TY - JOUR
T1 - Phosphorus uptake by cowpea plants from sparingly available or soluble sources as affected by nitrogen form and arbuscular-mycorrhiza-fungal inoculation
AU - Ngwene, Benard
AU - George, Eckhard
AU - Claussen, Winfried
AU - Neumann, Elke
PY - 2010/6
Y1 - 2010/6
N2 - In most plant species, nutrient uptake is facilitated upon root association with symbiotic arbuscu-lar mycorrhizal (AM) fungi. The aim of the present experiment was to test how the form in which nitrogen (N) is supplied to the growth medium affects substrate pH, AM development, and contribution of the symbiosis to phosphorus (P) uptake from sparingly available or soluble resources. Cowpea (Vigna unguiculata L. Walp) plants inoculated or noninoculated with AM fungi (Glomus sp.) were grown in pots with a sand substrate supplied with nutrient solution. The nutrient solution was prepared either with a high or a low concentration of soluble P, and NO-3-N: NH+4-N ratios of 9:1 or 5:5. The substrate supplied with low-P nutrient solution was either or not additionally amended with ground rock phosphate. Despite a high level of root colonization, AM fungi used in the present study did not appear to increase plant availability of rock phosphate. It cannot be excluded that the ability of AM root systems to acquire P from sparingly available resources differs depending on the plant and fungal genotypes or environmental conditions. The absence from the growth substrate of P-solubilizing microorganisms able to associate with AM mycelia might also have been a reason for this observation in our study. Increased supply of NH+4 relative to NO-3 improved plant P availability from rock phosphate, but also had a negative effect on the extent of AM-fungal root colonization, irrespective of the plant P-nutritional status. Whether increasing levels of NH+4 can also negatively affect the functioning of the AM symbiosis in terms of plant element uptake, pathogen protection or soil-structure stabilization deserves further investigation.
AB - In most plant species, nutrient uptake is facilitated upon root association with symbiotic arbuscu-lar mycorrhizal (AM) fungi. The aim of the present experiment was to test how the form in which nitrogen (N) is supplied to the growth medium affects substrate pH, AM development, and contribution of the symbiosis to phosphorus (P) uptake from sparingly available or soluble resources. Cowpea (Vigna unguiculata L. Walp) plants inoculated or noninoculated with AM fungi (Glomus sp.) were grown in pots with a sand substrate supplied with nutrient solution. The nutrient solution was prepared either with a high or a low concentration of soluble P, and NO-3-N: NH+4-N ratios of 9:1 or 5:5. The substrate supplied with low-P nutrient solution was either or not additionally amended with ground rock phosphate. Despite a high level of root colonization, AM fungi used in the present study did not appear to increase plant availability of rock phosphate. It cannot be excluded that the ability of AM root systems to acquire P from sparingly available resources differs depending on the plant and fungal genotypes or environmental conditions. The absence from the growth substrate of P-solubilizing microorganisms able to associate with AM mycelia might also have been a reason for this observation in our study. Increased supply of NH+4 relative to NO-3 improved plant P availability from rock phosphate, but also had a negative effect on the extent of AM-fungal root colonization, irrespective of the plant P-nutritional status. Whether increasing levels of NH+4 can also negatively affect the functioning of the AM symbiosis in terms of plant element uptake, pathogen protection or soil-structure stabilization deserves further investigation.
KW - Arbuscular mycorrhiza
KW - Nitrate-to-ammonium ratio
KW - Rock phosphate
KW - Vigna unguiculata
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U2 - 10.1002/jpln.200900203
DO - 10.1002/jpln.200900203
M3 - Article
AN - SCOPUS:77953890391
SN - 1436-8730
VL - 173
SP - 353
EP - 359
JO - Journal of Plant Nutrition and Soil Science
JF - Journal of Plant Nutrition and Soil Science
IS - 3
ER -