Caixian Tang
Title
Cited by
Cited by
Year
Origins of root-mediated pH changes in the rhizosphere and their responses to environmental constraints: a review
P Hinsinger, C Plassard, C Tang, B Jaillard
Plant and soil 248 (1-2), 43-59, 2003
12522003
Improved tolerance of maize plants to salt stress by arbuscular mycorrhiza is related to higher accumulation of soluble sugars in roots
G Feng, F Zhang, X Li, C Tian, C Tang, Z Rengel
Mycorrhiza 12 (4), 185-190, 2002
5432002
Responses of root architecture development to low phosphorus availability: a review
YF Niu, RS Chai, GL Jin, H Wang, CX Tang, YS Zhang
Annals of botany 112, 391408, 2013
4142013
The role of plant residues in pH change of acid soils differing in initial pH
JM Xu, C Tang, ZL Chen
Soil Biology and Biochemistry 38 (4), 709-719, 2006
3202006
Interspecific facilitation of nutrient uptake by intercropped maize and faba bean
L Li, F Zhang, X Li, P Christie, J Sun, S Yang, C Tang
Nutrient Cycling in Agroecosystems 65 (1), 61-71, 2003
2932003
Potential role of biochars in decreasing soil acidification - a critical review
ZM Dai, X Zhang, C Tang, N Muhammad, J Wu, PC Brookes, JM Xu
Science of The Total Environment 581, 601611, 2017
2412017
Crop yields, soil fertility and phosphorus fractions in response to long-term fertilization under the rice monoculture system on a calcareous soil
J Shen, R Li, F Zhang, J Fan, C Tang, Z Rengel
Field Crops Research 86 (2-3), 225-238, 2004
2372004
Chickpea facilitates phosphorus uptake by intercropped wheat from an organic phosphorus source
L Li, C Tang, Z Rengel, F Zhang
Plant and soil 243 (1-2), 297-303, 2003
2322003
Iron deficiency-induced secretion of phenolics facilitates the reutilization of root apoplastic iron in red clover
CW Jin, GY You, YF He, C Tang, P Wu, SJ Zheng
Plant Physiology 144 (1), 278-285, 2007
2302007
Acid phosphatase role in chickpea/maize intercropping
SM Li, L Li, FS Zhang, C Tang
Annals of botany 94 (2), 297-303, 2004
2252004
Phosphorus deficiency impairs early nodule functioning and enhances proton release in roots of Medicago truncatula L.
C Tang, P Hinsinger, JJ Drevon, B Jaillard
Annals of Botany 88 (1), 131-138, 2001
2252001
Impact of chemical composition of legume residues and initial soil pH on pH change of a soil after residue incorporation
C Tang, Q Yu
Plant and Soil 215 (1), 29-38, 1999
2021999
Changes in chemical and biological properties of a sodic clay subsoil with addition of organic amendments
GJ Clark, N Dodgshun, PWG Sale, C Tang
Soil Biology and Biochemistry 39 (11), 2806-2817, 2007
1902007
Role of plant cation/anion uptake ratio in soil acidification
C Tang, Z Rengel
Handbook of Soil Acidity, 57-81, 2003
1812003
Responses of wheat and barley to liming on a sandy soil with subsoil acidity
C Tang, Z Rengel, E Diatloff, C Gazey
Field Crops Research 80 (3), 235-244, 2003
1652003
Changes and availability of P fractions following 65 years of P application to a calcareous soil in a Mediterranean climate
DT Vu, C Tang, RD Armstrong
Plant and soil 304 (1), 21-33, 2008
1602008
Excess cation uptake, and extrusion of protons and organic acid anions by Lupinus albus under phosphorus deficiency
L Sas, Z Rengel, C Tang
Plant Science 160 (6), 1191-1198, 2001
1482001
Effect of short-term legume residue decomposition on soil acidity
C Tang, GP Sparling, CDA McLay, C Raphael
Soil Research 37 (3), 561-574, 1999
1461999
Application of 16S rDNA-PCR amplification and DGGE fingerprinting for detection of shift in microbial community diversity in Cu-, Zn-, and Cd-contaminated paddy soils
Z Li, J Xu, C Tang, J Wu, A Muhammad, H Wang
Chemosphere 62 (8), 1374-1380, 2006
1422006
The role of iron in nodulation and nitrogen fixation in Lupinus angustifolius L
C Tang, AD Robson, MJ Dilworth
New Phytologist 114 (2), 173-182, 1990
1391990
The system can't perform the operation now. Try again later.
Articles 1–20