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Rhus typhina
Known as:
Rhus hirta
, staghorn sumac
National Institutes of Health
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Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Review
2018
Review
2018
Great Diversity of Insect Floral Associates May Partially Explain Ecological Success of Poison Ivy (Toxicodendron Radicans Subsp. Negundo [Greene] Gillis, Anacardiaceae)
D. Senchina
,
K. Summerville
Great Lakes Entomologist
2018
Corpus ID: 55802923
Little is known about insect floral associates of poison ivy (Toxicodendron radicans, Anacardiaceae), despite the species…
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Review
2017
Review
2017
Chemical composition and biological activity of staghorn sumac (Rhus typhina).
Sunan Wang
,
F. Zhu
Food Chemistry
2017
Corpus ID: 207653684
2015
2015
Synergistic interaction of sumac and raspberry mixtures in their antioxidant capacities and selective cytotoxicity against cancerous cells.
Sunan Wang
,
F. Zhu
,
M. Marcone
Journal of Medicinal Food
2015
Corpus ID: 40345741
Previous works on staghorn sumac (Rhus hirta) were mostly dedicated to its phytochemical profiles, antioxidant properties, and…
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Highly Cited
2013
Highly Cited
2013
Evaluation of antioxidant activities and chemical characterisation of staghorn sumac fruit (Rhus hirta L.).
Tao Wu
,
J. Mccallum
,
Sunan Wang
,
Ronghua Liu
,
Honghui Zhu
,
R. Tsao
Food Chemistry
2013
Corpus ID: 8487566
Review
2013
Review
2013
Traditional Medicinal Plants of Indigenous Peoples of Canada and Their Antioxidant Activity in Relation to Treatment of Diabetes
L. McCune
2013
Corpus ID: 68206189
2009
2009
Ecophysiological evaluation of the potential invasiveness of Rhus typhina in its non-native habitats.
Zhanjiang Zhang
,
Chuangdao Jiang
,
Jinzheng Zhang
,
Huijin Zhang
,
Lei Shi
Tree Physiology
2009
Corpus ID: 5336699
Rhus typhina L. (staghorn sumac) is a clonal woody species that is considered potentially invasive in its non-native habitats. It…
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2005
2005
Dispersal of staghorn sumac in Beijing areas
Z. Chuan
2005
Corpus ID: 88292021
The dispersal of Rhus typhina into the natural and semi-natural vegetation types in areas of Beijing and the impact of Rhus…
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2004
2004
Ultrastructure of the alveolar network and its relation to coating on vessel walls in elms infected by Ophiostoma novo-ulmi and in other plants affected with similar wilt diseases
G. B. Ouellette
,
D. Rioux
,
M. Simard
,
H. Chamberland
,
M. Chérif
,
R. P. Baayen
2004
Corpus ID: 54958320
En olmos afectados por la grafiosis, la red alveolar, demarcada por bandas filamentosas, y confluente con acumulaciones de la…
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2001
2001
Gallotannin biosynthesis: beta-glucogallin: hexagalloyl 3-O-galloyltransferase from Rhus typhina leaves.
R. Niemetz
,
G. Gross
Phytochemistry
2001
Corpus ID: 39774963
1948
1948
Antibiotic Substances Separated from Sumac
H. J. Carlson
,
H. Douglas
,
H. Bissell
Journal of Bacteriology
1948
Corpus ID: 6533966
It has become evident (Osborn, 1943; Lucas and Lewis, 1944) that higher plants are potential sources of antibiotic agents…
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