Soil Organic Matter Testing and Labile Carbon Identification by Carbonaceous Resin Capsules

1994 ◽  
Vol 58 (3) ◽  
pp. 751-758 ◽  
Author(s):  
Mitchell M. Johns ◽  
Earl O. Skogley
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Labile Carbon

Soil organic carbon fractions in a Vertisol under irrigated cotton production as affected by burning and incorporating cotton stubble

Soil Research ◽  
1998 ◽  
Vol 36 (4) ◽  
pp. 655 ◽  
Author(s):  
A. Conteh ◽  
G. J. Blair ◽  
I. J. Rochester
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Organic Matter Content ◽  
Matter Content ◽  
Total Carbon ◽  
Cotton Production ◽  
Labile Carbon ◽  
Total N ◽  
The Difference ◽  
Organic Matter Fractions

The contribution of cotton stubble to the soil organic matter content of Vertisols under cotton production is not well understood. A 3-year experiment was conducted at the Australian Cotton Research Institute to study the effects of burning and incorporating cotton stubble on the recovery of fertiliser nitrogen (N), lint yield, and organic matter levels. This study reports on the changes in soil organic matter fractions as affected by burning and incorporating cotton stubble into the soil. Soil samples collected at the start and end of the 3-year experiment were analysed for total carbon (CT), total N (NT), and δ13C (a measure of 13C/12C isotopic ratios). Labile carbon (CL) was determined by ease of oxidation and non-labile carbon (CNL) was calculated as the difference between CT and CL. Based on the changes in CT, CL, and CNL, a carbon management index (CMI) was calculated. Further analyses were made for total polysaccharides (PT), labile polysaccharides (PL), and light fraction C (LF-C). Stubble management did not significantly affect the NT content of the soil. After 3 years, the stubble-incorporated plots had a significantly higher content of CT, CL, and polysaccharides. Incorporation of stubble into the soil increased the CMI by 41%, whereas burning decreased the CMI by 6%. The amount of LF-C obtained after 3 years in the stubble-incorporated soil was almost double that obtained in the stubble-burnt soil. It was concluded that for sustainable management of soil organic matter in the Vertisols used for cotton production, stubble produced in the system should be incorporated instead of burnt.

scholarly journals Oxidizable fraction of organic carbon in an Argisol under different land use systems

CERNE ◽  
2012 ◽  
Vol 18 (2) ◽  
pp. 215-222 ◽  
Author(s):  
Caio Batista Müller ◽  
Oscarlina Lúcia dos Santos Weber ◽  
José Fernando Scaramuzza
Keyword(s):  
Land Use ◽  
Organic Matter ◽  
Soil Organic Matter ◽  
Organic Carbon ◽  
The Other ◽  
Control Treatment ◽  
Native Vegetation ◽  
Labile Carbon ◽  
Land Use Systems ◽  
Oxidizable Fraction

The objective of this study was to evaluate carbon input in labile and stable fractions in an ARGISOL of northwestern Brazil under different land use systems. Use systems being evaluated include: forest - MA (reference), agrosilvopasture - TCP (teak, cocoa and pasture); agroforest - TC (teak and cocoa); teak forest at 8 and 5 years - T8 and T5, and pasture - PA. In each system three furrows were made at depths of 0-5 cm, 5-10 cm and 10-20 cm. An area consisting of native vegetation (forest) adjacent to the experiment was sampled and used as control treatment. The use systems MA, T8 and T5 had higher levels of total organic carbon (COT) and the MA system had higher levels of labile carbon (CL) than the other systems, with the exception of TC at a depth of 10-20 cm. In the MA system, COT levels were higher in comparison to use systems TCP, TC and PA while CL levels were higher than the levels observed in use systems TCP and TC. In most cases being analyzed, CL levels were lower than COT levels, therefore this trait can be used as an indicator to assess anthropogenic changes relating to the maintenance or condition of soil organic matter.

Separating the temperature response of soil respiration derived from soil organic matter and added labile carbon compounds

Geoderma ◽  
2021 ◽  
Vol 400 ◽  
pp. 115128
Author(s):  
Kristyn B. Numa ◽  
Jasmine M. Robinson ◽  
Vickery L. Arcus ◽  
Louis A. Schipper
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Soil Respiration ◽  
Temperature Response ◽  
Labile Carbon ◽  
Carbon Compounds

Strong priming of soil organic matter induced by frequent input of labile carbon

2021 ◽  
Vol 152 ◽  
pp. 108069
Author(s):  
Jie Zhou ◽  
Yuan Wen ◽  
Lingling Shi ◽  
Miles R. Marshall ◽  
Yakov Kuzyakov ◽  
...  
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Labile Carbon

scholarly journals Organic matter fractions in soil under coffee with split applications of phosphorus and water regimes

2014 ◽  
Vol 18 (10) ◽  
pp. 1017-1022 ◽  
Author(s):  
Larissa G. Araújo ◽  
Cícero C. de Figueiredo ◽  
Inácio B. Borges ◽  
Maria L. G. Ramos ◽  
Omar C. Rocha ◽  
...  
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Irrigation Management ◽  
Phosphorus Fertilization ◽  
Irrigation Regime ◽  
Labile Carbon ◽  
Water Regimes ◽  
Cerrado Savanna ◽  
Microbial Carbon ◽  
Organic Matter Fractions

Phosphorus fertilization and irrigation management are essential practices to increase coffee yields, though information is scarce about the effect of these practices on organic matter fractions of soils of the ‘Cerrado’ (savanna-like vegetation). The purpose of this study was to evaluate organic matter fractions of a clayey Oxisol under coffee with split applications of phosphorus (P) and water regimes. The experimental design was a randomized block with 3 x 2 factorial arrangement with three split applications of P (P1: 300 kg ha-1 P2O5 applied annually of which 2/3 applied in September and 1/3 in December; P2: 600 kg ha-1 P2O5 applied at planting and every two years, and P3: 1800 kg ha-1 of P2O5 applied only at planting, corresponding to a 6-year requirement), two water regimes (with and without irrigation) and three replications. Soil from the 0-5 and 5-10 cm layers was sampled. The total organic carbon (TOC), labile carbon (LC), microbial carbon (Cmic), and carbon fractions of fulvic acid (FA), humic acid (HA) and humin (HU) were determined. The irrigation regime of coffee increased the TOC, LC and Cmic levels and the humified fractions of soil organic matter. In general, the form of P splitting had little influence on the fractions of soil organic matter.

scholarly journals Soil Organic-Matter in Water-Stable Aggregates Under Different Soil-Management Practices

2017 ◽  
Vol 63 (4) ◽  
pp. 151-162
Author(s):  
Vladimír Šimanský ◽  
Ján Horák ◽  
Brent Clothier ◽  
Natalya Buchkina ◽  
Dušan Igaz
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Management Practices ◽  
Average Rate ◽  
Farmyard Manure ◽  
Soil Management ◽  
The Other ◽  
Labile Carbon ◽  
Water Stable Aggregates ◽  
Commercial Vineyard

Abstract An experiment of different management practices in a commercial vineyard, which was established in 2006 in the locality of Nitra-Dražovce, Slovakia on Rendzic Leptosol, was used to evaluate the dynamics of soil organic-matter parameters during the years 2008–2015. The following treatments were established: 1. G (grass without fertilisation as control), 2. T (tillage), 3. T+FYM (tillage + farmyard manure), 4. G+NPK3 (grass + 3rd intensity of fertilisation for vineyards: it means 125 kg/ha N, 50 kg/ha P, 185 kg/ha K), and 5. G+NPK1 (grass + 1st intensity of fertilisation for vineyards: it means 100 kg/ha N, 30 kg/ha P, 120 kg/ha K). The results showed that the soil-management practices in the vineyard significantly influenced the soil organic carbon in water-stable aggregates (SOC in WSA). The content of SOC in WSAma increased on average in the following order: T < G < G+NPK1 < G+NPK3 < T+FYM. Intensive soil cultivation in the T treatment resulted in a statistically significant build-up of SOC in WSAma at an average rate of 1.33, 1.18, 0.97, 1.22 and 0.76 g/kg/y across the size fractions > 5 mm, 5‒3 mm, 2–1 mm, 1–0.5 mm and 0.5–0.25 mm, respectively. The content of non-labile carbon reflected the contents of SOC in WSA. The highest labile carbon (CL) in WSAma, as compared to others, was found in T+FYM. Overall, application of higher NPK doses resulted in higher content of CL in WSAma compared with the lower applications of NPK. On the other hand, lower applications of NPK to soil increased the content of CL in WSAmi, as compared to G+NPK3.

scholarly journals Relationships between soil organic matter and crop yield after biochar substrates application and their combination with mineral fertilizers on sandy soil

2021 ◽  
Vol 24 (1) ◽  
pp. 14-20
Author(s):  
Vladimír Šimanský ◽  
Dušan Šrank
Keyword(s):  
Organic Matter ◽  
Soil Organic Matter ◽  
Crop Yields ◽  
Mineral Fertilizers ◽  
Soil Conditions ◽  
First Year ◽  
Labile Carbon ◽  
Mineral Fertilization ◽  
The Third ◽  
Linear Relationships

Abstract In this field study, under the soil conditions of southern Slovakia (Dolná Streda, sandy Haplic Arenosol), there were quantified the effects of biochar substrates (1. Effeco 50:50; 2. Effeco 33:33:33) in two rates (10 and 20 t.ha−1) applied alone or in combination with mineral fertilization on soil organic matter (SOM) content and crop yields for period of 3 years (2018-2020) but also the linear relationships between SOM and crop yields depending on the application of biochar substrates and its combination with mineral fertilizers. The results showed that the content of soil organic carbon (SOC) increased from 8.5 g.kg−1 in unfertilized control to 13.8 g.kg−1 in Effeco 33:33:33 at 20 t ha−1. However, SOC decreased from 13.6 g.kg−1 in fertilized control to 10.1 g.kg-1 in Effeco 50:50 at 10 t.ha−1. Biochar substrates and their combination with mineral fertilizers did not have a significant effect on changes in labile carbon in the soil. The effect on the crop yields was diametrically different in the first year after the application of biochar substrates compared to the second and third year. In the second and third year, the same trend was observed in the reaction to substrates – including a more robust effect on the increase in crop yields in the third year after the application of biochar substrates and also biochar substrates with mineral fertilizers. The linear relationships between SOC and crop yields were found only in biochar substrates alone treatments.

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