to study the effect of various doses, methods and terms of application of macro- and microfertilizers on yield, crop quality and oil yield of sunflower in a link of the 6-year crop rotation: fallow – winter wheat – corn (for grain) – barley – sunflower – spring wheat. The research was conducted at the Tambov Research Institute of Agriculture – a branch of the I.V. Michurin Federal Research Center, which is located in the Tambov region. On typical black soil, application of both traditional mineral fertilizers (N16P16K16) for plowing, and liquid mineral fertilizers (Megamix) during pre-sowing treatment and for plants treatment during vegetative period contributes to obtaining an additional seed and oil yields. For 2014–2020, the highest seed and oil yields were obtained in variant (5) with N30P30K30 for plowing + seed treatment with Megamix (2.0 l/t) and amounted to 2.84 t/ha and 1324 kg/ha, respectively. The fat content varied depending on the variant of the experiment. The maximum indicator of 53.6% was in the variant with the application of N30P30K30. But due to the lower seed yield, the oil yield amounted to 1.21 t/ha. All variants for seed and oil yields were superior to the control one (without fertilizers).

Published

2021

27. Sosialisasi Dan Pelatihan Pembuatan Pupuk Organik Cair Berbasis Limbah Tanaman Di Desa Ubung Kabupaten Lombok Tengah

Author

Rina Kurnianingsih, Sukiman Sukiman, Kurniasih Sukenti, and Nur Indah Julisaniah

Subjects

Toxicology, education.field_of_study, Continuous use, Population, engineering, Environmental science, Economic shortage, Community service, Fertilizer, engineering.material, education, Organic fertilizer

Abstract

Several problems related to the use of chemical fertilizers are fertilizer prices that continue to increase, in certain situations there is a shortage of fertilizers and continuous use can reduce the population of soil microorganisms. The purpose of this community service activity is to provide counseling and training on the manufacture of liquid organic fertilizer from plant waste using EM4 activator to the youth of Ubung Village, Jonggat District. The method of activity is lectures and practice of making liquid fertilizer, harvesting fertilizer products and packaging. The activity has been carried out in accordance with the plans and stages that have been set, and liquid fertilizer has been produced which is packaged in plastic bottles. The physical characteristics of the liquid fertilizer produced after 20 days of the fermentation process showed results that met the criteria as a good liquid organic fertilizer, namely temperature 28oC, pH 4, brownish yellow color and smelled of tape. Liquid fertilizer has been distributed to target residents and used as plant fertilizer. Through this activity, the youth of Ubung Village who are participants have succeeded in making liquid organic fertilizer based on plant waste and have applied it as fertilizer to their plants. Keywords: liquid fertilizer, plant waste, organic, EM4

Published

2021

28. Suitable chemical fertilizer reduction mitigates the water footprint of maize production: evidence from Northeast China

Author

Hongshi He, Yongcai Dang, Jianqin Wang, Chenchen Shang, Jingru Cheng, Bo Li, and Lijie Qin

Subjects

Health, Toxicology and Mutagenesis, Field experiment, Optimal treatment, General Medicine, engineering.material, Pollution, Water consumption, Human fertilization, Agronomy, Crop production, engineering, Water environment, Environmental Chemistry, Environmental science, Fertilizer, Water use

Abstract

Long-term excessive use of chemical fertilizer has led to water environmental degradation. Reducing chemical fertilizer use in crop production has become a consensus, and the effects of chemical fertilizer reduction on yield, water consumption and water environment urgently need to be explored. A field experiment including four fertilization treatments: normal fertilizer application (NFA), 15%, 30% and 45% fertilizer reduction (FR) was conducted and the water footprint (WF) was used as an indicator to explore how the chemical fertilizer reduction affected the maize WF. The results showed that the blue, green and total WFs of maize in the 45% FR and NFA treatments were larger than those in the 30% FR and 15% FR treatments in 2018 and 2019. The grey WFs of maize in the NFA treatment were the highest in 2018 and 2019, exhibiting a trend that the grey WFs in the NFA treatment >15% FR treatment >30% FR treatment >45% FR treatment in 2018 and those in the NFA treatment >45% FR treatment >30% FR treatment >15% FR treatment in 2019. The optimal treatment was the 15–30% FR compared with the current fertilization, in which the total WF of maize can be minimized and the maize yield can be maximized at the same time. Precipitation had a wide-ranging impact on the yield and WF of maize, especially the amount, intensity and interval of rainfall, which had an evident impact on the grey WF. This study is expected to provide a data foundation for reducing chemical fertilizer and improving water and fertilizer use efficiency in maize production.

Published

2021

29. Data‐driven estimates of fertilizer‐induced soil NH 3 , NO and N 2 O emissions from croplands in China and their climate change impacts

Author

Ruoya Ma, Shuqi Xiao, Jianwen Zou, Philippe Ciais, Shuwei Liu, Kai Yu, Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Jiangsu Agricultural Science and Technology Innovation Fund, JASTIF: JASTIF‐CX(21)3007, National Natural Science Foundation of China, NSFC: 42077080, Natural Science Foundation of Jiangsu Province for Distinguished Young Scholars: BK20200024, and This work was supported by the National Natural Science Foundation of China (42077080), Natural Science Foundation of Jiangsu Province for Distinguished Young Scholars (BK20200024), and Jiangsu Agriculture Science and Technology Innovation Fund [JASTIF‐CX(21)3007]. We are grateful to many researchers who measured soil NH, NO and NO fluxes and other target parameters. Their work is the basis of the present data integration and extrapolation. 3 2

Subjects

emission factor, Reactive nitrogen, [SDE.MCG]Environmental Sciences/Global Changes, Climate change, reactive nitrogen, engineering.material, nitrogen use efficiency, chemistry.chemical_compound, Environmental protection, Environmental Chemistry, General Environmental Science, Global and Planetary Change, Ecology, business.industry, Global warming, Nitrous oxide, fertilizer, Manure, climate change, chemistry, Agriculture, Soil water, engineering, Environmental science, Fertilizer, business

Abstract

International audience; Gaseous reactive nitrogen (Nr) emissions from agricultural soils to the atmosphere constitute an integral part of global N cycle, directly or indirectly causing climate change impacts. The extensive use of N fertilizer in crop production will compromise our efforts to reduce agricultural Nr emissions in China. A national inventory of fertilizer N-induced gaseous Nr emissions from croplands in China remains to be developed to reveal its role in shaping climate change. Here we present a data-driven estimate of fertilizer N-induced soil Nr emissions based on regional and crop-specific emission factors (EFs) compiled from 379 manipulative studies. In China, agricultural soil Nr emissions from the use of synthetic N fertilizer and manure in 2018 are estimated to be 3.81 and 0.73 Tg N yr−1, with a combined contribution of 23%, 20% and 15% to the global agricultural emission total of ammonia (NH3), nitrous oxide (N2O) and nitric oxide (NO), respectively. Over the past three decades, NH3 volatilization from croplands has experienced a shift from a rapid increase to a decline trend, whereas N2O and NO emissions always maintain a strong growth momentum due to a robust and continuous rise of EFs. Regionally, croplands in Central south (1.51 Tg N yr−1) and East (0.99 Tg N yr−1) of China exhibit as hotspots of soil Nr emissions. In terms of crop-specific emissions, rice, maize and vegetable show as three leading Nr emitters, together accounting for 61% of synthetic N fertilizer-induced Nr emissions from croplands. The global warming effect derived from cropland N2O emissions in China was found to dominate over the local cooling effects of NH3 and NO emissions. Our established regional and crop-specific EFs for gaseous Nr forms provide a new benchmark for constraining the IPCC Tier 1 default EF values. The spatio-temporal insight into soil Nr emission data from N fertilizer application in our estimate is expected to advance our efforts towards more accurate global or regional cropland Nr emission inventories and effective mitigation strategies.

Published

2021

30. Changes in biomass burning, wetland extent, or agriculture drive atmospheric NH3 trends in select African regions

Author

Enrico Dammers, Pierre-François Coheur, Jonathan E. Hickman, Lieven Clarisse, Courtney A. Di Vittorio, Susanne E. Bauer, Niels Andela, Corinne Galy-Lacaux, Money Ossohou, Kostas Tsigaridis, and Martin Van Damme

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, chemistry.chemical_element, Wetland, Structural basin, engineering.material, Atmospheric sciences, Nitrogen, Atmosphere, Deposition (aerosol physics), chemistry, Dry season, engineering, Environmental science, Ecosystem, Fertilizer

Abstract

Atmospheric ammonia (NH3) is a precursor to fine particulate matter and a source of nitrogen (N) deposition that can adversely affect ecosystem health. The main sources of NH3 – agriculture and biomass burning – are undergoing are or expected to undergo substantial changes in Africa. Although evidence of increasing NH3 over parts of Africa has been observed, the mechanisms behind these trends are not well understood. Here we use observations of atmospheric NH3 vertical column densities (VCDs) from the Infrared Atmospheric Sounding Interferometer (IASI) along with other satellite observations of the land surface and atmosphere to evaluate how NH3 concentrations have changed over Africa from 2008 through 2018, and what has caused those changes. In West Africa NH3 VCDs are observed to increase during the late dry season, with increases of over 6 % yr−1 in Nigeria during February and March (p

Published

2021

31. Appraisal of Soil Health Card Scheme on Change in Cultivation Practices of Sali Rice in Darrang District, Assam

Author

Lohita Rabha and Utpal Barman

Subjects

Soil health, Soil test, engineering, food and beverages, Environmental science, General Medicine, Fertilizer, Agricultural engineering, engineering.material, hormones, hormone substitutes, and hormone antagonists

Abstract

The study was conducted during 2017-18 to examine the changes observed in cultivation practices of Sali rice after receiving Soil Health Card (SHC) and for identifying the problems faced by respondents in utilising the SHC recommendations in Darrang district, Assam. A sample of 150 respondents was selected randomly by proportional allocation to size. The result showed that 74.66 per cent of the respondent did not apply the fertilizers as per SHC recommendation. For examining average change in terms of fertilizer application pattern, area and productivity of Sali rice intended for before and after getting SHC, no significant changes have been observed using student’s t-test at 5% level of significance. Increased in area under Sali rice was not significantly higher than before SHC was distributed. The distribution of SHC didn’t bring any changes in cultivation practices of sali rice during 2017-18 at Darrang district.Thus; the study has suggested providing extension support to farmers. Credit linkage through Kisan Credit Card will be helpful in increasing the production of rice and then market linkage may be established. For getting the better result it is necessary to link all the schemes with each other instead of implementing each scheme independently.

Published

2021

32. The potential importance of soil denitrification as a major N loss pathway in intensive greenhouse vegetable production systems

Author

Yiming Zhao, Li Wan, Klaus Butterbach-Bahl, Shan Lin, Gretchen M. Gettel, Haofeng Lv, and Waqas Qasim

Subjects

Fertigation, Topsoil, Denitrification, Soil Science, Plant Science, engineering.material, Straw, Agronomy, engineering, Soil horizon, Environmental science, Fertilizer, Leaching (agriculture), Subsoil

Abstract

Background About 30 % of vegetables in China are produced in intensively managed greenhouses comprising flood irrigation and extreme rates of nitrogen fertilizers. Little is known about denitrification N losses. Methods Soil denitrification rates were measured by the acetylene inhibition technique applied to anaerobically incubated soil samples. Four different greenhouse management systems were differentiated: Conventional flood irrigation and over-fertilization (CIF, 800 kg N ha−1, 460 mm); CIF plus straw incorporation (CIF+S, 889 kg N ha−1, 460 mm); Drip fertigation with reduced fertilizer application rates (DIF, 314 kg N ha−1, 190 mm); DIF plus straw incorporation (DIF+S, 403 kg N ha−1, 190 mm). Soil denitrification was measured on nine sampling dates during the growing season (Feb 2019-May 2019) for the top-/ subsoil (0 – 20/ 20- 40 cm) and on three sampling dates for deep soils (40-60/ 80-100 cm). Data was used to constrain N-input-output balances of the different vegetable production systems. Results Rates of denitrification were at least one magnitude higher in topsoil than in sub- and deep soils. Total seasonal denitrification N losses for the 0 – 40 cm soil layer ranged from 76 (DIF) to 422 kg N ha−1 (CIF+S). Straw addition stimulated soil denitrification in top- and subsoil, but not in deep soil layers. Integrating our denitrification data (0-100 cm) with additional data on N leaching, N2O emissions, plant N uptake, and NH3 volatilization showed, that on average 50 % of added N fertilizers are lost due to denitrification. Conclusions Denitrification is likely the dominant environmental N loss pathway in greenhouse vegetable production systems. Reducing irrigation and fertilizer application rates while incorporating straw in soils allows the reduction of accumulated nitrate.

Published

2021

33. Effect of amended soil using different fertilizer applications on phenology of Cassava in Edo State South-South Nigeria

Author

Olatunbosun Bada, Edeki Ahmansi, Cletus Jude Odighi, and Yahaya Olotu

Subjects

Agronomy, Phenology, engineering, Environmental science, Fertilizer, engineering.material

Abstract

Three experimental fertilization treatments of fertigation (FERT), Nitrogen-Phosphorus-Potassium (NPK), and poultry organic fertilizer (ORG) were applied on a cassava (TMS 30573) cultivation at the rate 300 kg/ha for NPK and ORG, while fertigation was injected at 1.5 litres/minutes. The results were compared with the control and unfertilized field using the same cassava cultivar. The results from the four treatments indicated that the cassava phenological development significantly responded to fertilizer applications. At 183-day after planting (DAP), the plant height under FERT was higher than NPK, OGR and CON by 19.0 cm, 60 cm and 80 cm. Conversely, under ORG, the leaf emergency (le) steady increased to 42 leaves at 183 DAP, whereas NPK reached peak (le) at 161 DAP and dropped to 41 at 183 DAP. Also, under the FERT and CON, le dropped to 38 and 33 leaves at 183 DAP. The rate of leaf death (ld) is significant at P

Published

2021

34. An assessment of physical properties and water holding capacity of soil under different fertilizer applications

Author

Adeniyi Afolabi Rodiya, Michael Okafor, Emmanuel Aleonolu Adoga, Daudua Aluyah Okodugha, and Samuel Olaiya

Subjects

engineering, Environmental engineering, Environmental science, Water holding capacity, Fertilizer, engineering.material

Abstract

This study was carried out at the Teaching and Research Farm of the Department of Agricultural and Bio-Environmental Engineering, School of Engineering, The Federal Polytechnic, Ado-Ekiti to evaluate the water holding capacities of soil under different fertilizers. The experiment was laid out in randomized complete block design (RCBD). The treatments: control, poultry waste, biochar and urea fertilizer replicated four times were incorporated into the soil and maize seed planted. Data collected were subjected to statistical analysis. Soil samples were analyzed for moisture contents, bulk densities, particle densities and water holding capacities. Maize yield was also analyzed. The result obtained showed a significant (p< 0.05) changes in maize yield for the different fertilizers. It also shows a non-significant (p

Published

2021

35. Optimization of the Structural Design of the Process of Fertilizer Mixing and Biomodification of Solid Mineral Fertilizers

Author

N.N. Gapeeva, V.I. Sidorkin, and M.A. Gaibaryan

Subjects

Mineral, Waste management, Scientific method, engineering, Environmental science, Fertilizer, engineering.material, Mixing (physics)

Abstract

A rational structural construction of the general process of fertilizer mixing and biomodification of solid mineral fertilizers is proposed. It covers all the process steps starting from the receipt of individual mixing components at the enterprise fertilizer mixing section through to the shipment of the finished biomodified fertilizer mixture to the finished product warehouse. The condition of synchronous operation of units and assemblies of a fertilizer mixing line is substantiated, where its maximum productivity, high mixing intensity and good quality of the mixture are achieved.

Published

2021

36. Soil Organic Matter Fractions and Enzymes Activities under No-tillage System: Effects of Organomineral and Mineral Fertilizer with Humic Substances

Author

Marcela Christovam Bertechini, Bruno de Oliveira Dias, Christiane Abreu Oliveira-Paiva, João De Deus Gomes Dos Santos-Júnior, Adriana Miranda de Santana Arauco, Jeander Caetano De Oliveira, Cassino Garcia Roque, Rafael Felippe Ratke, Alan Mario Zuffo, and Cícero Célio de Figueiredo

Subjects

Tillage, Mineral, Environmental chemistry, Soil organic matter, engineering, System effects, Soil Science, Environmental science, Fertilizer, engineering.material, Agronomy and Crop Science

Published

2021

37. Biosolids towards Back–To–Earth alternative concept (BEA) for environmental sustainability: a review

Author

Ramesh Poornima, K. Suganya, and Selvaraj Paul Sebastian

Subjects

Soil health, education.field_of_study, Biosolids, business.industry, Health, Toxicology and Mutagenesis, Population, General Medicine, engineering.material, Carbon sequestration, Pollution, Agriculture, Environmental protection, Sustainability, engineering, Environmental Chemistry, Environmental science, Sewage treatment, Fertilizer, business, education

Abstract

Biosolids are a nutrient-rich stable substance obtained during wastewater treatment process. With amplifying population and industrial development, upsurge of biosolid generation is also speculated. Biosolids are endowed with essential plant nutrient (macro- and micro-nutrients) which qualifies them to be used as soil amendment and in turn dwindles the use of chemical fertilizers. The characteristics of biosolid depends on the nature of the treatment process. In this regard, it would be possible to recycle certain nutrients from the agricultural use of biosolids and could be a sustainable solution to the management of this waste. Biosolids may therefore serve as a key tool for farm utilization. It improves the soil health through nutrient supply and promotes the plant growth. Furthermore, they are slow-release fertilizer and hence, restrains from groundwater contamination. This review, in a nutshell, unravels the influence of biosolids on land application, its effect on soil properties, agricultural and horticultural crops, environmental ramification of biosolids in restoring the degraded land and carbon sequestration.

Published

2021

38. Changes in the nutrient dynamics and microbiological properties of grape marc in a continuous-feeding vermicomposting system

Author

Hugo Martínez-Cordeiro, Jorge Domínguez, and María Gómez-Brandón

Subjects

biology, Earthworm, Eisenia andrei, Biomass, Environmental impact of agriculture, Nutrients, engineering.material, biology.organism_classification, Pulp and paper industry, Soil, Nutrient, engineering, Animals, Environmental science, Vitis, Fertilizer, Oligochaeta, Fertilizers, Waste Management and Disposal, Vermicompost, Winemaking

Abstract

Finding strategies to reuse and treat organic wastes is of utmost need. Biological processes offer the possibility to transform them into safer end products with benefits for both agriculture and the environment. Moreover, it represents an ecologically-sound and economically attractive alternative to landfill disposal and incineration. In this work, we evaluated the feasibility of vermicomposting to treat and process grape marc, the main solid by-product of the wine industry. The long-term changes in grape marc derived from both white and red winemaking processes were assessed throughout the process of vermicomposting from a physico-chemical and microbiological perspective. New layers of fresh marc were added sequentially in the presence and absence of earthworms (Eisenia andrei) forming an age gradient during a 42-week period. An optimal moisture level of 70% was maintained over the course of the process. The pH fell within weak-alkaline levels through the layerś profile and the electrical conductivity was between 200 and 300 µS cm−1, providing optimum conditions for earthworm growth. The mass loss caused by earthworm activity led to an increased content of macro- and micronutrients at the end of the trial. An overall decrease in microbial biomass and its activity, indicative of a stabilised material, was also recorded with depth of layer. Altogether, this points to vermicomposting as a suitable management system for processing grape marc with a dual purpose, that is fertilizer production and environment protection. This is especially relevant in the current attempts to reach a fully circular economy.

Published

2021

39. Energy and exergy efficiencies assessment for two Quinoa cultivars productions

Author

Rahim Ebrahimi, Mahdi Amiryousefi, and Mahmoud Reza Tadayon

Subjects

Exergy, Sajama, 020209 energy, 02 engineering and technology, engineering.material, Crop, Diesel fuel, 020401 chemical engineering, Energy and exergy utilization, Chemical fertilizers, Yield (wine), 0202 electrical engineering, electronic engineering, information engineering, Cultivar, 0204 chemical engineering, Grain yield, Titicaca, TK1-9971, General Energy, Agronomy, Bio-fertilizer, engineering, Exergy efficiency, Environmental science, Fertilizer, Ton, Electrical engineering. Electronics. Nuclear engineering

Abstract

In this study, the energy, exergy and yield is calculated for two cultivars of quinoa (Sajama and Titicaca) production. The result shows that the energy consumption, exergy consumption, energy efficiency, and exergy efficiency for producing quinoa are calculated to be 10,932.34 MJ/ton, 14,6940 MJ/ton, 141.32% and 15.9% in Sajama cultivar and 6,442.42 MJ/ton, 98,243.6 MJ/ton, 215.3% and 20.6% in Titicaca cultivar, respectively. The grain yield of Titicaca cultivar is higher, although its growth duration is less as compared to Sajama cultivar. The combined application of bio-fertilizer with chemical fertilizers give the highest growth duration, grain yield, 1000-seed weight, biological yield and harvest index, when compared with the sole application of fertilizer and no fertilizer. Nitrogen fertilizer consumes the highest amount of total energy inputs followed by irrigation water and diesel fuel for quinoa production. About 97.5% of total input exergy consumed in quinoa production is water irrigation. Thus, it is clear that decrease in the use of irrigation water decreases the environmental impact and increases sustainability and vice versa. In pursuit of sustainable agriculture goals, Titicaca cultivar could be introduced as advanced cultivar in saline and drought stressed fields as a crop with high potential yield and nutritional value.

Published

2021

40. Nitrous Oxide Emissions from Smallholders’ Cropping Systems in Sub-Saharan Africa

Author

Felix K. Ngetich, Joseph M. Macharia, Milka N. Kiboi, Collins M. Musafiri, Chris A. Shisanya, Elizabeth A. Okwuosa, Onesmus K. Ng'etich, Jeremiah M. Okeyo, and Shaankua E. Lemarpe

Subjects

Agriculture (General), Climate change, General Medicine, engineering.material, Ozone depletion, S1-972, Soil management, Environmental protection, Greenhouse gas, engineering, Environmental science, Fertilizer, Cropping, Agroecology, Productivity

Abstract

Increased concentration of atmospheric nitrous oxide (N2O), a potent greenhouse gas (GHG), is of great concern due to its impact on ozone layer depletion leading to climate change. Ozone layer depletion allows penetration of ultraviolet radiations, which are hazardous to human health. Climate change culminates in reduced food productivity. Limited empirical studies have been conducted in Sub-Saharan Africa (SSA) to quantify and understand the dynamics of soil N2O fluxes from smallholder cropping systems. The available literature on soil N2O fluxes in SSA is limited; hence, there is a pressing need to consolidate it to ease mitigation targeting and policy formulation initiatives. We reviewed the state of N2O emissions from selected cropping systems, drivers that significantly influence N2O emissions, and probable soil N2O emissions mitigation options from 30 studies in SSA cropping systems have been elucidated here. The review outcome indicates that coffee, tea, maize, and vegetables emit N2O ranging from 1 to 1.9, 0.4 to 3.9, 0.1 to 4.26, and 48 to 113.4 kg N2O-N ha-1 yr−1, respectively. The yield-scaled and N2O emissions factors ranged between 0.08 and 67 g N2O-N kg−1 and 0.01 and 4.1%, respectively, across cropping systems. Soil characteristics, farm management practices, and climatic and environmental conditions were significant drivers influencing N2O emissions across SSA cropping systems. We found that site-specific soil N2O emissions mitigation measures are required due to high variations in N2O drivers across SSA. We conclude that appropriate fertilizer and organic input management combined with improved soil management practices are potential approaches in N2O emissions mitigation in SSA. We recommend that (i) while formulating soil N2O emissions mitigation approaches, in SSA, policymakers should consider site-specific targeting approaches, and (ii) more empirical studies need to be conducted in diverse agroecological zones of SSA to qualify various mitigation options on N2O emissions, yield-scaled N2O emissions, and N2O emission factors which are essential in improving national and regional GHG inventories.

Published

2021

41. Prediction of Crop, Fertilizer and Disease Detection for Precision Agriculture

Author

Bharathi C

Subjects

Crop, Disease detection, engineering, Environmental science, Precision agriculture, Fertilizer, Agricultural engineering, engineering.material

Abstract

The main walk of life of our Country is Agriculture. More than 70 % of the population’s lives depend upon agriculture. It is also a great source of country’s economy. In order to make this filed more profitable for farmers proper crops have to be grown in their fields. The prevalent problem among the farmers is Crop choice depending upon the soil in their farmlands. Another challenge faced by farmers is choosing the right fertilisers for their crops, which plays a very important role in getting a good and profitable yield. There is another major problem which they have to give more attention is the pest control or the diseases to which the plants may limit their growth. The above listed problems may solved using the advanced techniques of Precision Agriculture and data mining. Precision Agriculture is modern technique which can be used for farming. The main objective of is to solve above problems using data mining techniques and build a decision system which would help farmers to choose right crops for their farm , fertiliser recommendation for the crops grown and also to help the farmers in detecting the diseases by using the infected leaf images.. Keywords: Precision Agriculture, Data Mining, Crop, fertilizer recommendation system, ML Algorithms

Published

2021

42. Improving the quality of superphosphate fertilizer resulting from the use of low-quality phosphate rock

Author

Atef Hemdan Ali, Mahmoud Mohammed Ahmed, Emad Alkatory, and Wafaa Mahmoud Abd-Elhamied

Subjects

media_common.quotation_subject, engineering.material, Phosphate, chemistry.chemical_compound, Agronomy, chemistry, Phosphorite, Illite, engineering, Environmental science, Quality (business), Fertilizer, Glauconite, media_common

Abstract

The aim of this paper is to improve the quality of superphosphate fertilizer resulting from the use of low quality phosphate rock by the use of additives as Illite clay, The use of Glauconite rock (green sand) and illite rock (green clay) in the abu tartur phosphate's region – new valley and mixing it with low quality phosphate rock (22%) for the production of fertilizers with higher quality and rich with the essential elements for plants (N, K) which aren't exist in low quality phosphate rock individually, an industrial sample test had been done and a mixed fertilizer had been produced (Elayte rock and low quality phosphate (22% ) as 1:1).

Published

2021

43. Phosphorous Fertilizer Recommendations Considering Single-point P Sorption Capacity and Soil P Test Extraction Efficiency

Author

VG White, PJ Raath, and Ailsa G. Hardie

Subjects

Extraction (chemistry), engineering, Soil Science, Environmental science, Sorption, Fertilizer, Single point, engineering.material, Pulp and paper industry, Agronomy and Crop Science

Published

2021

44. Early season root growth, soil aggregation and stratification of nutrients and soil properties after six annual treatments of fertilizer rates and seeding systems

Author

Kabal Singh Gill

Subjects

food.ingredient, Physiology, Stratification (vegetation), engineering.material, Tillage, food, Human fertilization, Nutrient, Agronomy, engineering, Environmental science, Soil properties, Seeding, Fertilizer, Canola, Agronomy and Crop Science

Abstract

Fertilizer application and tillage practices have been found to influence root growth and soil properties. The objectives of the current study were to assess the response of early season root growt...

Published

2021

45. Assessment of Groundwater Quality, Source Distribution of Fluoride and Nitrate, and Associate Human Health Risk in a Community in North-Eastern Ghana, Bolgatanga

Author

Charles Kofi Klutse, Maame Serwa Opare-Boafo, and Ebenezer Aquisman Asare

Subjects

Pollutant, engineering.material, Catalysis, Hazard quotient, chemistry.chemical_compound, Nitrate, chemistry, Chemistry (miscellaneous), Environmental chemistry, Groundwater pollution, engineering, Environmental Chemistry, Environmental science, Fertilizer, Water quality, Physical and Theoretical Chemistry, Fluoride, Groundwater

Abstract

Excessive concentrations of F−, NO3− and other chemicals in drinking water can have adverse human health effects. In this study, groundwater quality and potential source distribution of F− and NO3− in a community in north-eastern Ghana, Bolgatanga were evaluated. In addition, human health risk associated with the drinking of groundwater by the residents was assessed. Ion chromatography technique was used to determine F−, Cl−, NO3−, and SO42−, potentiometric titrimetric technique was applied to analyze HCO3−, and flame atomic absorption spectrophotometry was used to quantify K+ and Na+. EDTA titrimetric analysis was used for the analysis of Mg2+ and Ca2+. The quality of groundwater for drinking was evaluated by applying the entropy of water quality index (EWQI) and comparing the analyzed data values of different chemicals detected in the water samples to the recommended ranges of the world health organization (WHO). Evaluation of health risks associated with various age groups (infants, children, and adults) was achieved based on estimation of hazard quotient and hazard index. The results of EWQI showed that 72.00% of groundwater samples were of medium quality (i.e. grade 3) and convenient for drinking purposes upon simple treatment. The groundwater quality of nine (18.00%) and five (10.00%) sampled sites were poor and extremely poor, respectively, and they were regarded as unsafe for drinking (grades 4 and 5). Also, the results obtained revealed that F− and NO3− concentrations in groundwater samples were in the ranged of 0.18–1.83 and 2.06–81.30 mg/L, respectively. Six out of fifty samples have high F− levels exceeding the permissible limits (1.5 mg/L), while 26 samples have high NO3− levels surpassing the recommended limits for drinking purposes according to WHO (10 mg/L). Human activities such as fertilizer application on farmlands, sewage discharge, etc. are the factors influencing enrichment of NO3− contamination. The fundamental source of F− in the groundwater is the dissolution of fluorite. Correlation coefficients obtained for F− and NO3− with other chemicals have further substantiated the sources of pollutants in the groundwater of the studied area. Generally, the three age categories are vulnerable to F− and NO3− contaminants in drinking groundwater of the sampled sites. The order of vulnerability is as follows: adults > children > infants. The results of the hazard index obtained suggested that all the samples are likely to pose negative health effects on children and adults. However, the proportions are relatively smaller for infants (36%). The results of this study indicate that immediate action needs to be taken to reduce groundwater pollution of F− and NO3− in the studied area.

Published

2021

46. Improved gridded ammonia emission inventory in China

Author

Baojie Li, Pinya Wang, Teng Wang, Hong Liao, Jianbing Jin, Yang Yang, Weishou Shen, and Lei Chen

Subjects

Mainland China, Atmospheric Science, Physics, QC1-999, Biodiversity, engineering.material, Atmospheric sciences, Atmosphere, Chemistry, Atmospheric chemistry, engineering, Environmental science, Spatial variability, Fertilizer, Emission inventory, China, QD1-999

Abstract

As a major alkaline gas in the atmosphere, NH3 significantly impacts atmospheric chemistry, ecological environment, and biodiversity. Gridded NH3 emission inventories can significantly affect the accuracy of model concentrations and play a crucial role in the refinement of mitigation strategies. However, several uncertainties are still associated with existing NH3 emission inventories in China. Therefore, in this study, we focused on improving fertilizer-application-related NH3 emission inventories. We comprehensively evaluated the dates and times of fertilizer application to the major crops that are cultivated in China, improved the spatial allocation methods for NH3 emissions from croplands with different rice types, and established a gridded NH3 emission inventory for mainland China with a resolution of 5 min × 5 min in 2016. The results showed that the atmospheric NH3 emissions in mainland China amounted to 12.11 Tg, with livestock waste (44.8 %) and fertilizer application (38.6 %) being the two main NH3 emission sources in China. Obvious spatial variability in NH3 emissions was also identified, and high emissions were predominantly concentrated in North China. Further, NH3 emissions tended to be high in summer and low in winter, and the ratio for the July–January period was 3.08. Furthermore, maize and rice fertilization in summer was primarily responsible for the increase in NH3 emissions in China, and the evaluation of the spatial and temporal accuracy of the NH3 emission inventory established in this study using the WRF-Chem and ground-station- and satellite-based observations showed that it was more accurate than other inventories.

Published

2021

47. Investigating effects of deficit irrigation levels and fertilizer rates on water use efficiency and productivity based on field observations and modeling approaches

Author

Muhammad Rizwan Shoukat, Abid Sarwar, Muhammad Jehanzeb Masud Cheema, Muhammad Shafeeque, and Kashif Mehmood

Subjects

Field (physics), Deficit irrigation, engineering, Environmental science, Agricultural engineering, Fertilizer, Water-use efficiency, engineering.material, Productivity

Abstract

Investigating the effects of optimized fertilizer and irrigation levels on water use efficiency and productivity of wheat crop at small farms is of great importance for precise and sustainable agriculture in Pakistan's irrigated areas. However, traditional farmer practices for wheat production are inefficient and unsustainable. This study aimed to investigate the effects of deficit irrigation and nitrophos fertilizer levels on bread wheat grain yield, yield parameters, nutrient use and water use efficiencies in bed planting wheat compared to traditional farmers' practices in the flat sowing method. The two-year field experiment followed a randomized complete block design of three replications, taking three irrigation treatments according to the requirement of crop estimated by CROPWAT model (100% of ETC), deficit irrigation (80% of ETC), and deficit irrigation 60% of ETC and three nitrophos fertilizer treatments (farmer practice 120 kg N ha-1, optimized 96 kg N ha-1, and 84 kg N ha-1) at different growth stages. Crop ETC was calculated using the FAO CROPWAT 8.0 model from the last ten years (2003-2013) average climate data of the experimental station. The traditional farmer practice treatment was included as a control treatment with a flat sowing method compared with other sown-by-bed planter treatments. All treatments were provided with an equivalent amount of fertilizer at the basal dose. Before the first and second irrigation, top-dressing fertilizer was used in traditional farmers' treatment at the third leaf and tillering stages. It was applied in optimized treatments before the first, second, and third irrigation at the third leaf, tillering and shooting stages, respectively, under the bed planting method. The deficit level of irrigation (80% of ETc) and optimized fertilizer (96 kg N ha-1) showed the optimum grain yield, nutrient use, and water use efficiencies, with 20% reduced irrigation water and fertilizer levels than traditional farming practice. The results suggest that bread wheat should be irrigated with 80% of ETC and applied 96 kg N ha-1 nitrophos fertilizer at the third leaf, tillering, and shooting stages to achieve higher grain yield and water and nutrient use efficiencies under bed planting.

Published

2021

48. Growth characteristics, carbon and nitrogen storage, and yield of Lanzhou lily (Lilium davidii var. unicolor) in response to fertilizer application level and planting density

Author

Hailian Wei, Yang Qiu, Lihua Zhang, Jie Li, Zhang Yubao, Wang Yajun, Cuiping Hua, and Xie Zhongkui

Subjects

Yield (engineering), biology, Sowing, chemistry.chemical_element, Horticulture, engineering.material, biology.organism_classification, Nitrogen, chemistry, Lilium davidii, engineering, Environmental science, Fertilizer, Carbon

Published

2021

49. Truth and False-carbon Dioxide Mitigation Technologies

Author

Muhammad Imran Rashid

Subjects

Temporary storage, Flue gas, Waste management, Carbonation, Global warming, General Medicine, engineering.material, Coal fired, Atmosphere, chemistry.chemical_compound, chemistry, Carbon dioxide, engineering, Environmental science, Fertilizer

Abstract

Research progress is required to be enhanced for those storage technologies which store CO2 fast and permanently. However, temporary storage technologies importance cannot be denied to immediately reduce global warming and reduce higher CO2 concentration in the atmosphere. Continuous CO2 storage facilities, semi-batch and batch pilot plants deemed necessary to build for future survival of the earth planet. Membranes can be used to separate CO2 from common flue gases followed by mineral carbonation to convert CO2 into stable carbonates. Modifications in cement industry, coal fired power plants, fertilizer industries and other chemical process industries appears essential.

Published

2021

50. Effects of a new compost-chemical fertilizer mixture on CO₂ and N₂O production and plant growth in a Chernozem and an Andosol

Author

Magdolna Tállai, Imre Vágó, Shigeto Sudo, Miwa Matsushima, Kazuyuki Inubushi, Makiba Sato, Andrea Balláné Kovács, and János Kátai

Subjects

Plant growth, Plant science, Agronomy, Compost, engineering, Soil Science, Environmental science, Plant Science, Fertilizer, engineering.material, Chernozem, Andosol

Published

2021