Soil restoration under pasture after topsoil removal: Some factors influencing C and N mineralization and measurements of microbial biomass

Ross, D. J.; Hart, P. B. S.; Sparling, G.P.; August, J. A.

doi:10.1007/bf00010836

Cited by 15 publications

(6 citation statements)

References 34 publications

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“…T h e microbial biomass during the rapid buildu p phases in plant succession is almost certainly related to both carbon and nitrogen limitation (Scheu, 1990;Zak et al, 1990), while later phases in the study of Scheu ( I 990) indicate the importance of phosphorus limitation also. Build-up of microbial biomass in the residual subsoil normally parallels the build-up of plants and soil organic matter and the microbial biomass has therefore frequently been proposed as an index of soil redevelopment (Ross et al, 1982;Durrall & Parkinson, 1987;Insam & Domsch, 1988;Srivastava, Jha & Singh, 1989;Ross et a / . Build-up of microbial biomass in the residual subsoil normally parallels the build-up of plants and soil organic matter and the microbial biomass has therefore frequently been proposed as an index of soil redevelopment (Ross et al, 1982;Durrall & Parkinson, 1987;Insam & Domsch, 1988;Srivastava, Jha & Singh, 1989;Ross et a / .…”

Section: A Wardlementioning

confidence: 99%

“…Soil microbial biomass tends to undergo a rapid decline upon topsoil removal and storage, such as is caused by mining Ross et al, 1984b;Visser, Griffiths & Parkinson, 1983;Visser et al, 1984). Build-up of microbial biomass in the residual subsoil normally parallels the build-up of plants and soil organic matter and the microbial biomass has therefore frequently been proposed as an index of soil redevelopment (Ross et al, 1982;Durrall & Parkinson, 1987;Insam & Domsch, 1988;Srivastava, Jha & Singh, 1989;Ross et a / . , 1990).…”

Section: A Wardlementioning

confidence: 99%

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A Comparative Assessment of Factors Which Influence Microbial Biomass Carbon and Nitrogen Levels in Soil

1992

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Section: A Wardlementioning

confidence: 99%

Section: A Wardlementioning

confidence: 99%

A Comparative Assessment of Factors Which Influence Microbial Biomass Carbon and Nitrogen Levels in Soil

1992

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“…It has been reported that the quantity of soil microbes was lower in plantations relative to primary or naturally regenerated forests (Yang et al, 1998(Yang et al, , 1999. Interestingly, microbial biomass is the most active element of SOC (Jenkinson & Ladd, 1981;Insam et al, 1988;Ross et al, 1990;Bentham et al, 1992), and alterations in microbial biomass may be an early indication of changes in total organic matter, long before changes in total soil C and N can be reliably detected. Therefore, microbiological characteristics are recommended as useful ecological indicators of stress caused by anthropogenic activities (Powlson et al, 1987;Sparling, 1992;Bosatta & Agren, 1993;Jia et al, 2005;Zheng et al, 2005).…”

mentioning

confidence: 98%

Soil organic carbon, nitrogen and microbial properties in contrasting forest ecosystems of north-east China under different regeneration scenarios

Shi

Wang

2008

Acta Agriculturae Scandinavica, Section B - Soil & Plant Sc

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We compared soil organic carbon (SOC), nitrogen (N), and microbial populations and biomass in a natural Pinus koraiensis forest, a secondary (regenerated) forest, and P. koraiensis and Larix gmelinii plantations in Liangshui Nature Reserve, northeast China. Surface SOC, total N and microbial populations and biomass from the P. koraiensis plantation were significantly lower compared to natural and regenerated forests. Although surface SOC from the L. gmelinii plantation was not significantly different from either the natural and secondary forests, surface soil microbial populations and biomass from the L. gmelinii plantation were significantly lower. Differences among sites became less pronounced in subsoils (10Á20 and 20Á30 cm). There were positive and significant correlations between SOC, total N and microbial populations and biomass.The study showed that the tested soil characteristics, both abiotic and biological, from a naturally regenerated forest were more similar to those of an intact, natural forest, than either of the plantations. The P. koraiensis plantation demonstrated more impacts (e.g., lower microbial densities and reduced SOC) than the L. gmelinii plantation. Soil microbial properties appeared to be more sensitive than SOC or total N as indicators of damage to the soil microcosm.Keywords: Natural Pinus koraiensis and natural regeneration forests, Pinus koraiensis and Larix gmelinii plantations, soil organic carbon and total nitrogen, microbial populations and biomass.

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“…An interesting and important fact is that very little is known about the functional diversity and metabolic abilities of microbial communities is spontaneously developing mine spoil (Chodak et al, 2009). Ross et al, (1990) suggested that in the initial stage of the soil restoration, rate of mineralization of soil organic matter is dependent on substrate supply and the size of microbial population. The ratios of microbial biomass C: total C (Insam and Domsch 1988) and respiration: microbial C (Insam and Haselwandter 1989) have been proposed as measures of the success of reclamation efforts (Ross et al, 1990).…”

Section: Role Of Soil Microbial Biomass In Ecological Restoration Of mentioning

confidence: 99%

“…Ross et al, (1990) suggested that in the initial stage of the soil restoration, rate of mineralization of soil organic matter is dependent on substrate supply and the size of microbial population. The ratios of microbial biomass C: total C (Insam and Domsch 1988) and respiration: microbial C (Insam and Haselwandter 1989) have been proposed as measures of the success of reclamation efforts (Ross et al, 1990). Smith and Paul (1990) concluded that monitoring of changes in ratios of fungi to bacteria and in species diversity, biomass estimation could be a powerful method of prediction.…”

Section: Role Of Soil Microbial Biomass In Ecological Restoration Of mentioning

confidence: 99%

A review on the role of soil microbial biomass in eco-restoration of degraded ecosystem with special reference to mining areas

Dwivedi

Soni

2011

JANS

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Soil microbial biomass constitutes a transformation matrix for all the natural organic material in the soil and acts as labile reservoir of plant available nutrients. In general plants serve as carbon source for the microbial community and in turn microbes provide nutrients for growth through mineralization of plant and animal residues, and organic matter, thus soil microbial biomass is a significant parameter to draw an inference about the soil health. Biodiversity of visible plants and animals has received a greater attention than the meso or micro level organisms. Information about soil microbial biomass can help to quantify the extant of degradation and may help to provide the effective methodology for the restoration in the degraded terrestrial ecosystems. As the changing global climate has been one of the major environmental challenges facing the world today, there is an increasing need to restore the degraded ecosystem, increase their productivity, to increase the carbon sequestration potential of such areas and to make them suitable for the sustainable forestry purposes. This review provides the importance of soil microbial biomass in the derelict mined ecosystems and suggests that an increase in microbial biomass in the soil may enhance the soil fertility, and provide an effective substrate for the nutrient mineralization.

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Soil restoration under pasture after topsoil removal: Some factors influencing C and N mineralization and measurements of microbial biomass

Cited by 15 publications

References 34 publications

A Comparative Assessment of Factors Which Influence Microbial Biomass Carbon and Nitrogen Levels in Soil

A Comparative Assessment of Factors Which Influence Microbial Biomass Carbon and Nitrogen Levels in Soil

Soil organic carbon, nitrogen and microbial properties in contrasting forest ecosystems of north-east China under different regeneration scenarios

A review on the role of soil microbial biomass in eco-restoration of degraded ecosystem with special reference to mining areas

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