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XIAOJUAN WANG
XIAOJUAN WANG
Verified email at latrobe.edu.au
Title
Cited by
Cited by
Year
Rhizosphere priming effect on soil organic carbon decomposition under plant species differing in soil acidification and root exudation
X Wang, C Tang, J Severi, CR Butterly, JA Baldock
New Phytologist 211 (3), 864-873, 2016
1392016
The role of rhizosphere pH in regulating the rhizosphere priming effect and implications for the availability of soil-derived nitrogen to plants
X Wang, C Tang
Annals of Botany 121 (1), 143-151, 2018
592018
The role of hydraulic lift and subsoil P placement in P uptake of cotton (Gossypium hirsutum L.)
X Wang, C Tang, CN Guppy, PWG Sale
Plant and Soil 325, 263-275, 2009
552009
Cotton, wheat and white lupin differ in phosphorus acquisition from sparingly soluble sources
X Wang, C Tang, CN Guppy, PWG Sale
Environmental and experimental botany 69 (3), 267-272, 2010
382010
Availability of sparingly soluble phosphorus sources to cotton (Gossypium hirsutum L.), wheat (Triticum aestivum L.) and white lupin (Lupinus albus L.) with different forms of …
XJ Wang, CN Guppy, L Watson, PWG Sale, C Tang
Plant and Soil 348, 85-98, 2011
352011
The effects of elevated CO2 and nitrogen availability on rhizosphere priming of soil organic matter under wheat and white lupin
Q Xu, X Wang, C Tang
Plant and Soil 425, 375-387, 2018
332018
Microbial communities in top-and subsoil of repacked soil columns respond differently to amendments but their diversity is negatively correlated with plant productivity
C Celestina, JL Wood, JB Manson, X Wang, PWG Sale, C Tang, ...
Scientific Reports 9 (1), 8890, 2019
312019
Wheat and white lupin differ in rhizosphere priming of soil organic carbon under elevated CO2
Q Xu, X Wang, C Tang
Plant and Soil 421, 43-55, 2017
212017
Elevated CO2 alters distribution of nodal leaf area and enhances nitrogen uptake contributing to yield increase of soybean cultivars grown in Mollisols
J Jin, Y Li, X Liu, G Wang, C Tang, Z Yu, X Wang, SJ Herbert
PLoS One 12 (5), e0176688, 2017
162017
Elevated CO2 alters the rhizosphere effect on crop residue decomposition
Q Xu, JB O’Sullivan, X Wang, C Tang
Plant and Soil 436, 413-426, 2019
152019
Rhizosphere priming of two near-isogenic wheat lines varying in citrate efflux under different levels of phosphorus supply
Q Xu, X Wang, C Tang
Annals of Botany 124 (6), 1033-1042, 2019
102019
Elevated CO2 induced rhizosphere effects on the decomposition and N recovery from crop residues
CR Butterly, X Wang, RD Armstrong, D Chen, C Tang
Plant and Soil 408, 55-71, 2016
102016
Narrow distribution of cyanophage psbA genes observed in two paddy waters of Northeast China by an incubation experiment
X Wang, R Jing, J Liu, Z Yu, J Jin, X Liu, X Wang, G Wang
Virologica Sinica 31 (2), 188-191, 2016
92016
Allelopathic effects account for the inhibitory effect of field-pea (Pisum sativum L.) shoots on wheat growth in dense clay subsoils
X Wang, S Peter, Z Liu, R Armstrong, S Rochfort, C Tang
Biology and Fertility of Soils 55, 649-659, 2019
72019
Phosphorus acquisition characteristics of cotton ('Gossypium hirsutum'L.) plant: a review
X Wang, C Tang, C Guppy, PWG Sale
Proceedings of the 19th World Congress of Soil Science: Soil Solutions for a …, 2010
52010
Phosphorus acquisition characteristics of cotton (Gossypium hirsutum L.) compared with other crop species
X Wang
La Trobe University, 2009
32009
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Articles 1–16