Soil available phosphorus status determines indigenous mycorrhizal colonization of field and glasshouse-grown spring wheat from Argentina

Wheat production ( Triticum aestivum L.) has increased across the world during last century with the intensification of agriculture. Phosphorus (P) fertilization is a common practice to improve wheat growth in Argentina. We investigate whether indigenous arbuscular mycorrhizal colonization (AMC) of...

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Published inApplied soil ecology : a section of Agriculture, ecosystems & environment Vol. 35; no. 1; pp. 1 - 9
Main Authors Covacevich, Fernanda, Echeverría, Hernán E., Aguirrezabal, Luis A.N.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 2007
Subjects
Arbuscular mycorrhizal colonization
dry matter accumulation
fertilizer application
field experimentation
greenhouses
nutrient availability
phosphorus fertilizers
Shoot P concentration
shoots
Soil available phosphorus
soil nutrients
spring wheat
Triticum aestivum
vesicular arbuscular mycorrhizae
Wheat
Argentina
Shoot P concentration
Soil available phosphorus
Wheat
Arbuscular mycorrhizal colonization
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Abstract Wheat production ( Triticum aestivum L.) has increased across the world during last century with the intensification of agriculture. Phosphorus (P) fertilization is a common practice to improve wheat growth in Argentina. We investigate whether indigenous arbuscular mycorrhizal colonization (AMC) of hard red spring wheat is controlled by shoot P content (SPc) or by available soil P in an agricultural soil from the southeastern Argentine Pampas. In the field, AMC was monitored four times during two growing seasons of a conventional wheat crop. Treatments were: without P supply, annual supply of 11 and 22 kg P ha −1 during the last 5 years, and 164 kg P ha −1 applied once 5 years before the experiment. In the glasshouse, AMC was assessed three times in wheat growing in pots filled with the soil from unfertilized plots; treatments were: P (0 and 20 mg P pot −1), and nitrogen (N) fertilization (0 and 150 mg N pot −1). A range of soil P between 6 and 60 mg P kg −1 was obtained and the AMC ranged from 1% to 67% of root length colonized under both field and glasshouse conditions. P supplied annually increased growth and SPc but decreased AMC. N fertilization did not affect growth or AMC. Variations in SPc did not account for AMC. Variability in AMC was best accounted for local current soil available P content ( r 2 = 0.59). A linear-plateau relationship between soil P and indigenous AMC was established in wheat plants growing under contrasting environmental and experimental (field and glasshouse) conditions. Indigenous AMC was depressed by available soil P in the range 0–27 mg P kg −1 (a decrease of 2.8% mg P −1 kg −1). Above 27 mg P kg soil −1, AMC was stabilized at about 10%. Grain yield increased with fertilization and the highest relative shoot dry matter in field was obtained at 15.5 mg P kg soil −1. The soil P range that ensures high wheat production without deterring indigenous AMC is discussed.
AbstractList Wheat production ( Triticum aestivum L.) has increased across the world during last century with the intensification of agriculture. Phosphorus (P) fertilization is a common practice to improve wheat growth in Argentina. We investigate whether indigenous arbuscular mycorrhizal colonization (AMC) of hard red spring wheat is controlled by shoot P content (SPc) or by available soil P in an agricultural soil from the southeastern Argentine Pampas. In the field, AMC was monitored four times during two growing seasons of a conventional wheat crop. Treatments were: without P supply, annual supply of 11 and 22 kg P ha −1 during the last 5 years, and 164 kg P ha −1 applied once 5 years before the experiment. In the glasshouse, AMC was assessed three times in wheat growing in pots filled with the soil from unfertilized plots; treatments were: P (0 and 20 mg P pot −1), and nitrogen (N) fertilization (0 and 150 mg N pot −1). A range of soil P between 6 and 60 mg P kg −1 was obtained and the AMC ranged from 1% to 67% of root length colonized under both field and glasshouse conditions. P supplied annually increased growth and SPc but decreased AMC. N fertilization did not affect growth or AMC. Variations in SPc did not account for AMC. Variability in AMC was best accounted for local current soil available P content ( r 2 = 0.59). A linear-plateau relationship between soil P and indigenous AMC was established in wheat plants growing under contrasting environmental and experimental (field and glasshouse) conditions. Indigenous AMC was depressed by available soil P in the range 0–27 mg P kg −1 (a decrease of 2.8% mg P −1 kg −1). Above 27 mg P kg soil −1, AMC was stabilized at about 10%. Grain yield increased with fertilization and the highest relative shoot dry matter in field was obtained at 15.5 mg P kg soil −1. The soil P range that ensures high wheat production without deterring indigenous AMC is discussed.
Author Covacevich, Fernanda
Aguirrezabal, Luis A.N.
Echeverría, Hernán E.
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Keywords Shoot P concentration
Soil available phosphorus
Wheat
Arbuscular mycorrhizal colonization
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SSID ssj0005283
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Snippet Wheat production ( Triticum aestivum L.) has increased across the world during last century with the intensification of agriculture. Phosphorus (P)...
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elsevier
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StartPage 1
SubjectTerms Arbuscular mycorrhizal colonization
dry matter accumulation
fertilizer application
field experimentation
greenhouses
nutrient availability
phosphorus fertilizers
Shoot P concentration
shoots
Soil available phosphorus
soil nutrients
spring wheat
Triticum aestivum
vesicular arbuscular mycorrhizae
Wheat
Title Soil available phosphorus status determines indigenous mycorrhizal colonization of field and glasshouse-grown spring wheat from Argentina
URI https://dx.doi.org/10.1016/j.apsoil.2006.06.001
Volume 35
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