Saprotrophic soil fungi to improve phosphorus solubilisation and release: In vitro abilities of several species

Ceci, Andrea; Pinzari, Flavia; Russo, Fabiana; Maggi, Oriana; Persiani, Anna Maria

doi:10.1007/s13280-017-0972-0

Cited by 58 publications

(38 citation statements)

References 37 publications

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“…[ 74 ] Organic phosphate mineralization in soil is mainly dependent on the phosphatases derived from microbe s or plant excretion. [ 75 ] As the principle storage form of phosphorus in many plants, phytin acid can release phosphate radicals at certain pH values. The A. mycorrhizala fungal mycelium is capable of absorbing NH 4 + ions and cause hyphosphere acidification.…”

Section: Microbe‐mediated Mineralization In Naturementioning

confidence: 99%

Microbe‐Mediated Extracellular and Intracellular Mineralization: Environmental, Industrial, and Biotechnological Applications

et al. 2020

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Bacteria play an important role in the calcification process of natural minerals and within organisms ( Table 1). It is Microbe-mediated mineralization is ubiquitous in nature, involving bacteria, fungi, viruses, and algae. These mineralization processes comprise calcification, silicification, and iron mineralization. The mechanisms for mineral formation include extracellular and intracellular biomineralization. The mineral precipitating capability of microbes is often harnessed for green synthesis of metal nanoparticles, which are relatively less toxic compared with those synthesized through physical or chemical methods. Microbe-mediated mineralization has important applications ranging from pollutant removal and nonreactive carriers, to other industrial and biomedical applications. Herein, the different types of microbe-mediated biomineralization that occur in nature, their mechanisms, as well as their applications are elucidated to create a backdrop for future research.

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Section: Microbe‐mediated Mineralization In Naturementioning

confidence: 99%

Microbe‐Mediated Extracellular and Intracellular Mineralization: Environmental, Industrial, and Biotechnological Applications

et al. 2020

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“…For fungi, Rhizopus stolonifer var. stolonifer , Aspergillus niger , and Alternaria alternata have been found in the literature to be the most effective strains with respect to the amount of TCP solubilization by Ceci et al (2018) . However, solubilization by PSF depends on the insoluble inorganic phosphate source, type of carbon, nitrogen and metal ions in soils and culture conditions ( Richardson and Simpson, 2011 ; Jyoti et al, 2013 ).…”

Section: Discussionmentioning

confidence: 99%

Screening of Phosphate-Solubilizing Fungi From Air and Soil in Yunnan, China: Four Novel Species in Aspergillus, Gongronella, Penicillium, and Talaromyces

et al. 2020

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Phosphate-solubilizing fungi (PSF) play an important role in increasing the bioavailability of phosphorus in soils for plants. Thirteen fungal strains, one collected from air and 12 from soil, were screened and described here in detail. These fungal strains were tested for their ability to solubilize tricalcium phosphate (TCP) on both solid and liquid Pikovskaya (PVK) media in vitro . The airborne fungal strain KUMCC 18-0196 ( Aspergillus hydei sp. nov.) showed the most significant phosphate solubilizing activity on a solid PVK medium with the solubilization index (SI) (2.58 ± 0.04 cm) and the highest solubilized phosphates (1523.33 ± 47.87 μg/mL) on a liquid PVK medium. To the best of our knowledge, A. hydei sp. nov. is the first phosphate-solubilizing fungus reported from air. We also provide the identification especially for Aspergillus , Penicillium and Talaromyces , generally reported as PSF. It is important to not only screen for PSF but also identify species properly so that researchers have a clearer taxonomic picture for identifying potential taxa for future plant growth-promoting applications. Herein, A. hydei (section Nigri ), Gongronella hydei , Penicillium soli (section Lanata-Divaricata ) and Talaromyces yunnanensis (section Talaromyces ) are fully described and introduced as new to science. These four new species are identified based on both morphological characteristics and multigene phylogenetic analyses, including the genealogical concordance phylogenetic species recognition method where necessary. Penicillium austrosinense is considered to be a synonym of P. guaibinense.

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“…Amongst studied fungal genera, the highest P-solubilizing ability was attributed to Aspergillus and Trichoderma species. Ceci et al (2018) showed that many saprotrophic fungi could mobilize P from insoluble forms according to a variety of mechanisms, with strains of Rhizopus stolonifer var. stolonifer, Aspergillus niger and Alternaria alternata among the best performing strains in terms of amounts of insoluble phosphate solubilisation.…”

Section: Ion Homeostasismentioning

confidence: 99%

When Salt Meddles Between Plant, Soil, and Microorganisms

Migliore²,

et al. 2020

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Saprotrophic soil fungi to improve phosphorus solubilisation and release: In vitro abilities of several species

Cited by 58 publications

References 37 publications

Microbe‐Mediated Extracellular and Intracellular Mineralization: Environmental, Industrial, and Biotechnological Applications

Microbe‐Mediated Extracellular and Intracellular Mineralization: Environmental, Industrial, and Biotechnological Applications

Screening of Phosphate-Solubilizing Fungi From Air and Soil in Yunnan, China: Four Novel Species in Aspergillus, Gongronella, Penicillium, and Talaromyces

When Salt Meddles Between Plant, Soil, and Microorganisms

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