| scholarly article | Q13442814 |
| P356 | DOI | 10.1614/IPSM-D-11-00056.1 |
| P8372 | Web of Science work ID | 000308853500007 |
| P50 | author | Adam S. Davis | Q43080300 |
| Lauren D. Quinn | Q112111130 | ||
| David P. Matlaga | Q124174374 | ||
| P2093 | author name string | J. Ryan Stewart | |
| P2860 | cites work | Population Genetic Consequences of Small Population Size: Implications for Plant Conservation | Q22065397 |
| Phenotypic plasticity for plant development, function and life history | Q28140534 | ||
| Increased genetic variation and evolutionary potential drive the success of an invasive grass | Q35652763 | ||
| Phenotypic and genetic differentiation between native and introduced plant populations | Q36126110 | ||
| Jack of all trades, master of some? On the role of phenotypic plasticity in plant invasions | Q36567792 | ||
| Biomass allocation, growth, and photosynthesis of genotypes from native and introduced ranges of the tropical shrub Clidemia hirta | Q38971613 | ||
| Photosynthetic responses to dynamic light under field conditions in six tropical rainforest shrubs occuring along a light gradient. | Q39546541 | ||
| Ecology. Adding biofuels to the invasive species fire? | Q47848382 | ||
| Comparing indigenous and introduced populations of Melaleuca quinquenervia (Cav.) Blake: response of seedlings to water and pH levels. | Q51192131 | ||
| Biological Invasions by Exotic Grasses, the Grass/Fire Cycle, and Global Change | Q55838995 | ||
| An Evolutionary Approach to Understanding the Biology of Invasions: Local Adaptation and General-Purpose Genotypes in the Weed Verbascum thapsus | Q55870285 | ||
| Evolution of Increased Competitive Ability in Invasive Nonindigenous Plants: A Hypothesis | Q56091462 | ||
| Invasiveness potential of Miscanthus sinensis: implications for bioenergy production in the United States | Q56765699 | ||
| Why forests appear resistant to exotic plant invasions: intentional introductions, stand dynamics, and the role of shade tolerance | Q56771878 | ||
| Increased fitness and plasticity of an invasive species in its introduced range: a study using Senecio pterophorus | Q56774761 | ||
| Shade Tolerance, a Key Plant Feature of Complex Nature and Consequences | Q56775758 | ||
| Nonnative Species and Bioenergy: Are We Cultivating the Next Invader? | Q56775913 | ||
| Close association of RGR, leaf and root morphology, seed mass and shade tolerance in seedlings of nine boreal tree species grown in high and low light | Q56966439 | ||
| Different gardens, different results: native and introduced populations exhibit contrasting phenotypes across common gardens | Q56978253 | ||
| Quantitative estimation of phenotypic plasticity: bridging the gap between the evolutionary concept and its ecological applications | Q57051956 | ||
| Biofuels: the risks and dangers of introducing invasive species | Q57998199 | ||
| The ecology and agronomy ofMiscanthus sinensis, a species important to bioenergy crop development, in its native range in Japan: a review | Q60449482 | ||
| Cultivar selection prior to introduction may increase invasiveness: evidence from Ardisia crenata | Q62557123 | ||
| P433 | issue | 03 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | invasive species | Q183368 |
| Miscanthus sinensis | Q1073621 | ||
| plant invasion | Q106035592 | ||
| invasion management | Q113019190 | ||
| phenotypic plasticity hypothesis | Q116193364 | ||
| P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
| P1104 | number of pages | 12 | |
| P304 | page(s) | 363-374 | |
| P577 | publication date | 2012-09-01 | |
| P1433 | published in | Invasive plant science and management | Q27724820 |
| P1476 | title | Light Response of Native and Introduced Miscanthus sinensis Seedlings | |
| P478 | volume | 5 |
| Q56332453 | Improved Feedstock Option or Invasive Risk? Comparing Establishment and Productivity of Fertile Miscanthus × giganteus to Miscanthus sinensis |
| Q30376847 | Lack of Impacts during Early Establishment Highlights a Short-Term Management Window for Minimizing Invasions from Perennial Biomass Crops. |
| Q60296819 | Miscanthus: a case study for the utilization of natural genetic variation |
| Q56458982 | Natural History Survey of the Ornamental Grass Miscanthus sinensis in the Introduced Range |
| Q56449073 | Quantifying targets to manage invasion risk: light gradients dominate the early regeneration niche of naturalized and pre-commercial Miscanthus populations |
| Q35788604 | Specialist Insect Herbivore and Light Availability Do Not Interact in the Evolution of an Invasive Plant |
| Q51146111 | The thin green line: sustainable bioenergy feedstocks or invaders in waiting |
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