2009
DOI: 10.1007/s11104-009-0249-x
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Variation in morphological and physiological parameters in herbaceous perennial legumes in response to phosphorus supply

Abstract: Change in morphological and physiological parameters in response to phosphorus (P) supply was studied in 11 perennial herbaceous legume species, six Australian native (Lotus australis, Cullen australasicum, Kennedia prorepens, K. prostrata, Glycine canescens, C. tenax) and five exotic species (Medicago sativa, Lotononis bainesii, Bituminaria bituminosa var albomarginata, Lotus corniculatus, Macroptilium bracteatum). We aimed to identify mechanisms for P acquisition from soil. Plants were grown in sterilised wa… Show more

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Cited by 119 publications
(97 citation statements)
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“…This measurement is associated with the root diameter; thinner roots contribute to higher surface area values and form the exchange site between plant and soil for water and nutrient absorption (Waisel & Eshel, 2002). Its determination is important because some studies reported changes in root surface area related to nutrient availability in soil (Desnos, 2008;Pang et al, 2010;Mei et al, 2011). The root surface area can be calculated from data of root length and volume.…”
Section: Introductionmentioning
confidence: 99%
“…This measurement is associated with the root diameter; thinner roots contribute to higher surface area values and form the exchange site between plant and soil for water and nutrient absorption (Waisel & Eshel, 2002). Its determination is important because some studies reported changes in root surface area related to nutrient availability in soil (Desnos, 2008;Pang et al, 2010;Mei et al, 2011). The root surface area can be calculated from data of root length and volume.…”
Section: Introductionmentioning
confidence: 99%
“…Soil acidification poses a potential impediment to biodegradation as PHCs are optimally degraded within a near-neutral pH (Dibble and Bartha, 1979). However, carboxylate exudation in plants has only been weakly correlated to rhizosphere acidification (Pang et al, 2010;Pearse et al, 2006), thus highlighting one of the limitations of applying model systems to real rhizospheres and underlining the need for future in situ studies with high carboxylate exuding plants.…”
Section: Citrate and Malonate Enhanced Microbial Activity In Uncontammentioning
confidence: 99%
“…Contamination of soils by petroleum hydrocarbons (PHCs) can impair soil function and pose serious risks to human and ecosystem health (Park and Park, 2011;Ramadass et al, 2015). A novel approach for remediating surface soils contaminated with PHCs is to grow plants in order to benefit from their stimulating effect on rhizosphere microorganisms (bioremediation) (Anderson et al, 1993;Ma et al, 2010).…”
Section: Introductionmentioning
confidence: 99%
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“…Plant responses to low P availability are associated with increased resource allocation to roots [8,9], which leads to increased root:shoot ratios and enhanced P acquisition [10,11]. Roots also exhibit morphological responses to low P availability, such as increases in specific root length [12], root hair density and elongation [13,14], and LR formation and elongation [15]. These plastic root responses increase the surface area to volume ratio [16] and enable plants to capture P from P-limited environments or P-rich patches in otherwise P-deficient soils [17][18][19].…”
mentioning
confidence: 99%