Agriculture Reference
In-Depth Information
117. Gahoonia, T.S.; Nielsen, N.E.; Joshi, P.A.; Jahoor, A. A root hairless barley mutant
for elucidating genetic of root hairs and phosphorus uptake. Plant Soil 2001, 235,
211-219.
118. Gahoonia, T.S.; Nielsen, N.E. Barley genotypes with long root hairs sustain high
grain yields in low-P field. Plant Soil 2004, 262, 55-62.
119. Gahoonia, T.S.; Nielsen, N.E. Direct evidence on participation of root hairs in phos-
phorus (32P) uptake from soil. Plant Soil 1998, 198, 147-152.
120. Yan, X.L.; Liao, H.; Beebe, S.E.; Blair, M.W.; Lynch, J.P. QTL mapping of root hair
and acid exudation traits and their relationship to phosphorus uptake in common
bean. Plant Soil 2004, 265, 17-29.
121. Grierson, C.S.; Parker, J.S.; Kemp, A.C. Arabidopsis genes with roles in root hair
development. J. Plant Nutr. Soil Sci. 2001, 164, 131-140.
122. Zhu, J.M.; Kaeppler, S.M.; Lynch, J.P. Mapping of QTL controlling root hair length
in maize (Zea mays L.) under phosphorus deficiency. Plant Soil 2005, 270, 299-310.
123. Vance, C.P.; Uhde-Stone, C.; Allan, D.L. Phosphorus acquisition and use: Critical
adaptations by plants for securing a nonrenewable resource. New Phytol. 2003, 157,
423-447.
124. Ward, C.L.; Kleinert, A.; Scortecci, K.C.; Benedito, V.A.; Valentine, A.J. Phospho-
rus-deficiency reduces aluminium toxicity by altering uptake and metabolism of root
zone carbon dioxide. J. Plant Physiol. 2011, 168, 459-465.
125. Mudge, S.R.; Rae, A.L.; Diatloff, E.; Smith, F.W. Expression analysis suggests novel
roles for members of the Pht1 family of phosphate transporters in Arabidopsis. Plant
J. 2002, 31, 341-353.
126. Ramaekers, L.; Remans, R.; Rao, I.M.; Blair, M.W.; Vanderleyden, J. Strategies for
improving phosphorus acquisition efficiency of crop plants. Field Crops Res. 2010,
117, 169-176.
127. Shin, H.; Shin, H.S.; Dewbre, G.R.; Harrison, M.J. Phosphate transport in Arabidop-
sis: Pht1;1 and Pht1;4 play a major role in phosphate acquisition from both low- and
high-phosphate environments. Plant J. 2004, 39, 629-642.
128. Xu, G.; Chague, V.; Melamed-Bessudo, C.; Kapulnik, Y.; Jain, A.; Raghothama,
K.G.; Levy, A.A.; Silber, A. Functional characterization of LePT4: A phosphate
transporter in tomato with mycorrhiza-enhanced expression. J. Exp. Bot. 2007, 58,
2491-2501.
129. Rengel, Z.; Marschner, P. Nutrient availability and management in the rhizosphere:
Exploiting genotypic differences. New Phytol. 2005, 168, 305-312.
130. Hinsinger, P. Bioavailability of soil inorganic p in the rhizosphere as affected by
root-induced chemical changes: A review. Plant Soil 2001, 237, 173-195.
131. Ryan, P.R.; Delhaize, E.; Jones, D.L. Function and mechanism of organic anion
exudation from plant roots. Annu. Rev. Plant Physiol. Plant Mol. Biol. 2001, 52,
527-560.
132. Keerthisinghe, G.; Hocking, P.J.; Ryan, P.R.; Delhaize, E. Effect of phosphorus sup-
ply on the formation and function of proteoid roots of white lupin (Lupinus albus
L.). Plant Cell Environ. 1998, 21, 467-478.
133. Neumann, G.; Romheld, V. Root excretion of carboxylic acids and protons in phos-
phorus-deficient plants. Plant Soil 1999, 211, 121-130.
