Related references
Note: Only part of the references are listed.A review of the genetic study of the energy crop Miscanthus
Katarzyna Glowacka
BIOMASS & BIOENERGY (2011)
Assessing the invasive potential of biofuel species proposed for Florida and the United States using the Australian Weed Risk Assessment
D. R. Gordon et al.
BIOMASS & BIOENERGY (2011)
Benefits versus risks of growing biofuel crops: the case of Miscanthus
Uffe Jorgensen
CURRENT OPINION IN ENVIRONMENTAL SUSTAINABILITY (2011)
Learning from our mistakes: minimizing problems with invasive biofuel plants
David M. Richardson et al.
CURRENT OPINION IN ENVIRONMENTAL SUSTAINABILITY (2011)
Agronomic and physiological performances of different species of Miscanthus, a major energy crop. A review
H. W. Zub et al.
AGRONOMY FOR SUSTAINABLE DEVELOPMENT (2010)
Origin, diffusion and reproduction of the giant reed (Arundo donax L.): a promising weedy energy crop
C. Mariani et al.
ANNALS OF APPLIED BIOLOGY (2010)
Screening bioenergy feedstock crops to mitigate invasion risk
Adam S. Davis et al.
FRONTIERS IN ECOLOGY AND THE ENVIRONMENT (2010)
Competition for water for the food system
Kenneth Strzepek et al.
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES (2010)
Ecology and Impacts of the Large-Statured Invasive Grasses Arundo donax and Phragmites australis in North America
Adam M. Lambert et al.
INVASIVE PLANT SCIENCE AND MANAGEMENT (2010)
Comparison of Arundo donax L. and Miscanthus x giganteus in a long-term field experiment in Central Italy: Analysis of productive characteristics and energy balance
Luciana G. Angelini et al.
BIOMASS & BIOENERGY (2009)
Biomass yield and energy balance of three perennial crops for energy use in the semi-arid Mediterranean environment
M. Mantineo et al.
FIELD CROPS RESEARCH (2009)
Tolerance of switchgrass to extreme soil moisture stress: Ecological implications
Jacob N. Barney et al.
PLANT SCIENCE (2009)
Nonnative species and bioenergy: Are we cultivating the next invader?
Jacob N. Barney et al.
BIOSCIENCE (2008)
Meeting US biofuel goals with less land: the potential of Miscanthus
Emily A. Heaton et al.
GLOBAL CHANGE BIOLOGY (2008)
Biomass energy: the scale of the potential resource
Christopher B. Field et al.
TRENDS IN ECOLOGY & EVOLUTION (2008)
Genetically modified crops for the bioeconomy: meeting public and regulatory expectations
Saharah Moon Chapotin et al.
TRANSGENIC RESEARCH (2007)
Ramet demography of a clonal invader, Arundo donax (Poaceae), in Southern California
JG Decruyenaere et al.
PLANT AND SOIL (2005)
Ecosystem service supply and vulnerability to global change in Europe
D Schröter et al.
SCIENCE (2005)
A quantitative review comparing the yields of two candidate C-4 perennial biomass crops in relation to nitrogen, temperature and water
E Heaton et al.
BIOMASS & BIOENERGY (2004)
The development and current status of perennial rhizomatous grasses as energy crops in the US and Europe
I Lewandowski et al.
BIOMASS & BIOENERGY (2003)
Comparative responses to water stress in stay-green, rapid- and slow senescing genotypes of the biomass crop, Miscanthus
JC Clifton-Brown et al.
NEW PHYTOLOGIST (2002)
Water use efficiency and biomass partitioning of three different Miscanthus genotypes with limited and unlimited water supply
JC Clifton-Brown et al.
ANNALS OF BOTANY (2000)
Miscanthus: European experience with a novel energy crop
I Lewandowski et al.
BIOMASS & BIOENERGY (2000)
Share Paper
