Microbial Phosphorus Solubilization and Its Potential for Use in Sustainable Agriculture

Alori, Elizabeth Temitope; Glick, Bernard R.; Babalola, Olubukola Oluranti

doi:10.3389/fmicb.2017.00971

Cited by 1,073 publications

(706 citation statements)

References 47 publications

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“…Mortierellaceae richness and abundance were also positively correlated with PHOS. Mortierellaceae putatively perform rock weathering, thereby mobilizing essential lithophilic plant nutrients, particularly P (Alori et al, 2017). P uptake involving ECM fungi has been demonstrated (Landeweert et al, 2001;K€ ohler et al, 2018), but the contribution of Mortierellaceae to P availability in the rhizosphere is unknown.…”

Section: Enzyme Activities Across Elevationsmentioning

confidence: 99%

Ectomycorrhizal fungi and soil enzymes exhibit contrasting patterns along elevation gradients in southern Patagonia

et al. 2019

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Summary The biological and functional diversity of ectomycorrhizal (ECM) associations remain largely unknown in South America. In Patagonia, the ECM tree Nothofagus pumilio forms monospecific forests along mountain slopes without confounding effects of vegetation on plant–fungi interactions. To determine how fungal diversity and function are linked to elevation, we characterized fungal communities, edaphic variables, and eight extracellular enzyme activities along six elevation transects in Tierra del Fuego (Argentina and Chile). We also tested whether pairing ITS1 rDNA Illumina sequences generated taxonomic biases related to sequence length. Fungal community shifts across elevations were mediated primarily by soil pH with the most species‐rich fungal families occurring mostly within a narrow pH range. By contrast, enzyme activities were minimally influenced by elevation but correlated with soil factors, especially total soil carbon. The activity of leucine aminopeptidase was positively correlated with ECM fungal richness and abundance, and acid phosphatase was correlated with nonECM fungal abundance. Several fungal lineages were undetected when using exclusively paired or unpaired forward ITS1 sequences, and these taxonomic biases need reconsideration for future studies. Our results suggest that soil fungi in N. pumilio forests are functionally similar across elevations and that these diverse communities help to maintain nutrient mobilization across the elevation gradient.

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Section: Enzyme Activities Across Elevationsmentioning

confidence: 99%

Ectomycorrhizal fungi and soil enzymes exhibit contrasting patterns along elevation gradients in southern Patagonia

et al. 2019

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“…The ability to solubilize P from compounds in soil is fairly wide-spread amongst soil microbes and certain biological control agents have been shown to control disease and solubilize P [85]. All three Bacillus isolates, B. subtilis Tu-100, B. subtilis BY-2, and B. megaterium A6 solubilized phosphate from inorganic and organic sources (Hu et al,unpublished;[86].…”

Section: Use Of Plant-beneficial Microbes For Sustainable Crop Producmentioning

confidence: 99%

“…In addition to controlling disease, combinations of all three isolates in treatments of oilseed rape seeds resulted in promotion of growth relative to the nontreated control in five different soils (Hu et al, unpublished) indicating that these plant-beneficial microbes contribute multiple environmental benefits. As with biological control, environmental conditions influence the ability of these microbes to solubilize P [85]. More research is needed regarding colonization and mode of action of these plant-beneficial microbes to facilitate their use in enhancing sustainability of crop production systems.…”

Section: Use Of Plant-beneficial Microbes For Sustainable Crop Producmentioning

confidence: 99%

Sustainable Agriculture—Enhancing Environmental Benefits, Food Nutritional Quality and Building Crop Resilience to Abiotic and Biotic Stresses

Roberts¹,

Mattoo²

2018

Agriculture

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Feeding nutrition-dense food to future world populations presents agriculture with enormous challenges as estimates indicate that crop production must as much as double. Crop production cannot be increased to meet this challenge simply by increasing land acreage or using past agricultural intensification methods. Food production doubled in the past through substantial use of synthetic fertilizer, pesticides, and irrigation, all at significant environmental cost. Future production of nutrition-dense food will require next-generation crop production systems with decreased reliance on synthetic fertilizer and pesticide. Here, we present three case studies detailing the development of cover crops and plant-beneficial microbes for sustainable, next-generation small grain, tomato, and oilseed rape production systems. Cover crops imparted weed and pathogen control and decreased soil erosion and loss of soil nitrogen, phosphorus and carbon, while plant-beneficial microbes provided disease control and phosphorus fertility. However, yield in these next-generation crop production systems at best approximated that associated with current production systems. We argue here that to substantially increase agricultural productivity, new crop germplasm needs to be developed with enhanced nutritional content and enhanced tolerance to abiotic and biotic stress. This will require using all available technologies, including intensified genetic engineering tools, in the next-generation cropping systems.

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“…In contrast, phytic acid (PA), the organic form of P in seeds, has increased following global changes (e.g., elevated atmospheric CO 2 ) in various plant species including wheat [84]. Since PA is considered an anti-nutrient, increasing Pi content in grain while decreasing PA has become a trait of great interest [85].…”

Section: Phosphate In Seedsmentioning

confidence: 99%

“…Agriculture 2017, 7,85 Author Contributions: All the authors assisted in the development of the research and in the discussion of the results.…”

mentioning

confidence: 99%

Plant Nutrient Dynamics in Stressful Environments

Feller¹,

Vassileva²

2018

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Microbial Phosphorus Solubilization and Its Potential for Use in Sustainable Agriculture

Cited by 1,073 publications

References 47 publications

Ectomycorrhizal fungi and soil enzymes exhibit contrasting patterns along elevation gradients in southern Patagonia

Ectomycorrhizal fungi and soil enzymes exhibit contrasting patterns along elevation gradients in southern Patagonia

Sustainable Agriculture—Enhancing Environmental Benefits, Food Nutritional Quality and Building Crop Resilience to Abiotic and Biotic Stresses

Plant Nutrient Dynamics in Stressful Environments

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