scholarly article | Q13442814 |
P356 | DOI | 10.1007/S12155-012-9286-Z |
P50 | author | Jacob N. Barney | Q43228083 |
Joseph M. DiTomaso | Q113051794 | ||
Guy B. Kyser | Q120848541 | ||
P2093 | author name string | J. Jeremiah Mann | |
P2860 | cites work | Direct climate effects of perennial bioenergy crops in the United States | Q28741824 |
Energy sprawl or energy efficiency: climate policy impacts on natural habitat for the United States of America | Q28751908 | ||
Plant invasion across space and time: factors affecting nonindigenous species success during four stages of invasion | Q30834130 | ||
Biomass energy: the scale of the potential resource | Q31143603 | ||
Biofuel vs bioinvasion: seeding policy priorities | Q33689840 | ||
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Ecology. Adding biofuels to the invasive species fire? | Q47848382 | ||
Reducing redundancy in invasion ecology by integrating hypotheses into a single theoretical framework | Q55368983 | ||
Assessing habitat susceptibility and resistance to invasion by the bioenergy crops switchgrass and Miscanthus × giganteus in California | Q56561346 | ||
Age-Dependent Demographic Rates of the Bioenergy Crop Miscanthus × giganteus in Illinois | Q56563856 | ||
Assessing the invasive potential of biofuel species proposed for Florida and the United States using the Australian Weed Risk Assessment | Q56764775 | ||
Clonal plants: beyond the patterns—ecological and evolutionary dynamics of asexual reproduction | Q56765830 | ||
Ecology and Impacts of the Large-Statured Invasive Grasses Arundo donax and Phragmites australis in North America | Q56766348 | ||
Origin, diffusion and reproduction of the giant reed (Arundo donax L.): a promising weedy energy crop | Q56768899 | ||
The more you introduce the more you get: the role of colonization pressure and propagule pressure in invasion ecology | Q56770536 | ||
Evaluating the Credits and Debits of a Proposed Biofuel Species: Giant Reed (Arundo donax) | Q56773524 | ||
A unifying framework for biological invasions: the state factor model | Q56775147 | ||
Nonnative Species and Bioenergy: Are We Cultivating the Next Invader? | Q56775913 | ||
Invasive alien plants in China: role of clonality and geographical origin | Q56779865 | ||
Ramet Demography of a Clonal Invader, Arundo donax (Poaceae), in Southern California | Q56782303 | ||
Seasonal nitrogen dynamics ofMiscanthus×giganteusandPanicum virgatum | Q57202307 | ||
Meeting US biofuel goals with less land: the potential of Miscanthus | Q57202316 | ||
Environmental impact assessment of energy crops cultivation in Europe | Q58887523 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Arundo donax | Q161114 |
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P1104 | number of pages | 11 | |
P304 | page(s) | 688-698 | |
P577 | publication date | 2012-12-28 | |
P1433 | published in | Bioenergy research | Q26841987 |
P1476 | title | Assessment of Aboveground and Belowground Vegetative Fragments as Propagules in the Bioenergy Crops Arundo donax and Miscanthus × giganteus | |
P478 | volume | 6 |
Q56452355 | Bioenergy and Invasive Plants: Quantifying and Mitigating Future Risks |
Q46934180 | Genetic control of rhizomes and genomic localization of a major-effect growth habit QTL in perennial wildrye |
Q36565016 | High C3 photosynthetic capacity and high intrinsic water use efficiency underlies the high productivity of the bioenergy grass Arundo donax |
Q30376847 | Lack of Impacts during Early Establishment Highlights a Short-Term Management Window for Minimizing Invasions from Perennial Biomass Crops. |
Q59292962 | Leaf plasticity and stomatal regulation determines the ability of Arundo donax plantlets to cope with water stress |
Q56941702 | Managing Spread from Rhizome Fragments is Key to Reducing Invasiveness in Miscanthus × giganteus |
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