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Salix miyabeana

Salix miyabeana - Unknown
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Table of Contents

Details
Description
Synonyms
Common Names
Subtypes (subspecies, varieties, subvarieties, forms)
Germination/Propagation
Distribution
Links to other databases
Genome
Scientific Literature
Phytochemical Profile
Biological Material
Contributors
Collections

Details Top

Internal ID UUID644036a794abf611600265
Scientific name Salix miyabeana
Authority Seemen
First published in Beibl. Bot. Jahrb. Syst. 53: 50 (1896)

Description Top

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Salix miyabeana, also known as Miyabe's willow, is a deciduous shrub or small tree that is native to northern Japan. It can grow up to 6-7 meters in height. This species is known for its ability to absorb and remove mercury from polluted soils, making it useful in the process of phytoremediation. It is one of many willow species that possess this dynamic accumulator trait.

Synonyms Top

Scientific name Authority First published in
Salix lepidostachys Seemen Beibl. Bot. Jahrb. Syst. 53: 51 (1896)
Salix tenuifolia Turcz. Bull. Soc. Imp. Naturalistes Moscou 27(1): 376. 1854
Salix linearistipularis K.S.Hao Repert. Spec. Nov. Regni Veg. Beih. 93: 102 (1936)
Salix sapporoensis H.Lév. Bull. Soc. Bot. France 56: 302 (1909)
Salix miyabeana f. lepidostachys (Seemen) Kimura J. Fac. Agr. Hokkaido Imp. Univ. Sapporo 26: 436 1934
Salix miyabeana f. pendula (Kimura) H.Ohashi J. Jap. Bot. 75: 22 (2000)
Salix dahurica Turcz. Bull. Soc. Imp. Naturalistes Moscou 27(1): 377. 1854
Salix glacilior Nakai
Salix mongolica Siuzew Trav. Mus. Bot. Acad. Petersb. ix. 90 (1912).
Salix mongolica f. latifolia Nasarow Fl. URSS 5: 156 1936
Salix mongolica f. sericea Y.L.Chang & Skvortsov Ill. Man. Woody Pl. N.-E. Prov. 554, 180 1955
Salix mongolica f. bicolor Y.L.Chang & Skvortsov Ill. Man. Woody Pl. N.-E. Prov. 554, 180 1955

Common names Top

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Language Common/alternative name
Chinese 筐柳

Subspecies (abbr. subsp./ssp.) Top

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Varieties (abbr. var.) Top

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Subvarieties (abbr. subvar.) Top

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Forms (abbr. f.) Top

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Germination/Propagation Top

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No germination or propagation data was added yet.

Distribution (via POWO/KEW) Top

Legend for the distribution data:
- Doubtful data
- Extinct
- Introduced
- Native
  • Asia-temperate
    • China
      • Inner Mongolia
    • Eastern Asia
      • Japan
      • Korea
    • Russian Far East
      • Primorye

Links to other databases Top

Suggest others/fix!
Database ID/link to page
World Flora Online wfo-0000929882
USDA Plants SAMI23
Tropicos 28300781
KEW urn:lsid:ipni.org:names:778205-1
The Plant List kew-5002785
Open Tree Of Life 374922
Observations.org 134486
NCBI Taxonomy 706668
IUCN Red List 192335122
IPNI 778205-1
iNaturalist 596500
GBIF 7104111
Freebase /m/0fpsf0
EPPO SAXMI
EOL 5600666
Elurikkus 579333
USDA GRIN 406575
Wikipedia Salix_miyabeana

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)!
If you wish to see all the related articles click here.
Title Authors Publication Released IDs
Quantitative distribution of flavan-3-ols, procyanidins, flavonols, flavanone and salicylic acid in five varieties of organic winter dormant Salix spp. by LC-MS/MS Curtasu MV, Nørskov NP Heliyon 01-Feb-2024
PMCID:PMC10850552
doi:10.1016/j.heliyon.2024.e25129
PMID:38333780
Manifestation of Triploid Heterosis in the Root System after Crossing Diploid and Autotetraploid Energy Willow Plants Dudits D, Cseri A, Török K, Vankova R, Dobrev PI, Sass L, Steinbach G, Kelemen-Valkony I, Zombori Z, Ferenc G, Ayaydin F Genes (Basel) 12-Oct-2023
PMCID:PMC10606394
doi:10.3390/genes14101929
PMID:37895278
Editorial: Understanding plant cell wall recalcitrance for efficient lignocellulose processing Klose H, Paës G Front Plant Sci 03-Oct-2023
PMCID:PMC10580063
doi:10.3389/fpls.2023.1284658
PMID:37854112
Plant volatiles and priority effects interactively determined initial community assembly of arthropods on multiple willow species Yoneya K, Miki T, Katayama N Ecol Evol 19-Jul-2023
PMCID:PMC10364932
doi:10.1002/ece3.10270
PMID:37492458
Effects of Heavy Metals on Stomata in Plants: A Review Guo Z, Gao Y, Yuan X, Yuan M, Huang L, Wang S, Liu C, Duan C Int J Mol Sci 26-May-2023
PMCID:PMC10252879
doi:10.3390/ijms24119302
PMID:37298252
Accumulation of Proline in Plants under Contaminated Soils—Are We on the Same Page? Spormann S, Nadais P, Sousa F, Pinto M, Martins M, Sousa B, Fidalgo F, Soares C Antioxidants (Basel) 08-Mar-2023
PMCID:PMC10045403
doi:10.3390/antiox12030666
PMID:36978914
Irrigation with primary wastewater alters wood anatomy and composition in willow Salix miyabeana SX67 Jerbi A, Laur J, Lajoie K, Gallant PP, Barnabé S, Pitre FE, Labrecque M Front Plant Sci 02-Mar-2023
PMCID:PMC10018808
doi:10.3389/fpls.2023.1087035
PMID:36938004
Treatment of Landfill Leachate by Short-Rotation Willow Coppice Plantations in a Large-Scale Experiment in Eastern Canada Benoist P, Parrott A, Lachapelle-T. X, Barbeau LC, Comeau Y, Pitre FE, Labrecque M Plants (Basel) 13-Jan-2023
PMCID:PMC9861115
doi:10.3390/plants12020372
PMID:36679085
Willow and Herbaceous Species’ Phytoremediation Potential in Zn-Contaminated Farm Field Soil in Eastern Québec, Canada: A Greenhouse Feasibility Study Licinio A, Laur J, Pitre FE, Labrecque M Plants (Basel) 30-Dec-2022
PMCID:PMC9824536
doi:10.3390/plants12010167
PMID:36616296
Taxonomic Review of the Genus Caloptilia Hübner, 1825 (Lepidoptera: Gracillariidae) with Descriptions of Three New Species and Seven Newly Recorded Species from Korea Kim DS, Shin YM, Lee JY, Byun BK Insects 30-Nov-2022
PMCID:PMC9785696
doi:10.3390/insects13121107
PMID:36555017
Traces of calcium oxalate biomineralization in fossil leaves from late Oligocene maar deposits from Germany Malekhosseini M, Ensikat HJ, McCoy VE, Wappler T, Weigend M, Kunzmann L, Rust J Sci Rep 24-Sep-2022
PMCID:PMC9509364
doi:10.1038/s41598-022-20144-4
PMID:36153396
Development of a system for the automated identification of herbarium specimens with high accuracy Shirai M, Takano A, Kurosawa T, Inoue M, Tagane S, Tanimoto T, Koganeyama T, Sato H, Terasawa T, Horie T, Mandai I, Akihiro T Sci Rep 16-May-2022
PMCID:PMC9110755
doi:10.1038/s41598-022-11450-y
PMID:35577859
Role of Ectomycorrhizal Symbiosis Behind the Host Plants Ameliorated Tolerance Against Heavy Metal Stress Chot E, Reddy MS Front Microbiol 28-Mar-2022
PMCID:PMC8996229
doi:10.3389/fmicb.2022.855473
PMID:35418968
Ectomycorrhizal Fungi Dominated the Root and Rhizosphere Microbial Communities of Two Willow Cultivars Grown for Six-Years in a Mixed-Contaminated Environment Fortin Faubert M, Labrecque M, Hijri M J Fungi (Basel) 30-Jan-2022
PMCID:PMC8880157
doi:10.3390/jof8020145
PMID:35205899
Nonadditive gene expression is correlated with nonadditive phenotypic expression in interspecific triploid hybrids of willow (Salix spp.) Carlson CH, Choi Y, Chan AP, Town CD, Smart LB G3 (Bethesda) 21-Dec-2021
PMCID:PMC9210313
doi:10.1093/g3journal/jkab436
PMID:35100357

Phytochemical Profile Top

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