Environmental Engineering Reference
In-Depth Information
[26]
L. Strom, A. G. Owen, D. L. Godbold, D. L. Jones, Organic acid behaviour in a
calcareous soil: sorption reactions and biodegradation rates,
Soil Biology and
Biochemistry
, 2001, 33 (15), 2125-2133.
[27]
L. Strom, A. G. Owen, D. L. Godbold, D. L. Jones, Organic acid mediated P
mobilization in the rhizosphere and uptake by maize roots,
Soil Biology and
Biochemistry
, 2002, 34 (5), 703-710.
[28]
B. Dinkelaker, V. Romheld, H. Marschner, Citric-acid excertion and preciItation of
calcium citrate in the phizosphere of white lupin (Lupinus-albus L.),
Plant Cell and
Environment
, 1989, 12, 285-292.
[29]
D. L. Jones, P. R. Darrah, L. V. Kochian, Critical evaluation of organic acid mediated
iron dissolution in the rhizosphere and its potential role in root iron uptake,
Plant and
Soil
, 1996, 180 (1), 57-66.
[30]
E. J. Veneklaas, J. Stevens, G. R. Cawthray, S. Turner, A. M. Grigg, H. Lambers,
Chickpea and white lupin rhizosphere carboxylates vary with soil properties and
enhance phosphorus uptake,
Plant and Soil
, 2003, 248 (1-2), 187-197
.
[31]
G. Xu, H. B. Shao, J. N. Sun. Phosphorus fractions and profile distribution in newly
formed wetland soils along a salinity gradient in the Yellow River Delta in China,
Journal of Plant Nutrition and Soil Science,
2012, 175, 721-728.