Impacts of Soil Additives on Crop Yield and C-Sequestration in Post Mine Substrates of Lusatia, Germany

doi:10.1016/S1002-0160(12)60021-6

Pedosphere

Volume 22, Issue 3, June 2012, Pages 343-350

https://doi.org/10.1016/S1002-0160(12)60021-6 Get rights and content

Abstract

Opencast lignite mining in the Lusatia region of Germany has resulted in large scale landscape disturbances, which require suitable recultivation techniques in order to promote plant growth and establishment in the remaining nutrient-poor substrates with low water-holding capacity. Thus, the effects of two commercial soil additives (CSA), a hydrophilic polymer mixed with volcanic rock flour and bentonite (a-CSA), and digester solids from biogas plants enriched with humic acids and bentonite (b-CSA), on soil organic carbon (SOC) storage, plant yields and root biomass were assessed after cultivating perennial crops (Dactylis glomerata L.) in monoculture and Helianthus annuus L.-Brassica napus L. in crop rotation systems. The CSA were incorporated into the top 20 cm soil depth using a rotary spader. The results indicated that a-CSA led to a significant increase in plant yield during the first year, and improved root biomass in the following year. As a result, SOC stocks increased, especially in the 0–10 cm soil layer. No significant sequestration of additional SOC was observed on b-CSA-amended plots at the end of both years. Bulk density values decreased in all treatments under the monoculture system. It can be concluded that application of a-CSA enhanced soil water availability for plant uptake and consequently promoted plant growth and organic carbon sequestration. The relative enrichment of organic matter without effects on water-holding capacities of b-CSA treatments suggested that it was not suitable for rapid land reclamation.

References (41)

A.R. Dexter et al.
Methods for predicting the optimum and the range of soil water contents for tillage based on the water retention curve
Soil Till. Res.
(2001)
M.R. Farfel et al.
Biosolids compost amendment for reducing soil lead hazards: a pilot study of Orgro amendment and grass seedling in urban yards
Sci. Total Environ.
(2005)
U. Fettweis et al.
Accumulation and properties of soil organic carbon at reclaimed sites in the Lusatian lignite mining district afforested with Pinus sp
Geoderma.
(2005)
L.S. Forsberg et al.
Effects of sewage sludge on pH and plant availability of metals in oxidising sulphide mine tailings
Sci. Total Environ.
(2006)
B. Keplin et al.
Decomposition of root litter in Pinus sylvestris L. and Pinus nigra stands on carboniferous substrates in the Lusatian lignite mining district
Ecol. Eng.
(2001)
G. Morgenroth et al.
¹⁴C measurement of soil in post-mining landscapes
Nucl. Instrum. Meth. B.
(2004)
G. Renella et al.
Long-term effects of aided phytostabilisation of trace elements on microbial biomass and activity, enzyme activities, and composition of microbial community in the Jales contaminated mine spoils
Environ. Pollut.
(2008)
M. Sourková et al.
Soil development and properties of microbial biomass succession in reclaimed post mining sites near Sokolov (Czech Republic) and near Cottbus (Germany)
Geoderma.
(2005)
I. Abdulrahman et al.
Effects of hydrophilic polymer on the survival of buttonwood seedlings grown under drought stress
J. Plant Nutr.
(2007)
D. Alt et al.
The CaCl2/DTPA method for analysis of horticultural soils on macro and micro elements
Agribiol. Res.
(1992)

N.H. Batjes

Mitigation of atmospheric CO₂ concentrations by increased carbon sequestration in the soil

Biol. Fert. Soils.

(1998)

J.L. Boatright et al.

Incorporation of hydrophilic polymer into annual landscape beds

J. Environ. Hortic.

(1997)

A. Chatterjee et al.

Evaluation of different soil carbon determination methods

Crit. Rev. Plant Sci.

(2009)

J. Croker et al.

Effects of recycled bentonite addition on soil properties, plant growth and nutrient uptake in a tropical sandy soil

Plant Soil.

(2004)

A. de Varennes et al.

Application of an insoluble polyacrylate polymer to copper-contaminated soil enhances plant growth and soil quality

Soil Use Manage.

(2005)

A. de Varennes et al.

Remediation of a sandy soil contaminated with cadmium, nickel and zinc using an insoluble polyacrylate polymer

Commun. Soil Sci. Plan.

(2006)

W.W. Emerson

Water retention, organic C and soil texture

Aust. J. Soil Res.

(1995)

C. Emmerling et al.

Impact of application of organic waste materials on microbial and enzyme activities of mine soils in the Lusatian coal mining region

Plant Soil.

(2000)

J.M. Fern?ndez et al.

Methodological considerations for using thermal analysis in the characterization of soil organic matter

J. Therm. Anal. Calorim.

(2010)

W. Friesl et al.

Immobilization of heavy metals in soils using inorganic amendments in a greenhouse study

J. Plant. Nutr. Soil Sci.

(2003)

Cited by (13)

Towards circular economy: Sustainable soil additives from natural waste fibres to improve water retention and soil fertility
2022, Science of the Total Environment
Citation Excerpt :
Egrinya Eneji et al. (2013) assessed SAP potential at three irrigation levels, finding that SAP application increased the maize biomass by nearly 100 % under deficit irrigation and by 40 % under moderate irrigation. However, Rodionov et al. (2012) conducted a two-year field experiment, in which they analysed the influence of hydrogel mixed with additives on the development of Dactylis glomerata L. Depending on the variant used, an approximate 90 % increase in the growth of the aboveground parts of plants was noted after the first year of the experiment, but no significant differences were found in the development of the root system. After the second year, no differences were noted in the growth of aboveground biomass, whereas the increase in dry mass of the root system was approximately 65 % higher than that of the control site.
Human activity is accompanied by the introduction of excessive amounts of artificial materials, including geosynthetics, into the environment, causing global environmental pollution. Moreover, climate change continues to negatively affect global water resources. With the intensification of environmental problems, material reusability and water consumption limitations have been proposed. This study replaced synthetic soil additives with biodegradable materials and analysed the potential and sustainable processing of natural fibrous materials, which form problematic waste. Waste fibres are the basis of innovative soil water storage technologies in the form of biodegradable and water-absorbing geocomposites (BioWAG). We analysed the influence of BioWAGs on plant vegetation and the environment through a three-year field experiment. Furthermore, biomass increases, drought effect reductions, and biodegradation mechanisms were analysed. Natural waste fibres had a positive influence, as they released easily accessible nutrients into the soil during biodegradation. BioWAGs had a positive influence on the biometric parameters of grass, increasing biomass growth by 430 %. Our results indicated that this is an effective method of waste fibre management that offers the possibility to manufacture innovative, environmentally friendly materials in compliance with the objectives of circular economy and the expectations of users.
Effects of Biochar and Super Absorbent Polymer on Substrate Properties and Water Spinach Growth
2015, Pedosphere
Most previous researches have focused on biochar application in agricultural soils; however, limited information is available concerning the effects of biochar amendment on greenhouse substrate properties. A greenhouse experiment was conducted to investigate effects of wheat straw biochar (0–160 mL L⁻¹) and super absorbent polymer (SAP, 0.8 g L⁻¹) on physical and chemical properties of a substrate based on spent pig litter compost and the growth of water spinach (Ipomoea aquatica Forsk). Total porosity, water-holding capacity, pH and electrical conductivity (EC) of the substrate significantly increased with increasing biochar rates, especially in the substrate without SAP. The values of pH and EC were significantly lower in the substrate with SAP than those without SAP at the high biochar application rates (100–160 mL L⁻¹). The germination rates of water spinach decreased with increasing biochar rates when biochar was added alone (76.9%–83.7%), whereas the rates increased to 83.6%–85.8% when biochar was added in combination with SAP. Growth parameters of water spinach and nutrient uptake by shoots and roots increased with increasing biochar rates and reached the maximum values at the biochar rate of 100 mL L⁻¹. There were significant cubic relationships between the uptake of nutrients (N, P, and K) and biochar rates, both with and without SAP addition. In order to avoid negative effects on plant growth, the biochar application rate should be controlled at an optimal level (100 mL L⁻¹). The SAP addition not only enhanced the positive effects of biochar application on the properties of the substrate, but also inhibited the excessive rise of pH and EC following biochar additions, which led to better plant growth and enhanced nutrient uptakes by water spinach.
Landscape Development From Point Zero
2024, Pacific Science
Distribution characteristics of organic carbon (nitrogen) content, cation exchange capacity, and specific surface area in different soil particle sizes
2023, Scientific Reports
Perspectives of lignite post-mining landscapes under changing environmental conditions: what can we learn from a comparison between the Rhenish and Lusatian region in Germany?
2023, Environmental Sciences Europe
Sustainable Innovation: Turning Waste into Soil Additives
2023, Materials

View all citing articles on Scopus

: Supported by the German Federal Ministry of Education and Research (BMBF).

View full text

Impacts of Soil Additives on Crop Yield and C-Sequestration in Post Mine Substrates of Lusatia, Germany

Abstract

Soil Till. Res.

Sci. Total Environ.

Geoderma.

Sci. Total Environ.

Ecol. Eng.

Nucl. Instrum. Meth. B.

Environ. Pollut.

Geoderma.

Effects of hydrophilic polymer on the survival of buttonwood seedlings grown under drought stress

J. Plant Nutr.

The CaCl2/DTPA method for analysis of horticultural soils on macro and micro elements

Agribiol. Res.

Mitigation of atmospheric CO2 concentrations by increased carbon sequestration in the soil

Biol. Fert. Soils.

Incorporation of hydrophilic polymer into annual landscape beds

J. Environ. Hortic.

Evaluation of different soil carbon determination methods

Crit. Rev. Plant Sci.

Effects of recycled bentonite addition on soil properties, plant growth and nutrient uptake in a tropical sandy soil

Plant Soil.

Application of an insoluble polyacrylate polymer to copper-contaminated soil enhances plant growth and soil quality

Soil Use Manage.

Remediation of a sandy soil contaminated with cadmium, nickel and zinc using an insoluble polyacrylate polymer

Commun. Soil Sci. Plan.

Water retention, organic C and soil texture

Aust. J. Soil Res.

Impact of application of organic waste materials on microbial and enzyme activities of mine soils in the Lusatian coal mining region

Plant Soil.

Methodological considerations for using thermal analysis in the characterization of soil organic matter

J. Therm. Anal. Calorim.

Immobilization of heavy metals in soils using inorganic amendments in a greenhouse study

J. Plant. Nutr. Soil Sci.

Mitigation of atmospheric CO₂ concentrations by increased carbon sequestration in the soil