Quantitative Characterization of Humic Substances by Solid‐State Carbon‐13 Nuclear Magnetic Resonance

Mao, Jingdong; Hu, Weiguo; Schmidt‐Rohr, Klaus; Davies, Geoffrey; Ghabbour, Elham A.; Xing, Baoshan

doi:10.2136/sssaj2000.643873x

Cited by 296 publications

(275 citation statements)

References 41 publications

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“…The 90°pulse length was 4 μs. The recycle delay was 40 s for Hatahara and 26 s for Lago Grande, which is >4 times the measured spin−lattice relaxation time 23,24 (see also Figure S2 in the Supporting Information). A spectrum with 100-s recycle delay experiments confirmed complete relaxation, as did >95% observability in spin counting analysis.…”

Section: ■ Materials and Methodsmentioning

confidence: 78%

Abundant and Stable Char Residues in Soils: Implications for Soil Fertility and Carbon Sequestration

Mao

Johnson

Lehmann

et al. 2012

Environ. Sci. Technol.

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263

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Large-scale soil application of biochar may enhance soil fertility, increasing crop production for the growing human population, while also sequestering atmospheric carbon. But reaching these beneficial outcomes requires an understanding of the relationships among biochar's structure, stability, and contribution to soil fertility. Using quantitative 13 C nuclear magnetic resonance (NMR) spectroscopy, we show that Terra Preta soils (fertile anthropogenic dark earths in Amazonia that were enriched with char >800 years ago) consist predominantly of char residues composed of ∼6 fused aromatic rings substituted by COO − groups that significantly increase the soils' cation-exchange capacity and thus the retention of plant nutrients. We also show that highly productive, grassland-derived soils in the U.S. (Mollisols) contain char (generated by presettlement fires) that is structurally comparable to char in the Terra Preta soils and much more abundant than previously thought (∼40− 50% of organic C). Our findings indicate that these oxidized char residues represent a particularly stable, abundant, and fertilityenhancing form of soil organic matter.

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Section: ■ Materials and Methodsmentioning

confidence: 78%

Abundant and Stable Char Residues in Soils: Implications for Soil Fertility and Carbon Sequestration

Mao

Johnson

Lehmann

et al. 2012

Environ. Sci. Technol.

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263

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“…Mao et al (2002) reported that the sp 2 carbons (110-220 ppm) or -COOH tend to be underrepresented by CP MAS 13 C NMR due to their longer relaxation times (T 1 , spin-lattice relaxation time). According to this observation, -COOH of the lipid may be in rigid domains, corresponding to longer T 1 Mao et al, 2000). When lipid was coated on char, a small peak at 167 ppm (-COOH) appeared and even more intensive with increasing coated lipid, indicating that some rigid domains changed to more mobile domains, corresponding to the reduced T 1 of 13 COOH.…”

Section: Tablementioning

confidence: 82%

Effects of humic acid and lipid on the sorption of phenanthrene on char

Wen

Huang

et al. 2009

Geoderma

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“…The purpose is not to repeat what is available elsewhere, such as reviews of applications, noted previously, or basic theory and factors affecting quantitative reliability of NMR spectra (Preston et al 1984;Axelson 1985;Wilson 1987Wilson , 1991Fründ et al 1994a, b;Kinchesh et al 1995;Conte et al 1997a, b;Veeman 1997;Oades 1999, 2000a, b;Hu et al 2000;Mao et al 2000). The second purpose is to raise awareness of the need to develop NMR infrastructure and expertise in SOM studies in a variety of contexts.…”

mentioning

confidence: 99%

Carbon-13 solid-state NMR of soil organic matter - using the technique effectively

Preston¹

2001

Can. J. Soil. Sci.

112

104

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).Preston, C. M. 2001. Carbon-13 solid-state NMR of soil organic matter -using the technique effectively. Can. J. Soil Sci. 81: 255-270. Solid-state 13 C CPMAS NMR offers many options for characterizing carbon in soil organic matter (SOM). Its effectiveness, however, is often limited by a poor understanding of the techniques, and lack of hands-on access and training opportunities for students. Of nearly 250 modern NMR systems in Canada, approximately one is genuinely available for SOM studies, and there is poor communication between NMR operators and SOM users. While quantitative reliability can be addressed to some extent by multiple contact-time experiments or single-pulse (Bloch decay) spectra, it is also important to consider the effects of spectrometer background, spinning sidebands (especially with higher magnetic fields) and processing operations such as linebroadening, phasing and baseline correction. In many studies, more consideration needs to be given to instrument specifications, the type of information needed, and whether sample fractionation or pretreatment should be used. Structural information can be greatly enhanced by dipolar-dephasing and sideband suppression sequences. Sequences based on relaxation differences can reveal pools of carbon with different structures. Data analysis can be enhanced by principal component analysis, spectrum deconvolution and difference spectra. Studies of xenobiotics and C metabolism can be greatly aided by 13 C-labeling. However, a key limitation to SOM applications remains the gap in culture and expectations of the users.Key words: Soil organic matter, 13 C CPMAS NMR, Bloch decay, dipolar dephasing, spinning sidebands Preston, C. M. 2001. Analyse de la matière organique du sol par RMN au 13 C électronique -de l'importance de bien utiliser la technique. Can. J. Soil Sci. 81: 255-270. La RMN CPMAS 13 C électronique permet de caractériser le carbone présent dans la matière organique du sol (MOS) de diverses manières. Il arrive souvent cependant que cette technique perde de son efficacité parce qu'on la connaît mal et parce que les étudiants n'ont pas eu la chance de l'examiner ou de l'expérimenter. Sur les 250 systèmes modernes de RMN existant au Canada, un seul, à peu près, est vraiment réservé à l'étude de la MOS; de plus, la communication passe mal entre les opérateurs de systèmes RMN et les utilisateurs de MOS. Bien qu'on puisse remédier dans une certaine mesure au problème de la fiabilité quantitative en multipliant les expériences sur la durée de contact ou en recourant au spectre obtenu après une seule impulsion (décroissance de Bloch), il ne faut pas négliger les effets de l'arrière-plan du spectromètre, de la rotation des bandes latérales (surtout quand le champ magnétique est puissant) et des opérations de traitement comme l'élargissement des lignes, la mise en phase et la correction de la ligne de base. Dans de nombreux cas, on devrait accorder plus d'attention aux paramètres de l'instrument, au genre de données requises et à la nécessité de fractionner et...

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Quantitative Characterization of Humic Substances by Solid‐State Carbon‐13 Nuclear Magnetic Resonance

Cited by 296 publications

References 41 publications

Abundant and Stable Char Residues in Soils: Implications for Soil Fertility and Carbon Sequestration

Abundant and Stable Char Residues in Soils: Implications for Soil Fertility and Carbon Sequestration

Effects of humic acid and lipid on the sorption of phenanthrene on char

Carbon-13 solid-state NMR of soil organic matter - using the technique effectively

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