2018
DOI: 10.1007/s11104-018-3810-7
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Hidden miners – the roles of cover crops and soil microorganisms in phosphorus cycling through agroecosystems

Abstract: Background Phosphorus (P) is a limiting nutrient in many agroecosystems and costly fertilizer inputs can cause negative environmental impacts. Cover crops constitute a promising management option for sustainable intensification of agriculture. However, their interactions with the soil microbial community, which is a key driver of P cycling, and their effects on the following crop, have not yet been systematically assessed. Scope We conducted a meta-analysis of published field studies on cover crops and P cycli… Show more

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Cited by 244 publications
(188 citation statements)
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References 288 publications
(371 reference statements)
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“…The differing capabilities of agricultural crops to mobilize sparingly soluble P have generated interest in the ability of certain crops to provide P benefits to subsequent or concurrent crops. The major pathways by which P‐mobilizing crops may benefit subsequent crops include P accumulation in crop tissues followed by mineralization to plant‐available Pi, enhancement of soil microbial biomass and activity (especially AMF), and rhizosphere modification (through exudation of carboxylates, enzymes, and/or protons that mobilize recalcitrant Pi and Po) (Hallama et al, 2018). However, Nuruzzaman et al (2005) noted that rhizosphere modification is thought to play a limited role in provision of P benefits to subsequent crops due to the relatively brief duration of rhizosphere modification.…”
Section: Cropping System Design and Phosphorus Use Efficiencymentioning
confidence: 99%
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“…The differing capabilities of agricultural crops to mobilize sparingly soluble P have generated interest in the ability of certain crops to provide P benefits to subsequent or concurrent crops. The major pathways by which P‐mobilizing crops may benefit subsequent crops include P accumulation in crop tissues followed by mineralization to plant‐available Pi, enhancement of soil microbial biomass and activity (especially AMF), and rhizosphere modification (through exudation of carboxylates, enzymes, and/or protons that mobilize recalcitrant Pi and Po) (Hallama et al, 2018). However, Nuruzzaman et al (2005) noted that rhizosphere modification is thought to play a limited role in provision of P benefits to subsequent crops due to the relatively brief duration of rhizosphere modification.…”
Section: Cropping System Design and Phosphorus Use Efficiencymentioning
confidence: 99%
“…As Menezes‐Blackburn et al (2018) discussed, plants with efficient P uptake mechanisms should be useful for mobilizing recalcitrant legacy P and helping make it available to the subsequent crop. Phosphorus mobilization by cover crops appears to result in greater relative yield increases in the subsequent crop when available soil Pi is low and where traits affecting P mobilization should be fully expressed; however, these benefits may be limited if total soil P is low (Hallama et al, 2018). Addition of P fertilizers to low‐P soils can enhance P uptake by P‐mobilizing crops, potentially increasing the P benefit to a following crop (Cavigelli and Thien, 2003; Arcand et al, 2010), suggesting the need to further explore adding soil P amendments at strategic points in the crop rotation.…”
Section: Cropping System Design and Phosphorus Use Efficiencymentioning
confidence: 99%
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