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Soil Research Soil Research Society
Soil, land care and environmental research
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Soil Research

Soil Research

Volume 57 Number 8 2019

SR19075Potential microbial remediation of pyrene polluted soil: the role of biochar

Lea Piscitelli 0000-0002-5334-0485, Anna Daniela Malerba, Giuseppe Natale Mezzapesa, Stefano Dumontet, Donato Mondelli, Teodoro Miano and Giovanni Luigi Bruno
pp. 807-813

Polycyclic aromatic hydrocarbons are a large group of toxic pollutants largely produced by anthropogenic activities and characterised by high human toxicity. We studied the effects of biochar, a solid carbonaceous material produced by pyrolysis of plant biomass, as a growth promoter of autochthonous and allochthon microorganisms in soil artificially polluted with pyrene, in order to stimulate bioremediation. Biochar stimulated microbial growth without promoting degrading activity of autochthonous and allochthon microorganisms.

SR19040Comparison of oxidoreductive enzyme activities in three coal tar creosote-contaminated soils

Arkadiusz Telesiński 0000-0003-2676-2073, Teresa Krzyśko-Łupicka, Krystyna Cybulska, Barbara Pawłowska, Robert Biczak, Marek Śnieg and Jacek Wróbel
pp. 814-824

The annual production of coal tar creosote, which contains significant amounts of polycyclic aromatic hydrocarbons (PAHs), exceeds 100 000 Mg in Europe and the US. This is why it is important to understand the effects of coal tar creosote on the soil environment, especially on the biological processes taking place therein. The results of this study indicate that the effects of coal tar creosote were most significant on enzymes present only in the cells of living microorganisms. Knowledge of the mechanism underlying the effects of coal tar creosote on biochemical processes may enable development of a method for the bioremediation of soils polluted with PAHs.

SR19111Changes in bacterial community composition across natural grassland and pine forests in the Bunya Mountains in subtropical Australia

Ju-Pei Shen, Maryam Esfandbod, Steve A. Wakelin, Gary Bacon, Qiaoyun Huang and Chengrong Chen 0000-0001-6377-4001
pp. 825-834

Tree and grass species coexist in many ecosystems worldwide and support multiple ecosystem functions and services. However, the distribution of bacterial communities and factors driving coexistence in tree–grass associations and their ecosystem functions remain poorly understood. This study revealed that bacterial diversity did not differ between grassland and forest sites, whereas strong shifts in the bacterial community composition and structure were evident. Patterns in bacterial community were strongly associated with changes in soil edaphic properties (e.g. pH, electrical conductivity, total P and δ13C).

SR19149Predicting soil carbon saturation deficit and related properties of New Zealand soils using infrared spectroscopy

J. A. Baldock 0000-0002-6428-8555, S. R. McNally 0000-0001-6079-092X, M. H. Beare, D. Curtin 0000-0001-8847-3870 and B. Hawke
pp. 835-844

Sequestering atmospheric carbon in soil would contribute to mitigating the increasing atmospheric concentrations of greenhouse gases. Mineral–organic interactions, particularly between organic matter and soil particles <50 µm, can enhance the stability of SOC. A combination of diffuse reflectance infrared spectroscopy and partial least squares regression was used to develop a cost-effective and rapid capability for predicting the SOC saturation deficit of New Zealand soils. The capability developed allows definition of potential soil carbon sequestration at scales ranging from individual soil sampling locations through to national inventories.


Soybeans are a legume break crop in sugarcane cropping systems and can provide N to subsequent cane crops. We tracked the fate of N in soybean residues over the winter fallow in the wet subtropics using 15N as an isotopic tracer. Substantial losses of soybean residue-N were observed, suggesting that winter cover crops may be necessary to retain N in fields and minimise losses to the environment.

SR19144Cropping systems including legume cover crops favour mineral–organic associations enriched with microbial metabolites in no-till soil

Murilo G. Veloso 0000-0001-5358-5768, Deborah Pinheiro Dick, Janaina Berne da Costa and Cimélio Bayer 0000-0001-8553-7330
pp. 851-858

Mineral–organic association represents the main C stabilisation mechanism in tropical and subtropical soils. We assessed the role of long-term tillage and cropping systems and mineral N fertilisation in enriching mineral–organic associations with microbial metabolites in a subtropical soil. Our findings highlight the crucial role of N-rich residues of legume cover crops, but not of mineral N fertilisation, in the long-term stabilisation of C in mineral–organic associations in no-till soils through the action of microbial residues.


Grain sorghum crops require nitrogen fertiliser for optimum yields, but the fertiliser applied is a source of nitrous oxide, a long-lived greenhouse gas that is increasing in the atmosphere. We found that changing the timing of nitrogen fertiliser application can reduce the amount of nitrous oxide produced without compromising optimum crop yields. A split-N strategy using urea offered the best balance between reduced nitrous oxide production, grain productivity and provision of a soil nitrogen buffer against dry mid-season conditions.

SR18355Stoichiometric characteristics of different agroecosystems under the same climatic conditions in the agropastoral ecotone of northern China

Xiajie Zhai 0000-0001-9892-1550, Kesi Liu, Deborah M. Finch, Ding Huang, Shiming Tang, Shuiyan Li, Hongfei Liu and Kun Wang
pp. 875-882

Soil carbon, nitrogen and phosphorus are important components of ecosystems, and changes in them affect ecological safety and food safety. In the agropastoral ecotone of northern China, nitrogen is more likely to be limiting than phosphorus for biomass production among diverse agroecosystems, and soil carbon : phosphorus and nitrogen : phosphorus ratios decrease significantly with increased utilisation intensity (from grassland to commercial crop). Protecting soil nutrients and increasing compensation for low soil nutrient loss systems will contribute to the sustainable development of ecosystems.

SR19162Trends in key soil parameters under conservation agriculture-based sustainable intensification farming practices in the Eastern Ganga Alluvial Plains

A. K. Sinha, A. Ghosh, T. Dhar, P. M. Bhattacharya, B. Mitra, S. Rakesh, P. Paneru, S. R. Shrestha, S. Manandhar, K. Beura, S. Dutta, A. K. Pradhan 0000-0002-0389-1297, K. K. Rao 0000-0001-5051-7508, Akbar Hossain 0000-0003-0264-2712, N. Siddquie, M. S. H. Molla, A. K. Chaki 0000-0001-8555-7438, M. K. Gathala 0000-0001-8282-2953, M. S. Islam 0000-0002-6482-5031, R. C. Dalal 0000-0003-2381-9601, D. S. Gaydon, A. M. Laing 0000-0001-8984-7029 and N. W. Menzies 0000-0003-0207-070X
pp. 883-893

Intensive farming systems including crops in addition to rice for South Asia are proposed for food and economic security and natural resource conservation. We monitored key soil parameters such as soil pH, organic matter and N, P and K balance under conventional and zero-till rice–wheat and rice–maize cropping systems for three years. Organic matter increased but pH decreased and K was depleted in soil under zero-till rice–maize system, and therefore, requires remedial measures to ensure sustainable food production.

SR17287Organic based integrated nutrient management scheme enhances soil carbon storage in rainfed rice (Oryza sativa) cultivation

Parijat Saikia 0000-0002-6948-7123, Kushal Kumar Baruah, Satya Sundar Bhattacharya and Chandrima Choudhury
pp. 894-907

This paper focuses on organic-dominated nutrient management schemes applied in rainfed rice (Oryza sativa) cultivation. Integrated use of organics such as crop residue and farmyard manure not only benefits soil health but also helps reduce the use of inorganic fertilisers. In the long-term, nutrient combinations such as NPK 80% with crop residue at 5 t ha–1 and farmyard manure at 10 t ha–1 can help overall crop yield and C sequestration.

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