Imaging-optode measurements of ammonium distribution in soil after different manure amendments

Delin, Sofia; Strömberg, Niklas

doi:10.1111/j.1365-2389.2010.01326.x

Cited by 18 publications

(20 citation statements)

References 22 publications

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“…Baitilwake et al (2012) found greater immobilization and nitrification after soil incorporation than surface application of chicken and cattle manure. However, Delin and Strömberg (2011) did not find any differences in net mineralization of nitrogen between surfaceapplied and incorporated chicken manure and cattle slurry, as long as the manure was kept in concentrated lumps, although when the manure was mixed with a larger soil volume both net immobilization and nitrification increased.…”

Section: Introductionmentioning

confidence: 67%

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Optimal Placement of Meat Bone Meal Pellets to Spring Oats

Delin

Engström

Lundkvist

2018

Front. Sustain. Food Syst.

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Section: Introductionmentioning

confidence: 67%

“…Band application would probably still be as successful as in 25 cm spacing, as long as pellets are not put together with the seeds. The benefit could be because of more efficient incorporation and lower immobilization (Sørensen and Jensen, 1995;Delin and Strömberg, 2011).…”

Section: Crop Row Spacingmentioning

confidence: 99%

Optimal Placement of Meat Bone Meal Pellets to Spring Oats

Delin

Engström

Lundkvist

2018

Front. Sustain. Food Syst.

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“…The HPTS(TOA) ion pair, immobilized in ethyl cellulose, is to date the only indicator reported to be used for planar optode imaging of pCO 2 [20,72]. The polarity-sensitive fluorescent indicator merocyanine 540 (MC540) has been developed and applied for NH 4 + imaging [74,[132][133][134]. The sensing system relies on a co-extraction technique [135], where the sensor matrix is based on a two phase system, containing a hydrogel (NH 80/92) and non-polar ether emulsion droplets.…”

Section: Pco 2 Nh 4 + and Sulphide Indicatorsmentioning

confidence: 99%

“…Quantification of the NH 4 + concentration is made through a dual-excitation dual-emission ratiometric imaging approach [132]. Using timecorrelated pixel-by-pixel calibration [74,127] this sensor was stable for up to 10 days at concentrations from 0 to 500 mmol L À1 [74,134].…”

Section: Pco 2 Nh 4 + and Sulphide Indicatorsmentioning

confidence: 99%

Two decades of chemical imaging of solutes in sediments and soils – a review

Santner

Larsen

Kreuzeder

et al. 2015

Analytica Chimica Acta

170

130

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The increasing appreciation of the small-scale (sub-mm) heterogeneity of biogeochemical processes in sediments, wetlands and soils has led to the development of several methods for high-resolution two-dimensional imaging of solute distribution in porewaters. Over the past decades, localised sampling of solutes (diffusive equilibration in thin films, diffusive gradients in thin films) followed by planar luminescent sensors (planar optodes) have been used as analytical tools for studies on solute distribution and dynamics. These approaches have provided new conceptual and quantitative understanding of biogeochemical processes regulating the distribution of key elements and solutes including O2, CO2, pH, redox conditions as well as nutrient and contaminant ion species in structurally complex soils and sediments. Recently these methods have been applied in parallel or integrated as so-called sandwich sensors for multianalyte measurements. Here we review the capabilities and limitations of the chemical imaging methods that are currently at hand, using a number of case studies, and provide an outlook on potential future developments for two-dimensional solute imaging in soils and sediments.

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“…Also the analytical performance such as sensitivity, limit of detection (LOD), and expected operational lifetime were calculated for each pixel and presented as statistical images [9]. After improvements of the infinity corrected imaging system as well as a high throughput macro imaging techniques were developed [10], the technique was ready for research applications such as studying ammonium uptake close to roots [11], and multiple fertilizer release studies (using a high throughput imaging system) in different soils [12] over long time periods up to 11 days.…”

Section: N Strömberg 136mentioning

confidence: 99%

Signal Enhancements in Plasmon Assisted Fluorescence Ratiometric Imaging Optodes

Strömberg¹

2013

OPJ

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The objective of this study was to benchmark the different signal enhancements found in a recently exploited fluorescence ratiometric optode design used for nano-molar imaging of ammonium and ammonia. The sensing scheme of these optodes are based on a mediated transfer of the analyte together with a fluorescent dye in a two-phase system consisting of a gold nanoparticle (GNP) doped ether (organic phase), emulsified in a hydrogel (hydrous phase). The coextraction of the ion dye pair causes changes in fluorescence in relation to the analyte concentration. Performances of optodes with and without GNPs using the gradually improved instrumentation and signal processing were evaluated and normalized to be comparable. Signal to noise was enhanced due to signal processing based on ensemble averaging (1.7× -3.2×), CCD sensitivity (2×), and plasmon assisted fluorescence (10× -100×), which altogether with the ratiometric treatment of the fluorescence contributed to the great sensitivity for ammonium and ammonia. The study shows that GNP doped sensors are relatively more sensitive to matrix effects but if they are isolated by a protective layer they will dramatically increase in sensitivity. Proper isolation of the active chemical components from the matrix will make the sensor design one of the most powerful and versatile concepts for chemical imaging and single point detection in complex environments as the optodes likely can be constructed for most ions that have selective ionophores.

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Imaging-optode measurements of ammonium distribution in soil after different manure amendments

Cited by 18 publications

References 22 publications

Optimal Placement of Meat Bone Meal Pellets to Spring Oats

Optimal Placement of Meat Bone Meal Pellets to Spring Oats

Two decades of chemical imaging of solutes in sediments and soils – a review

Signal Enhancements in Plasmon Assisted Fluorescence Ratiometric Imaging Optodes

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