Ammonia volatilization with swine slurry injection and use of nitrification inhibitor

Luiz Paulo Rauber; Andréia Patrícia Andrade; Walter Santos Borges Júnior; Álvaro Luiz Mafra; Ariane Andreola; Luciano Colpo Gatiboni

doi:10.1590/0034-737x201764030012

Ammonia volatilization with swine slurry injection and use of nitrification inhibitor

Revista CERES ◽

10.1590/0034-737x201764030012 ◽

2017 ◽

Vol 64 (3) ◽

pp. 307-314 ◽

Cited By ~ 3

Author(s):

Luiz Paulo Rauber ◽

Andréia Patrícia Andrade ◽

Walter Santos Borges Júnior ◽

Álvaro Luiz Mafra ◽

Ariane Andreola ◽

...

Keyword(s):

Ammonia Volatilization ◽

Nitrogen Loss ◽

Nitrification Inhibitor ◽

Nitrogen Sources ◽

Fertilizer Application ◽

N Losses ◽

Swine Slurry ◽

Randomized Design ◽

Ph Conditions ◽

And Control

ABSTRACT The injection of nitrogen sources into the soil and use of nitrification inhibitor can improve the efficiency of applied nitrogen and minimize losses to the environment. The objective of this study was to evaluate the effect of swine slurry (SS) and urea in two modes of application in the soil (injected and surface), and the use of nitrification inhibitor on NH3 volatilization in a controlled environment, upon varying soil texture and soil pH conditions. The experiment was conducted under controlled conditions, or a Rhodic Kandiudox and Typic Hapludult soil in a completely randomized design in a 4 x 2 x 2 x 2 factorial design with three replications. The study evaluated four fertilizers (urea, SS, SS +nitrification inhibitor (dicyandiamide-DCD) and control), two pH conditions (natural and limed) and two forms of fertilizer application (injected and surface), and two soils. The SS rate used was 21 m3 ha-1, and the rate of the inhibitor was 10 kg ha-1. The evaluations consisted in daily accumulated ammonia volatilization up to 14 days, and the percentage of soil nitrogen loss. The injection of fertilizers reduced emissions of ammonia in both soils and, limed soil had higher N losses by volatilization. The inhibitor did not increase the emission of ammonia in both soils.

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Comparative effect of various organic extracts coated urea fertilizer on the release pattern of Ammonium and Nitrate in the soil at different time intervals

10.21203/rs.3.rs-793877/v1 ◽

2021 ◽

Author(s):

Adeel Ahmad ◽

Muhammad Yaseen ◽

Hafiz Naeem Asghar ◽

Shahzad Maqsood Ahmed Basra

Keyword(s):

Fertilizer Application ◽

Cow Dung ◽

Nitrification Inhibitors ◽

Neem Oil ◽

Coating Materials ◽

N Losses ◽

Randomized Design ◽

Coated Urea ◽

And Control ◽

Urea Granules

Abstract Nitrogen (N) fertilizer application is a very important commodity in agricultural systems. However, due to the losses of applied N from the soil microenvironment its efficiency is too low. Different strategies like the use of polymer coating and use of chemical nitrification inhibitors had been employed to reduce N losses. But these chemical nitrification inhibitors are very expensive. Thus, a study was conducted to investigate the effects of different concentrations of parthenium extract, neem oil and acidulated cow dung compost extract on N dynamics in the soil. Three concentrations of parthenium extract (5, 10 and 15 %) and neem oil (1, 2 and 3 %) were coated on urea granules after mixing with the polymer material. Three pH (2, 4 & 6 pH) based acidulated cow dung compost extracts were also coated on urea granules in the same pattern. These coated fertilizers and uncoated urea were applied in jars filled with soil (100g per jar) at the rate of 1g of fertilizer per jar. One treatment was kept as control (without any fertilizer). Treatments along three replications were arranged according to the completely randomized design (CRD). Results depicted that all coating materials caused the release of N consistently from applied fertilizers compared to uncoated treatment. In addition, percent nitrified N was also reduced significantly in coated treatments in comparison to the uncoated urea and control treatments. However, the level of concentration effect was not obvious as lower concentrations of these extracts and oil also performed almost equal to that of higher concentrations.

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Effects of application technique and anaerobic digestion on gaseous nitrogen loss from animal slurry applied to ryegrass (Lolium perenne)

The Journal of Agricultural Science ◽

10.1017/s0021859600075572 ◽

1996 ◽

Vol 126 (4) ◽

pp. 481-492 ◽

Cited By ~ 68

Author(s):

G. H. Rubæk ◽

K. Henriksen ◽

J. Petersen ◽

B. Rasmussen ◽

S. G. Sommer

Keyword(s):

Ammonia Volatilization ◽

Nitrogen Loss ◽

Direct Injection ◽

N Uptake ◽

Climatic Conditions ◽

Cattle Slurry ◽

Gaseous Nitrogen ◽

N Losses ◽

Adjacent Field ◽

Anaerobically Digested Slurry

SUMMARYAmmonia volatilization and denitrification were measured in a ryegrass field in Denmark after direct injection and application with trail hoses of an untreated cattle slurry and an anaerobically digested slurry in late May-early June 1993 and 1994. Ammonia volatilization was measured using a windtunnel system for a period of 8 days after slurry application. Denitrification was measured for a period of 21 days after slurry application. In an adjacent field experiment, nitrogen-uptake (N-uptake) was determined in the first two cuts of the ryegrass harvested after slurry application. N losses through ammonia volatilization were larger in 1993 than in 1994 due to differences in climatic conditions. Ammonia volatilization was lowered substantially (47–72%), when slurry was injected compared with surface application. In 1993 the loss from surface-applied digested slurry was only 35% of total ammoniacal nitrogen (TAN), while the loss from the raw slurry was 47%. There were no significant differences in ammonia volatilization from the two slurry types in the other experiments. N losses through denitrification were low (< 2% of TAN), but there were clear differences in the losses, depending on slurry type, application method and experimental year. Injection of the slurry gave a larger N-uptake in the first cut of grass compared to the trail-hose application. In 1993 N-uptake from the digested slurry treatment gave significantly larger N-uptake compared to the raw slurry in the first cut.

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Ammonia emissions from cattle slurry and digestates

10.5194/egusphere-egu21-15587 ◽

2021 ◽

Author(s):

Norah Efosa ◽

Hans-Martin Krause ◽

Christoph Häni ◽

Johan Six ◽

Else Bünemann

Keyword(s):

Ammonia Volatilization ◽

Nitrogen Loss ◽

Low Cost ◽

Fertilizer Application ◽

Organic Fertilizers ◽

Nitrogen Losses ◽

Nitrous Oxide Emissions ◽

Ammonia Emissions ◽

Fertilizer Management ◽

Cattle Slurry

The recycling of organic waste in biogas plants is proposed as a measure to close nutrient cycles and possibly reduce nitrogen losses such as nitrous oxide emissions and nitrate leaching. Ammonia volatilization after fertilizer spreading is yet another nitrogen loss pathway which is often understudied and not yet fully understood but the knowledge is needed in order to optimize fertilizer management. We therefore aimed to quantify the volatilization of ammonia after the trail-hose application of digestates compared to cattle slurry. We hypothesize that digestates have larger and longer lasting nitrogen losses via ammonia volatilization due to higher NH4+ contents and pH values compared to fresh manure. In this project, digested and un-digested organic fertilizers were applied twice per year in a 2.5-years field experiment with three consecutive arable crops (maize, winter wheat and winter barley) under organic farming. We used Automated Low Cost Impinger Systems to measure ammonia emissions after fertilizer application. The emissions were then modeled using the backwards Langrangian stochastic dispersal model with respect to wind conditions. A preliminary presentation of the data indicates that ammonia emissions from the cattle slurry, slurry-based digestate, and industrial digestate are alternately higher or lower. In 2018, emissions from cattle slurry tended to be lower than those from slurry-based digestate and industrial digestate, while in 2019 and 2020 all three liquid organic fertilizers had similar emissions. In the measurement period after the second fertilizer application in 2018, which took place at the end of May, conspicuously high emissions were measured. This can be explained by the high temperatures during this period. Adaptive strategies in fertilizer management should thus consider reduced inputs of organic fertilizers &#160;during warm periods.

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Ammonia volatilization losses in Tanzania grass fertilized with urea

Revista Brasileira de Saúde e Produção Animal ◽

10.1590/s1519-99402015000100005 ◽

2015 ◽

Vol 16 (1) ◽

pp. 253-264 ◽

Cited By ~ 2

Author(s):

Cecílio Viega SOARES FILHO ◽

Ulysses CECATO ◽

Ossival Lolato RIBEIRO ◽

Cláudio Fabrício da Cruz ROMA ◽

Tatiane BELONI

Keyword(s):

Ammonia Volatilization ◽

Repeated Measurements ◽

N Loss ◽

N Losses ◽

Total N ◽

Factors Affecting ◽

Randomized Design ◽

Different Seasons ◽

Completely Randomized Design ◽

N Volatilization

Gaseous losses are the main factors affecting the efficiency of nitrogenous fertilizers in pastures. To evaluate NH3-N volatilization losses in Tanzania grass fertilized with urea in autumn, spring and summer, a completely randomized design with repeated measurements over time and fifteen replicates was used. Plots were represented by urea levels (50; 100 and 150 kg ha-1 N) and subplots by time after fertilization (1; 2; 3; 6; 9; 12 and 15 days). The interaction between fertilization leveland time after urea application was significant for the accumulated NH3-N volatilization. Urea application leads to higher percentage N losses in the first three days after application. The average cumulative NH3-N loss for the three occasions (different seasons of the year) was 28%, 20% and 16% of N applied for fertilizer doses of 50; 100 and 150 kg ha-1of N, respectively. The season of the year influenced NH3-N loss pattern and volume, with the lowest values recorded in spring, followed by summer and autumn. The cumulative NH3-N volatilization loss varies from 78 to 90% up to the third day after application of the total N-NH3 loss.

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Pronitridine and Nitrapyrin With Anhydrous Ammonia for Corn

Journal of Agricultural Science ◽

10.5539/jas.v11n4p13 ◽

2019 ◽

Vol 11 (4) ◽

pp. 13 ◽

Cited By ~ 1

Author(s):

Gurbir Singh ◽

Kelly A. Nelson

Keyword(s):

Ammonia Volatilization ◽

Starch Content ◽

Nitrification Inhibitor ◽

N Losses ◽

Agronomic Efficiency ◽

Anhydrous Ammonia ◽

N Removal ◽

Nitrification Process ◽

Grain Starch ◽

Corn Grain

Nitrogen (N) losses due to leaching, denitrification and/or ammonia volatilization are of utmost concerns since they reduce farm profitability and adversely affect environmental quality. To combat these N losses, a new nitrification inhibitor (NI), pronitridine, can be used to slow down the nitrification process. A two-year (2014, 2015) field experiment was conducted to evaluate the effectiveness of pronitridine at different rates (9.4, 18.7, and 28.1 L ha-1) with anhydrous ammonia (AA) at 112 kg N ha-1 when applied in the fall or pre-plant on claypan soils in northeast Missouri. Using pronitridine at 9.4 L ha-1 with AA in the fall during a low yielding year (2015) increased corn grain yield 7% compared to AA + nitrapyrin (2.3 L ha-1). Agronomic efficiency and yields were greatest with pronitridine at 9.4 L ha-1 than AA + nitrapyrin. Grain N removal was highest for AA + pronitridine at 18.7 L ha-1 compared to AA + nitrapyrin. Pre-plant application of AA + pronitridine at 9.4 L ha-1 increased grain starch content compared to AA without NI, but it was not significantly different from AA + nitrapyrin. Results indicated that pronitridine was effective in increasing yields when applied in the fall and was similar to other NI’s when applied pre-plant in the spring.

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Change of the redox potential in the profile of light grey forest surface-gleyed soil under different anthropogenic

Interdepartmental thematic scientific collection "Agriculture" ◽

10.31073/zem.95.26-29 ◽

2018 ◽

Vol 2 (95) ◽

pp. 26-29

Author(s):

O.S. Gavrishko ◽

Yu.M. Olifir ◽

T.V. Partyka

Keyword(s):

Redox Potential ◽

Mineral Fertilizer ◽

Fertilizer Application ◽

Soil Tillage ◽

Mineral Fertilizers ◽

Gleyed Soil ◽

Agricultural Use ◽

Fertilizer System ◽

And Control ◽

The Given

The results of studies of the change in redox potential in the profile of light gray forest surface-gleyed soil on variants with long-term agricultural use without applying fertilizers and mineral fertilizer system solely compared with the soil under the forest are presented. On the basis of the conducted analyzes it was established, that soil tillage without fertilizer application and with mineral fertilizer solely has a different effect on ROP in the profile. In the soil without fertilization (control) as compared to the forest a moderate oxidizing (514 mV) and slightly oxidizing (437 mV) processes are happening. Prolonged application of mineral fertilizers to the soil (N65R68K68) significantly reduced the redox potential of all genetic horizons compared with forest and control without fertilizers. For the given fertilizer system the highest values of ROP were obtained in arable HEgl and underarable HEgl layers: 426 mV and 416 mV respectively. Redox potential sharply decreases with the depth to 398-311 mV, which characterizes processes occurring in the soil profile, as weakly reducing and close to moderately reducing.

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Yield and chlorophyll index in cabbage in function of enhanced-efficiency nitrogen fertilizers and urea

Scientific Electronic Archives ◽

10.36560/1312020997 ◽

2020 ◽

Vol 13 (2) ◽

pp. 6

Author(s):

J. J. Frazão ◽

A. R. Silva ◽

F. H. M. Salgado ◽

R. A. Flores ◽

E. P. F. Brasil

Keyword(s):

Nitrogen Fertilizers ◽

N Losses ◽

N Sources ◽

Promising Strategy ◽

Applied Dose ◽

Coated Urea ◽

Chlorophyll Index ◽

Polymer Coated Urea ◽

N Rates ◽

And Control

The increase of the efficiency of the nitrogen fertilization promotes reduction of the applied dose and decreases the losses of nitrogen (N) to the environment. The objective of this work was to evaluate the yield and the relative chlorophyll index (IRC) in cabbage crop under cover fertilization, using enhanced-efficiency nitrogen fertilizers, compared to urea, in variable doses. The experimental design was randomized blocks in a 3x4+1 factorial scheme (three sources, four rates and control), with four replications. The N sources used were: common urea (U), urea treated with urease inhibitor NBPT® (UN) and Kimcoat® polymer coated urea (UK). The N rates used were 0, 40, 80, 160 and 320 kg ha-1, divided in two fertilizations at 20 and 40 days after transplantation. Up to 160 kg ha-1 of N, there was no difference between N sources and N rates for both yield and RCI. The enhanced-efficiency N sources (UN and UK) promoted higher averages compared to common urea, possibly due to the higher N losses from common urea. Thus, the use of urease inhibitors or polymers associated with urea is a promising strategy to improve cabbage yield, as well as reducing N losses to the environment.

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Foliar Urea with N-(n-butyl) Thiophosphoric Triamide for Sustainable Yield and Quality of Pineapple in a Controlled Environment

Sustainability ◽

10.3390/su13126880 ◽

2021 ◽

Vol 13 (12) ◽

pp. 6880

Author(s):

Mohammad Amdadul Haque ◽

Siti Zaharah Sakimin ◽

Phebe Ding ◽

Noraini Md. Jaafar ◽

Mohd Khanif Yusop ◽

...

Keyword(s):

Nitrogen Loss ◽

Growth Yield ◽

Fruit Weight ◽

Soluble Solids ◽

Urea Solution ◽

Urease Inhibitor ◽

N Losses ◽

N Accumulation ◽

Yield And Quality

In agricultural production, nitrogen loss leads to economic loss and is a high environmental risk affecting plant growth, yield, and quality. Use of the N fertilizer with a urease inhibitor is thus necessary to minimize N losses and increase the efficiency of N. This study aimed to evaluate the effects of N-(n-butyl) Thiophosphoric Triamide (NBPT) on the growth, yield, and quality of pineapple. The experiment involved two foliar fertilizer treatments: 1% (w/v) urea solution with NBPT (2.25 mL kg−1 urea) was treated as NLU (NBPT Liquid Urea), and the same concentration of urea without NBPT served as the control. Both were applied 12 times, starting 1 month after planting (MAP) and continuing once a month for 12 months. The application of urea with NBPT notably increased the above-ground dry biomass per plant (20% and 10% at 8 and 12 MAP, respectively), leaf area per plant (23% and 15% at 8 and 12 MAP, respectively), N accumulation per plant (10%), PFPN (Partial Factor Productivity) (13%), and average fruit weight (15%) compared to the treatment with urea alone (control). The analysis of quality parameters indicated that urea with NBPT improves TSS (Total Soluble Solids) (19%), ascorbic acid (10%), and sucrose (14%) but reduces the total organic acid content (21%) in pineapple. When using urea with a urease inhibitor (NBPT), there was a significant improvement in growth, yield, quality, and nitrogen use efficiency, with the additional benefit of reduced nitrogen losses, in combination with easy handling. Hence, urea with a urease inhibitor can be used as a viable alternative for increasing pineapple yield by boosting growth with better fruit quality.

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Gross Ammonification and Nitrification Rates in Soil Amended with Natural and NH4-Enriched Chabazite Zeolite and Nitrification Inhibitor DMPP

Applied Sciences ◽

10.3390/app11062605 ◽

2021 ◽

Vol 11 (6) ◽

pp. 2605

Author(s):

Giacomo Ferretti ◽

Giulio Galamini ◽

Evi Deltedesco ◽

Markus Gorfer ◽

Jennifer Fritz ◽

...

Keyword(s):

Nitrification Inhibitor ◽

Natural State ◽

Silty Clay ◽

Short Term ◽

N Losses ◽

15N Pool Dilution ◽

Use Efficiency ◽

Silty Clay Soil ◽

N Use ◽

15N Pool Dilution Technique

Using zeolite-rich tuffs for improving soil properties and crop N-use efficiency is becoming popular. However, the mechanistic understanding of their influence on soil N-processes is still poor. This paper aims to shed new light on how natural and NH4+-enriched chabazite zeolites alter short-term N-ammonification and nitrification rates with and without the use of nitrification inhibitor (DMPP). We employed the 15N pool dilution technique to determine short-term gross rates of ammonification and nitrification in a silty-clay soil amended with two typologies of chabazite-rich tuff: (1) at natural state and (2) enriched with NH4+-N from an animal slurry. Archaeal and bacterial amoA, nirS and nosZ genes, N2O-N and CO2-C emissions were also evaluated. The results showed modest short-term effects of chabazite at natural state only on nitrate production rates, which was slightly delayed compared to the unamended soil. On the other hand, the addition of NH4+-enriched chabazite stimulated NH4+-N production, N2O-N emissions, but reduced NO3−-N production and abundance of nirS-nosZ genes. DMPP efficiency in reducing nitrification rates was dependent on N addition but not affected by the two typologies of zeolites tested. The outcomes of this study indicated the good compatibility of both natural and NH4+-enriched chabazite zeolite with DMPP. In particular, the application of NH4+-enriched zeolites with DMPP is recommended to mitigate short-term N losses.

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Effect of Ethephon and Packaging Practices On Ripening of Mango cv. Maldah

SAARC Journal of Agriculture ◽

10.3329/sja.v19i1.54786 ◽

2021 ◽

Vol 19 (1) ◽

pp. 155-163

Author(s):

S Sapkota ◽

D Kc ◽

H Giri ◽

M Saud ◽

M Basnet ◽

...

Keyword(s):

Chemical Properties ◽

Control Treatment ◽

Quality Performance ◽

Plastic Packaging ◽

Randomized Design ◽

Acid Ratio ◽

Ethephon Treatment ◽

Completely Randomized Design ◽

And Control ◽

Juice Content

The present research was conducted on two factor Completely Randomized Design (CRD) with eight treatments and three replications. A set of experiments were carried out to evaluate the effect of postharvest ethephon treatment and packaging on ripening of mango cv. Maldah. The treatments consisted of ripening agent i.e., ethephon and control treatment under different packaging condition i.e., fiber with hole, fiber without hole, plastic with hole and plastic without hole. The result revealed that different packaging condition and ripening agents influenced the ripening behavior of mango. The highest TSS (15.26), sugar-acid ratio (23.66) and juice content (126.05) were recorded with fiber (without hole) and the lowest TSS (12.60), sugar-acid ratio (9.01) and juice content (116.05) with plastic (without hole). The highest TA (1.44) was recorded with plastic (without hole) and the lowest (0.66) with fiber (without hole). Similarly, the highest BT (2.83) was recorded with fiber (with hole) and the lowest (1.66) with plastic (without hole). Firmness, sweetness, TSS and juice content were the highest with the interaction effect of fiber bag (without hole) and ethephon treatment. In conclusion, mango fruits with ethephon treatment packed in fiber bag (without hole) enhances quality and ripening of mango whereas under controlled condition and without hole plastic packaging mangoes had low quality performance in terms of physio-chemical properties. SAARC J. Agric., 19(1): 155-163 (2021)

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