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Miscanthus x giganteus
Known as:
Miscanthus giganteus
, Miscanthus sinensis x Miscanthus sacchariflorus
National Institutes of Health
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Highly Cited
2013
Highly Cited
2013
Characterization of cadmium removal from aqueous solution by biochar produced from a giant Miscanthus at different pyrolytic temperatures.
Woong Kim
,
Taeyong Shim
,
+4 authors
Jinho Jung
Bioresource Technology
2013
Corpus ID: 7834114
Highly Cited
2010
Highly Cited
2010
The impacts of Miscanthus×giganteus production on the Midwest US hydrologic cycle
A. VanLoocke
,
C. Bernacchi
,
T. Twine
2010
Corpus ID: 85800579
Perennial grasses are being considered as candidates for biofuel feedstocks to provide an alternative energy source to fossil…
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Highly Cited
2010
Highly Cited
2010
Quality and decomposition in soil of rhizome, root and senescent leaf from Miscanthus x giganteus, as affected by harvest date and N fertilization
Norbert Amougou
,
I. Bertrand
,
J. Machet
,
S. Recous
Plant and Soil
2010
Corpus ID: 37959650
To predict the environmental benefits of energy crop production and use, the nature and fate of biomass residues in the soil need…
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Highly Cited
2010
Highly Cited
2010
Thermogravimetric analysis and emission characteristics of two energy crops in air atmosphere: Arundo donax and Miscanthus giganthus.
M. Jeguirim
,
S. Dorge
,
G. Trouvé
Bioresource Technology
2010
Corpus ID: 31697622
Highly Cited
2009
Highly Cited
2009
Genome Size of Three Miscanthus Species
A. Rayburn
,
J. Crawford
,
Charlotte M Rayburn
,
J. Juvik
Plant Molecular Biology Reporter
2009
Corpus ID: 25020679
Environmental and economic factors have stimulated research in the area of bioenergy crops. While many plants have been…
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Highly Cited
2006
Highly Cited
2006
Effect of fuel properties on biomass combustion: Part I. Experiments—fuel type, equivalence ratio and particle size
C. Ryu
,
Yao Bin Yang
,
Adela Khor
,
Nicola E Yates
,
V. Sharifi
,
J. Swithenbank
2006
Corpus ID: 30468215
Highly Cited
2002
Highly Cited
2002
Phylogenetics of Miscanthus, Saccharum and related genera (Saccharinae, Andropogoneae, Poaceae) based on DNA sequences from ITS nuclear ribosomal DNA and plastid trnL intron and trnL-F intergenic…
T. Hodkinson
,
M. Chase
,
Dolores Lledó
,
N. Salamin
,
S. Renvoize
Journal of plant research
2002
Corpus ID: 22971617
Abstract.DNA sequences were used to assess the monophyly and inter-relationships of Miscanthus, Saccharum and related genera in…
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Highly Cited
2002
Highly Cited
2002
The use of dna sequencing (ITS and trnL-F), AFLP, and fluorescent in situ hybridization to study allopolyploid Miscanthus (Poaceae).
T. Hodkinson
,
M. Chase
,
C. Takahashi
,
I. Leitch
,
M. D. Bennett
,
S. Renvoize
American-Eurasian journal of botany
2002
Corpus ID: 7452847
Two clones of Miscanthus, grown under the names M. ×giganteus and M. sacchariflorus, have been used in biomass trials in Europe…
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Highly Cited
2001
Highly Cited
2001
Azospirillum doebereinerae sp. nov., a nitrogen-fixing bacterium associated with the C4-grass Miscanthus.
B. Eckert
,
O. B. Weber
,
G. Kirchhof
,
A. Halbritter
,
M. Stoffels
,
A. Hartmann
International Journal of Systematic and…
2001
Corpus ID: 6310275
A new group of nitrogen-fixing Azospirillum sp. bacteria was isolated from the roots of the C4-gramineous plant Miscanthus…
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Highly Cited
1999
Highly Cited
1999
Spatial and temporal distribution of the root system and root nutrient content of an established Miscanthus crop
D. Neukirchen
,
M. Himken
,
J. Lammel
,
U. Czypionka-Krause
,
H. Olfs
1999
Corpus ID: 9728076
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