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Responses of Alnus nepalensis seedling under high phosphorus stress: shifts in photosynthesis and phosphorus contents across different organs

Wu, Zuqing ; Li, Mengyang ; Dao, Chengjiao ; [et al.]

IOP Publishing ; 2020

In: IOP Conference Series: Earth and Environmental Science Vol. 446, No. 3 ( 2020-02-01), p. 032025-

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In: IOP Conference Series: Earth and Environmental Science, IOP Publishing, Vol. 446, No. 3 ( 2020-02-01), p. 032025-

Abstract: Large phosphate ores are located in Southwest China. Mining activities have led to serious degradation facing surrounding ecosystem, which hinders regional sustainable development. Re-vegetation is considered the ideal treatment to cope with this issue. Alnus nepalensis is considered the suitable tree species for restoration across mining sites, giving its N-fixing capacity and good adaptability. However, the growth of A. nepalensis seedling seems limited in phosphate abandoned land. In order to clarify the responses (phosphorus contents distribution and photosynthesis) of A. nepalensis seedling under high soil phosphorus stress, pot experiment was conducted. The results showed that higher soil phosphorus level leads to higher phosphorus concentrations observed in all organs of seedlings. In contract, A. nepalensis seedling’s respiration rate, stomatal conductance and photosynthetic rate, all the photosynthetic parameters decreased. It found the phenomenon that phosphorus content of leaves, roots, soil and stem were negatively correlated with those photosynthetic parameters, but clear causal metabolism pathway still needs further study. Anyway, extremely high phosphorus level would inhibit the photosynthesis, and even the growth of A. nepalensis seedling, corresponding strategy is needed when we use A. nepalensis to recover phosphate abandoned land.

Type of Medium: Online Resource

ISSN: 1755-1307 , 1755-1315

URL: Article

DOI: 10.1088/1755-1315/446/3/032025

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2020

detail.hit.zdb_id: 2434538-6

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Endophytic fungi associated with Coriaria nepalensis in an abandoned open-pit phosphate mine in Yunnan, P.R. China

LEI, YIMING ; YANG, ERFU ; DAO, CHENGJIAO ; [et al.]

Magnolia Press ; 2023

In: Phytotaxa Vol. 616, No. 1 ( 2023-09-21), p. 27-46

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In: Phytotaxa, Magnolia Press, Vol. 616, No. 1 ( 2023-09-21), p. 27-46

Abstract: The phosphate mining industry is prosperous in Yunnan Province, southwestern China. Among them, the Kunyang phosphate mine, situated on the southern shore of Dianchi Lake, stands as one of Asia’s largest and most ancient open-pit phosphate mines. However, mining activities and abandoned phosphate mines have resulted in significant soil erosion and water degradation, necessitating immediate ecological restoration efforts. During surveys of endophytic fungi associated with the pioneer plant Masuri berry (Coriaria nepalensis) in mining sites, Kunming, Yunnan, we report a new species, Chrysofolia kunmingensis, and three new host records of Chaetomium cochliodes, Coniella quercicola, and Epicoccum nigrum. All taxa were identified based on morphological examinations and multigene phylogenetic analyses of the internal transcribed spacers (ITS), and large subunit (nrLSU) of ribosomal DNA, beta-tubulin 2 (tub), DNA-dependent RNA polymerase II largest subunit (rpb2), and translation elongation factor 1 alpha (tef1-α) sequences. This study will contribute to the isolation of indigenous beneficial fungi and the promotion of “plant-microbe” combined remediation.

Type of Medium: Online Resource

ISSN: 1179-3163 , 1179-3155

URL: Issue

URL: Article

DOI: 10.11646/phytotaxa.616.1

DOI: 10.11646/phytotaxa.616.1.2

Language: Unknown

Publisher: Magnolia Press

Publication Date: 2023

SSG: 12

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A Review of the Fungi That Degrade Plastic

Ekanayaka, Anusha H. ; Tibpromma, Saowaluck ; Dai, Donqin ; [et al.]

MDPI AG ; 2022

In: Journal of Fungi Vol. 8, No. 8 ( 2022-07-25), p. 772-

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In: Journal of Fungi, MDPI AG, Vol. 8, No. 8 ( 2022-07-25), p. 772-

Abstract: Plastic has become established over the world as an essential basic need for our daily life. Current global plastic production exceeds 300 million tons annually. Plastics have many characteristics such as low production costs, inertness, relatively low weight, and durability. The primary disadvantage of plastics is their extremely slow natural degradation. The latter results in an accumulation of plastic waste in nature. The amount of plastic waste as of 2015 was 6300 million tons worldwide, and 79% of this was placed in landfills or left in the natural environment. Moreover, recent estimates report that 12,000 million tons of plastic waste will have been accumulated on the earth by 2050. Therefore, it is necessary to develop an effective plastic biodegradation process to accelerate the natural degradation rate of plastics. More than 400 microbes have been identified as capable of plastic degradation. This is the first paper of the series on plastic-degrading fungi. This paper provides a summary of the current global production of plastic and plastic waste accumulation in nature. A list is given of all the plastic-degrading fungi recorded thus far, based on the available literature, and comments are made relating to the major fungal groups. In addition, the phylogenetic relationships of plastic-degrading fungi were analyzed using a combined ITS, LSU, SSU, TEF, RPB1, and RPB2 dataset consisting of 395 strains. Our results confirm that plastic-degrading fungi are found in eleven classes in the fungal phyla Ascomycota (Dothideomycetes, Eurotiomycetes, Leotiomycetes, Saccharomycetes, and Sordariomycetes), Basidiomycota (Agaricomycetes, Microbotryomycetes, Tremellomycetes, Tritirachiomycetes, and Ustilaginomy-cetes), and Mucoromycota (Mucoromycetes). The taxonomic placement of plastic-degrading fungal taxa is briefly discussed. The Eurotiomycetes include the largest number of plastic degraders in the kingdom Fungi. The results presented herein are expected to influence the direction of future research on similar topics in order to find effective plastic-degrading fungi that can eliminate plastic wastes. The next publication of the series on plastic-degrading fungi will be focused on major metabolites, degradation pathways, and enzyme production in plastic degradation by fungi.

Type of Medium: Online Resource

ISSN: 2309-608X

URL: Article

DOI: 10.3390/jof8080772

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2784229-0

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