1.
Potential mechanisms for achieving agricultural benefits from biochar application to temperate soils: a review
by Atkinson, Christopher J
Plant and soil, 2010-12-01, Vol.337 (1/2), p.1-18
2.
Does biochar influence soil physical properties and soil water availability?
by Hardie, Marcus
Plant and soil, 2014-03-01, Vol.376 (1/2), p.347-361
3.
Decreased soil microbial biomass and nitrogen mineralisation with Eucalyptus biochar addition to a coarse textured soil
by Dempster, D. N
Plant and soil, 2012-01-01, Vol.354 (1-2), p.311-324
4.
Effect of biochar amendment on maize yield and greenhouse gas emissions from a soil organic carbon poor calcareous loamy soil from Central China Plain
by Zhang, Afeng
Plant and soil, 2012-01-01, Vol.351 (1-2), p.263-275
5.
Does the combined application of organic and mineral nutrient sources influence maize productivity? A meta-analysis
by Chivenge, Pauline
Plant and soil, 2011-05-01, Vol.342 (1/2), p.1-30
6.
Plant: soil interactions in temperate multi-cropping production systems
by Ehrmann, Jürgen
Plant and soil, 2014-03-01, Vol.376 (1/2), p.1-29
7.
Modelling root-soil interactions using three-dimensional models of root growth, architecture and function
by Dunbabin, Vanessa M
Plant and soil, 2013-11-01, Vol.372 (1/2), p.93-124
8.
Nitrogen dynamics following field application of biochar in a temperate North American maize-based production system
by Güereña, David
Plant and soil, 2013-04-01, Vol.365 (1/2), p.239-254
9.
The critical soil P levels for crop yield, soil fertility and environmental safety in different soil types
by Bai, Z.H
Plant and soil, 2013-11-01, Vol.372 (1-2), p.27-37
10.
C:N:P stoichiometry in Australian soils with respect to vegetation and environmental factors
by Bui, Elisabeth N
Plant and soil, 2013-12-01, Vol.373 (1/2), p.553-568
11.
Strategies and agronomic interventions to improve the phosphorus-use efficiency of farming systems
by Simpson, Richard J
Plant and soil, 2011-12-01, Vol.349 (1/2), p.89-120
12.
The chemical nature of P accumulation in agricultural soils—implications for fertiliser management and design: an Australian perspective
by McLaughlin, Mike J
Plant and soil, 2011-12-01, Vol.349 (1/2), p.69-87
13.
Testing the ability of visual indicators of soil burn severity to reflect changes in soil chemical and microbial properties in pine forests and shrubland
by VEGA, José A
Plant and soil, 2013-08-01, Vol.369 (1/2), p.73-91
14.
Nanoscale organo-mineral reactions of biochars in ferrosol: an investigation using microscopy
by Lin, Yun
Plant and soil, 2012-01-01, Vol.357 (1-2), p.369-380
15.
Soil water uptake by trees using water stable isotopes (δ²H and δ¹⁸O)-a method test regarding soil moisture, texture and carbonate
by Meißner, Meik
Plant and soil, 2014-03-01, Vol.376 (1/2), p.327-335
16.
Long-term fencing improved soil properties and soil organic carbon storage in an alpine swamp meadow of western China
by Wu, Gao-Lin
Plant and soil, 2010-07-01, Vol.332 (1/2), p.331-337
17.
Effects of biochar application in forest ecosystems on soil properties and greenhouse gas emissions: a review
by Li, Yongfu
Journal of soils and sediments, 2017-12-27, Vol.18 (2), p.546-563
18.
Influence of biochar on drought tolerance of Chenopodium quinoa Willd and on soil–plant relations
by Kammann, Claudia Irene
Plant and soil, 2011-01-01, Vol.345 (1/2), p.195-210
19.
Effects of biochar amendment in two soils on greenhouse gas emissions and crop production
by Wang, Jinyang
Plant and soil, 2012-01-01, Vol.360 (1-2), p.287-298
20.
Nitrogen acquisition by roots: physiological and developmental mechanisms ensuring plant adaptation to a fluctuating resource
by Nacry, Philippe
Plant and soil, 2013-09-01, Vol.370 (1/2), p.1-29
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