Rhizosphere carboxylates and morphological root traits in pasture legumes and grasses

AIMS: The legumes most often used in temperate pastures such as Trifolium subterraneum have relatively high external P requirements for maximum growth. We investigated root traits associated with P acquisition in current and novel pasture legumes, as well as temperate grasses which have lower P requ...

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Bibliographic Details
Published in:Plant and soil 2016-05, Vol.402 (1-2), p.77-89
Main Authors: Kidd, Daniel R, Ryan, Megan H, Haling, Rebecca E, Lambers, Hans, Sandral, Graeme A, Yang, Zongjian, Culvenor, Richard A, Cawthray, Gregory R, Stefanski, Adam, Simpson, Richard J
Format: Article
Language:English
Subjects:
Agricultural soils
Beans
Biomedical and Life Sciences
Biserrula pelecinus
Botany
Carboxylates
Cicer arietinum
Clover
Ecology
forage legumes
Grasses
greenhouses
Health aspects
Legumes
Life Sciences
Lupinus
Lupinus albus
Mimosaceae
Morphology
Observations
Ornithopus
Pasture
Pasture legumes
pasture plants
Pastures
Pelecinus
Phosphatic fertilizers
Phosphorus
Plant growth
Plant Physiology
Plant roots
Plant Sciences
Plant-soil relationships
Regular Article
Rhizosphere
Root hairs
Soil Science & Conservation
Trifolium subterraneum
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Summary:AIMS: The legumes most often used in temperate pastures such as Trifolium subterraneum have relatively high external P requirements for maximum growth. We investigated root traits associated with P acquisition in current and novel pasture legumes, as well as temperate grasses which have lower P requirements. METHODS: Thirteen legume species, two pasture grasses, and three high carboxylate-exuding crop species (Lupinus albus, L. angustifolius, Cicer arietinum) were grown in a glasshouse for six weeks. Rhizosphere carboxylates and root morphological traits were measured. RESULTS: Ornithopus spp. had rhizosphere carboxylates in similar quantities to the Lupinus spp. (> 40 μmol g⁻¹ root dry mass). Trifolium subterraneum lines had relatively large average root diameter, reduced specific root length and very short average root hair length resulting in specific root hair cylinder volumes (RHCVs) only 14–20 % of the grasses. However, O. sativus, O. compressus and Biserrula pelecinus had specific RHCVs more comparable to the grasses. CONCLUSIONS: Novel pasture legume species with root morphology more comparable to that of grasses than T. subterraneum were identified. Of these, Ornithopus spp. were notable as they also had high rhizosphere carboxylates relative to root dry mass.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-015-2770-4