Structure of the developing pea seed coat and the post‐phloem transport pathway of nutrients JT van Dongen, AMH Ammerlaan, M Wouterlood, AC van Aelst, ... Annals of Botany 91 (6), 729-737, 2003 | 147 | 2003 |
Introduction H Lambers, MD Cramer, MW Shane, M Wouterlood, P Poot, EJ Veneklaas Plant and Soil 248 (1), ix-xix, 2003 | 95 | 2003 |
Carboxylate concentrations in the rhizosphere of lateral roots of chickpea (Cicer arietinum) increase during plant development, but are not correlated with phosphorus status of … M Wouterlood, GR Cawthray, TT Scanlon, H Lambers, EJ Veneklaas New phytologist 162 (3), 745-753, 2004 | 87 | 2004 |
Rhizosphere carboxylate concentrations of chickpea are affected by genotype and soil type M Wouterlood, GR Cawthray, S Turner, H Lambers, EJ Veneklaas Plant and Soil 261 (1-2), 1-10, 2004 | 51 | 2004 |
Plant phosphorus status has a limited influence on the concentration of phosphorus-mobilising carboxylates in the rhizosphere of chickpea M Wouterlood, H Lambers, EJ Veneklaas Functional plant biology 32 (2), 153-159, 2005 | 50 | 2005 |
Electrodiffusional uptake of organic cations by pea seed coats. Further evidence for poorly selective pores in the plasma membrane of seed coat parenchyma cells JT Van Dongen, RGW Laan, M Wouterlood, AC Borstlap Plant physiology 126 (4), 1688-1697, 2001 | 23 | 2001 |
Rhizosphere Carboxylate Concentrations of Chickpea are Affected by Soil Bulk Density M Wouterlood, H Lambers, EJ Veneklaas Plant Biology 8 (2), 198-203, 2006 | 6 | 2006 |
WHOLE PLANT AND ECOPHYSIOLOGY-Electrodiffusional Uptake of Organic Cations by Pea Seed Coats. Further Evidence for Poorly Selective Pores in the Plasma Membrane of Seed Coat … JT Dongen, RGW Laan, M Wouterlood, AC Borstlap Plant Physiology 126 (4), 1688-1697, 2001 | | 2001 |