Oenothera picensis

Details Top

Internal ID UUID643ff735c6957186119051
Scientific name Oenothera picensis
Authority Phil.
First published in Anales Mus. Nac. Santiago de Chile 1: 22 (1891)

Ethnobotanical Use Top

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General Uses Top

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Synonyms Top

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Subspecies (abbr. subsp./ssp.) Top

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Name Authority First published in
Oenothera picensis subsp. bonariensis W.Dietr. Ann. Missouri Bot. Gard. 64: 556 (-560), figs. 1978
Oenothera picensis subsp. cordobensis W.Dietr. Ann. Missouri Bot. Gard. 64: 553 (-556), figs. 1978
Oenothera picensis subsp. picensis Unknown

Varieties (abbr. var.) Top

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Forms (abbr. f.) Top

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Germination/Propagation Top

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Distribution (via POWO/KEW) Top

Legend for the distribution data:
- Doubtful data
- Extinct
- Introduced
- Native
  • Southern America
    • Southern South America
      • Argentina Northeast
      • Argentina Northwest
      • Argentina South
      • Chile Central
      • Chile North
      • Juan Fernández Islands

Links to other databases Top

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Database ID/link to page
World Flora Online wfo-0000389348
Tropicos 23201114
KEW urn:lsid:ipni.org:names:173275-2
Open Tree Of Life 438944
NCBI Taxonomy 3946
IPNI 173275-2
iNaturalist 607035
GBIF 7322734
Elurikkus 588371
USDA GRIN 449459

Genomes (via NCBI) Top

No reference genome is available on NCBI yet. We are constantly monitoring for new data.

Scientific Literature Top

Below are displayed the latest 15 articles published in PMC (PubMed Central®) and other sources (DOI number only)!
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Title Authors Publication Released IDs
Beneficial Interactive Effects Provided by an Arbuscular Mycorrhizal Fungi and Yeast on the Growth of Oenothera picensis Established on Cu Mine Tailings Pérez R, Tapia Y, Antilén M, Ruiz A, Pimentel P, Santander C, Aponte H, González F, Cornejo P Plants (Basel) 29-Nov-2023
PMCID:PMC10708390
doi:10.3390/plants12234012
PMID:38068648
Confronting Secondary Metabolites with Water Uptake and Transport in Plants under Abiotic Stress Nicolas-Espinosa J, Garcia-Ibañez P, Lopez-Zaplana A, Yepes-Molina L, Albaladejo-Marico L, Carvajal M Int J Mol Sci 01-Feb-2023
PMCID:PMC9917477
doi:10.3390/ijms24032826
PMID:36769147
Coriander (Coriandrum sativum L.) in Combination with Organic Amendments and Arbuscular Mycorrhizal Inoculation: An Efficient Option for the Phytomanagement of Trace Elements-Polluted Soils Fontaine J, Duclercq J, Facon N, Dewaele D, Laruelle F, Tisserant B, Lounès-Hadj Sahraoui A Microorganisms 17-Nov-2022
PMCID:PMC9692498
doi:10.3390/microorganisms10112287
PMID:36422357
Towards a Soil Remediation Strategy Using Biochar: Effects on Soil Chemical Properties and Bioavailability of Potentially Toxic Elements Bilias F, Nikoli T, Kalderis D, Gasparatos D Toxics 04-Aug-2021
PMCID:PMC8402515
doi:10.3390/toxics9080184
PMID:34437502
Pb-Contaminated Soil from Quintero-Ventanas, Chile: Remediation Using Sarcocornia neei Meza-Ramírez V, Espinoza-Ortiz X, Ramírez-Verdugo P, Hernández-Lazcano P, Rojas Hermosilla P ScientificWorldJournal 23-Feb-2021
PMCID:PMC7925046
doi:10.1155/2021/2974786
PMID:33679258
Antioxidant Responses of Phenolic Compounds and Immobilization of Copper in Imperata cylindrica, a Plant with Potential Use for Bioremediation of Cu Contaminated Environments Vidal C, Ruiz A, Ortiz J, Larama G, Perez R, Santander C, Ferreira PA, Cornejo P Plants (Basel) 20-Oct-2020
PMCID:PMC7589974
doi:10.3390/plants9101397
PMID:33092309
Application Research of Biochar for the Remediation of Soil Heavy Metals Contamination: A Review Cheng S, Chen T, Xu W, Huang J, Jiang S, Yan B Molecules 10-Jul-2020
PMCID:PMC7397277
doi:10.3390/molecules25143167
PMID:32664440
Performance of new biodegradable chelants in enhancing phytoextraction of heavy metals from a contaminated calcareous soil Masoudi F, Shirvani M, Shariatmadari H, Sabzalian MR J Environ Health Sci Eng 14-Jun-2020
PMCID:PMC7721918
doi:10.1007/s40201-020-00491-y
PMID:33312591
Research Advances of Beneficial Microbiota Associated with Crop Plants Tian L, Lin X, Tian J, Ji L, Chen Y, Tran LS, Tian C Int J Mol Sci 05-Mar-2020
PMCID:PMC7084388
doi:10.3390/ijms21051792
PMID:32150945
Enhanced Arsenic Tolerance in Triticum aestivum Inoculated with Arsenic-Resistant and Plant Growth Promoter Microorganisms from a Heavy Metal-Polluted Soil Soto J, Ortiz J, Herrera H, Fuentes A, Almonacid L, Charles TC, Arriagada C Microorganisms 12-Sep-2019
PMCID:PMC6780836
doi:10.3390/microorganisms7090348
PMID:31547348
Differences in Copper Absorption and Accumulation between Copper-Exclusion and Copper-Enrichment Plants: A Comparison of Structure and Physiological Responses Fu L, Chen C, Wang B, Zhou X, Li S, Guo P, Shen Z, Wang G, Chen Y PLoS One 24-Jul-2015
PMCID:PMC4514476
doi:10.1371/journal.pone.0133424
PMID:26207743

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